LINKAGE MODIFIED GAPPED OLIGOMERIC COMPOUNDS AND USES THEREOF

Abstract

The present invention provides gapped oligomeric compounds. More particularly the gapped oligomeric compounds provided herein comprise at least one modified internucleoside linkage in the gap region. Such gapped oligomeric compounds have one or more improved properties such as selectivity, potency, improved toxicity profile and or improved proinflammatory profile. Certain such oligomeric compounds are useful for hybridizing to a complementary nucleic acid, including but not limited, to nucleic acids in a cell. In certain embodiments, hybridization results in modulation of the amount activity or expression of the target nucleic acid in a cell.

Description

FIELD OF THE INVENTION

[0001] The present invention pertains generally to chemically-modified oligonucleotides for use in research, diagnostics, and/or therapeutics.

SEQUENCE LISTING

[0002] The present application is being filed along with a Sequence Listing in electronic format. The Sequence Listing is provided as a file entitled CHEM0084USC1SEQ_ST25.txt, created Jan. 16, 2016, which is 284 Kb in size. The information in the electronic format of the sequence listing is incorporated herein by reference in its entirety.

BACKGROUND OF THE INVENTION

[0003] Antisense compounds have been used to modulate target nucleic acids. Antisense compounds comprising a variety of chemical modifications and motifs have been reported. In certain instances, such compounds are useful as research tools, diagnostic reagents, and as therapeutic agents. In certain instances antisense compounds have been shown to modulate protein expression by binding to a target messenger RNA (mRNA) encoding the protein. In certain instances, such binding of an antisense compound to its target mRNA results in cleavage of the mRNA. Antisense compounds that modulate processing of a pre-mRNA have also been reported. Such antisense compounds alter splicing, interfere with polyadenlyation or prevent formation of the 5'-cap of a pre-mRNA.

[0004] The synthesis and biochemical properties of oligonucleotides containing phosphorus-modified phosphonoacetate and thio-phosphonoacetate deoxyribonucleotides have been described in scientific journals and patent literature (see Dellinger et al., J. Am. Chem. Soc., 2003, 125, 940-950; Nucleic Acids Research, 2003, 31(14), 4109-4118); also see published US patent applications (US 2004/0116687 and US 2002/0058802) and U.S. Pat. No. 6,693,187.

[0005] DNA or RNA containing oligonucleotides comprising alkylphosphonate internucleoside linkage backbone have been disclosed (see U.S. Pat. Nos. 5,264,423 and 5,286,717).

[0006] The synthesis of oligodeoxyribonucleotides containing a methyl phosphonate locked nucleic acid (LNA) thymine monomer has been described. The Tm values of the duplexes with their DNA or RNA complements have also been reported (see Lauritsen et al., Bioorg. Med. Chem. Lett., 2003, 253-256).

[0007] Various dephosphono linkages (linkages without the phosphorus atom) modifications have been synthesized and studied for their antisense properties. Nonionic, achiral amide linkages (De Mesmaeker et al., Chem. Int. Ed. Engl., 1994, 33, 226-229; Just et al., Synlett, 1994, 137-139) were disclosed. A full account of the synthesis and properties of the five isomeric amide modifications was described (De Mesmaeker et al., 1994, Novel Backbone Replacements for Oligonucleotides, In Carbohydrate Modifications in Antisense Research; Y. S. Sanghvi and P. D. Cook Eds. ACS Symposium Series 580:24-39). Gogoi et al. presented the synthesis of thioacetamido nucleic acids (TANA) backbone and thermal stability studies with complementary DNA and RNA sequences (Gogoi et al., Chem. Commun., 2006, 2373-2375).

[0008] Several nitrogen containing backbone modifications similar to the amides were evaluated as dimeric nucleosides (Sanghvi et al., Nucleosides Nucleotides, 1997, 16, pp. 907-916). Peoc'h reported the synthesis of four methylene(methylimino) (MMI) linked oligodeoxyribonucleotide dimers modified at the 2'-position with fluoro and/or methoxy groups and their incorporation into different sequences (Peoc'h et al., Nucleosides, Nucleotides & Nucleic Acids, 23, 411-438, 2004). Amino linkages have been synthesized and studied for enhanced cellular absorption (Saha et. al., Tet. Lett., 1993, 34, 6017-6020; De Mesmaeker et al., J. Bioorg. Med. Chem. Lett. 1994, 4, 395-398; Caulfield et al, Bioorg. Med. Chem. Lett. 1993, 3, 2771-2776). Other nitrogen containing backbones include oxime (Sanghvi et al., In Nucleosides and Nucleotides as Antitumor and Antiviral Agents; C. K. Chu and D. C. Baker Eds.: Plenum Press: New York, 1993, 311-324), methyleneimino (ibid), methyleneoxy (methylimino) (MOMI) (ibid), methylene(dimethylhydrazo) (MDH) (Sanghvi et al., Collect. Czech. Chem. Commun., 1993, 58, pp. 158-162), hydroxyl (methyliminomethylene) (HMIM) (Sanghvi et al., 11.sup.th IRT Nucleosides & Nucleotides, Leuven, Belgium, Sep. 7-11, 1994 (poster presentation)), carbamate (Dabkowski et al., J Chem. Soc. Perkin Trans. 1, 1994, 817-829), oxyamide linkage (Burgess et al., J. Chem. Soc. Chem. Commun., 1994, 915-916), N-substituted guanidine (Vandendrissche et al., J. Chem. Soc., 1993, 1567-1575; Pannecouque et al., Tetrahedron, 1994, 50, 7231-7246), urea (Kutterer et al., Bioorg. Med. Chem. Lett., 1994, 3, 435-438) and thiourea linkages (Vandendrissche et al., J. Chem. Soc. 1993, 1567-1575).

[0009] Synthesis of sulfur-containing backbone modifications, such as sulfonamide (McElroy et al., Bioorg. Med. Chem. Lett., 1994, 4, 1071-1076), sulfamoyl (Dewynter et al., Acad. Sci., 1992, 315, 1675-1682), sulfonate (Huang et al., Synlett, 1993, 83-84), sulfide (Wang et al., Chin. Chem. Lett., 1993, 4, 101-104; Huang et al., Synlett, 1993, 83-84; Kawai et al., Nucleic Acids Res., 1993, 21, 1473-1479; Meng et al., Angew. Chem. Int. Ed. Engl., 1993, 32, 729-731; Just et al. (1994), Synthesis and Hybridization Properties of DNA Oligomers Containing Sulfide-Linked Dinucleosides. In Carbohydrate Modifications in Antisense Research; Y. S. Sanghvi and P. D. Cook Eds. ACS Symposium Series 580; (pp. 52-65)), and sulfone linkages (Just et al. (1994), Synthesis and Hybridization Properties of DNA Oligomers Containing Sulfide-Linked Dinucleosides. In Carbohydrate Modifications in Antisense Research; Y. S. Sanghvi and P. D. Cook Eds. ACS Symposium Series 580; (pp. 62-65)) have been accomplished by several research groups.

[0010] Another backbone substitution is the formacetal and the related thioformacetal (Jones et al., J. Org. Chem., 1993, 58, 2983-2991). Matteucci reported the synthesis of oligonucleotide analogs with one or more phosphodiester linkages that are replaced by a formacetal/ketal type linkage (see U.S. Pat. No. 5,264,562).

[0011] Oligomeric compounds have been prepared using Click chemistry wherein alkynyl phosphonate internucleoside linkages on an oligomeric compound attached to a solid support are converted into the 1,2,3-triazolylphosphonate internucleoside linkages and then cleaved from the solid support (Krishna et al., J. Am. Chem. Soc., DOI: 101021/ja3026714, published online May 21, 2012).

SUMMARY OF THE INVENTION

[0012] Provided herein are gapped oligomeric compounds comprising at least one modified internucleoside linkage having Formula I in the gap region. In certain embodiments, the oligomeric compounds provided herein hybridize to a portion of a target RNA resulting in loss of normal function of the target RNA. In certain embodiments, the oligomeric compounds disclosed herein provide improved selectivity for a target RNA. In certain embodiments, the oligomeric compounds provide improved potency for a target RNA. In certain embodiments, the oligomeric compounds provided herein provide an improvement in the toxicity profile. In certain embodiments, the oligomeric compounds provided herein provide an improvement in the proinflammatory profile. In certain embodiments, the oligomeric compounds provide improved potency and selectivity for a target RNA. In certain embodiments, the oligomeric compounds provide improved potency, selectivity and an improvement in the proinflammatory profile.

[0013] The variables are defined individually in further detail herein. It is to be understood that the oligomeric compounds provided herein include all combinations of the embodiments disclosed and variables defined herein.

[0014] In certain embodiments, gapped oligomeric compounds are provided comprising a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous modified nucleosides wherein essentially each modified nucleoside in the 5' and 3'-regions are RNA-like and the gap region has from 6 to 14 contiguous monomer subunits selected from .beta.-D-2'-deoxyribonucleosides and modified nucleosides that are DNA-like and wherein at least one of the internucleoside linking groups in the gap region or linking the gap region and the 5'-region or the 3'-region has Formula I:

##STR00001##

wherein independently for each internucleoside linking group having Formula I:

[0015] X is O or S;

[0016] Q is C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, substituted C.sub.2-C.sub.6 alkynyl, C(.dbd.O)OH or CH.sub.2C(.dbd.O)OH;

[0017] each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; and

[0018] each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0019] In certain embodiments, gapped oligomeric compounds are provided consisting of a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous modified nucleosides wherein essentially each modified nucleoside in the 5' and 3'-regions 5' and 3'-regions are RNA-like and the gap region has from 6 to 14 contiguous monomer subunits selected from .beta.-D-2'-deoxyribonucleosides and modified nucleosides that are DNA-like and wherein at least one of the internucleoside linking groups in the gap region or linking the gap region and the 5'-region or the 3'-region has Formula I:

##STR00002##

wherein independently for each internucleoside linking group having Formula I:

[0020] X is O or S;

[0021] Q is C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, substituted C.sub.2-C.sub.6 alkynyl, C(.dbd.O)OH or CH.sub.2C(.dbd.O)OH;

[0022] each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; and

[0023] each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0024] In certain embodiments, gapped oligomeric compounds are provided consisting of a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous modified nucleosides wherein each modified nucleoside in the 5' and 3'-regions are RNA-like and the gap region has from 6 to 14 contiguous monomer subunits selected from .beta.-D-2'-deoxyribonucleosides and modified nucleosides that are DNA-like and wherein at least one of the internucleoside linking groups in the gap region or linking the gap region and the 5'-region or the 3'-region has Formula I:

##STR00003##

wherein independently for each internucleoside linking group having Formula I:

[0025] X is O or S;

[0026] Q is C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, substituted C.sub.2-C.sub.6 alkynyl, C(.dbd.O)OH or CH.sub.2C(.dbd.O)OH;

[0027] each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; and

[0028] each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0029] In certain embodiments, gapped oligomeric compounds are provided consisting of a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous modified nucleosides wherein each modified nucleoside in the 5' and 3'-regions are RNA-like and the gap region has from 6 to 14 contiguous monomer subunits selected from .beta.-D-2'-deoxyribonucleosides and wherein at least one of the internucleoside linking groups in the gap region or linking the gap region and the 5'-region or the 3'-region has Formula I:

##STR00004##

wherein independently for each internucleoside linking group having Formula I:

[0030] X is O or S;

[0031] Q is C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, substituted C.sub.2-C.sub.6 alkynyl, C(.dbd.O)OH or CH.sub.2C(.dbd.O)OH;

[0032] each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; and

[0033] each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0034] In certain embodiments, gapped oligomeric compounds are provided having only one internucleoside linking group of Formula I in the gap region. In certain embodiments, gapped oligomeric compounds are provided having only two internucleoside linking groups of Formula I in the gap region. In certain embodiments, gapped oligomeric compounds are provided having only three internucleoside linking groups of Formula I in the gap region. In certain embodiments, the internucleoside linking groups having Formula I are contiguous. In certain embodiments, gapped oligomeric compounds are provide having at least two internucleoside linking groups of Formula I in the gap region that are separated by at least one phosphorothioate or phosphodiester internucleoside linking group.

[0035] In certain embodiments, gapped oligomeric compounds are provided wherein the internucleoside linking group linking the 5'-region and the gap region has Formula I. In certain embodiments, gapped oligomeric compounds are provided wherein the internucleoside linking group linking the 5'-region and the gap region and the adjacent internucleoside linkage in the gap region has Formula I. In certain embodiments, the internucleoside linking group linking the 3'-region and the gap region has Formula I. In certain embodiments, gapped oligomeric compounds are provided wherein the internucleoside linking group linking the 3'-region and the gap region and the adjacent internucleoside linkage in the gap region has Formula I. In certain embodiments, the internucleoside linking group linking the 5'-region and the gap region has Formula I and the internucleoside linking group linking the 3'-region and the gap region has Formula I. In certain embodiments, only one internucleoside linking group of Formula I is located in the gap region.

[0036] In certain embodiments, each internucleoside linking group in the 5' and 3'-regions and each internucleoside linking group in the gap region other than internucleoside linking groups having Formula I is a phosphodiester or a phosphorothioate internucleoside linking group. In certain embodiments, each internucleoside linking group in the 5' and 3'-regions and each internucleoside linking group in the gap region other than internucleoside linking groups having Formula I is a phosphorothioate internucleoside linking group. In certain embodiments, each internucleoside linking group in the 5' and 3'-regions and each internucleoside linking group in the gap region other than internucleoside linking groups having Formula I is a phosphodiester internucleoside linking group.

[0037] In certain embodiments, gapped oligomeric compounds are provided wherein each monomer subunit comprises a heterocyclic base independently selected from an optionally protected purine, substituted purine, pyrimidine or substituted pyrimidine. In certain embodiments, each monomer subunit comprises a heterocyclic base independently selected from uracil, thymine, cytosine, 4-N-benzoylcytosine, 5-methylcytosine, 4-N-benzoyl-5-methylcytosine, adenine, 6-N-benzoyladenine, guanine or 2-N-isobutyrylguanine.

[0038] In certain embodiments, gapped oligomeric compounds are provided wherein each Q is, independently, selected from C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, C(.dbd.O)OH and CH.sub.2C(.dbd.O)OH. In certain embodiments, each Q is, independently, selected from CH.sub.3, C(.dbd.O)OH, CH.sub.2C(.dbd.O)OH, (CH.sub.2).sub.2OCH.sub.3, CH.dbd.CH.sub.2, CH.sub.2CH.dbd.CH.sub.2 and C.ident.CH. In certain embodiments, each Q is CH.sub.2C(.dbd.O)OH. In certain embodiments, each Q is CH.sub.3. In certain embodiments, each Q is C.ident.CH.

[0039] In certain embodiments, gapped oligomeric compounds are provided wherein each X is O. In certain embodiments, each X is S.

[0040] In certain embodiments, gapped oligomeric compounds are provided wherein the chirality of each internucleoside linking group having Formula I is R.sub.P. In certain embodiments, the chirality of each internucleoside linking group having Formula I is S.sub.P.

[0041] In certain embodiments, each modified nucleoside in the 5' and 3'-regions provides enhanced hybridization affinity for an RNA target as compared to an unmodified nucleoside. In certain embodiments, each modified nucleoside in the 5' and 3'-regions comprises a modified sugar moiety. In certain embodiments, each modified nucleoside in the 5' and 3'-regions is, independently, a bicyclic nucleoside comprising a bicyclic furanosyl sugar moiety or a modified nucleoside comprising a furanosyl sugar moiety having at least one substituent group.

[0042] In certain embodiments, gapped oligomeric compounds are provided wherein the 5' and 3'-regions comprise one or more 2'-modified nucleosides that each have a 2'-substituent group independently selected from halogen, OCH.sub.3, OCH.sub.2F, OCHF.sub.2, OCF.sub.3, OCH.sub.2CH.sub.3, O(CH.sub.2).sub.2F, OCH.sub.2CHF.sub.2, OCH.sub.2CF.sub.3, OCH.sub.2--CH.dbd.CH.sub.2, O(CH.sub.2).sub.2--OCH.sub.3, O(CH.sub.2).sub.2--SCH.sub.3, O(CH.sub.2).sub.2--OCF.sub.3, O(CH.sub.2).sub.3--N(R.sub.3)(R.sub.4), O(CH.sub.2).sub.2--ON(R.sub.3)(R.sub.4), O(CH.sub.2).sub.2--O(CH.sub.2).sub.2--N(R.sub.3)(R.sub.4), OCH.sub.2C(.dbd.O)--N(R.sub.4)(R.sub.4), OCH.sub.2C(.dbd.O)--N(R.sub.5)--(CH.sub.2).sub.2--N(R.sub.3)(R.sub.4) and O(CH.sub.2).sub.2--N(R.sub.5)--C(.dbd.NR.sub.6)[N(R.sub.3)(R.sub.4)] wherein R.sub.3, R.sub.4, R.sub.5 and R.sub.6 are each, independently, H and C.sub.1-C.sub.6 alkyl. In certain embodiments, each 2'-substituent group is independently selected from F, OCH.sub.3, OCF.sub.3, OCH.sub.2CH.sub.3, OCH.sub.2CF.sub.3, OCH.sub.2--CH.dbd.CH.sub.2, O(CH.sub.2).sub.2--OCH.sub.3, O(CH.sub.2).sub.2--O(CH.sub.2).sub.2--N(CH.sub.3).sub.2, OCH.sub.2C(.dbd.O)--N(H)CH.sub.3, OCH.sub.2C(.dbd.O)--N(H)--(CH.sub.2).sub.2--N(CH.sub.3).sub.2 and OCH.sub.2--N(H)--C(.dbd.NH)NH.sub.2. In certain embodiments, each 2'-substituent group is independently selected from F, OCH.sub.3, O(CH.sub.2).sub.2--OCH.sub.3 and OCH.sub.2C(.dbd.O)--N(H)CH.sub.3. In certain embodiments, each 2'-substituent group is O(CH.sub.2).sub.2--OCH.sub.3.

[0043] In certain embodiments, gapped oligomeric compounds are provided wherein the 5' and 3'-regions comprise one or more bicyclic nucleosides that each have a bridging group between the 4' and 2' carbon atoms of the furanosyl ring independently selected from 4'-(CH.sub.2)--O-2', 4'-(CH.sub.2)--S-2', 4'-(CH.sub.2).sub.2--O-2', 4'-CH(CH.sub.3)--O-2', 4'-CH(CH.sub.2OCH.sub.3)--O-2', 4'-C(CH.sub.3).sub.2--O-2', 4'-CH.sub.2--N(OCH.sub.3)-2', 4'-CH.sub.2--O--N(CH.sub.3)-2', 4'-CH.sub.2--C(H)(CH.sub.3)-2' and 4'-CH.sub.2--C(.dbd.CH.sub.2)-2'. In certain embodiments, each of the bridging groups is independently selected from 4'-(CH.sub.2)--O-2', 4'-(CH.sub.2).sub.2--O-2', 4'-CH(CH.sub.3)--O-2', 4'-CH.sub.2--C(H)(CH.sub.3)-2' and 4'-CH.sub.2--C(.dbd.CH.sub.2)-2'. In certain embodiments, each bridging group is 4'-CH[(S)--(CH.sub.3)]--O-2'.

[0044] In certain embodiments, gapped oligomeric compounds are provided wherein the sugar moieties of each modified nucleoside in the 5' and 3'-regions are the same. In certain embodiments, gapped oligomeric compounds are provided comprising at least two different types of modified nucleosides in the 5' and 3'-regions wherein the different types of modified nucleosides have at least different modified sugar moieties. In certain embodiments, the different types of modified nucleosides include bicyclic nucleosides comprising bicyclic furanosyl sugar moieties and modified nucleosides comprising furanosyl sugar moieties having at least one substituent group. In certain embodiments, the different types of modified nucleosides include 4'-CH[(S)--(CH.sub.3)]--O-2' bicyclic nucleosides and 2'-O(CH.sub.2).sub.2--OCH.sub.3 substituted nucleosides. In certain embodiments, the 5' and 3'-regions include only 4'-CH[(S)--(CH.sub.3)]--O-2' bicyclic nucleosides and 2'-O(CH.sub.2).sub.2--OCH.sub.3 substituted nucleosides.

[0045] In certain embodiments, gapped oligomeric compounds are provided wherein one or more modified nucleosides in the 5' and 3'-regions comprise a sugar surrogate.

[0046] In certain embodiments, gapped oligomeric compounds are provided wherein each monomer subunit in the gap region is a .beta.-D-2'-deoxyribonucleoside. In certain embodiments, at least one monomer subunit in the gap region is a modified nucleoside that is DNA-like. In certain embodiments, each modified nucleoside that is DNA-like is a 2'-(ara)-F modified nucleoside.

[0047] In certain embodiments, gapped oligomeric compounds are provided wherein the 5' and 3'-regions each, independently, have from 2 to 8 monomer subunits. In certain embodiments, the 5' and 3'-regions each, independently, have from 3 to 6 monomer subunits. In certain embodiments, the gap region has from 6 to 14 monomer subunits. In certain embodiments, the gap region has from 8 to 10 monomer subunits. In certain embodiments, the 5' and 3'-regions each, independently, have from 3 to 6 monomer subunits and the gap region has from 8 to 14 monomer subunits. In certain embodiments, the 5' and 3'-regions each, independently, have from 3 to 6 monomer subunits and the gap region has from 6 to 10 monomer subunits. In certain embodiments, the 5' and 3'-regions each, independently, have from 3 to 6 monomer subunits and the gap region has from 6 to 8 monomer subunits. In certain embodiments, the 5' and 3'-regions each, independently, have from 4 to 5 monomer subunits and the gap region has from 7 to 8 monomer subunits.

[0048] In certain embodiments, gapped oligomeric compounds are provided wherein at least one modified nucleoside in the 5' and 3'-regions is other than a 2'-OCH.sub.3 substituted nucleoside or a 2'-O--CH.sub.2-4' bridged bicyclic nucleoside.

[0049] In certain embodiments, gapped oligomeric compounds are provided that include one 5'-terminal group. In certain embodiments, gapped oligomeric compounds are provided that include one 3'-terminal group. In certain embodiments, gapped oligomeric compounds are provided that include at least one 5' or 3'-terminal group.

[0050] In certain embodiments, the gapped oligomeric compounds provided herein are other than the gapped oligomeric compounds listed below:

TABLE-US-00001 SEQ ID NO. Gap wings ISIS # Sequence Chemistry 5'/3' 05/558257 T.sub.eA.sub.kA.sub.kATTpGTCATCA.sub.kC.sub.kC.sub.e -(P(=O)(CH.sub.3))- ekk kke 05/558256 T.sub.eA.sub.kA.sub.kAT.sub.pTGTCATCA.sub.kC.sub.kC.sub.e -(P(=O)(CH.sub.3))- ekk kke 05/558255 T.sub.eA.sub.kA.sub.kA.sub.pTTGTCATCA.sub.kC.sub.kC.sub.e -(P(=O)(CH.sub.3))- ekk kke 05/571123 T.sub.eA.sub.eA.sub.eA.sub.kT.sub.kT.sub.pGT.sup.mCAT.sup.mCA.su- b.k.sup.mC.sub.k.sup.mC.sub.e -(P(=O)(CH.sub.3))- eeekk kke 05/571124 T.sub.eA.sub.eA.sub.eA.sub.k.sup.xTT.sub.pGT.sup.mCAT.sup.mC.sub- .eA.sub.k.sup.mC.sub.k.sup.mC -(P(=O)(CH.sub.3))- eeek kke 05/579854 T.sub.eA.sub.eA.sub.eA.sub.kTT.sub.pGT.sup.mCAT.sup.mCA.sub.k.su- p.mC.sub.k.sup.mC.sub.e -(P(=O)(CH.sub.3))- eeek kke 09/571171 A.sub.eT.sub.kA.sub.eA.sub.kATT.sub.pGT.sup.mCAT.sup.mCA.sub.k.s- up.mC.sub.e.sup.mC.sub.kA.sub.e -(P(=O)(CH.sub.3))- ekek keke 09/571041 A.sub.eT.sub.kA.sub.eA.sub.kA.sup.xTT.sub.pGT.sup.mCAT.sup.mCA.s- ub.k.sup.mC.sub.e.sup.mC.sub.kA.sub.e -(P(=O)(CH.sub.3))- ekek keke

[0051] Wherein unless indicated otherwise each internucleoside linkage is a phosphorothioate. Each ".sup.xT" is a 2-thio-thymidine modified nucleoside. A subscript "p" indicates a methyl phosphonate internucleoside linkage (--(P(.dbd.O)(CH.sub.3))--). Nucleosides not followed by a subscript are .beta.-D-2'-deoxyribonucleosides. Nucleosides followed by a subscript "e" are 2'-O-methoxyethyl (MOE) modified nucleosides. Nucleosides followed by a subscript "k" are 6'-(S)--CH.sub.3 (cEt) bicyclic modified nucleosides. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside.

[0052] In certain embodiments, the gapped oligomeric compounds provided herein are other than gapped oligomeric compounds complementary to at least a region of a nucleic acid that is a Huntingtin gene transcript. In certain embodiments, the gapped oligomeric compounds provided herein are other than gapped oligomeric compounds complementary to at least a region of a nucleic acid comprising a single-nucleotide polymorphism. In certain embodiments, the gapped oligomeric compounds provided herein are other than gapped oligomeric compounds complementary to at least a region of a nucleic acid comprising a single-nucleotide polymorphism-containing-target nucleic acid of a Huntingtin gene transcript. In certain embodiments, the gapped oligomeric compounds provided herein are other than gapped oligomeric compounds complementary to at least a region of a nucleic acid comprising a single-nucleotide polymorphism-containing-target nucleic acid of a gene transcript other than Huntingtin.

[0053] In certain embodiments, methods of inhibiting gene expression are provided comprising contacting one or more cells, a tissue or an animal with an oligomeric compound as provided herein wherein said oligomeric compound is complementary to a target RNA. In certain embodiments, the cells are in a human. In certain embodiments, the target RNA is human mRNA. In certain embodiments, the target RNA is cleaved thereby inhibiting its function.

[0054] In certain embodiments, in vitro methods of inhibiting gene expression are provided comprising contacting one or more cells or a tissue with an oligomeric compound as provided herein.

[0055] In certain embodiments, oligomeric compound as provided herein are used in an in vivo method of inhibiting gene expression said method comprising contacting one or more cells, a tissue or an animal with an oligomeric compound as provided herein.

[0056] In certain embodiments, oligomeric compounds as provided herein are used in medical therapy.

DETAILED DESCRIPTION OF THE INVENTION

[0057] Provided herein are linkage modified gapped oligomeric compounds. Such gapped oligomeric compounds comprise a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous modified nucleosides wherein essentially each modified nucleoside in the 5' and 3'-regions are RNA-like and the gap region has from 6 to 14 contiguous monomer subunits selected from .beta.-D-2'-deoxyribonucleosides and modified nucleosides that are DNA-like and wherein at least one of the internucleoside linking groups in the gap region or between the gap region and the 5'-region or the 3'-region has Formula I:

##STR00005##

wherein independently for each internucleoside linking group having Formula I:

[0058] X is O or S;

[0059] Q is C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, substituted C.sub.2-C.sub.6 alkynyl, C(.dbd.O)OH or CH.sub.2C(.dbd.O)OH;

[0060] each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; and

[0061] each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0062] The gapped oligomeric compounds provided herein have been shown to have improved properties. In certain embodiments, the activity of an otherwise unmodified gapped oligomeric compound against a target nucleic acid is enhanced by incorporation of at least one internucleoside linking group having Formula I in the gap region. In certain embodiments, at least one internucleoside linking group having Formula I is located at the gap junction on the 5' side wherein the internucleoside linkage separates the gap region from the wing region. In certain embodiments, at least one internucleoside linking group having Formula I is located at the gap junction on the 3' side. As indicated in the in vitro and in vivo data provided in the example section herein, such properties include selectivity, potency, improved toxicity profile and or an improved proinflammatory profile.

[0063] In certain embodiments, a gapped oligomeric compound of interest is identified and then a series of identical oligomeric compounds are prepared with a single internucleoside linking group having Formula I walked across the gap region. If there are 8 monomer subunits in the gap then there will be 8 oligomeric compounds prepared having the internucleoside linking group having Formula I located at a different position in each of the oligomeric compounds which are subsequently assayed in one or more assays as illustrated herein to determine the lead from the series.

[0064] In certain embodiments, additional internucleoside linking groups having Formula I are incorporated into the gap region of the lead oligomeric compound and assayed in one or more assays as illustrated herein. In certain embodiments, the lead compound is further functionalized with one or more terminal groups such as for example a conjugate group. In certain embodiments, a gapped oligomeric compound of interest is identified and then a series of identical oligomeric compounds are prepared with blocks of at least two internucleoside linking group having Formula I walked across the gap region.

[0065] In certain embodiments, gapped oligomeric compounds are provided having a reduced proinflammatory response when compared to unmodified gapped oligomeric compounds. As shown using an in vitro hPBMC assay (Example 21), a gapped oligomeric compound having alternating methyl thiophosphonate (--P(CH.sub.3)(.dbd.S)--) internucleoside linkages in the gap reduced the proinflammatory response compared to the an identical oligomeric compound without the modified internucleoside linkages.

[0066] In certain embodiments, gapped oligomeric compounds are provided having enhanced potency (IC.sub.50) and selectivity when compared to unmodified gapped oligomeric compounds. As shown using an in vitro HTT SNP assay (Example 23), a gapped oligomeric compound having a single methyl phosphonate (--P(CH.sub.3)(.dbd.O)--) internucleoside linkage in the gap, at either position 4 or 5 from the 5'-end, showed lower IC.sub.50 and increased selectivity when compared to the an identical oligomeric compound without the modified internucleoside linkages.

[0067] In certain embodiments, gapped oligomeric compounds are provided having enhanced selectivity with comparable potency (IC.sub.50) when compared to unmodified gapped oligomeric compounds. As shown using an in vitro HTT SNP assay (Example 24), a gapped oligomeric compound having one or two methyl phosphonate (--P(CH.sub.3)(.dbd.O)--) or one phosphonoacetate (--P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)--) internucleoside linkages in the gap typically showed enhanced selectivity with comparable or slightly lower potency.

[0068] In certain embodiments, gapped oligomeric compounds are provided having enhanced selectivity with comparable potency (IC.sub.50) when compared to an unmodified gapped oligomeric compound. As shown using an in vitro HTT SNP assay (Example 25), a gapped oligomeric compound having one or two methyl phosphonate (--P(CH.sub.3)(.dbd.O)--) internucleoside linkages in the gap typically showed enhanced selectivity with comparable or slightly lower potency.

[0069] In certain embodiments, gapped oligomeric compounds are provided having improved hepatotoxicity profiles when compared to unmodified gapped oligomeric compounds. As shown in in vivo PTEN and SRB-1 assays (Example 26), a gapped oligomeric compound having two methyl phosphonate (--P(CH.sub.3)(.dbd.O)--) internucleoside linkages at the 5'-end of the gap and linking the gap to the 5'-wing lowered the ALT as compared to the unmodified oligomeric compounds. The activity and organ weights are similar for the SRB-1 assay. The activity is reduced for the modified oligomeric compound in the PTEN assay. Also for the PTEN assay the liver is slightly elevated for the modified gapped oligomeric compound whereas for the unmodified oligomeric compound the liver and the spleen weights are both elevated.

[0070] It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed. Herein, the use of the singular includes the plural unless specifically stated otherwise. As used herein, the use of "or" means "and/or" unless stated otherwise. Furthermore, the use of the term "including" as well as other forms, such as "includes" and "included", is not limiting. Also, terms such as "element" or "component" encompass both elements and components comprising one unit and elements and components that comprise more than one subunit, unless specifically stated otherwise.

[0071] The section headings used herein are for organizational purposes only and are not to be construed as limiting the subject matter described. All documents, or portions of documents, cited in this application, including, but not limited to, patents, patent applications, articles, books, and treatises, are hereby expressly incorporated by reference in their entirety for any purpose.

A. Definitions

[0072] Unless specific definitions are provided, the nomenclature used in connection with, and the procedures and techniques of, analytical chemistry, synthetic organic chemistry, and medicinal and pharmaceutical chemistry described herein are those well known and commonly used in the art. Standard techniques may be used for chemical synthesis, and chemical analysis. Certain such techniques and procedures may be found for example in "Carbohydrate Modifications in Antisense Research" Edited by Sangvi and Cook, American Chemical Society, Washington D.C., 1994; "Remington's Pharmaceutical Sciences," Mack Publishing Co., Easton, Pa., 21.sup.st edition, 2005; and "Antisense Drug Technology, Principles, Strategies, and Applications" Edited by Stanley T. Crooke, CRC Press, Boca Raton, Fla.; and Sambrook et al., "Molecular Cloning, A laboratory Manual," 2' Edition, Cold Spring Harbor Laboratory Press, 1989, which are hereby incorporated by reference for any purpose. Where permitted, all patents, applications, published applications and other publications and other data referred to throughout in the disclosure are incorporated by reference herein in their entirety.

[0073] Unless otherwise indicated, the following terms have the following meanings:

[0074] As used herein, "chemical modification" means a chemical difference in a compound when compared to a naturally occurring counterpart. Chemical modifications of oligonucleotides include nucleoside modifications (including sugar moiety modifications and nucleobase modifications) and internucleoside linkage modifications. In reference to an oligonucleotide, chemical modification does not include differences only in nucleobase sequence.

[0075] As used herein, "furanosyl" means a structure comprising a 5-membered ring comprising four carbon atoms and one oxygen atom.

[0076] As used herein, "naturally occurring sugar moiety" means a ribofuranosyl as found in naturally occurring RNA or a 2'-deoxyribofuranosyl as found in naturally occurring DNA.

[0077] As used herein, "sugar moiety" means a naturally occurring sugar moiety or a modified sugar moiety of a nucleoside.

[0078] As used herein, "modified sugar moiety" means a substituted sugar moiety or a sugar surrogate.

[0079] As used herein, "substituted sugar moiety" means a furanosyl that is not a naturally occurring sugar moiety. Substituted sugar moieties include, but are not limited to furanosyls comprising substituents at the 2'-position, the 3'-position, the 5'-position and/or the 4'-position. Certain substituted sugar moieties are bicyclic sugar moieties.

[0080] As used herein, "2'-substituted sugar moiety" means a furanosyl comprising a substituent at the 2'-position other than H or OH. Unless otherwise indicated, a 2'-substituted sugar moiety is not a bicyclic sugar moiety (i.e., the 2'-substituent of a 2'-substituted sugar moiety does not form a bridge to another atom of the furanosyl ring.

[0081] As used herein, "MOE" means --OCH.sub.2CH.sub.2OCH.sub.3.

[0082] As used herein, "2'-F nucleoside" refers to a nucleoside comprising a sugar comprising fluorine at the 2' position. Unless otherwise indicated, the fluorine in a 2'-F nucleoside is in the ribo position (replacing the OH of a natural ribose).

[0083] As used herein, "2'-(ara)-F" refers to a 2'-F substituted nucleoside, wherein the fluoro group is in the arabino position.

[0084] As used herein the term "sugar surrogate" means a structure that does not comprise a furanosyl ring and that is capable of replacing the naturally occurring sugar moiety of a nucleoside, such that the resulting nucleoside sub-units or monomer subunits are capable of linking together and/or linking to other nucleosides or other monomer subunits to form an oligomeric compound which is capable of hybridizing to a complementary oligomeric compound such as a nucleic acid target. Such structures include rings comprising a different number of atoms than furanosyl (e.g., 4, 6, or 7-membered rings); replacement of the oxygen atom of a furanosyl with a non-oxygen atom (e.g., carbon, sulfur, or nitrogen, wherein replacement of the oxygen atom with sulfur in furanose is generally considered a modified nucleoside as opposed to a sugar surrogate but can be considered both); or both a change in the number of atoms and a replacement of the oxygen. Such structures may also comprise substitutions corresponding to those described for substituted sugar moieties (e.g., 6-membered carbocyclic bicyclic sugar surrogates optionally comprising additional substituents). Sugar surrogates also include more complex sugar replacements (e.g., the non-ring systems of peptide nucleic acid). Sugar surrogates include without limitation morpholinos, cyclohexenyls and cyclohexitols.

[0085] As used herein, "bicyclic sugar moiety" means a modified sugar moiety comprising a 4 to 7 membered ring (including but not limited to a furanosyl) comprising a bridge connecting two atoms of the 4 to 7 membered ring to form a second ring, resulting in a bicyclic structure. In certain embodiments, the 4 to 7 membered ring is a sugar ring. In certain embodiments the 4 to 7 membered ring is a furanosyl. In certain such embodiments, the bridge connects the 2'-carbon and the 4'-carbon of the furanosyl.

[0086] As used herein, "nucleoside" means a compound comprising a nucleobase moiety and a sugar moiety. Nucleosides include, but are not limited to, naturally occurring nucleosides (as found in DNA and RNA) and modified nucleosides. Nucleosides may be linked to a phosphate moiety.

[0087] As used herein, "nucleotide" means a nucleoside further comprising a phosphate linking group. As used herein, "linked nucleosides" may or may not be linked by phosphate linkages and thus includes, but is not limited to "linked nucleotides." As used herein, "linked nucleosides" are nucleosides that are connected in a continuous sequence (i.e. no additional nucleosides are present between those that are linked).

[0088] As used herein the term "nucleobase" generally refers to the nucleobase of a nucleoside or modified nucleoside. The term "heterocyclic base moiety" is broader than the term nucleobase in that it includes any heterocyclic base that can be attached to a sugar to prepare a nucleoside or modified nucleoside. Such heterocyclic base moieties include but are not limited to naturally occurring nucleobases (adenine, guanine, thymine, cytosine and uracil) and protected forms of unmodified nucleobases (4-N-b enzoylcytosine, 6-N-benzoyladenine and 2-N-isobutyrylguanine) as well as modified (5-methyl cytosine) or non-naturally occurring heterocyclic base moieties and synthetic mimetics thereof (such as for example phenoxazines).

[0089] As used herein the term "modified nucleoside" refers to a nucleoside comprising a modified heterocyclic base and or a sugar moiety other than ribose and 2'-deoxyribose. In certain embodiments, a modified nucleoside comprises a modified heterocyclic base moiety. In certain embodiments, a modified nucleoside comprises a sugar moiety other than ribose and 2'-deoxyribose. In certain embodiments, a modified nucleoside comprises a modified heterocyclic base moiety and a sugar moiety other than ribose and 2'-deoxyribose. The term "modified nucleoside" is intended to include all manner of modified nucleosides that can be incorporated into an oligomeric compound using standard oligomer synthesis protocols. Modified nucleosides include abasic nucleosides but in general a heterocyclic base moiety is included for hybridization to a complementary nucleic acid target.

[0090] In certain embodiments, modified nucleosides include a furanose or modified furanose sugar group such as a 4'-S analog (4'-S-modified nucleoside and 4'-S-ribonucleoside refer to replacement of the furanose oxygen atom with S). Such modified nucleosides include without limitation, substituted nucleosides (such as 2', 5', and/or 4' substituted nucleosides) 4'-S-modified nucleosides, (such as 4'-5-ribonucleosides, 4'-S-2'-deoxyribonucleosides and 4'-5-2'-substituted ribonucleosides), bicyclic modified nucleosides (such as 2'-O--CH(CH.sub.3)-4', 2'-O--CH.sub.2-4' or 2'-O--(CH.sub.2).sub.2-4' bridged furanose analogs) and base modified nucleosides. The sugar can be modified with more than one of these modifications listed such as for example a bicyclic modified nucleoside further including a 5'-substitution or a 5' or 4' substituted nucleoside further including a 2' substituent. The term modified nucleoside also includes combinations of these modifications such as base and sugar modified nucleosides. These modifications are meant to be illustrative and not exhaustive as other modifications are known in the art and are also envisioned as possible modifications for the modified nucleosides described herein.

[0091] In certain embodiments, modified nucleosides comprise a sugar surrogate wherein the furanose ring has been replaced with a mono or polycyclic ring system or a non-cyclic sugar surrogate such as that used in peptide nucleic acids. Illustrative examples of sugar moieties for such modified nucleosides includes without limitation morpholino, hexitol, cyclohexenyl, 2.2.2 and 3.2.1 cyclohexose and open non-cyclic groups.

[0092] In certain embodiments, modified nucleosides comprise a non-naturally occurring sugar moiety and a modified heterocyclic base moiety. Such modified nucleosides include without limitation modified nucleosides wherein the heterocyclic base moiety is replaced with a phenoxazine moiety (for example the 9-(2-aminoethoxy)-1,3-diazaphenoxazine-2-one group, also referred to as a G-clamp which forms four hydrogen bonds when hybridized with a guanosine base) and further replacement of the sugar moiety with a sugar surrogate group such as for example a morpholino, a cyclohexenyl or a bicyclo[3.1.0]hexyl.

[0093] As used herein, "bicyclic nucleoside" or "BNA" means a nucleoside comprising a bicyclic sugar moiety.

[0094] As used herein, "constrained ethyl nucleoside" or "cEt" means a nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH(CH.sub.3)--O-2' bridge. In certain embodiments, the cEt comprises a comprising a 4'-CH((S)--CH.sub.3)--O-2' bridge. In certain embodiments, the cEt comprises a comprising a 4'-CH((R)--CH.sub.3)--O-2' bridge.

[0095] As used herein, "locked nucleic acid nucleoside" or "LNA" means a nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH.sub.2--O-2' bridge.

[0096] As used herein, "2'-substituted nucleoside" means a ribofuranosyl nucleoside comprising a substituent at the 2'-position other than H or OH. Unless otherwise indicated, a 2'-substituted nucleoside is not a bicyclic nucleoside.

[0097] As used herein, "2'-deoxynucleoside" means a nucleoside comprising 2'-H(H) furanosyl sugar moiety, as found in naturally occurring deoxyribonucleosides (DNA). In certain embodiments, a 2'-deoxynucleoside may comprise a modified nucleobase or may comprise an RNA nucleobase (e.g., uracil).

[0098] As used herein, "RNA-like nucleoside" means a modified nucleoside other than a .beta.-D-ribose nucleoside that provides an A-form (northern) duplex when incorporated into an oligomeric compound and duplexed with a complementary RNA. RNA-like nucleosides are used as replacements for RNA nucleosides in oligomeric compounds to enhance one or more properties such as, for example, nuclease resistance and or hybridization affinity. RNA-like nucleosides include, but are not limited to modified furanosyl nucleosides that adopt a 3'-endo conformational geometry when put into an oligomeric compound. RNA-like nucleosides also include RNA surrogates such as F-HNA. RNA-like nucleosides include but are not limited to modified nucleosides comprising a 2'-substituent group selected from F, O(CH.sub.2).sub.2OCH.sub.3 (MOE) and OCH.sub.3. RNA-like nucleosides also include but are not limited to modified nucleosides comprising bicyclic furanosyl sugar moiety comprising a 4'-CH.sub.2--O-2', 4'-(CH.sub.2).sub.2--O-2', 4'-C(H)[(R)--CH.sub.3]--O-2' or 4'-C(H)[(S)--CH.sub.3]--O-2' bridging group.

[0099] As used herein, "DNA-like nucleoside" means a modified nucleoside other than a .beta.-D-2'-doxyribose nucleoside that provides a B-form (southern) duplex when incorporated into an oligomeric compound and duplexed with a complementary DNA. DNA-like nucleosides provide an intermediate duplex when incorporated into an oligomeric compound and duplexed with a complementary RNA that is between A-form and B-form. DNA-like nucleosides are used as replacements for DNA nucleosides in oligomeric compounds to enhance one or more properties. DNA-like nucleosides include, but are not limited to modified nucleosides that adopt a 2'-endo conformational geometry when put into an oligomeric compound.

[0100] As used herein, "oligonucleotide" means a compound comprising a plurality of linked nucleosides. In certain embodiments, an oligonucleotide comprises one or more unmodified ribonucleosides (RNA) and/or unmodified deoxyribonucleosides (DNA) and/or one or more modified nucleosides.

[0101] As used herein "oligonucleoside" means an oligonucleotide in which none of the internucleoside linkages contains a phosphorus atom. As used herein, oligonucleotides include oligonucleosides.

[0102] As used herein, "modified oligonucleotide" means an oligonucleotide comprising at least one modified nucleoside and/or at least one modified internucleoside linkage.

[0103] As used herein "internucleoside linkage" means a covalent linkage between adjacent nucleosides in an oligonucleotide.

[0104] As used herein "naturally occurring internucleoside linkage" means a 3' to 5' phosphodiester linkage.

[0105] As used herein, "modified internucleoside linkage" means any internucleoside linkage other than a naturally occurring internucleoside linkage.

[0106] As used herein the term "monomer subunit" is meant to include all manner of monomers that are amenable to oligomer synthesis. In general a monomer subunit includes at least a sugar moiety having at least two reactive sites that can form linkages to further monomer subunits. Essentially all monomer subunits include a heterocyclic base moiety that is hybridizable to a complementary site on a nucleic acid target. Reactive sites on monomer subunits located on the termini of an oligomeric compound can be protected or unprotected (generally OH) or can form an attachment to a terminal group (conjugate or other group). Monomer subunits include, without limitation, nucleosides and modified nucleosides. In certain embodiments, monomer subunits include nucleosides such as .beta.-D-ribonucleosides and .beta.-D-2'-deoxyribnucleosides and modified nucleosides including but not limited to substituted nucleosides (such as 2', 5' and bis substituted nucleosides), 4'-S-modified nucleosides (such as 4'-S-ribonucleosides, 4'-S-2'-deoxyribonucleosides and 4'-S-2'-substituted ribonucleosides), bicyclic modified nucleosides (such as bicyclic nucleosides wherein the sugar moiety has a 2'-O--CHR.sub.a-4' bridging group, wherein R.sub.a is H, alkyl or substituted alkyl), other modified nucleosides and nucleosides having sugar surrogates.

[0107] As used herein, "conjugate" means an atom or group of atoms bound to an oligonucleotide or oligomeric compound. In general, conjugate groups modify one or more properties of the compound to which they are attached, including, but not limited to pharmacodynamic, pharmacokinetic, binding, absorption, cellular distribution, cellular uptake, charge and/or clearance properties.

[0108] As used herein, "conjugate linking group" means any atom or group of atoms used to attach a conjugate to an oligonucleotide or oligomeric compound.

[0109] As used herein, "antisense compound" means a compound comprising or consisting of an oligonucleotide or oligomeric compound wherein at least a portion of which is complementary to a target nucleic acid to which it is capable of hybridizing, resulting in at least one antisense activity.

[0110] As used herein, "antisense activity" means any detectable and/or measurable change attributable to the hybridization of an antisense compound to its target nucleic acid.

[0111] As used herein, "detecting" or "measuring" means that a test or assay for detecting or measuring is performed. Such detection and/or measuring may result in a value of zero. Thus, if a test for detection or measuring results in a finding of no activity (activity of zero), the step of detecting or measuring the activity has nevertheless been performed.

[0112] As used herein, "detectable and/or measureable activity" means a statistically significant activity that is not zero.

[0113] As used herein, "essentially unchanged" means little or no change in a particular parameter, particularly relative to another parameter which changes much more. In certain embodiments, a parameter is essentially unchanged when it changes less than 5%. In certain embodiments, a parameter is essentially unchanged if it changes less than two-fold while another parameter changes at least ten-fold. For example, in certain embodiments, an antisense activity is a change in the amount of a target nucleic acid. In certain such embodiments, the amount of a non-target nucleic acid is essentially unchanged if it changes much less than the target nucleic acid does, but the change need not be zero.

[0114] As used herein, "expression" means the process by which a gene ultimately results in a protein. Expression includes, but is not limited to, transcription, post-transcriptional modification (e.g., splicing, polyadenlyation, addition of 5'-cap), and translation.

[0115] As used herein, "target nucleic acid" means a nucleic acid molecule to which an antisense compound hybridizes.

[0116] As used herein, "mRNA" means an RNA molecule that encodes a protein.

[0117] As used herein, "pre-mRNA" means an RNA transcript that has not been fully processed into mRNA. Pre-RNA includes one or more intron.

[0118] As used herein, "object RNA" means an RNA molecule other than a target RNA, the amount, activity, splicing, and/or function of which is modulated, either directly or indirectly, by a target nucleic acid. In certain embodiments, a target nucleic acid modulates splicing of an object RNA. In certain such embodiments, an antisense compound modulates the amount or activity of the target nucleic acid, resulting in a change in the splicing of an object RNA and ultimately resulting in a change in the activity or function of the object RNA.

[0119] As used herein, "microRNA" means a naturally occurring, small, non-coding RNA that represses gene expression of at least one mRNA. In certain embodiments, a microRNA represses gene expression by binding to a target site within a 3' untranslated region of an mRNA. In certain embodiments, a microRNA has a nucleobase sequence as set forth in miRBase, a database of published microRNA sequences found at http://microrna.sanger.ac.uk/sequences/. In certain embodiments, a microRNA has a nucleobase sequence as set forth in miRBase version 12.0 released September 2008, which is herein incorporated by reference in its entirety.

[0120] As used herein, "microRNA mimic" means an oligomeric compound having a sequence that is at least partially identical to that of a microRNA. In certain embodiments, a microRNA mimic comprises the microRNA seed region of a microRNA. In certain embodiments, a microRNA mimic modulates translation of more than one target nucleic acids. In certain embodiments, a microRNA mimic is double-stranded.

[0121] As used herein, "differentiating nucleobase" means a nucleobase that differs between two nucleic acids. In certain instances, a target region of a target nucleic acid differs by 1-4 nucleobases from a non-target nucleic acid. Each of those differences is referred to as a differentiating nucleobase. In certain instances, a differentiating nucleobase is a single-nucleotide polymorphism.

[0122] As used herein, "target-selective nucleoside" means a nucleoside of an anti sense compound that corresponds to a differentiating nucleobase of a target nucleic acid.

[0123] As used herein, "allele" means one of a pair of copies of a gene existing at a particular locus or marker on a specific chromosome, or one member of a pair of nucleobases existing at a particular locus or marker on a specific chromosome, or one member of a pair of nucleobase sequences existing at a particular locus or marker on a specific chromosome. For a diploid organism or cell or for autosomal chromosomes, each allelic pair will normally occupy corresponding positions (loci) on a pair of homologous chromosomes, one inherited from the mother and one inherited from the father. If these alleles are identical, the organism or cell is said to be "homozygous" for that allele; if they differ, the organism or cell is said to be "heterozygous" for that allele. "Wild-type allele" refers to the genotype typically not associated with disease or dysfunction of the gene product. "Mutant allele" refers to the genotype associated with disease or dysfunction of the gene product.

[0124] As used herein, "allelic variant" means a particular identity of an allele, where more than one identity occurs. For example, an allelic variant may refer to either the mutant allele or the wild-type allele.

[0125] As used herein, "single nucleotide polymorphism" or "SNP" means a single nucleotide variation between the genomes of individuals of the same species. In some cases, a SNP may be a single nucleotide deletion or insertion. In general, SNPs occur relatively frequently in genomes and thus contribute to genetic diversity. The location of a SNP is generally flanked by highly conserved sequences. An individual may be homozygous or heterozygous for an allele at each SNP site.

[0126] As used herein, "single nucleotide polymorphism site" or "SNP site" refers to the nucleotides surrounding a SNP contained in a target nucleic acid to which an antisense compound is targeted.

[0127] As used herein, "targeting" or "targeted to" means the association of an antisense compound to a particular target nucleic acid molecule or a particular region of a target nucleic acid molecule. An antisense compound targets a target nucleic acid if it is sufficiently complementary to the target nucleic acid to allow hybridization under physiological conditions.

[0128] As used herein, "nucleobase complementarity" or "complementarity" when in reference to nucleobases means a nucleobase that is capable of base pairing with another nucleobase. For example, in DNA, adenine (A) is complementary to thymine (T). For example, in RNA, adenine (A) is complementary to uracil (U). In certain embodiments, complementary nucleobase means a nucleobase of an antisense compound that is capable of base pairing with a nucleobase of its target nucleic acid. For example, if a nucleobase at a certain position of an antisense compound is capable of hydrogen bonding with a nucleobase at a certain position of a target nucleic acid, then the position of hydrogen bonding between the oligonucleotide and the target nucleic acid is considered to be complementary at that nucleobase pair. Nucleobases comprising certain modifications may maintain the ability to pair with a counterpart nucleobase and thus, are still capable of nucleobase complementarity.

[0129] As used herein, "non-complementary" in reference to nucleobases means a pair of nucleobases that do not form hydrogen bonds with one another.

[0130] As used herein, "complementary" in reference to oligomeric compounds (e.g., linked nucleosides, oligonucleotides, or nucleic acids) means the capacity of such oligomeric compounds or regions thereof to hybridize to another oligomeric compound or region thereof through nucleobase complementarity under stringent conditions. Complementary oligomeric compounds need not have nucleobase complementarity at each nucleoside. Rather, some mismatches are tolerated. In certain embodiments, complementary oligomeric compounds or regions are complementary at 70% of the nucleobases (70% complementary). In certain embodiments, complementary oligomeric compounds or regions are 80% complementary. In certain embodiments, complementary oligomeric compounds or regions are 90% complementary. In certain embodiments, complementary oligomeric compounds or regions are 95% complementary. In certain embodiments, complementary oligomeric compounds or regions are 100% complementary.

[0131] As used herein, "mismatch" means a nucleobase of a first oligomeric compound that is not capable of pairing with a nucleobase at a corresponding position of a second oligomeric compound, when the first and second oligomeric compound are aligned. Either or both of the first and second oligomeric compounds may be oligonucleotides.

[0132] As used herein, "hybridization" means the pairing of complementary oligomeric compounds (e.g., an antisense compound and its target nucleic acid). While not limited to a particular mechanism, the most common mechanism of pairing involves hydrogen bonding, which may be Watson-Crick, Hoogsteen or reversed Hoogsteen hydrogen bonding, between complementary nucleobases.

[0133] As used herein, "specifically hybridizes" means the ability of an oligomeric compound to hybridize to one nucleic acid site with greater affinity than it hybridizes to another nucleic acid site. In certain embodiments, an antisense oligonucleotide specifically hybridizes to more than one target site.

[0134] As used herein, "fully complementary" in reference to an oligonucleotide or portion thereof means that each nucleobase of the oligonucleotide or portion thereof is capable of pairing with a nucleobase of a complementary nucleic acid or contiguous portion thereof. Thus, a fully complementary region comprises no mismatches or unhybridized nucleobases in either strand.

[0135] As used herein, "percent complementarity" means the percentage of nucleobases of an oligomeric compound that are complementary to an equal-length portion of a target nucleic acid. Percent complementarity is calculated by dividing the number of nucleobases of the oligomeric compound that are complementary to nucleobases at corresponding positions in the target nucleic acid by the total length of the oligomeric compound.

[0136] As used herein, "percent identity" means the number of nucleobases in a first nucleic acid that are the same type (independent of chemical modification) as nucleobases at corresponding positions in a second nucleic acid, divided by the total number of nucleobases in the first nucleic acid.

[0137] As used herein, "modulation" means a change of amount or quality of a molecule, function, or activity when compared to the amount or quality of a molecule, function, or activity prior to modulation. For example, modulation includes the change, either an increase (stimulation or induction) or a decrease (inhibition or reduction) in gene expression. As a further example, modulation of expression can include a change in splice site selection of pre-mRNA processing, resulting in a change in the absolute or relative amount of a particular splice-variant compared to the amount in the absence of modulation.

[0138] As used herein, "modification motif" means a pattern of chemical modifications in an oligomeric compound or a region thereof. Motifs may be defined by modifications at certain nucleosides and/or at certain linking groups of an oligomeric compound.

[0139] As used herein, "nucleoside motif" means a pattern of nucleoside modifications in an oligomeric compound or a region thereof. The linkages of such an oligomeric compound may be modified or unmodified. Unless otherwise indicated, motifs herein describing only nucleosides are intended to be nucleoside motifs. Thus, in such instances, the linkages are not limited.

[0140] As used herein, "sugar motif" means a pattern of sugar modifications in an oligomeric compound or a region thereof.

[0141] As used herein, "linkage motif" means a pattern of linkage modifications in an oligomeric compound or region thereof. The nucleosides of such an oligomeric compound may be modified or unmodified. Unless otherwise indicated, motifs herein describing only linkages are intended to be linkage motifs. Thus, in such instances, the nucleosides are not limited.

[0142] As used herein, "nucleobase modification motif" means a pattern of modifications to nucleobases along an oligonucleotide. Unless otherwise indicated, a nucleobase modification motif is independent of the nucleobase sequence.

[0143] As used herein, "sequence motif" means a pattern of nucleobases arranged along an oligonucleotide or portion thereof. Unless otherwise indicated, a sequence motif is independent of chemical modifications and thus may have any combination of chemical modifications, including no chemical modifications.

[0144] As used herein, "type of modification" in reference to a nucleoside or a nucleoside of a "type" means the chemical modification of a nucleoside and includes modified and unmodified nucleosides. Accordingly, unless otherwise indicated, a "nucleoside having a modification of a first type" may be an unmodified nucleoside.

[0145] As used herein, "differently modified" mean chemical modifications or chemical substituents that are different from one another, including absence of modifications. Thus, for example, a MOE nucleoside and an unmodified DNA nucleoside are "differently modified," even though the DNA nucleoside is unmodified. Likewise, DNA and RNA are "differently modified," even though both are naturally-occurring unmodified nucleosides. Nucleosides that are the same but for comprising different nucleobases are not differently modified. For example, a nucleoside comprising a 2'-OMe modified sugar and an unmodified adenine nucleobase and a nucleoside comprising a 2'-OMe modified sugar and an unmodified thymine nucleobase are not differently modified.

[0146] As used herein, "the same type of modifications" refers to modifications that are the same as one another, including absence of modifications. Thus, for example, two unmodified DNA nucleoside have "the same type of modification," even though the DNA nucleoside is unmodified. Such nucleosides having the same type modification may comprise different nucleobases.

[0147] As used herein, "pharmaceutically acceptable carrier or diluent" means any substance suitable for use in administering to an animal. In certain embodiments, a pharmaceutically acceptable carrier or diluent is sterile saline. In certain embodiments, such sterile saline is pharmaceutical grade saline.

[0148] As used herein, "substituent" and "substituent group," means an atom or group that replaces the atom or group of a named parent compound. For example a substituent of a modified nucleoside is any atom or group that differs from the atom or group found in a naturally occurring nucleoside (e.g., a modified 2'-substituent is any atom or group at the 2'-position of a nucleoside other than H or OH). Substituent groups can be protected or unprotected. In certain embodiments, compounds of the present invention have substituents at one or at more than one position of the parent compound. Substituents may also be further substituted with other substituent groups and may be attached directly or via a linking group such as an alkyl or hydrocarbyl group to a parent compound.

[0149] Likewise, as used herein, "substituent" in reference to a chemical functional group means an atom or group of atoms differs from the atom or a group of atoms normally present in the named functional group. In certain embodiments, a substituent replaces a hydrogen atom of the functional group (e.g., in certain embodiments, the substituent of a substituted methyl group is an atom or group other than hydrogen which replaces one of the hydrogen atoms of an unsubstituted methyl group). Unless otherwise indicated, groups amenable for use as substituents include without limitation, halogen, hydroxyl, alkyl, alkenyl, alkynyl, acyl (--C(O)R.sub.aa), carboxyl (--C(O)O--R.sub.aa), aliphatic groups, alicyclic groups, alkoxy, substituted oxy (--O--R.sub.aa), aryl, aralkyl, heterocyclic radical, heteroaryl, heteroarylalkyl, amino (--N(R.sub.bb)(R.sub.cc)), imino (.dbd.NR.sub.bb), amido (--C(O)N(R.sub.bb)(R.sub.cc) or --N(R.sub.bb)C(O)R.sub.aa), azido (--N.sub.3), nitro (--NO.sub.2), cyano (--CN), carbamido (--OC(O)N(R.sub.bb)(R.sub.cc) or --N(R.sub.bb)C(O)OR.sub.aa), ureido (--N(R.sub.bb)C(O)N(R.sub.bb)(R.sub.cc)), thioureido (--N(R.sub.bb)C(S)N(R.sub.bb)(R.sub.cc)), guanidinyl (--N(R.sub.bb)C(.dbd.NR.sub.bb)N(R.sub.bb)(R.sub.cc)), amidinyl (--C(.dbd.NR.sub.bb)N(R.sub.bb)(R.sub.cc) or --N(R.sub.bb)C(.dbd.NR.sub.bb)(R.sub.aa)), thiol (--SR.sub.bb), sulfinyl (--S(O)R.sub.bb), sulfonyl (--S(O).sub.2R.sub.bb) and sulfonamidyl (--S(O).sub.2N(R.sub.bb)(R.sub.cc) or --N(R.sub.bb)S(O).sub.2R.sub.bb). Wherein each R.sub.aa, R.sub.bb and R.sub.cc is, independently, H, an optionally linked chemical functional group or a further substituent group with a preferred list including without limitation, alkyl, alkenyl, alkynyl, aliphatic, alkoxy, acyl, aryl, aralkyl, heteroaryl, alicyclic, heterocyclic and heteroarylalkyl. Selected substituents within the compounds described herein are present to a recursive degree.

[0150] As used herein, "alkyl," as used herein, means a saturated straight or branched hydrocarbon radical containing up to twenty four carbon atoms. Examples of alkyl groups include without limitation, methyl, ethyl, propyl, butyl, isopropyl, n-hexyl, octyl, decyl, dodecyl and the like. Alkyl groups typically include from 1 to about 24 carbon atoms, more typically from 1 to about 12 carbon atoms (C.sub.1-C.sub.12 alkyl) with from 1 to about 6 carbon atoms being more preferred.

[0151] As used herein, "alkenyl," means a straight or branched hydrocarbon chain radical containing up to twenty four carbon atoms and having at least one carbon-carbon double bond. Examples of alkenyl groups include without limitation, ethenyl, propenyl, butenyl, 1-methyl-2-buten-1-yl, dienes such as 1,3-butadiene and the like. Alkenyl groups typically include from 2 to about 24 carbon atoms, more typically from 2 to about 12 carbon atoms with from 2 to about 6 carbon atoms being more preferred. Alkenyl groups as used herein may optionally include one or more further substituent groups.

[0152] As used herein, "alkynyl," means a straight or branched hydrocarbon radical containing up to twenty four carbon atoms and having at least one carbon-carbon triple bond. Examples of alkynyl groups include, without limitation, ethynyl, 1-propynyl, 1-butynyl, and the like. Alkynyl groups typically include from 2 to about 24 carbon atoms, more typically from 2 to about 12 carbon atoms with from 2 to about 6 carbon atoms being more preferred. Alkynyl groups as used herein may optionally include one or more further substituent groups.

[0153] As used herein, "acyl," means a radical formed by removal of a hydroxyl group from an organic acid and has the general Formula --C(O)--X where X is typically aliphatic, alicyclic or aromatic. Examples include aliphatic carbonyls, aromatic carbonyls, aliphatic sulfonyls, aromatic sulfinyls, aliphatic sulfinyls, aromatic phosphates, aliphatic phosphates and the like. Acyl groups as used herein may optionally include further substituent groups.

[0154] As used herein, "alicyclic" means a cyclic ring system wherein the ring is aliphatic. The ring system can comprise one or more rings wherein at least one ring is aliphatic. Preferred alicyclics include rings having from about 5 to about 9 carbon atoms in the ring. Alicyclic as used herein may optionally include further substituent groups.

[0155] As used herein, "aliphatic" means a straight or branched hydrocarbon radical containing up to twenty four carbon atoms wherein the saturation between any two carbon atoms is a single, double or triple bond. An aliphatic group preferably contains from 1 to about 24 carbon atoms, more typically from 1 to about 12 carbon atoms with from 1 to about 6 carbon atoms being more preferred. The straight or branched chain of an aliphatic group may be interrupted with one or more heteroatoms that include nitrogen, oxygen, sulfur and phosphorus. Such aliphatic groups interrupted by heteroatoms include without limitation, polyalkoxys, such as polyalkylene glycols, polyamines, and polyimines. Aliphatic groups as used herein may optionally include further substituent groups.

[0156] As used herein, "alkoxy" means a radical formed between an alkyl group and an oxygen atom wherein the oxygen atom is used to attach the alkoxy group to a parent molecule. Examples of alkoxy groups include without limitation, methoxy, ethoxy, propoxy, isopropoxy, n-butoxy, sec-butoxy, tert-butoxy, n-pentoxy, neopentoxy, n-hexoxy and the like. Alkoxy groups as used herein may optionally include further substituent groups.

[0157] As used herein, "aminoalkyl" means an amino substituted C.sub.1-C.sub.12 alkyl radical. The alkyl portion of the radical forms a covalent bond with a parent molecule. The amino group can be located at any position and the aminoalkyl group can be substituted with a further substituent group at the alkyl and/or amino portions.

[0158] As used herein, "aralkyl" and "arylalkyl" mean an aromatic group that is covalently linked to a C.sub.1-C.sub.12 alkyl radical. The alkyl radical portion of the resulting aralkyl (or arylalkyl) group forms a covalent bond with a parent molecule. Examples include without limitation, benzyl, phenethyl and the like. Aralkyl groups as used herein may optionally include further substituent groups attached to the alkyl, the aryl or both groups that form the radical group.

[0159] As used herein, "aryl" and "aromatic" mean a mono- or polycyclic carbocyclic ring system radicals having one or more aromatic rings. Examples of aryl groups include without limitation, phenyl, naphthyl, tetrahydronaphthyl, indanyl, idenyl and the like. Preferred aryl ring systems have from about 5 to about 20 carbon atoms in one or more rings. Aryl groups as used herein may optionally include further substituent groups.

[0160] As used herein, "halo" and "halogen," mean an atom selected from fluorine, chlorine, bromine and iodine.

[0161] As used herein, "heteroaryl," and "heteroaromatic," mean a radical comprising a mono- or poly-cyclic aromatic ring, ring system or fused ring system wherein at least one of the rings is aromatic and includes one or more heteroatoms. Heteroaryl is also meant to include fused ring systems including systems where one or more of the fused rings contain no heteroatoms. Heteroaryl groups typically include one ring atom selected from sulfur, nitrogen or oxygen. Examples of heteroaryl groups include without limitation, pyridinyl, pyrazinyl, pyrimidinyl, pyrrolyl, pyrazolyl, imidazolyl, thiazolyl, oxazolyl, isooxazolyl, thiadiazolyl, oxadiazolyl, thiophenyl, furanyl, quinolinyl, isoquinolinyl, benzimidazolyl, benzooxazolyl, quinoxalinyl and the like. Heteroaryl radicals can be attached to a parent molecule directly or through a linking moiety such as an aliphatic group or hetero atom. Heteroaryl groups as used herein may optionally include further substituent groups.

B. Oligomeric Compounds

[0162] As used herein, the term "oligomeric compound" refers to a contiguous sequence of linked monomer subunits. Each linked monomer subunit normally includes a heterocyclic base moiety but monomer subunits also includes those without a heterocyclic base moiety such as abasic monomer subunits. At least some and generally most if not essentially all of the heterocyclic bases in an oligomeric compound are capable of hybridizing to a nucleic acid molecule, normally a preselected RNA target. The term "oligomeric compound" therefore includes oligonucleotides, oligonucleotide analogs and oligonucleosides. It also includes polymers having one or a plurality of nucleosides having sugar surrogate groups.

[0163] In certain embodiments, oligomeric compounds comprise a plurality of monomer subunits independently selected from naturally occurring nucleosides, non-naturally occurring nucleosides, modified nucleosides and nucleosides having sugar surrogate groups. In certain embodiments, oligomeric compounds are single stranded. In certain embodiments, oligomeric compounds are double stranded comprising a double-stranded duplex. In certain embodiments, oligomeric compounds comprise one or more conjugate groups and/or terminal groups.

[0164] In certain embodiments, the oligomeric compounds as provided herein can be modified by covalent attachment of one or more terminal groups to the 5' or 3'-terminal groups. A terminal group can also be attached at any other position at one of the terminal ends of the oligomeric compound. As used herein the terms "5'-terminal group", "3'-terminal group", "terminal group" and combinations thereof are meant to include useful groups known to the art skilled that can be placed on one or both of the terminal ends, including but not limited to the 5' and 3'-ends of an oligomeric compound respectively, for various purposes such as enabling the tracking of the oligomeric compound (a fluorescent label or other reporter group), improving the pharmacokinetics or pharmacodynamics of the oligomeric compound (such as for example: uptake and/or delivery) or enhancing one or more other desirable properties of the oligomeric compound (a group for improving nuclease stability or binding affinity). In certain embodiments, 5' and 3'-terminal groups include without limitation, modified or unmodified nucleosides; two or more linked nucleosides that are independently, modified or unmodified; conjugate groups; capping groups; phosphate moieties; and protecting groups.

[0165] In certain embodiments, the present invention provides oligomeric compounds. In certain embodiments, such oligomeric compounds comprise oligonucleotides optionally comprising one or more conjugate and/or terminal groups. In certain embodiments, an oligomeric compound consists of an oligonucleotide. In certain embodiments, oligonucleotides comprise one or more chemical modifications. Such chemical modifications include modifications of one or more nucleoside (including modifications to the sugar moiety and/or the nucleobase) and/or modifications to one or more internucleoside linkage.

[0166] a. Certain Modified Nucleosides

[0167] Provided herein are oligomeric compounds comprising modified nucleosides. Such modified nucleosides comprise a modified sugar moeity, a modified nucleobase, or both a modified sugar moiety and a modified nucleobase.

[0168] i. Certain Modified Sugar Moieties

[0169] In certain embodiments, compounds of the invention comprise one or more modified nucleosides comprising a modified sugar moiety. Such compounds comprising one or more sugar-modified nucleosides may have desirable properties, such as enhanced nuclease stability or increased binding affinity with a target nucleic acid relative to an oligonucleotide comprising only nucleosides comprising naturally occurring sugar moieties. In certain embodiments, modified sugar moieties are substituted sugar moieties. In certain embodiments, modified sugar moieties are sugar surrogates. Such sugar surrogates may comprise one or more substitutions corresponding to those of substituted sugar moieties.

[0170] In certain embodiments, modified sugar moieties are substituted sugar moieties comprising one or more non-bridging sugar substituents, including but not limited to substituents at the 2' and/or 5' positions. Examples of sugar substituents suitable for the 2'-position, include, but are not limited to: 2'-F, 2'-OCH.sub.3 ("OMe" or "O-methyl"), and 2'-O(CH.sub.2).sub.2OCH.sub.3 ("MOE"). In certain embodiments, sugar substituents at the 2' position are selected from allyl, amino, azido, thio, O-allyl, O--C.sub.1-C.sub.10 alkyl, O--C.sub.1-C.sub.10 substituted alkyl; OCF.sub.3, O(CH.sub.2).sub.2SCH.sub.3, O(CH.sub.2).sub.2--O--N(Rm)(Rn), and O--CH.sub.2--C(.dbd.O)--N(Rm)(Rn), where each Rm and Rn is, independently, H or substituted or unsubstituted C.sub.1-C.sub.10 alkyl. Examples of sugar substituents at the 5'-position, include, but are not limited to: 5'-methyl (R or S); 5'-vinyl, and 5'-methoxy. In certain embodiments, substituted sugars comprise more than one non-bridging sugar substituent, for example, 2'-F-5'-methyl sugar moieties (see, e.g., PCT International Application WO 2008/101157, for additional 5', 2'-bis substituted sugar moieties and nucleosides).

[0171] Nucleosides comprising 2'-substituted sugar moieties are referred to as 2'-substituted nucleosides. In certain embodiments, a 2'-substituted nucleoside comprises a 2'-substituent group selected from halo, allyl, amino, azido, SH, CN, OCN, CF.sub.3, OCF.sub.3, O, S, or N(R.sub.m)-alkyl; O, S, or N(R.sub.m)-alkenyl; O, S or N(R.sub.m)-alkynyl; O-alkylenyl-O-alkyl, alkynyl, alkaryl, aralkyl, O-alkaryl, O-aralkyl, O(CH.sub.2).sub.2SCH.sub.3, O--(CH.sub.2).sub.2--O--N(R.sub.m)(R.sub.n) or O--CH.sub.2--C(.dbd.O)--N(R.sub.m)(R.sub.n), where each R.sub.m and R.sub.n is, independently, H, an amino protecting group or substituted or unsubstituted C.sub.1-C.sub.10 alkyl. These 2'-substituent groups can be further substituted with one or more substituent groups independently selected from hydroxyl, amino, alkoxy, carboxy, benzyl, phenyl, nitro (NO.sub.2), thiol, thioalkoxy (S-alkyl), halogen, alkyl, aryl, alkenyl and alkynyl.

[0172] In certain embodiments, a 2'-substituted nucleoside comprises a 2'-substituent group selected from F, NH.sub.2, N.sub.3, OCF.sub.3, O--CH.sub.3, O(CH.sub.2).sub.3NH.sub.2, CH.sub.2--CH.dbd.CH.sub.2, O--CH.sub.2--CH.dbd.CH.sub.2, OCH.sub.2CH.sub.2OCH.sub.3, O(CH.sub.2).sub.2SCH.sub.3, O--(CH.sub.2).sub.2--O--N(R.sub.m)(R.sub.n), O(CH.sub.2).sub.2O(CH.sub.2).sub.2N(CH.sub.3).sub.2, and N-substituted acetamide (O--CH.sub.2--C(.dbd.O)--N(R.sub.m)(R.sub.n) where each R.sub.m and R.sub.n is, independently, H, an amino protecting group or substituted or unsubstituted C.sub.1-C.sub.10 alkyl.

[0173] In certain embodiments, a 2'-substituted nucleoside comprises a sugar moiety comprising a 2'-substituent group selected from F, OCF.sub.3, O--CH.sub.3, OCH.sub.2CH.sub.2OCH.sub.3, O(CH.sub.2).sub.2SCH.sub.3, O--(CH.sub.2).sub.2--O--N(CH.sub.3).sub.2, --O(CH.sub.2).sub.2O(CH.sub.2).sub.2N(CH.sub.3).sub.2, and O--CH.sub.2--C(.dbd.O)--N(H)CH.sub.3.

[0174] In certain embodiments, a 2'-substituted nucleoside comprises a sugar moiety comprising a 2'-substituent group selected from F, O--CH.sub.3, and OCH.sub.2CH.sub.2OCH.sub.3.

[0175] Certain modifed sugar moieties comprise a bridging sugar substituent that forms a second ring resulting in a bicyclic sugar moiety. In certain such embodiments, the bicyclic sugar moiety comprises a bridge between the 4' and the 2' furanose ring atoms. Examples of such 4' to 2' sugar substituents, include, but are not limited to: --[C(R.sub.a)(R.sub.b)].sub.n--, --[C(R.sub.a)(R.sub.b)].sub.n--O--, --C(R.sub.aR.sub.b)--N(R)--O-- or, --C(R.sub.aR.sub.b)--O--N(R)--; 4'-(CH.sub.2).sub.2-2', 4'-(CH.sub.2)--O-2' (LNA); 4'-(CH.sub.2)--S-2; 4'-(CH.sub.2).sub.2--O-2' (ENA); 4'-CH(CH.sub.3)--O-2' (cEt) and 4'-CH(CH.sub.2OCH.sub.3)--O-2', and analogs thereof (see, e.g., U.S. Pat. No. 7,399,845, issued on Jul. 15, 2008); 4'-C(CH.sub.3)(CH.sub.3)--O-2' and analogs thereof, (see, e.g., WO2009/006478, published Jan. 8, 2009); 4'-CH.sub.2--N(OCH.sub.3)-2' and analogs thereof (see, e.g., WO2008/150729, published Dec. 11, 2008); 4'-CH.sub.2--O--N(CH.sub.3)-2' (see, e.g., US2004/0171570, published Sep. 2, 2004); 4'-CH.sub.2--O--N(R)-2', and 4'-CH.sub.2--N(R)--O-2'-, wherein each R is, independently, H, a protecting group, or C.sub.1-C.sub.12 alkyl; 4'-CH.sub.2--N(R)--O-2', wherein R is H, C.sub.1-C.sub.12 alkyl, or a protecting group (see, U.S. Pat. No. 7,427,672, issued on Sep. 23, 2008); 4'-CH.sub.2--C(H)(CH.sub.3)-2' (see, e.g., Chattopadhyaya, et al., J. Org. Chem., 2009, 74, 118-134); and 4'-CH.sub.2--C(.dbd.CH.sub.2)-2' and analogs thereof (see, published PCT International Application WO 2008/154401, published on Dec. 8, 2008).

[0176] In certain embodiments, such 4' to 2' bridges independently comprise from 1 to 4 linked groups (generally forming a 4 to 6 membered ring with the parent sugar moiety) independently selected from --[C(R.sub.a)(R.sub.b)].sub.n--, --C(R.sub.a).dbd.C(R.sub.b)--, --C(R.sub.a).dbd.N--, --C(.dbd.NR.sub.a)--, --C(.dbd.O)--, --C(.dbd.S)--, --O--, --Si(R.sub.a).sub.2--, --S(.dbd.O).sub.x--, and --N(R.sub.a)--;

[0177] wherein:

[0178] x is 0, 1, or 2;

[0179] n is 1, 2, 3, or 4;

[0180] each R.sub.a and R.sub.b is, independently, H, a protecting group, hydroxyl, C.sub.1-C.sub.12 alkyl, substituted C.sub.1-C.sub.12 alkyl, C.sub.2-C.sub.12 alkenyl, substituted C.sub.2-C.sub.12 alkenyl, C.sub.2-C.sub.12 alkynyl, substituted C.sub.2-C.sub.12 alkynyl, C.sub.5-C.sub.20 aryl, substituted C.sub.5-C.sub.20 aryl, heterocycle radical, substituted heterocycle radical, heteroaryl, substituted heteroaryl, C.sub.5-C.sub.7 alicyclic radical, substituted C.sub.5-C.sub.7 alicyclic radical, halogen, OJ.sub.1, NJ.sub.1J.sub.2, SJ.sub.1, N.sub.3, COOJ.sub.1, acyl (C(.dbd.O)--H), substituted acyl, CN, sulfonyl (S(.dbd.O).sub.2-J.sub.1), or sulfoxyl (S(.dbd.O)-J.sub.1); and

[0181] each J.sub.1 and J.sub.2 is, independently, H, C.sub.1-C.sub.12 alkyl, substituted C.sub.1-C.sub.12 alkyl, C.sub.2-C.sub.12 alkenyl, substituted C.sub.2-C.sub.12 alkenyl, C.sub.2-C.sub.12 alkynyl, substituted C.sub.2-C.sub.12 alkynyl, C.sub.5-C.sub.20 aryl, substituted C.sub.5-C.sub.20 aryl, acyl (C(.dbd.O)--H), substituted acyl, a heterocycle radical, a substituted heterocycle radical, C.sub.1-C.sub.12 aminoalkyl, substituted C.sub.1-C.sub.12 aminoalkyl, or a protecting group.

[0182] Nucleosides comprising bicyclic sugar moieties are referred to as bicyclic nucleosides or BNAs. Bicyclic nucleosides include, but are not limited to, (A) .alpha.-L-Methyleneoxy (4'-CH.sub.2--O-2') BNA, (B) .beta.-D-Methyleneoxy (4'-CH.sub.2--O-2') BNA (also referred to as locked nucleic acid or LNA), (C) Ethyleneoxy (4'-(CH.sub.2).sub.2--O-2') BNA, (D) Aminooxy (4'-CH.sub.2--O--N(R)-2') BNA, (E) Oxyamino (4'-CH.sub.2--N(R)--O-2') BNA, (F) Methyl(methyleneoxy) (4'-CH(CH.sub.3)--O-2') BNA (also referred to as constrained ethyl or cEt), (G) methylene-thio (4'-CH.sub.2--S-2') BNA, (H) methylene-amino (4'-CH.sub.2--N(R)-2') BNA, (I) methyl carbocyclic (4'-CH.sub.2--CH(CH.sub.3)-2') BNA, (J) propylene carbocyclic (4'-(CH.sub.2).sub.3-2') BNA, and (K) Ethylene(methoxy) (4'-(CH(CH.sub.2OMe)-O-2') BNA (also referred to as constrained MOE or cMOE) as depicted below.

##STR00006## ##STR00007##

wherein Bx is a nucleobase moiety and R is, independently, H, a protecting group, or C.sub.1-C.sub.12 alkyl.

[0183] Additional bicyclic sugar moieties are known in the art, for example: Singh et al., Chem. Commun., 1998, 4, 455-456; Koshkin et al., Tetrahedron, 1998, 54, 3607-3630; Wahlestedt et al., Proc. Natl. Acad. Sci. U.S.A, 2000, 97, 5633-5638; Kumar et al., Bioorg. Med. Chem. Lett., 1998, 8, 2219-2222; Singh et al., J. Org. Chem., 1998, 63, 10035-10039; Srivastava et al., J. Am. Chem. Soc., 129(26) 8362-8379 (Jul. 4, 2007); Elayadi et al., Curr. Opinion Invens. Drugs, 2001, 2, 558-561; Braasch et al., Chem. Biol., 2001, 8, 1-7; Orum et al., Curr. Opinion Mol. Ther., 2001, 3, 239-243; U.S. Pat. Nos. 7,053,207, 6,268,490, 6,770,748, 6,794,499, 7,034,133, 6,525,191, 6,670,461, and 7,399,845; WO 2004/106356, WO 1994/14226, WO 2005/021570, and WO 2007/134181; U.S. Patent Publication Nos. US2004/0171570, US2007/0287831, and US2008/0039618; U.S. patent Ser. Nos. 12/129,154, 60/989,574, 61/026,995, 61/026,998, 61/056,564, 61/086,231, 61/097,787, and 61/099,844; and PCT International Applications Nos. PCT/US2008/064591, PCT/US2008/066154, and PCT/US2008/068922.

[0184] In certain embodiments, bicyclic sugar moieties and nucleosides incorporating such bicyclic sugar moieties are further defined by isomeric configuration. For example, a nucleoside comprising a 4'-2' methylene-oxy bridge, may be in the .alpha.-L configuration or in the .beta.-D configuration. Previously, .alpha.-L-methyleneoxy (4'-CH.sub.2--O-2') bicyclic nucleosides have been incorporated into antisense oligonucleotides that showed antisense activity (Frieden et al., Nucleic Acids Research, 2003, 21, 6365-6372).

[0185] In certain embodiments, substituted sugar moieties comprise one or more non-bridging sugar substituent and one or more bridging sugar substituent (e.g., 5'-substituted and 4'-2' bridged sugars). (see, PCT International Application WO 2007/134181, published on Nov. 22, 2007, wherein LNA is substituted with, for example, a 5'-methyl or a 5'-vinyl group).

[0186] In certain embodiments, modified sugar moieties are sugar surrogates. In certain such embodiments, the oxygen atom of the naturally occurring sugar is substituted, e.g., with a sulfer, carbon or nitrogen atom. In certain such embodiments, such modified sugar moiety also comprises bridging and/or non-bridging substituents as described above. For example, certain sugar surrogates comprise a 4'-sulfer atom and a substitution at the 2'-position (see, e.g., published U.S. Patent Application US2005/0130923, published on Jun. 16, 2005) and/or the 5' position. By way of additional example, carbocyclic bicyclic nucleosides having a 4'-2' bridge have been described (see, e.g., Freier et al., Nucleic Acids Research, 1997, 25(22), 4429-4443 and Albaek et al., J. Org. Chem., 2006, 71, 7731-7740).

[0187] In certain embodiments, sugar surrogates comprise rings having other than 5-atoms. For example, in certain embodiments, a sugar surrogate comprises a six-membered tetrahydropyran. Such tetrahydropyrans may be further modified or substituted. Nucleosides comprising such modified tetrahydropyrans include, but are not limited to, hexitol nucleic acid (HNA), anitol nucleic acid (ANA), manitol nucleic acid (MNA) (see Leumann, CJ. Bioorg. & Med. Chem. (2002) 10:841-854), fluoro HNA (F-HNA), and those compounds having Formula VII:

##STR00008##

wherein independently for each of said at least one tetrahydropyran nucleoside analog of Formula VII:

[0188] Bx is a nucleobase moiety;

[0189] T.sub.3 and T.sub.4 are each, independently, an internucleoside linking group linking the tetrahydropyran nucleoside analog to the antisense compound or one of T.sub.3 and T.sub.4 is an internucleoside linking group linking the tetrahydropyran nucleoside analog to the antisense compound and the other of T.sub.3 and T.sub.4 is H, a hydroxyl protecting group, a linked conjugate group, or a 5' or 3'-terminal group;

q.sub.1, q.sub.2, q.sub.3, q.sub.4, q.sub.5, q.sub.6 and q.sub.7 are each, independently, H, C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, substituted C.sub.2-C.sub.6 alkenyl, C.sub.2-C.sub.6 alkynyl, or substituted C.sub.2-C.sub.6 alkynyl; and

[0190] each of R.sub.1 and R.sub.2 is independently selected from among: hydrogen, halogen, substituted or unsubstituted alkoxy, NJ.sub.1J.sub.2, SJ.sub.1, N.sub.3, OC(.dbd.X)J.sub.1, OC(.dbd.X)NJ.sub.1J.sub.2, NJ.sub.3C(.dbd.X)NJ.sub.1J.sub.2, and CN, wherein X is O, S or NJ.sub.1, and each J.sub.1, J.sub.2, and J.sub.3 is, independently, H or C.sub.1-C.sub.6 alkyl.

[0191] In certain embodiments, the modified THP nucleosides of Formula VII are provided wherein q.sub.1, q.sub.2, q.sub.3, q.sub.4, q.sub.5, q.sub.6 and q.sub.7 are each H. In certain embodiments, at least one of q.sub.1, q.sub.2, q.sub.3, q.sub.4, q.sub.5, q.sub.6 and q.sub.7 is other than H. In certain embodiments, at least one of q.sub.1, q.sub.2, q.sub.3, q.sub.4, q.sub.5, q.sub.6 and q.sub.7 is methyl. In certain embodiments, THP nucleosides of Formula VII are provided wherein one of R.sub.1 and R.sub.2 is F. In certain embodiments, R.sub.1 is fluoro and R.sub.2 is H, R.sub.1 is methoxy and R.sub.2 is H, and R.sub.1 is methoxyethoxy and R.sub.2 is H.

[0192] Many other bicyclo and tricyclo sugar surrogate ring systems are also known in the art that can be used to modify nucleosides for incorporation into antisense compounds (see, e.g., review article: Leumann, J. C, Bioorganic & Medicinal Chemistry, 2002, 10, 841-854).

[0193] Combinations of modifications are also provided without limitation, such as 2'-F-5'-methyl substituted nucleosides (see PCT International Application WO 2008/101157 Published on Aug. 21, 2008 for other disclosed 5', 2'-bis substituted nucleosides) and replacement of the ribosyl ring oxygen atom with S and further substitution at the 2'-position (see published U.S. Patent Application US2005-0130923, published on Jun. 16, 2005) or alternatively 5'-substitution of a bicyclic nucleic acid (see PCT International Application WO 2007/134181, published on Nov. 22, 2007 wherein a 4'-CH.sub.2--O-2' bicyclic nucleoside is further substituted at the 5' position with a 5'-methyl or a 5'-vinyl group). The synthesis and preparation of carbocyclic bicyclic nucleosides along with their oligomerization and biochemical studies have also been described (see, e.g., Srivastava et al., J. Am. Chem. Soc. 2007, 129(26), 8362-8379).

[0194] In certain embodiments, the present invention provides oligonucleotides comprising modified nucleosides. Those modified nucleotides may include modified sugars, modified nucleobases, and/or modified linkages. The specific modifications are selected such that the resulting oligonucleotides possess desirable characteristics. In certain embodiments, oligonucleotides comprise one or more RNA-like nucleosides. In certain embodiments, oligonucleotides comprise one or more DNA-like nucleosides.

[0195] In certain embodiments, the oligomeric compounds provided herein include RNA-like nucleosides that have been modified to influence the sugar conformation to have predominantly 3'-endo conformational geometry. In certain embodiments, such modified nucleosides include synthetic modifications of the heterocyclic base moiety, the sugar moiety or both to induce a 3'-endo sugar conformation. In certain embodiments, RNA-like nucleosides are selected from RNA surrogates such as including, but not limited to, F-HNA or cyclohexenyl nucleic acid. RNA-like nucleosides are used to replace and mimic RNA nucleosides in an oligomeric compound so that particular properties of the oligomeric compound can be enhanced. Typically RNA-like nucleosides are used in the 5' and 3'-regions (wings) of gapped oligomeric compounds to improve stability in the presence of nucleases and also to increase the affinity for nucleic a nucleic acid target. Other properties that can also be enhanced by using RNA-like nucleosides include but aren't limited to modulation of pharmacokinetic properties through modification of protein binding, protein off-rate, absorption and clearance as well as chemical stability and specificity of the oligomeric compound (affinity and specificity for enzymes as well as for complementary sequences); and increasing efficacy of RNA cleavage.

[0196] In certain embodiments, RNA-like nucleosides include modified nucleosides comprising one or more 2', 3', 4' and 5' substituent groups, bicyclic nucleosides and RNA-surrogates. In certain embodiments, RNA-like nucleosides include, but are not limited to modified nucleosides comprising 2'-ribo-substituent groups selected from: F, OCH.sub.3, O--C.sub.2-C.sub.4 alkyl, O--CH.sub.2CH.dbd.CH.sub.2, O--(CH.sub.2).sub.2--O--CH.sub.3 (MOE), O--(CH.sub.2).sub.3--NH.sub.2, O--(CH.sub.2).sub.2--O--N(R.sub.1).sub.2, O--CH.sub.2C(O)--N(R.sub.1).sub.2, O--(CH.sub.2).sub.2--O--(CH.sub.2).sub.2--N(R.sub.1).sub.2, O--(CH.sub.2).sub.3--NHR.sub.1 and O--CH.sub.2--N(H)--C(.dbd.NR.sub.1)[N(R.sub.1).sub.2] wherein each R.sub.1 is, typically H, C.sub.1-C.sub.12 alkyl or a protecting group. RNA-like nucleosides also include but are not limited to modified nucleosides having a bicyclic furanosyl sugar moiety (bicyclic nucleosides) comprising a bridging group between the 4' and 2'-carbon atoms. Such bicyclic nucleosides include, but are not limited to bridging groups consisting of from 1 to 3 linked biradical groups selected from O, S, NR.sub.a, C(R.sub.b)(R.sub.c), C.dbd.O, C(R.sub.b).dbd.C(R.sub.c) and C[.dbd.C(R.sub.b)(R.sub.c)] wherein C(R.sub.b).dbd.C(R.sub.c) counts as 2 of said biradical groups wherein each R.sub.a, R.sub.b and R.sub.c is, independently, H, C.sub.1-C.sub.6 alkyl, C.sub.1-C.sub.6 alkoxy, C.sub.2-C.sub.6 alkenyl or C.sub.2-C.sub.6 alkynyl. In certain embodiments, the bridging groups include, but are not limited to 4'-(CH.sub.2)--O-2', 4'-(CH.sub.2)--S-2', 4'-(CH.sub.2).sub.2--O-2', 4'-CH(CH.sub.3)--O-2', 4'-CH(CH.sub.2OCH.sub.3)--O-2', 4'-C(CH.sub.3).sub.2--O-2', 4'-CH.sub.2--N(OCH.sub.3)-2', 4'-CH.sub.2--O--N(CH.sub.3)-2', 4'-CH.sub.2--NCH.sub.3--O-2', 4'-CH.sub.2--C(H)(CH.sub.3)-2' and 4'-CH.sub.2--C(.dbd.CH.sub.2)-2'. In certain embodiments, the bridging groups include, but are not limited to 4'-CH.sub.2--O-2', 4'-(CH.sub.2).sub.2--O-2', 4'-C(H)[(R)--CH.sub.3]--O-2' and 4'-C(H)[(S)--CH.sub.3]--O-2'.

[0197] In certain embodiments, the oligomeric compounds provided herein include DNA-like nucleosides that have been modified to influence the sugar conformation to have predominantly 2'-endo conformational geometry. Such modified nucleosides can include synthetic modifications of the heterocyclic base moiety, the sugar moiety or both to induce the desired 2'-endo sugar conformation. These modified nucleosides are used to mimic RNA nucleosides so that particular properties of an oligomeric compound can be enhanced while maintaining the desirable 2'-endo conformational geometry.

[0198] In certain embodiments, DNA-like nucleosides include, but are not limited to 2'-substituted furanosyl nucleosides comprising: 2'=CH.sub.2, 2'-ara-CN, 2'-ara-F, 2'-ara-Br or 2'-ara-Cl, 2'-ara-N.sub.3, 2'-ara-OH, 2'-ara-O--CH.sub.3 or 2'-dehydro-2'-ara-CH.sub.3.

[0199] The C3'-endo and C2'-endo conformational geometries are shown below:

##STR00009##

[0200] ii Certain Modified Nucleobases

[0201] In certain embodiments, nucleosides of the present invention comprise one or more unmodified nucleobases. In certain embodiments, nucleosides of the present invention comprise one or more modifed nucleobases (heterocyclic base moieties).

[0202] In one embodiment, a heterocyclic base moiety is any heterocyclic system that contains one or more atoms or groups of atoms capable of hydrogen bonding to a heterocyclic base of a nucleic acid. In certain embodiments, nucleobase refers to purines, modified purines, pyrimidines and modified pyrimidines. In certain embodiments, nucleobase refers to unmodified or naturally occurring nucleobases which include, but are not limited to, the purine bases adenine (A) and guanine (G), and the pyrimidine bases thymine (T), cytosine (C) and uracil (U) and analogs thereof such as 5-methyl cytosine. The terms nucleobase and heterocyclic base moiety also include optional protection for any reactive functional groups such as 4-N-benzoylcytosine, 4-N-benzoyl-5-methyl-cytosine, 6-N-benzoyladenine or 2-N-isobutyrylguanine.

[0203] In certain embodiments, heterocyclic base moieties include without limitation modified nucleobases such as 5-methylcytosine (5-me-C), 5-hydroxymethyl cytosine, xanthine, hypoxanthine, 2-aminoadenine, 6-methyl and other alkyl derivatives of adenine and guanine, 2-propyl and other alkyl derivatives of adenine and guanine, 2-thiouracil, 2-thiothymine and 2-thiocytosine, 5-halouracil and cytosine, 5-propynyl (--C.ident.C--CH.sub.3) uracil and cytosine and other alkynyl derivatives of pyrimidine bases, 6-azo uracil, cytosine and thymine, 5-uracil (pseudouracil), 4-thiouracil, 8-halo, 8-amino, 8-thiol, 8-thioalkyl, 8-hydroxyl and other 8-substituted adenines and guanines, 5-halo particularly 5-bromo, 5-trifluoromethyl and other 5-substituted uracils and cytosines, 7-methylguanine and 7-methyladenine, 2-F-adenine, 2-amino-adenine, 8-azaguanine and 8-azaadenine, 7-deazaguanine and 7-deazaadenine, 3-deazaguanine and 3-deazaadenine, universal bases, hydrophobic bases, promiscuous bases, size-expanded bases, and fluorinated bases as defined herein.

[0204] In certain embodiments, heterocyclic base moieties include without limitation tricyclic pyrimidines such as 1,3-diazaphenoxazine-2-one, 1,3-diazaphenothiazine-2-one and 9-(2-aminoethoxy)-1,3-diazaphenoxazine-2-one (G-clamp). Heterocyclic base moieties also include those in which the purine or pyrimidine base is replaced with other heterocycles, for example 7-deaza-adenine, 7-deazaguanosine, 2-aminopyridine and 2-pyridone. Further heterocyclic base moieties include without limitation those known to the art skilled (see for example: U.S. Pat. No. 3,687,808; Swayze et al., The Medicinal Chemistry of Oligonucleotides in Antisense a Drug Technology, Chapter 6, pages 143-182, Crooke, S. T., ed., 2008); The Concise Encyclopedia Of Polymer Science And Engineering, Kroschwitz, J. I., Ed., John Wiley & Sons, 1990, 858-859; Englisch et al., Angewandte Chemie, International Edition, 1991, 30, 613; Sanghvi, Y. S., Chapter 15, Antisense Research and Applications, Crooke, S. T. and Lebleu, B., Eds., CRC Press, 1993, 273-302).

[0205] Modified polycyclic heterocyclic compounds useful as heterocyclic base moieties are disclosed in the above noted U.S. Pat. No. 3,687,808, as well as U.S. Pat. Nos. 4,845,205; 5,130,302; 5,134,066; 5,175,273; 5,367,066; 5,432,272; 5,434,257; 5,457,187; 5,459,255; 5,484,908; 5,502,177; 5,525,711; 5,552,540; 5,587,469; 5,594,121, 5,596,091; 5,614,617; 5,645,985; 5,646,269; 5,681,941; 5,750,692; 5,763,588; 5,830,653; 6,005,096; and U.S. Patent Application Publication 20030158403, each of which is incorporated herein by reference in its entirety.

[0206] b. Certain Internucleoside Linkages

[0207] In certain embodiments, nucleosides may be linked together using any internucleoside linkage to form oligonucleotides. The two main classes of internucleoside linking groups are defined by the presence or absence of a phosphorus atom. Representative phosphorus containing internucleoside linkages include, but are not limited to, phosphodiesters (P.dbd.O), phosphotriesters, methylphosphonates, phosphoramidate, and phosphorothioates (P.dbd.S). Representative non-phosphorus containing internucleoside linking groups include, but are not limited to, methylenemethylimino (--CH.sub.2--N(CH.sub.3)--O--CH.sub.2--), thiodiester (--O--C(O)--S--), thionocarbamate (--O--C(O)(NH)--S--); siloxane (--O--Si(H).sub.2--O--); and N,N'-dimethylhydrazine (--CH.sub.2--N(CH.sub.3)--N(CH.sub.3)--). Modified linkages, compared to natural phosphodiester linkages, can be used to alter, typically increase, nuclease resistance of the oligonucleotide. In certain embodiments, internucleoside linkages having a chiral atom can be prepared as a racemic mixture, or as separate enantiomers. Representative chiral linkages include, but are not limited to, alkylphosphonates and phosphorothioates. Methods of preparation of phosphorous-containing and non-phosphorous-containing internucleoside linkages are well known to those skilled in the art.

[0208] The oligonucleotides described herein contain one or more asymmetric centers and thus give rise to enantiomers, diastereomers, and other stereoisomeric configurations that may be defined, in terms of absolute stereochemistry, as (R) or (S), .alpha. or .beta. such as for sugar anomers, or as (D) or (L) such as for amino acids etc. Included in the antisense compounds provided herein are all such possible isomers, as well as their racemic and optically pure forms.

[0209] Neutral internucleoside linkages include without limitation, phosphotriesters, methylphosphonates, MMI (3'-CH.sub.2--N(CH.sub.3)--O-5'), amide-3 (3'-CH.sub.2--C(.dbd.O)--N(H)-5'), amide-4 (3'-CH.sub.2--N(H)--C(.dbd.O)-5'), formacetal (3'-O--CH.sub.2--O-5'), and thioformacetal (3'-S--CH.sub.2--O-5'). Further neutral internucleoside linkages include nonionic linkages comprising siloxane (dialkylsiloxane), carboxylate ester, carboxamide, sulfide, sulfonate ester and amides (See for example: Carbohydrate Modifications in Antisense Research; Y. S. Sanghvi and P. D. Cook, Eds., ACS Symposium Series 580; Chapters 3 and 4, 40-65). Further neutral internucleoside linkages include nonionic linkages comprising mixed N, O, S and CH.sub.2 component parts.

[0210] c. Certain Motifs

[0211] In certain embodiments, oligomeric compounds comprise or consist of oligonucleotides. In certain embodiments, such oligonucleotides comprise one or more chemical modifications. In certain embodiments, chemically modified oligonucleotides comprise one or more modified sugars. In certain embodiments, chemically modified oligonucleotides comprise one or more modified nucleobases. In certain embodiments, chemically modified oligonucleotides comprise one or more modified internucleoside linkages. In certain embodiments, the chemical modifications (sugar modifications, nucleobase modifications, and/or linkage modifications) define a pattern or motif. In certain embodiments, the patterns of chemical modifications of sugar moieties, internucleoside linkages, and nucleobases are each independent of one another. Thus, an oligonucleotide may be described by its sugar modification motif, internucleoside linkage motif and/or nucleobase modification motif (as used herein, nucleobase modification motif describes the chemical modifications to the nucleobases independent of the sequence of nucleobases).

[0212] i. Certain Sugar Motifs

[0213] In certain embodiments, oligonucleotides comprise one or more type of modified sugar moieties and/or naturally occurring sugar moieties arranged along an oligonucleotide or region thereof in a defined pattern or sugar motif. Such sugar motifs include but are not limited to any of the sugar modifications discussed herein.

[0214] In certain embodiments, the oligomeric compounds provided herein comprise a gapmer sugar motif, which comprises two external regions or "wings" and a central or internal region or "gap" (also referred to as 5'-region and 3'-region). The three regions of a gapmer sugar motif (the 5'-wing, the gap, and the 3'-wing) form a contiguous sequence of nucleosides wherein at least some of the sugar moieties of the nucleosides of each of the wings differ from at least some of the sugar moieties of the nucleosides of the gap. Specifically, at least the sugar moieties of the nucleosides of each wing that are closest to the gap (the 3'-most nucleoside of the 5'-wing and the 5'-most nucleoside of the 3'-wing) differ from the sugar moiety of the neighboring gap nucleosides, thus defining the boundary between the wings and the gap. In certain embodiments, the sugar moieties within the gap are the same as one another. In certain embodiments, the gap includes one or more nucleoside having a sugar moiety that differs from the sugar moiety of one or more other nucleosides of the gap. In certain embodiments, the sugar moieties of the two wings are the same as one another (symmetric sugar gapmer). In certain embodiments, the sugar moieties of the 5'-wing differs from the sugar moieties of the 3'-wing (asymmetric sugar gapmer). In certain embodiments, the sugar moieties in the two wings are selected from at least two different types that are different from the sugar moieties in the gap and at least one of each are in each wing.

[0215] In certain embodiments, the term "gapped oligomeric compound" refers to an oligomeric compound having two external regions or wings and an internal region or gap (also referred to as 5'-region and 3'-region). The three regions form a contiguous sequence of monomer subunits with the sugar moieties of the external regions (wings) being different than the sugar moieties of the internal region (gap). In certain embodiments, the sugar moieties of each monomer subunit within a particular region is essentially the same. In certain embodiments, the sugar moieties of each monomer subunit within each wing region is selected independently from 2 different types of modified nucleosides. In certain embodiments, the sugar moieties of each monomer subunit within each wing region is selected independently from 3 different types of modified nucleosides. In certain embodiments, the sugar moieties of each monomer subunit within each wing region is selected independently from 4 different types of modified nucleosides. In certain embodiments, the sugar moiety of essentially each monomer subunit within the internal region is essentially the same. In certain embodiments, the sugar moiety of each monomer subunit within the internal region is a .beta.-D-2'-deoxyribonucleoside, a nucleoside that is DNA-like and/or a nucleoside that supports RNaseH when in the gap region.

[0216] In certain embodiments, each monomer subunit within a particular region has the same sugar moiety. When the sugar moieties of the external regions are the same the gapmer is a symmetric gapmer and when the sugar moiety used in the 5'-external region is different from the sugar moiety used in the 3'-external region, the gapmer is an asymmetric gapmer. In certain embodiments, the external regions are small (each independently 2, 3, 4, 5 or about 6 monomer subunits) and the monomer subunits comprise non-naturally occurring sugar moieties with the internal region comprising .beta.-D-2'-deoxyribonucleosides. In certain embodiments, the external regions each, independently, comprise from 2 to about 8 monomer subunits having non-naturally occurring sugar moieties and the internal region comprises from 6 to 14 unmodified nucleosides. The internal region or the gap generally comprises .beta.-D-2'-deoxyribonucleosides but can comprise non-naturally occurring sugar moieties. The heterocyclic base and internucleoside linkage is independently variable at each position of a gapped oligomeric compound. A gapped oligomeric compound can further include one or more additional groups including but not limited to capping groups, conjugate groups and other 5' or 3'-terminal groups.

[0217] In certain embodiments, gapped oligomeric compounds comprise an internal region of .beta.-D-2'-deoxyribonucleosides with a single internucleoside linkage having Formula I. In certain embodiments, gapped oligomeric compounds comprise an internal region of .beta.-D-2'-deoxyribonucleosides having two internucleoside linkages having Formula I. In certain embodiments, gapped oligomeric compounds comprise an internal region of .beta.-D-2'-deoxyribonucleosides having three internucleoside linkages having Formula I.

[0218] In certain embodiments, the 5' and 3'-wing regions of gapped oligomeric compounds comprise modified nucleosides wherein all the sugar moieties have the same type of modification such as cEt or MOE. In certain embodiments, the 5' and 3'-wing regions of gapped oligomeric compounds comprise two types of modified nucleosides having sugar moieties independently selected from 2'-substituted sugar moieties and furanosyl bicyclic sugar moieties. In certain embodiments, the 5' and 3'-wing regions of gapped oligomeric compounds comprise two types of modified nucleosides having sugar moieties independently selected from 2'-MOE substituted sugar moieties and furanosyl bicyclic sugar moieties each having a 4'-CH((S)--CH.sub.3)--O-2' bridge.

[0219] In certain embodiments, gapped oligomeric compounds are provided that are from about 10 to about 30 monomer subunits in length. In certain embodiments, gapped oligomeric compounds are provided that are from about 12 to about 20 monomer subunits in length. In certain embodiments, gapped oligomeric compounds are provided that are from about 14 to about 20 monomer subunits in length. In certain embodiments, gapped oligomeric compounds are provided that are from about 14 to about 18 monomer subunits in length.

[0220] ii. Certain Nucleobase Modification Motifs

[0221] In certain embodiments, oligonucleotides comprise chemical modifications to nucleobases arranged along the oligonucleotide or region thereof in a defined pattern or nucleobases modification motif. In certain embodiments, each nucleobase is modified. In certain embodiments, none of the nucleobases is chemically modified.

[0222] In certain embodiments, oligonucleotides comprise a block of modified nucleobases. In certain such embodiments, the block is at the 3'-end of the oligonucleotide. In certain embodiments the block is within 3 nucleotides of the 3'-end of the oligonucleotide. In certain such embodiments, the block is at the 5'-end of the oligonucleotide. In certain embodiments the block is within 3 nucleotides of the 5'-end of the oligonucleotide.

[0223] In certain embodiments, nucleobase modifications are a function of the natural base at a particular position of an oligonucleotide. For example, in certain embodiments each purine or each pyrimidine in an oligonucleotide is modified. In certain embodiments, each adenine is modified. In certain embodiments, each guanine is modified. In certain embodiments, each thymine is modified. In certain embodiments, each cytosine is modified. In certain embodiments, each uracil is modified.

[0224] In certain embodiments, oligonucleotides comprise one or more nucleosides comprising a modified nucleobase. In certain embodiments, oligonucleotides having a gapmer sugar motif comprise a nucleoside comprising a modified nucleobase. In certain such embodiments, one nucleoside comprising a modified nucleobases is in the gap of an oligonucleotide having a gapmer sugar motif. In certain embodiments, the sugar is an unmodified 2' deoxynucleoside. In certain embodiments, the modified nucleobase is selected from: a 2-thio pyrimidine and a 5-propyne pyrimidine

[0225] In certain embodiments, some, all, or none of the cytosine moieties in an oligonucleotide are 5-methyl cytosine moieties. Herein, 5-methyl cytosine is not a "modified nucleobase." Accordingly, unless otherwise indicated, unmodified nucleobases include both cytosine residues having a 5-methyl and those lacking a 5 methyl. In certain embodiments, the methylation state of all or some cytosine nucleobases is specified.

[0226] iii. Certain Nucleoside Motifs

[0227] In certain embodiments, oligomeric compounds comprise nucleosides comprising modified sugar moieties and/or nucleosides comprising modified nucleobases. Such motifs can be described by their sugar motif and their nucleobase motif separately or by their nucleoside motif, which provides positions or patterns of modified nucleosides (whether modified sugar, nucleobase, or both sugar and nucleobase) in an oligonucleotide.

[0228] In certain embodiments, the oligomeric compounds comprise or consist of a region having a gapmer nucleoside motif, which comprises two external regions or "wings" and a central or internal region or "gap." The three regions of a gapmer nucleoside motif (the 5'-wing, the gap, and the 3'-wing) form a contiguous sequence of nucleosides wherein at least some of the sugar moieties and/or nucleobases of the nucleosides of each of the wings differ from at least some of the sugar moieties and/or nucleobase of the nucleosides of the gap. Specifically, at least the nucleosides of each wing that are closest to the gap (the 3'-most nucleoside of the 5'-wing and the 5'-most nucleoside of the 3'-wing) differ from the neighboring gap nucleosides, thus defining the boundary between the wings and the gap. In certain embodiments, the nucleosides within the gap are the same as one another. In certain embodiments, the gap includes one or more nucleoside that differs from one or more other nucleosides of the gap. In certain embodiments, the nucleoside motifs of the two wings are the same as one another (symmetric gapmer). In certain embodiments, the nucleoside motifs of the 5'-wing differs from the nucleoside motif of the 3'-wing (asymmetric gapmer).

[0229] 1. Certain 5'-Wings

[0230] In certain embodiments, the 5'-wing of a gapmer consists of 2 to 8 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 to 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 4 or 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 1 to 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 1 to 3 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 1 or 2 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 or 3 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 or 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 1 nucleoside. In certain embodiments, the 5'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 5 linked nucleosides.

[0231] In certain embodiments, the 5'-wing of a gapmer consists of 2 to 8 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 to 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 4 or 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 to 3 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 or 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 3 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 4 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 5 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 6 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 7 linked nucleosides. In certain embodiments, the 5'-wing of a gapmer consists of 8 linked nucleosides.

[0232] In certain embodiments, the 5'-wing of a gapmer comprises at least one bicyclic nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least two bicyclic nucleosides. In certain embodiments, the 5'-wing of a gapmer comprises at least three bicyclic nucleosides. In certain embodiments, the 5'-wing of a gapmer comprises at least four bicyclic nucleosides. In certain embodiments, the 5'-wing of a gapmer comprises at least one constrained ethyl nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one LNA nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a bicyclic nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a constrained ethyl nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a LNA nucleoside.

[0233] In certain embodiments, the 5'-wing of a gapmer comprises at least one non-bicyclic modified nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one 2'-substituted nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one 2'-MOE nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one 2'-OMe nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a non-bicyclic modified nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a 2'-substituted nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a 2'-MOE nucleoside. In certain embodiments, each nucleoside of the 5'-wing of a gapmer is a 2'-OMe nucleoside.

[0234] In certain embodiments, the 5'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one non-bicyclic modified nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-substituted nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-MOE nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-OMe nucleoside.

[0235] In certain embodiments, the 5'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one non-bicyclic modified nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-substituted nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-MOE nucleoside. In certain embodiments, the 5'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-OMe nucleoside.

[0236] In certain embodiments, the 5'-wing of a gapmer has a nucleoside motif selected from among the following: ABBA; ABB; ABAA; AABAA; AAABAA; AAAABAA; AAAAABAA; AAABAA; AABAA; ABAB; AAABB; AAAAA; ABBC; AA; AAA; AAAA; AAAAB; AAAAAAA; AAAAAAAA; ABBB; AB; ABAB; AAAAB; AABBB; AAAAB; and AABBB, wherein each A is a modified nucleoside of a first type, each B is a modified nucleoside of a second type and each C is a modified nucleoside of a third type. In certain embodiments, such an oligomeric compound is a gapmer. In certain such embodiments, the 3'-wing of the gapmer may comprise any nucleoside motif.

[0237] 2. Certain 3'-Wings

[0238] In certain embodiments, the 3'-wing of a gapmer consists of 2 to 8 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 to 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 4 or 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 1 to 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 1 to 3 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 1 or 2 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 or 3 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 or 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 1 nucleoside. In certain embodiments, the 3'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 5 linked nucleosides.

[0239] In certain embodiments, the 3'-wing of a gapmer consists of 2 to 8 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 to 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 4 or 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 to 3 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 or 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 2 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 3 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 4 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 5 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 6 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 7 linked nucleosides. In certain embodiments, the 3'-wing of a gapmer consists of 8 linked nucleosides.

[0240] In certain embodiments, the 3'-wing of a gapmer comprises at least one bicyclic nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one constrained ethyl nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one LNA nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a bicyclic nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a constrained ethyl nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a LNA nucleoside.

[0241] In certain embodiments, the 3'-wing of a gapmer comprises at least one non-bicyclic modified nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least two non-bicyclic modified nucleosides. In certain embodiments, the 3'-wing of a gapmer comprises at least three non-bicyclic modified nucleosides. In certain embodiments, the 3'-wing of a gapmer comprises at least four non-bicyclic modified nucleosides. In certain embodiments, the 3'-wing of a gapmer comprises at least one 2'-substituted nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one 2'-MOE nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one 2'-OMe nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a non-bicyclic modified nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a 2'-substituted nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a 2'-MOE nucleoside. In certain embodiments, each nucleoside of the 3'-wing of a gapmer is a 2'-OMe nucleoside.

[0242] In certain embodiments, the 3'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one non-bicyclic modified nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-substituted nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-MOE nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one bicyclic nucleoside and at least one 2'-OMe nucleoside.

[0243] In certain embodiments, the 3'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one non-bicyclic modified nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-substituted nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-MOE nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one constrained ethyl nucleoside and at least one 2'-OMe nucleoside.

[0244] In certain embodiments, the 3'-wing of a gapmer comprises at least one LNA nucleoside and at least one non-bicyclic modified nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one LNA nucleoside and at least one 2'-substituted nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one LNA nucleoside and at least one 2'-MOE nucleoside. In certain embodiments, the 3'-wing of a gapmer comprises at least one LNA nucleoside and at least one 2'-OMe nucleoside.

[0245] In certain embodiments, the 3'-wing of a gapmer has a nucleoside motif selected from among the following: ABB; ABAA; AAABAA, AAAAABAA; AABAA; AAAABAA; AAABAA; ABAB; AAAAA; AAABB; AAAAAAAA; AAAAAAA; AAAAAA; AAAAB; AAAA; AAA; AA; AB; ABBB; ABAB; AABBB; wherein each A is a modified nucleoside of a first type, each B is a modified nucleoside of a second type. In certain embodiments, an oligonucleotide comprises any 3'-wing motif provided herein. In certain such embodiments, the 5'-wing of the gapmer may comprise any nucleoside motif.

[0246] 3. Certain Central Regions (Gap Regions)

[0247] In certain embodiments, the gap of a gapmer consists of 6 to 20 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 to 14 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 to 12 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 to 10 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 to 9 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 to 8 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 or 7 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 7 to 10 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 7 to 9 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 7 or 8 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 8 to 10 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 8 or 9 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 6 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 7 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 8 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 9 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 10 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 11 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 12 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 13 linked nucleosides. In certain embodiments, the gap of a gapmer consists of 14 linked nucleosides.

[0248] In certain embodiments, each nucleoside of the gap of a gapmer is a 2'-deoxynucleoside. In certain embodiments, the gap comprises one or more modified nucleosides. In certain embodiments, each nucleoside of the gap of a gapmer is a 2'-deoxynucleoside or is a modified nucleoside that is "DNA-like". In certain embodiments, "DNA-like" means that the nucleoside has similar characteristics to DNA, such that a duplex comprising the gapmer and an RNA molecule is capable of activating RNase H. In certain embodiments, modified nucleosides that are DNA-like are 2'-endo. For example, under certain conditions, 2'-(ara)-F have been shown to support RNase H activation, and thus is DNA-like and further has 2'-endo conformation geometry. In certain embodiments, one or more nucleosides of the gap of a gapmer is not a 2'-deoxynucleoside and is not DNA-like. In certain such embodiments, the gapmer nonetheless supports RNase H activation (e.g., by virtue of the number or placement of the non-DNA nucleosides).

[0249] In certain embodiments, the gap comprise a stretch of unmodified 2'-deoxynucleosides interrupted by one or more modified nucleosides, thus resulting in three sub-regions (two stretches of one or more 2'-deoxynucleosides and a stretch of one or more interrupting modified nucleosides). In certain embodiments, no stretch of unmodified 2'-deoxynucleosides is longer than 5, 6, or 7 nucleosides. In certain embodiments, such short stretches is achieved by using short gap regions. In certain embodiments, short stretches are achieved by interrupting a longer gap region.

[0250] 4. Certain Gapmer Motifs

[0251] In certain embodiments, a gapmer comprises a 5'-wing, a gap comprising at least one internucleoside linkage of Formula I, and a 3' wing, wherein the 5'-wing, gap, and 3' wing are independently selected from among those discussed above. For example, in certain embodiments, a gapmer has a 5'-wing, a gap, and a 3'-wing having features selected from among those listed in the following non-limiting table:

TABLE-US-00002 TABLE 1 Certain Gapmer Nucleoside Motifs 5'-wing Gap 3'-wing region region region AAAAAAA DDDDDDDDDDD AAA AAAAABB DDDDDDDD BBAAAAA ABB DDDDDDDDD BBA AABAA DDDDDDDDD AABAA ABB DDDDDD AABAA AAABAA DDDDDDDDD AAABAA AAABAA DDDDDDDDD AAB ABAB DDDDDDDDD ABAB AAABB DDDDDDD BBA ABAB DDDDDDDD BBA AA DDDDDDDD BBBBBBBB ABB DDDDDD ABADB AAAAB DDDDDDD BAAAA ABBB DDDDDDDDD AB AB DDDDDDDDD BBBA ABBB DDDDDDDDD BBBA AB DDDDDDDD ABA

[0252] wherein each A is a modified nucleoside of a first type, each B is a modified nucleoside of a second type and each D is a .beta.-D-2'-deoxyribonucleoside or a nucleoside that is DNA-like. Each gap region includes at least one internucleoside linkage of Formula I.

[0253] In certain embodiments, each A comprises a modified sugar moiety. In certain embodiments, each A comprises a 2'-substituted sugar moiety. In certain embodiments, each A comprises a 2'-substituted sugar moiety selected from among F, OCH.sub.3, OCH.sub.2--C(.dbd.O)--N(H)(CH.sub.3) and O(CH.sub.2).sub.2--OCH.sub.3. In certain embodiments, each A comprises a bicyclic sugar moiety. In certain embodiments, each A comprises a bicyclic sugar moiety selected from among cEt, cMOE, LNA, .alpha.-L-LNA, ENA and 2'-thio LNA. In certain embodiments, each A comprises a modified nucleobase. In certain embodiments, each A comprises a modified nucleobase selected from among 2-thio-thymidine nucleoside and 5-propyne uridine nucleoside.

[0254] In certain embodiments, each B comprises a modified sugar moiety. In certain embodiments, each B comprises a 2'-substituted sugar moiety. In certain embodiments, each B comprises a 2'-substituted sugar moiety selected from among F, OCH.sub.3, OCH.sub.2--C(.dbd.O)--N(H)(CH.sub.3) and O(CH.sub.2).sub.2--OCH.sub.3. In certain embodiments, each B comprises a bicyclic sugar moiety. In certain embodiments, each B comprises a bicyclic sugar moiety selected from among cEt, cMOE, LNA, .alpha.-L-LNA, ENA and 2'-thio LNA. In certain embodiments, each B comprises a modified nucleobase. In certain embodiments, each B comprises a modified nucleobase selected from among 2-thio-thymidine nucleoside and 5-propyne uridine nucleoside.

[0255] In certain embodiments, at least one of A or B comprises a bicyclic sugar moiety, and the other comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-F sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-F sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-F sugar moiety.

[0256] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-substituted sugar moiety.

[0257] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-MOE sugar moiety.

[0258] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-F sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-F sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-F sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-F sugar moiety.

[0259] In certain embodiments, B comprises a bicyclic sugar moiety, and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is an LNA nucleoside and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is a cEt nucleoside and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is an .alpha.-L-LNA nucleoside and A comprises a 2'-MOE sugar moiety.

[0260] In certain embodiments, B comprises a bicyclic sugar moiety, and A comprises a 2'-F sugar moiety. In certain embodiments, B is an LNA nucleoside and A comprises a 2'-F sugar moiety. In certain embodiments, B is a cEt nucleoside and A comprises a 2'-F sugar moiety. In certain embodiments, B is an .alpha.-L-LNA nucleoside and A comprises a 2'-F sugar moiety.

[0261] In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH(CH.sub.3)--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH[(S)--(CH.sub.3)]--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH[(R)--(CH.sub.3)]--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH(CH.sub.3)--O-2' bridge is located in each of the 3' and 5' wings. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH[(S)--(CH.sub.3)]--O-2' bridge is located in each of the 3' and 5' wings. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH[(R)--(CH.sub.3)]--O-2' bridge is located in each of the 3' and 5' wings.

[0262] iv. Certain Internucleoside Linkage Motifs

[0263] In certain embodiments, oligomeric compounds comprise modified internucleoside linkages arranged along the oligomeric compound or region thereof in a defined pattern or modified internucleoside linkage motif provided that at least one internucleoside linkage has Formula I. In certain embodiments, internucleoside linkages are arranged in a gapped motif, as described above for nucleoside motif. In such embodiments, the internucleoside linkages in each of two wing regions are different from the internucleoside linkages in the gap region. In certain embodiments the internucleoside linkages in the wings are phosphodiester and the internucleoside linkages in the gap are phosphorothioate. The nucleoside motif is independently selected, so such oligomeric compounds having a gapped internucleoside linkage motif may or may not have a gapped nucleoside motif and if it does have a gapped nucleoside motif, the wing and gap lengths may or may not be the same.

[0264] In certain embodiments, oligomeric compounds comprise a region having an alternating internucleoside linkage motif. In certain embodiments, oligomeric compounds of the present invention comprise a region of uniformly modified internucleoside linkages. In certain such embodiments, the oligomeric compound comprises a region that is uniformly linked by phosphorothioate internucleoside linkages. In certain embodiments, the oligonucleotide is uniformly linked by phosphorothioate. In certain embodiments, each internucleoside linkage of the oligomeric compound is selected from phosphodiester and phosphorothioate. In certain embodiments, each internucleoside linkage of the oligomeric compound is selected from phosphodiester and phosphorothioate and at least one internucleoside linkage is phosphorothioate. In certain embodiments, at least one internucleoside linkage of the oligomeric compound is selected from other than phosphodiester and phosphorothioate.

[0265] In certain embodiments, the oligomeric compound comprises at least 6 phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least 8 phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least 10 phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least one block of at least 6 consecutive phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least one block of at least 8 consecutive phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least one block of at least 10 consecutive phosphorothioate internucleoside linkages. In certain embodiments, the oligomeric compound comprises at least one block of at least one 12 consecutive phosphorothioate internucleoside linkages. In certain such embodiments, at least one such block is located at the 3' end of the oligomeric compound. In certain such embodiments, at least one such block is located within 3 nucleosides of the 3' end of the oligomeric compound. In certain embodiments, each internucleoside linkage a phosphorothioate internucleoside linkage.

[0266] v. Certain Modification Motifs

[0267] Modification motifs define oligonucleotides by nucleoside motif (sugar motif and nucleobase motif) and linkage motif. For example, certain oligonucleotides have the following modification motif:

[0268] AAADDDDDDDDDBBB;

[0269] wherein each A is a modified nucleoside comprising a 2'-substituted sugar moiety; each D is a .beta.-D-2'-deoxyribonucleoside or a modified nucleoside having B form conformation geometry and each B is a modified nucleoside comprising a bicyclic sugar moiety wherein at least one internucleoside linkage had Formula I. The following non-limiting Table further illustrates certain modification motifs:

TABLE-US-00003 TABLE 2 Certain Modification Motif 5'-wing Gap 3'-wing region region region BB DDDDDDDDD AAAAAAAA ABB DDDDDDDDD BBA ABB DDDDDDDDD BBA ABBB DDDDDDDDD BBABB ABB DDDDDDDDD BBABB BBABB DDDDDDDDD BBA ABB DDDDDDDDD BBABBBB AABAA DDDDDDDDD BBA AAABAA DDDDDDDDD BBA AABAA DDDDDDDDD AABAA AAABAA DDDDDDDDD AABAAA AAAABAA DDDDDDDDD BBA ABAB DDDDDDDDD BABA ABAB DDDDDDDDD AABAA ABB DDDDDDDDD BABA BBABBBB DDDDDDDDD BABA AAAAA DDDDDDDDD AAAAA AAAAA DDDDDDD AAAAA AAAAA DDDDDDDDD BBABBBB AAABB DDDDDDD BBA ABAB DDDDDDDD BBA ABAB DDDDDDD AAABB AAAAB DDDDDDD BAAAA BB DDDDDDDD AA AA DDDDDDD AAAAAAAA AAA DDDDDDD AAAAAAA AAA DDDDDDD AAAAAA AB DDDDDDD BBBA ABBB DDDDDDDDD BA AB DDDDDDDDD BBBA AAABB DDDDDDD BBAAA AAAAB DDDDDDD BAAAA AABBB DDDDDDD BBBAA AAAAB DDDDDDD AAAAA AAABB DDDDDDD AAAAA AABBB DDDDDDD AAAAA AAAAA DDDDDDD BAAAA AAAAA DDDDDDD BBAAA AAAAA DDDDDDD BBBAA

[0270] wherein each A is a modified nucleoside of a first type, each B is a modified nucleoside of a second type and each D is a .beta.-D-2'-deoxyribonucleoside or a nucleoside that is DNA-like. Each gap region includes at least one internucleoside linkage of Formula I.

[0271] In certain embodiments, each A comprises a modified sugar moiety. In certain embodiments, each A comprises a 2'-substituted sugar moiety. In certain embodiments, each A comprises a 2'-substituted sugar moiety selected from among F, OCH.sub.3, OCH.sub.2--C(.dbd.O)--N(H)(CH.sub.3) and O(CH.sub.2).sub.2--OCH.sub.3. In certain embodiments, each A comprises a bicyclic sugar moiety. In certain embodiments, each A comprises a bicyclic sugar moiety selected from among cEt, cMOE, LNA, .alpha.-L-LNA, ENA and 2'-thio LNA. In certain embodiments, each A comprises a modified nucleobase. In certain embodiments, each A comprises a modified nucleobase selected from among 2-thio-thymidine nucleoside and 5-propyne uridine nucleoside.

[0272] In certain embodiments, each B comprises a modified sugar moiety. In certain embodiments, each B comprises a 2'-substituted sugar moiety. In certain embodiments, each B comprises a 2'-substituted sugar moiety selected from among F, OCH.sub.3, OCH.sub.2--C(.dbd.O)--N(H)(CH.sub.3) and O(CH.sub.2).sub.2--OCH.sub.3. In certain embodiments, each B comprises a bicyclic sugar moiety. In certain embodiments, each B comprises a bicyclic sugar moiety selected from among cEt, cMOE, LNA, .alpha.-L-LNA, ENA and 2'-thio LNA. In certain embodiments, each B comprises a modified nucleobase. In certain embodiments, each B comprises a modified nucleobase selected from among 2-thio-thymidine nucleoside and 5-propyne urindine nucleoside.

[0273] In certain embodiments, at least one of A or B comprises a bicyclic sugar moiety, and the other comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-substituted sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-MOE sugar moiety. In certain embodiments, one of A or B is an LNA nucleoside and the other of A or B comprises a 2'-F sugar moiety. In certain embodiments, one of A or B is a cEt nucleoside and the other of A or B comprises a 2'-F sugar moiety. In certain embodiments, one of A or B is an .alpha.-L-LNA nucleoside and the other of A or B comprises a 2'-F sugar moiety.

[0274] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-substituted sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-substituted sugar moiety.

[0275] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-MOE sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-MOE sugar moiety.

[0276] In certain embodiments, A comprises a bicyclic sugar moiety, and B comprises a 2'-F sugar moiety. In certain embodiments, A is an LNA nucleoside and B comprises a 2'-F sugar moiety. In certain embodiments, A is a cEt nucleoside and B comprises a 2'-F sugar moiety. In certain embodiments, A is an .alpha.-L-LNA nucleoside and B comprises a 2'-F sugar moiety.

[0277] In certain embodiments, B comprises a bicyclic sugar moiety, and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is an LNA nucleoside and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is a cEt nucleoside and A comprises a 2'-MOE sugar moiety. In certain embodiments, B is an .alpha.-L-LNA nucleoside and A comprises a 2'-MOE sugar moiety.

[0278] In certain embodiments, B comprises a bicyclic sugar moiety, and A comprises a 2'-F sugar moiety. In certain embodiments, B is an LNA nucleoside and A comprises a 2'-F sugar moiety. In certain embodiments, B is a cEt nucleoside and A comprises a 2'-F sugar moiety. In certain embodiments, B is an .alpha.-L-LNA nucleoside and A comprises a 2'-F sugar moiety. In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH(CH.sub.3)--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH[(S)--(CH.sub.3)]--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, each A and B is, independently, a modified nucleoside comprising a bicyclic sugar moiety comprising a 4'-CH[(R)--(CH.sub.3)]--O-2' bridge or a modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH(CH.sub.3)--O-2' bridge is located in each of the 3' and 5' wings. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH[(S)--(CH.sub.3)]--O-2' bridge is located in each of the 3' and 5' wings. In certain embodiments, at least one modified nucleoside comprising a 2'-OCH.sub.2CH.sub.2OCH.sub.3 (MOE) substituent group and at least one modified nucleoside comprising a 4'-CH[(R)--(CH.sub.3)]--O-2' bridge is located in each of the 3' and 5' wings.

[0279] d. Certain Overall Lengths

[0280] In certain embodiments, the present invention provides oligomeric compounds including oligonucleotides of any of a variety of ranges of lengths. In certain embodiments, the invention provides oligomeric compounds or oligonucleotides consisting of X to Y linked nucleosides, where X represents the fewest number of nucleosides in the range and Y represents the largest number of nucleosides in the range. In certain such embodiments, X and Y are each independently selected from 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29 and 30; provided that X.ltoreq.Y. For example, in certain embodiments, the invention provides oligomeric compounds which comprise oligonucleotides consisting of 10 to 11, 10 to 12, 10 to 13, 10 to 14, 10 to 15, 10 to 16, 10 to 17, 10 to 18, 10 to 19, 10 to 20, 10 to 21, 10 to 22, 10 to 23, 10 to 24, 10 to 25, 10 to 26, 10 to 27, 10 to 28, 10 to 29, 10 to 30, 11 to 12, 11 to 13, 11 to 14, 11 to 15, 11 to 16, 11 to 17, 11 to 18, 11 to 19, 11 to 20, 11 to 21, 11 to 22, 11 to 23, 11 to 24, 11 to 25, 11 to 26, 11 to 27, 11 to 28, 11 to 29, 11 to 30, 12 to 13, 12 to 14, 12 to 15, 12 to 16, 12 to 17, 12 to 18, 12 to 19, 12 to 20, 12 to 21, 12 to 22, 12 to 23, 12 to 24, 12 to 25, 12 to 26, 12 to 27, 12 to 28, 12 to 29, 12 to 30, 13 to 14, 13 to 15, 13 to 16, 13 to 17, 13 to 18, 13 to 19, 13 to 20, 13 to 21, 13 to 22, 13 to 23, 13 to 24, 13 to 25, 13 to 26, 13 to 27, 13 to 28, 13 to 29, 13 to 30, 14 to 15, 14 to 16, 14 to 17, 14 to 18, 14 to 19, 14 to 20, 14 to 21, 14 to 22, 14 to 23, 14 to 24, 14 to 25, 14 to 26, 14 to 27, 14 to 28, 14 to 29, 14 to 30, 15 to 16, 15 to 17, 15 to 18, 15 to 19, 15 to 20, 15 to 21, 15 to 22, 15 to 23, 15 to 24, 15 to 25, 15 to 26, 15 to 27, 15 to 28, 15 to 29, 15 to 30, 16 to 17, 16 to 18, 16 to 19, 16 to 20, 16 to 21, 16 to 22, 16 to 23, 16 to 24, 16 to 25, 16 to 26, 16 to 27, 16 to 28, 16 to 29, 16 to 30, 17 to 18, 17 to 19, 17 to 20, 17 to 21, 17 to 22, 17 to 23, 17 to 24, 17 to 25, 17 to 26, 17 to 27, 17 to 28, 17 to 29, 17 to 30, 18 to 19, 18 to 20, 18 to 21, 18 to 22, 18 to 23, 18 to 24, 18 to 25, 18 to 26, 18 to 27, 18 to 28, 18 to 29, 18 to 30, 19 to 20, 19 to 21, 19 to 22, 19 to 23, 19 to 24, 19 to 25, 19 to 26, 19 to 29, 19 to 28, 19 to 29, 19 to 30, 20 to 21, 20 to 22, 20 to 23, 20 to 24, 20 to 25, 20 to 26, 20 to 27, 20 to 28, 20 to 29, 20 to 30, 21 to 22, 21 to 23, 21 to 24, 21 to 25, 21 to 26, 21 to 27, 21 to 28, 21 to 29, 21 to 30, 22 to 23, 22 to 24, 22 to 25, 22 to 26, 22 to 27, 22 to 28, 22 to 29, 22 to 30, 23 to 24, 23 to 25, 23 to 26, 23 to 27, 23 to 28, 23 to 29, 23 to 30, 24 to 25, 24 to 26, 24 to 27, 24 to 28, 24 to 29, 24 to 30, 25 to 26, 25 to 27, 25 to 28, 25 to 29, 25 to 30, 26 to 27, 26 to 28, 26 to 29, 26 to 30, 27 to 28, 27 to 29, 27 to 30, 28 to 29, 28 to 30, or 29 to 30 linked nucleosides. In embodiments where the number of nucleosides of an oligomeric compound or oligonucleotide is limited, whether to a range or to a specific number, the oligomeric compound or oligonucleotide may, nonetheless further comprise additional other substituents. For example, an oligonucleotide comprising 8-30 nucleosides excludes oligonucleotides having 31 nucleosides, but, unless otherwise indicated, such an oligonucleotide may further comprise, for example one or more conjugates, terminal groups, or other substituents. In certain embodiments, a gapmer oligonucleotide has any of the above lengths.

[0281] Further, where an oligonucleotide is described by an overall length range and by regions having specified lengths, and where the sum of specified lengths of the regions is less than the upper limit of the overall length range, the oligonucleotide may have additional nucleosides, beyond those of the specified regions, provided that the total number of nucleosides does not exceed the upper limit of the overall length range.

[0282] e. Certain Oligonucleotides

[0283] In certain embodiments, oligonucleotides of the present invention are characterized by their modification motif and overall length. In certain embodiments, such parameters are each independent of one another. Thus, each internucleoside linkage of an oligonucleotide having a gapmer sugar motif may be modified or unmodified and may or may not follow the gapmer modification pattern of the sugar modifications. For example, the internucleoside linkages within the wing regions of a sugar-gapmer may be the same or different from one another and may be the same or different from the internucleoside linkages of the gap region. Likewise, such sugar-gapmer oligonucleotides may comprise one or more modified nucleobase independent of the gapmer pattern of the sugar modifications. One of skill in the art will appreciate that such motifs may be combined to create a variety of oligonucleotides. Herein if a description of an oligonucleotide or oligomeric compound is silent with respect to one or more parameter, such parameter is not limited. Thus, an oligomeric compound described only as having a gapmer sugar motif without further description may have any length, internucleoside linkage motif, and nucleobase modification motif. Unless otherwise indicated, all chemical modifications are independent of nucleobase sequence.

[0284] f. Certain Conjugate Groups

[0285] In certain embodiments, oligomeric compounds are modified by attachment of one or more conjugate groups. In general, conjugate groups modify one or more properties of the attached oligomeric compound including but not limited to pharmacodynamics, pharmacokinetics, stability, binding, absorption, cellular distribution, cellular uptake, charge and clearance. Conjugate groups are routinely used in the chemical arts and are linked directly or via an optional conjugate linking moiety or conjugate linking group to a parent compound such as an oligomeric compound, such as an oligonucleotide. Conjugate groups includes without limitation, intercalators, reporter molecules, polyamines, polyamides, polyethylene glycols, thioethers, polyethers, cholesterols, thiocholesterols, cholic acid moieties, folate, lipids, phospholipids, biotin, phenazine, phenanthridine, anthraquinone, adamantane, acridine, fluoresceins, rhodamines, coumarins and dyes. Certain conjugate groups have been described previously, for example: cholesterol moiety (Letsinger et al., Proc. Natl. Acad. Sci. USA, 1989, 86, 6553-6556), cholic acid (Manoharan et al., Bioorg. Med. Chem. Let., 1994, 4, 1053-1060), a thioether, e.g., hexyl-S-tritylthiol (Manoharan et al., Ann. N.Y. Acad. Sci., 1992, 660, 306-309; Manoharan et al., Bioorg. Med. Chem. Let., 1993, 3, 2765-2770), a thiocholesterol (Oberhauser et al., Nucl. Acids Res., 1992, 20, 533-538), an aliphatic chain, e.g., do-decan-diol or undecyl residues (Saison-Behmoaras et al., EMBO J., 1991, 10, 1111-1118; Kabanov et al., FEBS Lett., 1990, 259, 327-330; Svinarchuk et al., Biochimie, 1993, 75, 49-54), a phospholipid, e.g., di-hexadecyl-rac-glycerol or triethyl-ammonium 1,2-di-O-hexadecyl-rac-glycero-3-H-phosphonate (Manoharan et al., Tetrahedron Lett., 1995, 36, 3651-3654; Shea et al., Nucl. Acids Res., 1990, 18, 3777-3783), a polyamine or a polyethylene glycol chain (Manoharan et al., Nucleosides & Nucleotides, 1995, 14, 969-973), or adamantane acetic acid (Manoharan et al., Tetrahedron Lett., 1995, 36, 3651-3654), a palmityl moiety (Mishra et al., Biochim. Biophys. Acta, 1995, 1264, 229-237), or an octadecylamine or hexylamino-carbonyl-oxycholesterol moiety (Crooke et al., J. Pharmacol. Exp. Ther., 1996, 277, 923-937).

[0286] In certain embodiments, a conjugate group comprises an active drug substance, for example, aspirin, warfarin, phenylbutazone, ibuprofen, suprofen, fen-bufen, ketoprofen, (S)-(+)-pranoprofen, carprofen, dansylsarcosine, 2,3,5-triiodobenzoic acid, flufenamic acid, folinic acid, a benzothiadiazide, chlorothiazide, a diazepine, indo-methicin, a barbiturate, a cephalosporin, a sulfa drug, an antidiabetic, an antibacterial or an antibiotic.

[0287] In certain embodiments, conjugate groups are directly attached to oligonucleotides in oligomeric compounds. In certain embodiments, conjugate groups are attached to oligonucleotides by a conjugate linking group. In certain such embodiments, conjugate linking groups, including, but not limited to, bifunctional linking moieties such as those known in the art are amenable to the compounds provided herein. Conjugate linking groups are useful for attachment of conjugate groups, such as chemical stabilizing groups, functional groups, reporter groups and other groups to selective sites in a parent compound such as for example an oligomeric compound. In general a bifunctional linking moiety comprises a hydrocarbyl moiety having two functional groups. One of the functional groups is selected to bind to a parent molecule or compound of interest and the other is selected to bind essentially any selected group such as chemical functional group or a conjugate group. In some embodiments, the conjugate linker comprises a chain structure or an oligomer of repeating units such as ethylene glycol or amino acid units. Examples of functional groups that are routinely used in a bifunctional linking moiety include, but are not limited to, electrophiles for reacting with nucleophilic groups and nucleophiles for reacting with electrophilic groups. In some embodiments, bifunctional linking moieties include amino, hydroxyl, carboxylic acid, thiol, unsaturations (e.g., double or triple bonds), and the like.

[0288] Some nonlimiting examples of conjugate linking moieties include pyrrolidine, 8-amino-3,6-dioxaoctanoic acid (ADO), succinimidyl 4-(N-maleimidomethyl) cyclohexane-1-carboxylate (SMCC) and 6-aminohexanoic acid (AHEX or AHA). Other linking groups include, but are not limited to, substituted C.sub.1-C.sub.10 alkyl, substituted or unsubstituted C.sub.2-C.sub.10 alkenyl or substituted or unsubstituted C.sub.2-C.sub.10 alkynyl, wherein a nonlimiting list of preferred substituent groups includes hydroxyl, amino, alkoxy, carboxy, benzyl, phenyl, nitro, thiol, thioalkoxy, halogen, alkyl, aryl, alkenyl and alkynyl.

[0289] Conjugate groups may be attached to either or both ends of an oligonucleotide (terminal conjugate groups) and/or at any internal position.

[0290] In certain embodiments, conjugate groups are at the 3'-end of an oligonucleotide of an oligomeric compound. In certain embodiments, conjugate groups are near the 3'-end. In certain embodiments, conjugates are attached at the 3' end of an oligomeric compound, but before one or more terminal group nucleosides. In certain embodiments, conjugate groups are placed within a terminal group.

[0291] In certain embodiments, the present invention provides oligomeric compounds. In certain embodiments, oligomeric compounds comprise an oligonucleotide. In certain embodiments, an oligomeric compound comprises an oligonucleotide and one or more conjugate and/or terminal groups. Such conjugate and/or terminal groups may be added to oligonucleotides having any of the motifs discussed above. Thus, for example, an oligomeric compound comprising an oligonucleotide having region of alternating nucleosides may comprise a terminal group.

C. Antisense Compounds

[0292] In certain embodiments, oligomeric compounds provided herein are antisense compounds. Such antisense compounds are capable of hybridizing to a target nucleic acid, resulting in at least one antisense activity. In certain embodiments, antisense compounds specifically hybridize to one or more target nucleic acid. In certain embodiments, a specifically hybridizing antisense compound has a nucleobase sequence comprising a region having sufficient complementarity to a target nucleic acid to allow hybridization and result in antisense activity and insufficient complementarity to any non-target so as to avoid non-specific hybridization to any non-target nucleic acid sequences under conditions in which specific hybridization is desired (e.g., under physiological conditions for in vivo or therapeutic uses, and under conditions in which assays are performed in the case of in vitro assays).

[0293] In certain embodiments, the present invention provides antisense compounds comprising oligonucleotides that are fully complementary to the target nucleic acid over the entire length of the oligonucleotide. In certain embodiments, oligonucleotides are 99% complementary to the target nucleic acid. In certain embodiments, oligonucleotides are 95% complementary to the target nucleic acid. In certain embodiments, such oligonucleotides are 90% complementary to the target nucleic acid.

[0294] In certain embodiments, such oligonucleotides are 85% complementary to the target nucleic acid. In certain embodiments, such oligonucleotides are 80% complementary to the target nucleic acid. In certain embodiments, an antisense compound comprises a region that is fully complementary to a target nucleic acid and is at least 80% complementary to the target nucleic acid over the entire length of the oligonucleotide. In certain such embodiments, the region of full complementarity is from 6 to 14 nucleobases in length.

[0295] a. Certain Antisense Activities and Mechanisms

[0296] In certain antisense activities, hybridization of an antisense compound results in recruitment of a protein that cleaves a target nucleic acid. For example, certain antisense compounds result in RNase H mediated cleavage of target nucleic acid. RNase H is a cellular endonuclease that cleaves the RNA strand of an RNA:DNA duplex. The "DNA" in such an RNA:DNA duplex, need not be unmodified DNA. In certain embodiments, the invention provides antisense compounds that are sufficiently "DNA-like" to elicit RNase H activity. Such DNA-like antisense compounds include, but are not limited to gapmers having unmodified deoxyfuranose sugar moieties in the nucleosides of the gap and modified sugar moieties in the nucleosides of the wings.

[0297] Antisense activities may be observed directly or indirectly. In certain embodiments, observation or detection of an antisense activity involves observation or detection of a change in an amount of a target nucleic acid or protein encoded by such target nucleic acid; a change in the ratio of splice variants of a nucleic acid or protein; and/or a phenotypic change in a cell or animal.

[0298] In certain embodiments, compounds comprising oligonucleotides having a gapmer nucleoside motif described herein have desirable properties compared to non-gapmer oligonucleotides or to gapmers having other motifs. In certain circumstances, it is desirable to identify motifs resulting in a favorable combination of potent antisense activity and relatively low toxicity. In certain embodiments, compounds of the present invention have a favorable therapeutic index (measure of potency divided by measure of toxicity).

[0299] b. Selective Antisense Compounds

[0300] In certain embodiments, antisense compounds provided herein are selective for a target relative to a non-target nucleic acid. In certain embodiments, the nucleobase sequences of the target and non-target nucleic acids differ by no more than 4 differentiating nucleobases in the targeted region. In certain embodiments, the nucleobase sequences of the target and non-target nucleic acids differ by no more than 3 differentiating nucleobases in the targeted region. In certain embodiments, the nucleobase sequences of the target and non-target nucleic acids differ by no more than 2 differentiating nucleobases in the targeted region. In certain embodiments, the nucleobase sequences of the target and non-target nucleic acids differ by a single differentiating nucleobase in the targeted region. In certain embodiments, the target and non-target nucleic acids are transcripts from different genes. In certain embodiments, the target and non-target nucleic acids are different alleles for the same gene.

[0301] Selectivity of antisense compounds is achieved, principally, by nucleobase complementarity. For example, if an antisense compound has no mismatches for a target nucleic acid and one or more mismatches for a non-target nucleic acid, some amount of selectivity for the target nucleic acid will result. In certain embodiments, provided herein are antisense compounds with enhanced selectivity (i.e. the ratio of activity for the target to the activity for non-target is greater). For example, in certain embodiments, a selective nucleoside comprises a particular feature or combination of features (e.g., chemical modification, motif, placement of selective nucleoside, and/or self-complementary region) that increases selectivity of an antisense compound compared to an antisense compound not having that feature or combination of features. In certain embodiments, such feature or combination of features increases antisense activity for the target. In certain embodiments, such feature or combination of features decreases activity for the target, but decreases activity for the non-target by a greater amount, thus resulting in an increase in selectivity.

[0302] Without being limited by mechanism, enhanced selectivity may result from a larger difference in the affinity of an antisense compound for its target compared to its affinity for the non-target and/or a larger difference in RNase H activity for the resulting duplexes. For example, in certain embodiments, a selective antisense compound comprises a modified nucleoside at that same position as a differentiating nucleobase (i.e., the selective nucleoside is modified). That modification may increase the difference in binding affinity of the antisense compound for the target relative to the non-target. In addition or in the alternative, the chemical modification may increase the difference in RNAse H activity for the duplex formed by the antisense compound and its target compared to the RNase activity for the duplex formed by the antisense compound and the non-target. For example, the modification may exaggerate a structure that is less compatible for RNase H to bind, cleave and/or release the non-target.

[0303] Antisense compounds having certain specified motifs have enhanced selectivity, including, but not limited to motifs described above. In certain embodiments, enhanced selectivity is achieved by oligonucleotides comprising any one or more of:

[0304] a modification motif comprising a long 5'-wing (longer than 5, 6, or 7 nucleosides);

[0305] a modification motif comprising a long 3'-wing (longer than 5, 6, or 7 nucleosides);

[0306] a modification motif comprising a short gap region (shorter than 8, 7, or 6 nucleosides); and

[0307] a modification motif comprising an interrupted gap region (having no uninterrupted stretch of unmodified 2'-deoxynucleosides longer than 7, 6 or 5).

[0308] i. Certain Selective Nucleobase Sequence Elements

[0309] In certain embodiments, selective antisense compounds comprise nucleobase sequence elements. Such nucleobase sequence elements are independent of modification motifs. Accordingly, oligonucleotides having any of the motifs (modification motifs, nucleoside motifs, sugar motifs, nucleobase modification motifs, and/or linkage motifs) may also comprise one or more of the following nucleobase sequence elements.

[0310] 1. Alignment of Differentiating Nucleobase/Target-Selective Nucleoside

[0311] In certain embodiments, a target region and a region of a non-target nucleic acid differ by 1-4 differentiating nucleobase. In such embodiments, selective antisense compounds have a nucleobase sequence that aligns with the non-target nucleic acid with 1-4 mismatches. A nucleoside of the antisense compound that corresponds to a differentiating nucleobase of the target nucleic acid is referred to herein as a target-selective nucleoside. In certain embodiments, selective antisense compounds having a gapmer motif align with a non-target nucleic acid, such that a target-selective nucleoside is positioned in the gap. In certain embodiments, a target-selective nucleoside is the 1.sup.st nucleoside of the gap from the 5' end. In certain embodiments, a target-selective nucleoside is the 2.sup.nd nucleoside of the gap from the 5' end. In certain embodiments, a target-selective nucleoside is the 3.sup.rd nucleoside of the gap from the 5'-end. In certain embodiments, a target-selective nucleoside is the 4.sup.th nucleoside of the gap from the 5'-end. In certain embodiments, a target-selective nucleoside is the 5.sup.th nucleoside of the gap from the 5'-end. In certain embodiments, a target-selective nucleoside is the 6.sup.rd nucleoside of the gap from the 5'-end. In certain embodiments, a target-selective nucleoside is the 8.sup.th nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 7.sup.th nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 6.sup.th nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 5.sup.th nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 4.sup.th nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 3.sup.rd nucleoside of the gap from the 3'-end. In certain embodiments, a target-selective nucleoside is the 2.sup.nd nucleoside of the gap from the 3'-end.

[0312] 2. Mismatches to the Target Nucleic Acid

[0313] In certain embodiments, selective antisense compounds comprise one or more mismatched nucleobases relative to the target nucleic acid. In certain such embodiments, antisense activity against the target is reduced by such mismatch, but activity against the non-target is reduced by a greater amount. Thus, in certain embodiments selectivity is improved. Any nucleobase other than the differentiating nucleobase is suitable for a mismatch. In certain embodiments, however, the mismatch is specifically positioned within the gap of an oligonucleotide having a gapmer motif. In certain embodiments, a mismatch relative to the target nucleic acid is at positions 1, 2, 3, 4, 5, 6, 7, or 8 from the 5'-end of the gap region. In certain embodiments, a mismatch relative to the target nucleic acid is at positions 9, 8, 7, 6, 5, 4, 3, 2, 1 of the antisense compounds from the 3'-end of the gap region. In certain embodiments, a mismatch relative to the target nucleic acid is at positions 1, 2, 3, or 4 of the antisense compounds from the 5'-end of the wing region. In certain embodiments, a mismatch relative to the target nucleic acid is at positions 4, 3, 2, or 1 of the antisense compounds from the 3'-end of the wing region.

[0314] 3. Self Complementary Regions

[0315] In certain embodiments, selective antisense compounds comprise a region that is not complementary to the target. In certain embodiments, such region is complementary to another region of the antisense compound. Such regions are referred to herein as self-complementary regions. For example, in certain embodiments, an antisense compound has a first region at one end that is complementary to a second region at the other end. In certain embodiments, one of the first and second regions is complementary to the target nucleic acid. Unless the target nucleic acid also includes a self-complementary region, the other of the first and second region of the antisense compound will not be complementary to the target nucleic acid. For illustrative purposes, certain antisense compounds have the following nucleobase motif:

[0316] ABCXXXXXXXXXC'B'A';

[0317] ABCXXXXXXX(X/C')(X/B')(X/A');

[0318] (X/A)(X/B)(X/C)XXXXXXXXXC'B'A'

where each of A, B, and C are any nucleobase; A', B', and C' are the complementary bases to A, B, and C, respectively; each X is a nucleobase complementary to the target nucleic acid; and two letters in parentheses (e.g., (X/C')) indicates that the nucleobase is complementary to the target nucleic acid and to the designated nucleoside within the antisense oligonucleotide.

[0319] Without being bound to any mechanism, in certain embodiments, such antisense compounds are expected to form self-structure, which is disrupted upon contact with a target nucleic acid. Contact with a non-target nucleic acid is expected to disrupt the self-structure to a lesser degree, thus increasing selectivity compared to the same antisense compound lacking the self-complementary regions.

[0320] 4. Combinations of Features

[0321] Though it is clear to one of skill in the art, the above motifs and other elements for increasing selectivity may be used alone or in combination. For example, a single antisense compound may include any one, two, three, or more of: self-complementary regions, a mismatch relative to the target nucleic acid, a short nucleoside gap, an interrupted gap, and specific placement of the selective nucleoside.

D. Certain Target Nucleic Acids

[0322] In certain embodiments, antisense compounds comprise or consist of an oligonucleotide comprising a region that is complementary to a target nucleic acid. In certain embodiments, the target nucleic acid is an endogenous RNA molecule. In certain embodiments, the target nucleic acid is a non-coding RNA. In certain such embodiments, the target non-coding RNA is selected from: a long-non-coding RNA, a short non-coding RNA, an intronic RNA molecule, a snoRNA, a scaRNA, a microRNA (including pre-microRNA and mature microRNA), a ribosomal RNA, and promoter directed RNA. In certain embodiments, the target nucleic acid encodes a protein. In certain such embodiments, the target nucleic acid is selected from: an mRNA and a pre-mRNA, including intronic, exonic and untranslated regions. In certain embodiments, oligomeric compounds are at least partially complementary to more than one target nucleic acid. For example, antisense compounds of the present invention may mimic microRNAs, which typically bind to multiple targets.

[0323] In certain embodiments, the target nucleic acid is a nucleic acid other than a mature mRNA. In certain embodiments, the target nucleic acid is a nucleic acid other than a mature mRNA or a microRNA. In certain embodiments, the target nucleic acid is a non-coding RNA other than a microRNA. In certain embodiments, the target nucleic acid is a non-coding RNA other than a microRNA or an intronic region of a pre-mRNA. In certain embodiments, the target nucleic acid is a long non-coding RNA. In certain embodiments, the target RNA is an mRNA. In certain embodiments, the target nucleic acid is a pre-mRNA. In certain such embodiments, the target region is entirely within an intron. In certain embodiments, the target region spans an intron/exon junction. In certain embodiments, the target region is at least 50% within an intron. In certain embodiments, the target nucleic acid is selected from among non-coding RNA, including exonic regions of pre-mRNA. In certain embodiments, the target nucleic acid is a ribosomal RNA (rRNA). In certain embodiments, the target nucleic acid is a non-coding RNA associated with splicing of other pre-mRNAs. In certain embodiments, the target nucleic acid is a nuclear-retained non-coding RNA.

[0324] In certain embodiments, antisense compounds described herein are complementary to a target nucleic acid comprising a single-nucleotide polymorphism. In certain such embodiments, the antisense compound is capable of modulating expression of one allele of the single-nucleotide polymorphism-containing-target nucleic acid to a greater or lesser extent than it modulates another allele. In certain embodiments an antisense compound hybridizes to a single-nucleotide polymorphism-containing-target nucleic acid at the single-nucleotide polymorphism site. In certain embodiments, the target nucleic acid is a Huntingtin gene transcript. In certain embodiments, the target nucleic acid is a single-nucleotide polymorphism-containing-target nucleic acid of a Huntingtin gene transcript. In certain embodiments, the target nucleic acid is not a Huntingtin gene transcript. In certain embodiments, the target nucleic acid is a single-nucleotide polymorphism-containing-target nucleic acid of a gene transcript other than Huntingtin. In certain embodiments, the target nucleic acid is any nucleic acid other than a Huntingtin gene transcript.

[0325] a. Single-Nucleotide Polymorphism

[0326] Embodiments of the present invention provide methods, compounds, and compositions for selectively inhibiting mRNA and protein expression of an allelic variant of a particular gene or DNA sequence. In certain embodiments, the allelic variant contains a single nucleotide polymorphism (SNP). In certain embodiments, a SNP is associated with a mutant allele. In certain embodiments, a mutant SNP is associated with a disease. In certain embodiments a mutant SNP is associated with a disease, but is not causative of the disease. In certain embodiments, mRNA and protein expression of a mutant allele is associated with disease.

[0327] In certain embodiments, the expressed gene product of a mutant allele results in aggregation of the mutant proteins causing disease. In certain embodiments, the expressed gene product of a mutant allele results in gain of function causing disease. In certain embodiments, genes with an autosomal dominant mutation resulting in a toxic gain of function of the protein are the APP gene encoding amyloid precursor protein involved in Alzheimer's disease (Gene, 371: 68, 2006); the PrP gene encoding prion protein involved in Creutzfeldt-Jakob disease and in fatal familial insomnia (Nat. Med. 1997, 3: 1009); GFAP gene encoding glial fibrillary acidic protein involved in Alexander disease (J. Neurosci. 2006, 26:111623); alpha-synuclein gene encoding alpha-synuclein protein involved in Parkinson's disease (J. Clin. Invest. 2003, 111: 145); SOD-1 gene encoding the SOD-1 protein involved in amyotrophic lateral sclerosis (Science 1998, 281: 1851); atrophin-1 gene encoding atrophin-1 protein involved in dentato-rubral and pallido-luysian atrophy (DRPA) (Trends Mol. Med. 2001, 7: 479); SCA1 gene encoding ataxin-1 protein involved in spino-cerebellar ataxia-1 (SCA1) (Protein Sci. 2003, 12: 953); PLP gene encoding proteolipid protein involved in Pelizaeus-Merzbacher disease (Neuro Mol Med. 2007, 4: 73); DYT1 gene encoding torsinA protein involved in Torsion dystonia (Brain Res. 2000, 877: 379); and alpha-B crystalline gene encoding alpha-B crystalline protein involved in protein aggregation diseases, including cardiomyopathy (Cell 2007, 130: 427); alpha1-antitrypsin gene encoding alpha1-antitrypsin protein involved in chronic obstructive pulmonary disease (COPD), liver disease and hepatocellular carcinoma (New Engl J Med. 2002, 346: 45); Ltk gene encoding leukocyte tyrosine kinase protein involved in systemic lupus erythematosus (Hum. Mol. Gen. 2004, 13: 171); PCSK9 gene encoding PCSK9 protein involved in hypercholesterolemia (Hum Mutat. 2009, 30: 520); prolactin receptor gene encoding prolactin receptor protein involved in breast tumors (Proc. Natl. Assoc. Sci. 2008, 105: 4533); CCL5 gene encoding the chemokine CCL5 involved in COPD and asthma (Eur. Respir. J. 2008, 32: 327); PTPN22 gene encoding PTPN22 protein involved in Type 1 diabetes, Rheumatoid arthritis, Graves disease, and SLE (Proc. Natl. Assoc. Sci. 2007, 104: 19767); androgen receptor gene encoding the androgen receptor protein involved in spinal and bulbar muscular atrophy or Kennedy's disease (J Steroid Biochem. Mol. Biol. 2008, 108: 245); CHMP4B gene encoding chromatin modifying protein-4B involved in progressive childhood posterior subcapsular cataracts (Am. J. Hum. Genet 2007, 81: 596); FXR/NR1H4 gene encoding Farnesoid X receptor protein involved in cholesterol gallstone disease, arthrosclerosis and diabetes (Mol. Endocrinol. 2007, 21: 1769); ABCA1 gene encoding ABCA1 protein involved in cardiovascular disease (Transl. Res. 2007, 149: 205); CaSR gene encoding the calcium sensing receptor protein involved in primary hypercalciuria (Kidney Int. 2007, 71: 1155); alpha-globin gene encoding alpha-globin protein involved in alpha-thallasemia (Science 2006, 312: 1215); httlpr gene encoding HTTLPR protein involved in obsessive compulsive disorder (Am. J. Hum. Genet. 2006, 78: 815); AVP gene encoding arginine vasopressin protein in stress-related disorders such as anxiety disorders and comorbid depression (CNS Neurol. Disord. Drug Targets 2006, 5: 167); GNAS gene encoding G proteins involved in congenital visual defects, hypertension, metabolic syndrome (Trends Pharmacol. Sci. 2006, 27: 260); APAF1 gene encoding APAF1 protein involved in a predisposition to major depression (Mol. Psychiatry 2006, 11: 76); TGF-beta1 gene encoding TGF-beta1 protein involved in breast cancer and prostate cancer (Cancer Epidemiol. Biomarkers Prev. 2004, 13: 759); AChR gene encoding acetylcholine receptor involved in congential myasthenic syndrome (Neurology 2004, 62: 1090); P2Y12 gene encoding adenosine diphosphate (ADP) receptor protein involved in risk of peripheral arterial disease (Circulation 2003, 108: 2971); LQT1 gene encoding LQT1 protein involved in atrial fibrillation (Cardiology 2003, 100: 109); RET protooncogene encoding RET protein involved in sporadic pheochromocytoma (J. Clin. Endocrinol. Metab. 2003, 88: 4911); filamin A gene encoding filamin A protein involved in various congenital malformations (Nat. Genet. 2003, 33: 487); TARDBP gene encoding TDP-43 protein involved in amyotrophic lateral sclerosis (Hum. Mol. Gene. t 2010, 19: 671); SCA3 gene encoding ataxin-3 protein involved in Machado-Joseph disease (PLoS One 2008, 3: e3341); SCAT gene encoding ataxin-7 protein involved in spino-cerebellar ataxia-7 (PLoS One 2009, 4: e7232); and HTT gene encoding huntingtin protein involved in Huntington's disease (Neurobiol Dis. 1996, 3:183); and the CA4 gene encoding carbonic anhydrase 4 protein, CRX gene encoding cone-rod homeobox transcription factor protein, FSCN2 gene encoding retinal fascin homolog 2 protein, IMPDH1 gene encoding inosine monophosphate dehydrogenase 1 protein, NR2E3 gene encoding nuclear receptor subfamily 2 group E3 protein, NRL gene encoding neural retina leucine zipper protein, PRPF3 (RP18) gene encoding pre-mRNA splicing factor 3 protein, PRPF8 (RP13) gene encoding pre-mRNA splicing factor 8 protein, PRPF31 (RP11) gene encoding pre-mRNA splicing factor 31 protein, RDS gene encoding peripherin 2 protein, ROM1 gene encoding rod outer membrane protein 1 protein, RHO gene encoding rhodopsin protein, RP1 gene encoding RP1 protein, RPGR gene encoding retinitis pigmentosa GTPase regulator protein, all of which are involved in Autosomal Dominant Retinitis Pigmentosa disease (Adv Exp Med Biol. 2008, 613:203)

[0328] In certain embodiments, the mutant allele is associated with any disease from the group consisting of Alzheimer's disease, Creutzfeldt-Jakob disease, fatal familial insomnia, Alexander disease, Parkinson's disease, amyotrophic lateral sclerosis, dentato-rubral and pallido-luysian atrophy DRPA, spino-cerebellar ataxia, Torsion dystonia, cardiomyopathy, chronic obstructive pulmonary disease (COPD), liver disease, hepatocellular carcinoma, systemic lupus erythematosus, hypercholesterolemia, breast cancer, asthma, Type 1 diabetes, Rheumatoid arthritis, Graves disease, SLE, spinal and bulbar muscular atrophy, Kennedy's disease, progressive childhood posterior subcapsular cataracts, cholesterol gallstone disease, arthrosclerosis, cardiovascular disease, primary hypercalciuria, alpha-thallasemia, obsessive compulsive disorder, Anxiety, comorbid depression, congenital visual defects, hypertension, metabolic syndrome, prostate cancer, congential myasthenic syndrome, peripheral arterial disease, atrial fibrillation, sporadic pheochromocytoma, congenital malformations, Machado-Joseph disease, Huntington's disease, and Autosomal Dominant Retinitis Pigmentosa disease.

[0329] i. Certain Huntingtin Targets

[0330] In certain embodiments, an allelic variant of huntingtin is selectively reduced. Nucleotide sequences that encode huntingtin include, without limitation, the following: GENBANK Accession No. NT_006081.18, truncated from nucleotides 1566000 to 1768000 (replaced by GENBANK Accession No. NT_006051), incorporated herein as SEQ ID NO: 8, and NM_002111.6, incorporated herein as SEQ ID NO: 10.

[0331] Table 3 provides SNPs found in the GM04022, GM04281, GM02171, and GM02173B cell lines. Also provided are the allelic variants found at each SNP position, the genotype for each of the cell lines, and the percentage of HD patients having a particular allelic variant. For example, the two allelic variants for SNP rs6446723 are T and C. The GM04022 cell line is heterozygous TC, the GM02171 cell line is homozygous CC, the GM02173 cell line is heterozygous TC, and the GM04281 cell line is homozygous TT. Fifty percent of HD patients have a T at SNP position rs6446723.

TABLE-US-00004 TABLE 3 Allelic Variations for SNPs Associated with HD SNP Variation GM04022 GM02171 GM02173 GM04281 TargetPOP allele rs6446723 T/C TC CC TC TT 0.50 T rs3856973 A/G AG AA AG GG 0.50 G rs2285086 A/G AG GG AG AA 0.50 A rs363092 A/C AC AA AC CC 0.49 C rs916171 C/G GC GG GC CC 0.49 C rs6844859 T/C TC CC TC TT 0.49 T rs7691627 A/G AG AA AG GG 0.49 G rs4690073 A/G AG AA AG GG 0.49 G rs2024115 A/G AG GG AG AA 0.48 A rs11731237 T/C CC CC TC TT 0.43 T rs362296 A/C CC AC AC AC 0.42 C rs10015979 A/G AA AA AG GG 0.42 G rs7659144 C/G CG CG CG CC 0.41 C rs363096 T/C CC CC TC TT 0.40 T rs362273 A/G AA AG AG AA 0.39 A rs16843804 T/C CC TC TC CC 0.38 C rs362271 A/G GG AG AG GG 0.38 G rs362275 T/C CC TC TC CC 0.38 C rs3121419 T/C CC TC TC CC 0.38 C rs362272 A/G GG -- AG GG 0.38 G rs3775061 A/G AA AG AG AA 0.38 A rs34315806 T/C CC TC TC CC 0.38 C rs363099 T/C CC TC TC CC 0.38 C rs2298967 T/C TT TC TC TT 0.38 T rs363088 A/T AA TA TA AA 0.38 A rs363064 T/C CC TC TC CC 0.35 C rs363102 A/G AG AA AA AA 0.23 G rs2798235 A/G AG GG GG GG 0.21 A rs363080 T/C TC CC CC CC 0.21 T rs363072 A/T TA TA AA AA 0.13 A rs363125 A/C AC AC CC CC 0.12 C rs362303 T/C TC TC CC CC 0.12 C rs362310 T/C TC TC CC CC 0.12 C rs10488840 A/G AG AG GG GG 0.12 G rs362325 T/C TC TC TT TT 0.11 T rs35892913 A/G GG GG GG GG 0.10 A rs363102 A/G AG AA AA AA 0.09 A rs363096 T/C CC CC TC TT 0.09 C rs11731237 T/C CC CC TC TT 0.09 C rs10015979 A/G AA AA AG GG 0.08 A rs363080 T/C TC CC CC CC 0.07 C rs2798235 A/G AG GG GG GG 0.07 G rs1936032 C/G GC CC CC CC 0.06 C rs2276881 A/G GG GG GG GG 0.06 G rs363070 A/G AA AA AA AA 0.06 A rs35892913 A/G GG GG GG GG 0.04 G rs12502045 T/C CC CC CC CC 0.04 C rs6446723 T/C TC CC TC TT 0.04 C rs7685686 A/G AG GG AG AA 0.04 G rs3733217 T/C CC CC CC CC 0.03 C rs6844859 T/C TC CC TC TT 0.03 C rs362331 T/C TC CC TC TT 0.03 C

E. Certain Pharmaceutical Compositions

[0332] In certain embodiments, the present invention provides pharmaceutical compositions comprising one or more antisense compound. In certain embodiments, such pharmaceutical composition comprises a suitable pharmaceutically acceptable diluent or carrier. In certain embodiments, a pharmaceutical composition comprises a sterile saline solution and one or more antisense compound. In certain embodiments, such pharmaceutical composition consists of a sterile saline solution and one or more antisense compound. In certain embodiments, the sterile saline is pharmaceutical grade saline. In certain embodiments, a pharmaceutical composition comprises one or more antisense compound and sterile water. In certain embodiments, a pharmaceutical composition consists of one or more antisense compound and sterile water. In certain embodiments, the sterile saline is pharmaceutical grade water. In certain embodiments, a pharmaceutical composition comprises one or more antisense compound and phosphate-buffered saline (PBS). In certain embodiments, a pharmaceutical composition consists of one or more antisense compound and sterile phosphate-buffered saline (PBS). In certain embodiments, the sterile saline is pharmaceutical grade PBS.

[0333] In certain embodiments, antisense compounds may be admixed with pharmaceutically acceptable active and/or inert substances for the preparation of pharmaceutical compositions or formulations. Compositions and methods for the formulation of pharmaceutical compositions depend on a number of criteria, including, but not limited to, route of administration, extent of disease, or dose to be administered.

[0334] Pharmaceutical compositions comprising antisense compounds encompass any pharmaceutically acceptable salts, esters, or salts of such esters. In certain embodiments, pharmaceutical compositions comprising antisense compounds comprise one or more oligonucleotide which, upon administration to an animal, including a human, is capable of providing (directly or indirectly) the biologically active metabolite or residue thereof. Accordingly, for example, the disclosure is also drawn to pharmaceutically acceptable salts of antisense compounds, prodrugs, pharmaceutically acceptable salts of such prodrugs, and other bioequivalents. Suitable pharmaceutically acceptable salts include, but are not limited to, sodium and potassium salts.

[0335] A prodrug can include the incorporation of additional nucleosides at one or both ends of an oligomeric compound which are cleaved by endogenous nucleases within the body, to form the active antisense oligomeric compound.

[0336] Lipid moieties have been used in nucleic acid therapies in a variety of methods. In certain such methods, the nucleic acid is introduced into preformed liposomes or lipoplexes made of mixtures of cationic lipids and neutral lipids. In certain methods, DNA complexes with mono- or poly-cationic lipids are formed without the presence of a neutral lipid. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to a particular cell or tissue. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to fat tissue. In certain embodiments, a lipid moiety is selected to increase distribution of a pharmaceutical agent to muscle tissue.

[0337] In certain embodiments, pharmaceutical compositions provided herein comprise one or more modified oligonucleotides and one or more excipients. In certain such embodiments, excipients are selected from water, salt solutions, alcohol, polyethylene glycols, gelatin, lactose, amylase, magnesium stearate, talc, silicic acid, viscous paraffin, hydroxymethylcellulose and polyvinylpyrrolidone.

[0338] In certain embodiments, a pharmaceutical composition provided herein comprises a delivery system. Examples of delivery systems include, but are not limited to, liposomes and emulsions. Certain delivery systems are useful for preparing certain pharmaceutical compositions including those comprising hydrophobic compounds. In certain embodiments, certain organic solvents such as dimethylsulfoxide are used.

[0339] In certain embodiments, a pharmaceutical composition provided herein comprises one or more tissue-specific delivery molecules designed to deliver the one or more pharmaceutical agents of the present invention to specific tissues or cell types. For example, in certain embodiments, pharmaceutical compositions include liposomes coated with a tissue-specific antibody.

[0340] In certain embodiments, a pharmaceutical composition provided herein comprises a co-solvent system. Certain of such co-solvent systems comprise, for example, benzyl alcohol, a nonpolar surfactant, a water-miscible organic polymer, and an aqueous phase. In certain embodiments, such co-solvent systems are used for hydrophobic compounds. A non-limiting example of such a co-solvent system is the VPD co-solvent system, which is a solution of absolute ethanol comprising 3% w/v benzyl alcohol, 8% w/v of the nonpolar surfactant Polysorbate 80.TM. and 65% w/v polyethylene glycol 300. The proportions of such co-solvent systems may be varied considerably without significantly altering their solubility and toxicity characteristics. Furthermore, the identity of co-solvent components may be varied: for example, other surfactants may be used instead of Polysorbate 80.TM.; the fraction size of polyethylene glycol may be varied; other biocompatible polymers may replace polyethylene glycol, e.g., polyvinyl pyrrolidone; and other sugars or polysaccharides may substitute for dextrose.

[0341] In certain embodiments, a pharmaceutical composition provided herein is prepared for oral administration. In certain embodiments, pharmaceutical compositions are prepared for buccal administration.

[0342] In certain embodiments, a pharmaceutical composition is prepared for administration by injection (e.g., intravenous, subcutaneous, intramuscular, etc.). In certain of such embodiments, a pharmaceutical composition comprises a carrier and is formulated in aqueous solution, such as water or physiologically compatible buffers such as Hanks's solution, Ringer's solution, or physiological saline buffer. In certain embodiments, other ingredients are included (e.g., ingredients that aid in solubility or serve as preservatives). In certain embodiments, injectable suspensions are prepared using appropriate liquid carriers, suspending agents and the like. Certain pharmaceutical compositions for injection are presented in unit dosage form, e.g., in ampoules or in multi-dose containers. Certain pharmaceutical compositions for injection are suspensions, solutions or emulsions in oily or aqueous vehicles, and may contain formulatory agents such as suspending, stabilizing and/or dispersing agents. Certain solvents suitable for use in pharmaceutical compositions for injection include, but are not limited to, lipophilic solvents and fatty oils, such as sesame oil, synthetic fatty acid esters, such as ethyl oleate or triglycerides, and liposomes. Aqueous injection suspensions may contain substances that increase the viscosity of the suspension, such as sodium carboxymethyl cellulose, sorbitol, or dextran. Optionally, such suspensions may also contain suitable stabilizers or agents that increase the solubility of the pharmaceutical agents to allow for the preparation of highly concentrated solutions.

[0343] In certain embodiments, a pharmaceutical composition is prepared for transmucosal administration. In certain of such embodiments penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art.

[0344] In certain embodiments, a pharmaceutical composition provided herein comprises an oligonucleotide in a therapeutically effective amount. In certain embodiments, the therapeutically effective amount is sufficient to prevent, alleviate or ameliorate symptoms of a disease or to prolong the survival of the subject being treated. Determination of a therapeutically effective amount is well within the capability of those skilled in the art.

[0345] In certain embodiments, one or more modified oligonucleotide provided herein is formulated as a prodrug. In certain embodiments, upon in vivo administration, a prodrug is chemically converted to the biologically, pharmaceutically or therapeutically more active form of an oligonucleotide. In certain embodiments, prodrugs are useful because they are easier to administer than the corresponding active form. For example, in certain instances, a prodrug may be more bioavailable (e.g., through oral administration) than is the corresponding active form. In certain instances, a prodrug may have improved solubility compared to the corresponding active form. In certain embodiments, prodrugs are less water soluble than the corresponding active form. In certain instances, such prodrugs possess superior transmittal across cell membranes, where water solubility is detrimental to mobility. In certain embodiments, a prodrug is an ester. In certain such embodiments, the ester is metabolically hydrolyzed to carboxylic acid upon administration. In certain instances the carboxylic acid containing compound is the corresponding active form. In certain embodiments, a prodrug comprises a short peptide (polyaminoacid) bound to an acid group. In certain of such embodiments, the peptide is cleaved upon administration to form the corresponding active form.

[0346] In certain embodiments, the present invention provides compositions and methods for reducing the amount or activity of a target nucleic acid in a cell. In certain embodiments, the cell is in an animal. In certain embodiments, the animal is a mammal. In certain embodiments, the animal is a rodent. In certain embodiments, the animal is a primate. In certain embodiments, the animal is a non-human primate. In certain embodiments, the animal is a human.

[0347] In certain embodiments, the present invention provides methods of administering a pharmaceutical composition comprising an oligomeric compound of the present invention to an animal. Suitable administration routes include, but are not limited to, oral, rectal, transmucosal, intestinal, enteral, topical, suppository, through inhalation, intrathecal, intracerebroventricular, intraperitoneal, intranasal, intraocular, intratumoral, and parenteral (e.g., intravenous, intramuscular, intramedullary, and subcutaneous). In certain embodiments, pharmaceutical intrathecals are administered to achieve local rather than systemic exposures. For example, pharmaceutical compositions may be injected directly in the area of desired effect (e.g., into the liver).

Nonlimiting Disclosure and Incorporation by Reference

[0348] While certain compounds, compositions and methods described herein have been described with specificity in accordance with certain embodiments, the following examples serve only to illustrate the compounds described herein and are not intended to limit the same. Each of the references, GenBank accession numbers, and the like recited in the present application is incorporated herein by reference in its entirety.

[0349] Although the sequence listing accompanying this filing identifies each sequence as either "RNA" or "DNA" as required, in reality, those sequences may be modified with any combination of chemical modifications. One of skill in the art will readily appreciate that such designation as "RNA" or "DNA" to describe modified oligonucleotides is, in certain instances, arbitrary. For example, an oligonucleotide comprising a nucleoside comprising a 2'-OH sugar moiety and a thymine base could be described as a DNA having a modified sugar (2'-OH for the natural 2'-H of DNA) or as an RNA having a modified base (thymine (methylated uracil) for natural uracil of RNA).

[0350] Accordingly, nucleic acid sequences provided herein, including, but not limited to those in the sequence listing, are intended to encompass nucleic acids containing any combination of natural or modified RNA and/or DNA, including, but not limited to such nucleic acids having modified nucleobases. By way of further example and without limitation, an oligomeric compound having the nucleobase sequence "ATCGATCG" encompasses any oligomeric compounds having such nucleobase sequence, whether modified or unmodified, including, but not limited to, such compounds comprising RNA bases, such as those having sequence "AUCGAUCG" and those having some DNA bases and some RNA bases such as "AUCGATCG" and oligomeric compounds having other modified or naturally occurring bases, such as "AT.sup.meCGAUCG," wherein .sup.meC indicates a cytosine base comprising a methyl group at the 5-position.

EXAMPLES

[0351] The following examples illustrate certain embodiments of the present invention and are not limiting. Moreover, where specific embodiments are provided, the inventors have contemplated generic application of those specific embodiments. For example, disclosure of an oligonucleotide having a particular motif provides reasonable support for additional oligonucleotides having the same or similar motif. And, for example, where a particular high-affinity modification appears at a particular position, other high-affinity modifications at the same position are considered suitable, unless otherwise indicated.

Example 1

Synthesis of Nucleoside Phosphoramidites

[0352] The preparation of nucleoside phosphoramidites is performed following procedures that are illustrated herein and in the art such as but not limited to U.S. Pat. No. 6,426,220 and published PCT WO 02/36743.

Example 2

Synthesis of Oligomeric Compounds

[0353] The oligomeric compounds used in accordance with this invention may be conveniently and routinely made through the well-known technique of solid phase synthesis. Equipment for such synthesis is sold by several vendors including, for example, Applied Biosystems (Foster City, Calif.). Any other means for such synthesis known in the art may additionally or alternatively be employed. It is well known to use similar techniques to prepare oligonucleotides such as alkylated derivatives and those having phosphorothioate linkages.

[0354] Oligomeric compounds: Unsubstituted and substituted phosphodiester (P.dbd.O) oligomeric compounds, including without limitation, oligonucleotides can be synthesized on an automated DNA synthesizer (Applied Biosystems model 394) using standard phosphoramidite chemistry with oxidation by iodine.

[0355] In certain embodiments, phosphorothioate internucleoside linkages (P.dbd.S) are synthesized similar to phosphodiester internucleoside linkages with the following exceptions: thiation is effected by utilizing a 10% w/v solution of 3,H-1,2-benzodithiole-3-one 1,1-dioxide in acetonitrile for the oxidation of the phosphite linkages. The thiation reaction step time is increased to 180 sec and preceded by the normal capping step. After cleavage from the CPG column and deblocking in concentrated ammonium hydroxide at 55.degree. C. (12-16 hr), the oligomeric compounds are recovered by precipitating with greater than 3 volumes of ethanol from a 1 M NH.sub.4OAc solution. Phosphinate internucleoside linkages can be prepared as described in U.S. Pat. No. 5,508,270.

[0356] Alkyl phosphonate internucleoside linkages can be prepared as described in U.S. Pat. No. 4,469,863.

[0357] 3'-Deoxy-3'-methylene phosphonate internucleoside linkages can be prepared as described in U.S. Pat. No. 5,610,289 or U.S. Pat. No. 5,625,050.

[0358] Phosphoramidite internucleoside linkages can be prepared as described in U.S. Pat. No. 5,256,775 or U.S. Pat. No. 5,366,878.

[0359] Alkylphosphonothioate internucleoside linkages can be prepared as described in published PCT applications PCT/US94/00902 and PCT/US93/06976 (published as WO 94/17093 and WO 94/02499, respectively).

[0360] 3'-Deoxy-3'-amino phosphoramidate internucleoside linkages can be prepared as described in U.S. Pat. No. 5,476,925.

[0361] Phosphotriester internucleoside linkages can be prepared as described in U.S. Pat. No. 5,023,243.

[0362] Borano phosphate internucleoside linkages can be prepared as described in U.S. Pat. Nos. 5,130,302 and 5,177,198.

[0363] Oligomeric compounds having one or more non-phosphorus containing internucleoside linkages including without limitation methylenemethylimino linked oligonucleosides, also identified as MMI linked oligonucleosides, methylenedimethylhydrazo linked oligonucleosides, also identified as MDH linked oligonucleosides, methylenecarbonylamino linked oligonucleosides, also identified as amide-3 linked oligonucleosides, and methyleneaminocarbonyl linked oligonucleosides, also identified as amide-4 linked oligonucleosides, as well as mixed backbone oligomeric compounds having, for instance, alternating MMI and P.dbd.O or P.dbd.S linkages can be prepared as described in U.S. Pat. Nos. 5,378,825, 5,386,023, 5,489,677, 5,602,240 and 5,610,289.

[0364] Formacetal and thioformacetal internucleoside linkages can be prepared as described in U.S. Pat. Nos. 5,264,562 and 5,264,564.

[0365] Ethylene oxide internucleoside linkages can be prepared as described in U.S. Pat. No. 5,223,618.

Example 3

Isolation and Purification of Oligomeric Compounds

[0366] After cleavage from the controlled pore glass solid support or other support medium and deblocking in concentrated ammonium hydroxide at 55.degree. C. for 12-16 hours, the oligomeric compounds, including without limitation oligonucleotides and oligonucleosides, are recovered by precipitation out of 1 M NH.sub.4OAc with >3 volumes of ethanol. Synthesized oligomeric compounds are analyzed by electrospray mass spectroscopy (molecular weight determination) and by capillary gel electrophoresis. The relative amounts of phosphorothioate and phosphodiester linkages obtained in the synthesis is determined by the ratio of correct molecular weight relative to the -16 amu product (+/-32 +/-48). For some studies oligomeric compounds are purified by HPLC, as described by Chiang et al., J. Biol. Chem. 1991, 266, 18162-18171. Results obtained with HPLC-purified material are generally similar to those obtained with non-HPLC purified material.

Example 4

Synthesis of Oligomeric Compounds Using the 96 Well Plate Format

[0367] Oligomeric compounds, including without limitation oligonucleotides, can be synthesized via solid phase P(III) phosphoramidite chemistry on an automated synthesizer capable of assembling 96 sequences simultaneously in a 96-well format. Phosphodiester internucleoside linkages are afforded by oxidation with aqueous iodine. Phosphorothioate internucleoside linkages are generated by sulfurization utilizing 3,H-1,2 benzodithiole-3-one 1,1 dioxide (Beaucage Reagent) in anhydrous acetonitrile. Standard base-protected beta-cyanoethyl-diiso-propyl phosphoramidites can be purchased from commercial vendors (e.g. PE-Applied Biosystems, Foster City, Calif., or Pharmacia, Piscataway, N.J.). Non-standard nucleosides are synthesized as per standard or patented methods and can be functionalized as base protected beta-cyanoethyldiisopropyl phosphoramidites.

[0368] Oligomeric compounds can be cleaved from support and deprotected with concentrated NH.sub.4OH at elevated temperature (55-60.degree. C.) for 12-16 hours and the released product then dried in vacuo. The dried product is then re-suspended in sterile water to afford a master plate from which all analytical and test plate samples are then diluted utilizing robotic pipettors.

Example 5

Analysis of Oligomeric Compounds Using the 96-Well Plate Format

[0369] The concentration of oligomeric compounds in each well can be assessed by dilution of samples and UV absorption spectroscopy. The full-length integrity of the individual products can be evaluated by capillary electrophoresis (CE) in either the 96-well format (Beckman P/ACE.TM. MDQ) or, for individually prepared samples, on a commercial CE apparatus (e.g., Beckman P/ACE.TM. 5000, ABI 270). Base and backbone composition is confirmed by mass analysis of the oligomeric compounds utilizing electrospray-mass spectroscopy. All assay test plates are diluted from the master plate using single and multi-channel robotic pipettors. Plates are judged to be acceptable if at least 85% of the oligomeric compounds on the plate are at least 85% full length.

Example 6

[0370] In Vitro Treatment of Cells with Oligomeric Compounds

[0371] The effect of oligomeric compounds on target nucleic acid expression is tested in any of a variety of cell types provided that the target nucleic acid is present at measurable levels. This can be routinely determined using, for example, PCR or Northern blot analysis. Cell lines derived from multiple tissues and species can be obtained from American Type Culture Collection (ATCC, Manassas, Va.).

[0372] The following cell type is provided for illustrative purposes, but other cell types can be routinely used, provided that the target is expressed in the cell type chosen. This can be readily determined by methods routine in the art, for example Northern blot analysis, ribonuclease protection assays or RT-PCR.

[0373] b.END cells: The mouse brain endothelial cell line b.END was obtained from Dr. Werner Risau at the Max Plank Institute (Bad Nauheim, Germany). b.END cells are routinely cultured in DMEM, high glucose (Invitrogen Life Technologies, Carlsbad, Calif.) supplemented with 10% fetal bovine serum (Invitrogen Life Technologies, Carlsbad, Calif.). Cells are routinely passaged by trypsinization and dilution when they reached approximately 90% confluence. Cells are seeded into 96-well plates (Falcon-Primaria #353872, BD Biosciences, Bedford, Mass.) at a density of approximately 3000 cells/well for uses including but not limited to oligomeric compound transfection experiments.

[0374] Experiments involving treatment of cells with oligomeric compounds:

[0375] When cells reach appropriate confluency, they are treated with oligomeric compounds using a transfection method as described.

[0376] LIPOFECTIN.TM.

[0377] When cells reached 65-75% confluency, they are treated with one or more oligomeric compounds. The oligomeric compound is mixed with LIPOFECTIN.TM. Invitrogen Life Technologies, Carlsbad, Calif.) in Opti-MEM.TM.-1 reduced serum medium (Invitrogen Life Technologies, Carlsbad, Calif.) to achieve the desired concentration of the oligomeric compound(s) and a LIPOFECTIN.TM. concentration of 2.5 or 3 .mu.g/mL per 100 nM oligomeric compound(s). This transfection mixture is incubated at room temperature for approximately 0.5 hours. For cells grown in 96-well plates, wells are washed once with 100 .mu.L OPTI-MEM.TM.-1 and then treated with 130 .mu.L of the transfection mixture. Cells grown in 24-well plates or other standard tissue culture plates are treated similarly, using appropriate volumes of medium and oligomeric compound(s). Cells are treated and data are obtained in duplicate or triplicate. After approximately 4-7 hours of treatment at 37.degree. C., the medium containing the transfection mixture is replaced with fresh culture medium. Cells are harvested 16-24 hours after treatment with oligomeric compound(s).

[0378] Other suitable transfection reagents known in the art include, but are not limited to, CYTOFECTIN.TM., LIPOFECTAMINE.TM., OLIGOFECTAMINE.TM., and FUGENE.TM.. Other suitable transfection methods known in the art include, but are not limited to, electroporation.

Example 7

[0379] Real-Time Quantitative PCR Analysis of Target mRNA Levels

[0380] Quantitation of target mRNA levels is accomplished by real-time quantitative PCR using the ABI PRISM.TM. 7600, 7700, or 7900 Sequence Detection System (PE-Applied Biosystems, Foster City, Calif.) according to manufacturer's instructions. This is a closed-tube, non-gel-based, fluorescence detection system which allows high-throughput quantitation of polymerase chain reaction (PCR) products in real-time. As opposed to standard PCR in which amplification products are quantitated after the PCR is completed, products in real-time quantitative PCR are quantitated as they accumulate. This is accomplished by including in the PCR reaction an oligonucleotide probe that anneals specifically between the forward and reverse PCR primers, and contains two fluorescent dyes. A reporter dye (e.g., FAM or JOE, obtained from either PE-Applied Biosystems, Foster City, Calif., Operon Technologies Inc., Alameda, Calif. or Integrated DNA Technologies Inc., Coralville, Iowa) is attached to the 5' end of the probe and a quencher dye (e.g., TAMRA, obtained from either PE-Applied Biosystems, Foster City, Calif., Operon Technologies Inc., Alameda, Calif. or Integrated DNA Technologies Inc., Coralville, Iowa) is attached to the 3' end of the probe. When the probe and dyes are intact, reporter dye emission is quenched by the proximity of the 3' quencher dye. During amplification, annealing of the probe to the target sequence creates a substrate that can be cleaved by the 5'-exonuclease activity of Taq polymerase. During the extension phase of the PCR amplification cycle, cleavage of the probe by Taq polymerase releases the reporter dye from the remainder of the probe (and hence from the quencher moiety) and a sequence-specific fluorescent signal is generated. With each cycle, additional reporter dye molecules are cleaved from their respective probes, and the fluorescence intensity is monitored at regular intervals by laser optics built into the ABI PRISM.TM. Sequence Detection System. In each assay, a series of parallel reactions containing serial dilutions of mRNA from untreated control samples generates a standard curve that is used to quantitate the percent inhibition after antisense oligonucleotide treatment of test samples.

[0381] Prior to quantitative PCR analysis, primer-probe sets specific to the target gene being measured are evaluated for their ability to be "multiplexed" with a GAPDH amplification reaction. In multiplexing, both the target gene and the internal standard gene GAPDH are amplified concurrently in a single sample. In this analysis, mRNA isolated from untreated cells is serially diluted. Each dilution is amplified in the presence of primer-probe sets specific for GAPDH only, target gene only ("single-plexing"), or both (multiplexing). Following PCR amplification, standard curves of GAPDH and target mRNA signal as a function of dilution are generated from both the single-plexed and multiplexed samples. If both the slope and correlation coefficient of the GAPDH and target signals generated from the multiplexed samples fall within 10% of their corresponding values generated from the single-plexed samples, the primer-probe set specific for that target is deemed multiplexable. Other methods of PCR are also known in the art.

[0382] RT and PCR reagents are obtained from Invitrogen Life Technologies (Carlsbad, Calif.). RT, real-time PCR is carried out by adding 20 .mu.L PCR cocktail (2.5.times.PCR buffer minus MgCl.sub.2, 6.6 mM MgCl.sub.2, 375 .mu.M each of dATP, dCTP, dCTP and dGTP, 375 nM each of forward primer and reverse primer, 125 nM of probe, 4 Units RNAse inhibitor, 1.25 Units PLATINUM.RTM. Taq, 5 Units MuLV reverse transcriptase, and 2.5.times.ROX dye) to 96-well plates containing 30 .mu.L total RNA solution (20-200 ng). The RT reaction is carried out by incubation for 30 minutes at 48.degree. C. Following a 10 minute incubation at 95.degree. C. to activate the PLATINUM.RTM. Taq, 40 cycles of a two-step PCR protocol are carried out: 95.degree. C. for 15 seconds (denaturation) followed by 60.degree. C. for 1.5 minutes (annealing/-extension).

[0383] Gene target quantities obtained by RT, real-time PCR are normalized using either the expression level of GAPDH, a gene whose expression is constant, or by quantifying total RNA using RIBOGREEN.TM. (Molecular Probes, Inc. Eugene, Oreg.). GAPDH expression is quantified by real time RT-PCR, by being run simultaneously with the target, multiplexing, or separately. Total RNA is quantified using RiboGreen.TM. RNA quantification reagent (Molecular Probes, Inc. Eugene, Oreg.). Methods of RNA quantification by RIBOGREEN.TM. are taught in Jones, L. J., et al, (Analytical Biochemistry, 1998, 265, 368-374).

[0384] In this assay, 170 .mu.L of RIBOGREEN.TM. working reagent (RIBOGREEN.TM. reagent diluted 1:350 in 10 mM Tris-HCl, 1 mM EDTA, pH 7.5) is pipetted into a 96-well plate containing 30 .mu.L purified, cellular RNA. The plate is read in a CytoFluor 4000 (PE Applied Biosystems) with excitation at 485 nm and emission at 530 nm.

Example 8

Analysis of Inhibition of Target Expression

[0385] Antisense modulation of a target expression can be assayed in a variety of ways known in the art. For example, a target mRNA levels can be quantitated by, e.g., Northern blot analysis, competitive polymerase chain reaction (PCR), or real-time PCR. Real-time quantitative PCR is presently desired. RNA analysis can be performed on total cellular RNA or poly(A)+ mRNA. One method of RNA analysis of the present disclosure is the use of total cellular RNA as described in other examples herein. Methods of RNA isolation are well known in the art. Northern blot analysis is also routine in the art. Real-time quantitative (PCR) can be conveniently accomplished using the commercially available ABI PRISM.TM. 7600, 7700, or 7900 Sequence Detection System, available from PE-Applied Biosystems, Foster City, Calif. and used according to manufacturer's instructions.

[0386] Protein levels of a target can be quantitated in a variety of ways well known in the art, such as immunoprecipitation, Western blot analysis (immunoblotting), enzyme-linked immunosorbent assay (ELISA) or fluorescence-activated cell sorting (FACS). Antibodies directed to a target can be identified and obtained from a variety of sources, such as the MSRS catalog of antibodies (Aerie Corporation, Birmingham, Mich.), or can be prepared via conventional monoclonal or polyclonal antibody generation methods well known in the art. Methods for preparation of polyclonal antisera are taught in, for example, Ausubel, F. M. et al., Current Protocols in Molecular Biology, Volume 2, pp. 11.12.1-11.12.9, John Wiley & Sons, Inc., 1997. Preparation of monoclonal antibodies is taught in, for example, Ausubel, F. M. et al., Current Protocols in Molecular Biology, Volume 2, pp. 11.4.1-11.11.5, John Wiley & Sons, Inc., 1997.

[0387] Immunoprecipitation methods are standard in the art and can be found at, for example, Ausubel, F. M. et al., Current Protocols in Molecular Biology, Volume 2, pp. 10.16.1-10.16.11, John Wiley & Sons, Inc., 1998. Western blot (immunoblot) analysis is standard in the art and can be found at, for example, Ausubel, F. M. et al., Current Protocols in Molecular Biology, Volume 2, pp. 10.8.1-10.8.21, John Wiley & Sons, Inc., 1997. Enzyme-linked immunosorbent assays (ELISA) are standard in the art and can be found at, for example, Ausubel, F. M. et al., Current Protocols in Molecular Biology, Volume 2, pp. 11.2.1-11.2.22, John Wiley & Sons, Inc., 1991.

Example 9

Design of Phenotypic Assays and In Vivo Studies for the Use of Target Inhibitors

Phenotypic Assays

[0388] Once target inhibitors have been identified by the methods disclosed herein, the oligomeric compounds are further investigated in one or more phenotypic assays, each having measurable endpoints predictive of efficacy in the treatment of a particular disease state or condition.

[0389] Phenotypic assays, kits and reagents for their use are well known to those skilled in the art and are herein used to investigate the role and/or association of a target in health and disease. Representative phenotypic assays, which can be purchased from any one of several commercial vendors, include those for determining cell viability, cytotoxicity, proliferation or cell survival (Molecular Probes, Eugene, Oreg.; PerkinElmer, Boston, Mass.), protein-based assays including enzymatic assays (Panvera, LLC, Madison, Wis.; BD Biosciences, Franklin Lakes, N.J.; Oncogene Research Products, San Diego, Calif.), cell regulation, signal transduction, inflammation, oxidative processes and apoptosis (Assay Designs Inc., Ann Arbor, Mich.), triglyceride accumulation (Sigma-Aldrich, St. Louis, Mo.), angiogenesis assays, tube formation assays, cytokine and hormone assays and metabolic assays (Chemicon International Inc., Temecula, Calif.; Amersham Biosciences, Piscataway, N.J.).

[0390] In one non-limiting example, cells determined to be appropriate for a particular phenotypic assay (i.e., MCF-7 cells selected for breast cancer studies; adipocytes for obesity studies) are treated with a target inhibitors identified from the in vitro studies as well as control compounds at optimal concentrations which are determined by the methods described above. At the end of the treatment period, treated and untreated cells are analyzed by one or more methods specific for the assay to determine phenotypic outcomes and endpoints.

[0391] Phenotypic endpoints include changes in cell morphology over time or treatment dose as well as changes in levels of cellular components such as proteins, lipids, nucleic acids, hormones, saccharides or metals. Measurements of cellular status which include pH, stage of the cell cycle, intake or excretion of biological indicators by the cell, are also endpoints of interest.

[0392] Measurement of the expression of one or more of the genes of the cell after treatment is also used as an indicator of the efficacy or potency of the target inhibitors. Hallmark genes, or those genes suspected to be associated with a specific disease state, condition, or phenotype, are measured in both treated and untreated cells.

In Vivo Studies

[0393] The individual subjects of the in vivo studies described herein are warm-blooded vertebrate animals, which includes humans.

Example 10

RNA Isolation

[0394] Poly(A)+ mRNA Isolation

[0395] Poly(A)+ mRNA is isolated according to Miura et al., (Clin. Chem., 1996, 42, 1758-1764). Other methods for poly(A)+ mRNA isolation are routine in the art. Briefly, for cells grown on 96-well plates, growth medium is removed from the cells and each well is washed with 200 .mu.L cold PBS. 60 .mu.L lysis buffer (10 mM Tris-HCl, pH 7.6, 1 mM EDTA, 0.5 M NaCl, 0.5% NP-40, 20 mM vanadyl-ribonucleoside complex) is added to each well, the plate is gently agitated and then incubated at room temperature for five minutes. 55 .mu.L of lysate is transferred to Oligo d(T) coated 96-well plates (AGCT Inc., Irvine Calif.). Plates are incubated for 60 minutes at room temperature, washed 3 times with 200 .mu.L of wash buffer (10 mM Tris-HCl pH 7.6, 1 mM EDTA, 0.3 M NaCl). After the final wash, the plate is blotted on paper towels to remove excess wash buffer and then air-dried for 5 minutes. 60 .mu.L of elution buffer (5 mM Tris-HCl pH 7.6), preheated to 70.degree. C., is added to each well, the plate is incubated on a 90.degree. C. hot plate for 5 minutes, and the eluate is then transferred to a fresh 96-well plate.

[0396] Cells grown on 100 mm or other standard plates may be treated similarly, using appropriate volumes of all solutions.

Total RNA Isolation

[0397] Total RNA is isolated using an RNEASY 96.TM. kit and buffers purchased from Qiagen Inc. (Valencia, Calif.) following the manufacturer's recommended procedures. Briefly, for cells grown on 96-well plates, growth medium is removed from the cells and each well is washed with 200 .mu.L cold PBS. 150 .mu.L Buffer RLT is added to each well and the plate vigorously agitated for 20 seconds. 150 .mu.L of 70% ethanol is then added to each well and the contents mixed by pipetting three times up and down. The samples are then transferred to the RNEASY 96.TM. well plate attached to a QIAVAC.TM. manifold fitted with a waste collection tray and attached to a vacuum source. Vacuum is applied for 1 minute. 500 .mu.L of Buffer RW1 is added to each well of the RNEASY 96.TM. plate and incubated for 15 minutes and the vacuum is again applied for 1 minute. An additional 500 .mu.L of Buffer RW1 is added to each well of the RNEASY 96.TM. plate and the vacuum is applied for 2 minutes. 1 mL of Buffer RPE is then added to each well of the RNEASY 96.TM. plate and the vacuum applied for a period of 90 seconds. The Buffer RPE wash is then repeated and the vacuum is applied for an additional 3 minutes. The plate is then removed from the QIAVAC.TM. manifold and blotted dry on paper towels. The plate is then re-attached to the QIAVAC.TM. manifold fitted with a collection tube rack containing 1.2 mL collection tubes. RNA is then eluted by pipetting 140 .mu.L of RNAse free water into each well, incubating 1 minute, and then applying the vacuum for 3 minutes.

[0398] The repetitive pipetting and elution steps may be automated using a QIAGEN Bio-Robot 9604 (Qiagen, Inc., Valencia Calif.). Essentially, after lysing of the cells on the culture plate, the plate is transferred to the robot deck where the pipetting, DNase treatment and elution steps are carried out.

Example 11

Target-Specific Primers and Probes

[0399] Probes and primers may be designed to hybridize to a target sequence, using published sequence information.

[0400] For example, for human PTEN, the following primer-probe set was designed using published sequence information (GENBANK.TM. accession number U92436.1, SEQ ID NO: 1).

TABLE-US-00005 Forward primer: (SEQ ID NO: 2) AATGGCTAAGTGAAGATGACAATCAT Reverse primer: (SEQ ID NO: 3) TGCACATATCATTACACCAGTTCGT

And the PCR probe:

TABLE-US-00006 (SEQ ID NO: 4) FAM-TTGCAGCAATTCACTGTAAAGCTGGAAAGG-TAMRA,

where FAM is the fluorescent dye and TAMRA is the quencher dye.

Example 12

Western Blot Analysis of Target Protein Levels

[0401] Western blot analysis (immunoblot analysis) is carried out using standard methods. Cells are harvested 16-20 h after oligonucleotide treatment, washed once with PBS, suspended in Laemmli buffer (100 .mu.l/well), boiled for 5 minutes and loaded on a 16% SDS-PAGE gel. Gels are run for 1.5 hours at 150 V, and transferred to membrane for western blotting. Appropriate primary antibody directed to a target is used, with a radiolabeled or fluorescently labeled secondary antibody directed against the primary antibody species. Bands are visualized using a PHOSPHORIMAGER.TM. (Molecular Dynamics, Sunnyvale Calif.).

Example 13

General Method for the Preparation of Phosphoramidites, Compounds 1-4

##STR00010##

[0403] Bx is a heterocyclic base;

[0404] R.sub.1 and R.sub.2 are each independently H, OH, or a 2'-sugar substituent group

[0405] Compounds 1 and 2 are commercially available from Glen Research. Compounds 3 and 4 are prepared as per the procedures well known in the art as described in the specification herein (see Seth et al., Bioorg. Med. Chem., 2011, 21(4), 1122-1125, J. Org. Chem., 2010, 75(5), 1569-1581, Nucleic Acids Symposium Series, 2008, 52(1), 553-554); and also see published PCT International Applications (WO 2011/115818, WO 2010/077578, WO2010/036698, WO2009/143369, WO 2009/006478, and WO 2007/090071), and U.S. Pat. No. 7,569,686).

Example 14

Preparation of Compound 10

##STR00011##

[0407] Bis(diisopropylamino) chlorophosphine, Compound 5 and DMT-protected deoxyribonucleoside, Compound 9 are commercially available from Sigma-Aldrich, and BOC Biosciences.

[0408] Compounds 7 and 10 are prepared using similar procedures as published in the literature (Yamada et al., J. Am. Chem. Soc., 2006, 128(15), 5251-5261).

Example 15

Preparation of Compound 13

##STR00012##

[0410] R.sub.3 is --CH.sub.2CH.sub.3, --CH.dbd.CH.sub.2, --CH.sub.2CH.dbd.CH.sub.2, --CH.sub.2CH.sub.2OCH.sub.3, --CH.sub.2CH.sub.2OPG or --CH.sub.2CH.sub.2OCH.sub.2F;

[0411] PG is a protecting group;

[0412] Bx is a heterocyclic base

[0413] Bis(diisopropylamino) chlorophosphine, Compound 5 and DTM-protected deoxyribonucleoside, Compound 9 are commercially available from Sigma-Aldrich, and BOC Biosciences. The Grignard reagent, Compound 11 is commercially available from various sources or can be prepared using similar procedures as published in the literature (Oppolzer et al., Tet. Let., 1982, 23(38), 3901-3904).

Example 16

General Method for the Preparation of Compound 16

##STR00013##

[0414] Bx is a heterocyclic base; R.sub.4 is alkyl, substituted alkyl, alkenyl, substituted alkenyl, alkynyl, substituted alkynyl, acyl or substituted acyl; wherein the substituent groups are independently selected from halogen, oxo, hydroxyl, amino, thio, azido, cyano or carboxyl;

[0415] Bis(diisopropylamino) chlorophosphine, Compound 5 and DTM-protected deoxyribonucleoside, Compound 9 are commercially available from Sigma-Aldrich, and BOC Biosciences. The Grignard reagent, Compound 14 is commercially available from various sources or can be prepared as per the procedures illustrated in Example 15.

[0416] Compound 15 used in the phosphitylation step serves only to illustrate the compounds described herein and is not intended to be limiting. Additional phosphitylating reagents known in the art as described in the specification herein can also be employed to generate various phosphoramidite analogs of Compound 16 and are used as building blocks for oligonucleotide synthesis.

Example 17

Preparation of Dimeric Phosphoramidites, Compounds 20 and 21

##STR00014##

[0418] Compounds 1 and 17 are commercially available from Glen Research and Chemexpress. Compounds 18 and 19 were separated by column chromatography. Although one of the methylphosphonate internucleoside linkages in DMT phosphoramidite dimer 20 or 21 is Rp and the other is Sp, the absolute stereochemistry at the phosphorus chiral center (P*) of the dimers has not been determined. The spectral analysis of Compounds 20 and 21 was consistent with the structures.

Example 18

General Method for the Preparation of Oligomeric Compound 25

##STR00015##

[0420] The Unylinker.TM. 22 is commercially available. Oligomeric Compound 25 comprising a modified internucleoside linkage (e.g. methyl phosphonate, phosphonoacetate or phosphonoformate) is prepared using standard procedures in automated DNA/RNA synthesis (see Dupouy et al., Angew. Chem. Int. Ed., 2006, 45, 3623-3627). Phosphoramidite building blocks, Compounds 1, 2, 3, 10 and 13 are prepared as per the procedures illustrated in Examples 13 to 15. The synthetic steps illustrated are meant to be representative and not intended to be limiting as other phosphoramidite building blocks which are disclosed in Examples 13 to 16a can be used in place of Compound 1, 2, 3, 10 or 13 to prepare an oligomeric compound having a predetermined sequence and composition. The order and quantity of phosphoramidites added to the solid support can be adjusted to prepare gapped oligomeric compounds as described herein. Such gapped oligomeric compounds can have predetermined composition and base sequence as dictated by any given target.

Example 19

General Method for the Preparation of Oligomeric Compounds Comprising a Modified Phosphorus Containing Internucleoside Linkage Via Solid Phase Techniques (Preparation of 460209, 558255, 573815, 560221, A01 and A02)

[0421] Unless otherwise stated, all reagents and solutions used for the synthesis of oligomeric compounds are purchased from commercial sources. Standard phosphoramidite building blocks and solid support are used for incorporation nucleoside residues which include for example T, A, U, G, C and .sup.mC residues. A 0.1 M solution of phosphoramidite in anhydrous acetonitrile was used for .beta.-D-2'-deoxyribonucleoside, methyl phosphonate and phosphonoacetate. For (R)- or (S)-methyl phosphonate dimeric phosphoramidite, a 0.1 M solution in acetonitrile was used. For 2'-O-MOE phosphoramidite, a 0.2 M solution in acetonitrile was used. For constrained ethyl (cEt) BNA phosphoramidite, a 0.2 M solution in a 1:1 (v/v) mixture of acetonitrile and toluene was used.

[0422] The oligomeric compound was synthesized on VIMAD UnyLinker.TM. solid support and the appropriate amounts of solid support were packed in the column for synthesis. Dichloroacetic acid (3%) in DCM was used as detritylating reagent. 4,5-Dicyanoimidazole in the presence of N-methyl-imidazole or 1H-tetrazole in CH.sub.3CN was used as activator during the coupling step. The synthesis of oligomeric compounds was performed on an AB1394 synthesizer (Applied Biosystems) on a 2 .mu.mol scale using the procedures set forth below.

[0423] A solid support preloaded with the Unylinker.TM. was loaded into a synthesis column after closing the column bottom outlet and CH.sub.3CN was added to form a slurry. The swelled support-bound Unylinker.TM. was treated with a detritylating reagent containing 3% dichloroacetic acid in DCM to provide the free hydroxyl groups. During the coupling step, four to fourteen equivalents of phosphoramidite solutions were delivered with coupling for 6 minutes for unmodified deoxyribonucleoside phosphoramidites and 13 minutes for other modifications. All of the other steps followed standard protocols. Phosphodiester linkages were introduced by oxidation with 10% t-BuOOH solution in CH.sub.3CN for a contact time of 10 minutes. Phosphorothioate linkages were introduced by sulfurization with PADS (0.2 M) in 1:1 pyridine/CH.sub.3CN for a contact time of 5 minutes.

[0424] After the desired sequence was assembled, the cyanoethyl phosphate protecting groups were deprotected using a 1:1 (v/v) mixture of triethylamine and acetonitrile. For phosphonoacetate containing oligomeric compound, 1.5% DBU solution in CH.sub.3CN was used. The solid support bound oligomeric compound was washed with acetonitrile and dried under high vacuum. The solid-support bound oligomeric compound was then suspended in ammonia (28-30 wt %) at room temperature for 48 h to remove nucleobase protecting groups and to cleave from the solid support.

[0425] The unbound oligomeric compound was then filtered and the support was rinsed and filtered with water:ethanol (1:1) followed by water. The filtrate was combined and concentrated to dryness. The residue obtained was purified by cationic ion exchange HPLC (Source 30Q resin, A--50 mM sodium bicarbonate in CH.sub.3CN:H.sub.2O 3:7 (v/v), B--50 mM sodium bicarbonate, 1.5 M sodium bromide in CH.sub.3CN:H.sub.2O 3:7 (v/v), 0-30% in 110 min, flow 6 mL/min, .lamda.=260 nm). Fractions containing full-length oligomeric compound were pooled together (assessed by LC/MS analysis>95%). The residue was desalted by HPLC on a reverse phase cartridge to yield the desired oligomeric compound.

TABLE-US-00007 SEQ ID NO./ ISIS NO. Composition (5' to 3') Gap Chemistry (motif) 05/460209 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC.- sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e Positive control (3/9/3) 05/558255 T.sub.eA.sub.kA.sub.kA.sub.dxT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e Single -P(CH.sub.3)(=O)- (3/9/3) 05/573815 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dyT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e Single -P(CH.sub.2CO.sub.2.sup.-)(-O)- (3/9/3) 06/560221 T.sub.e.sup.mC.sub.e.sup.mC.sub.eC.sub.dwA.sub.dT.sub.dwT.sub.dT- .sub.dw.sup.mC.sub.dA.sub.dwG.sub.dG.sub.dwA.sub.d Alternating -P(CH.sub.3)(=S)- G.sub.dwA.sub.dC.sub.dw.sup.mC.sub.dT.sub.eG.sub.eG.sub.e different motif (3/14/3) 05/A01 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dzT.sub.dG.sub.dT.sub.d.sup.mC.su- b.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e Single -P((R)-CH.sub.3)(-O)- (3/9/3) 05/A02 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dqT.sub.dG.sub.dT.sub.d.sup.mC.su- b.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e Single -P((S)-CH.sub.3)(-O)- (3/9/3)

[0426] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x", "y", "w", "z" or "q". Each nucleoside followed by a subscript "x" indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "y" indicates a phosphonoacetate internucleoside linkage (--P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)--). Each nucleoside followed by a subscript "w" indicates a methyl thiophosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.S)--). Each nucleoside followed by a subscript "z" indicates an (R)-methyl phosphonate internucleoside linkage (--P--(R)--CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "q" indicates an (S)-methyl phosphonate internucleoside linkage (--P--(S)--CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscripts "e", or "k" are further illustrated below.

##STR00016##

Example 20

[0427] Human Peripheral Blood Mononuclear Cells (hPBMC) Assay Protocol

[0428] The hPBMC assay was performed using BD Vautainer CPT tube method. A sample of whole blood from volunteered donors with informed consent at US HealthWorks clinic (Faraday & El Camino Real, Carlsbad) was obtained and collected in 4-15 BD Vacutainer CPT 8 ml tubes (VWR Cat.# BD362753). The approximate starting total whole blood volume in the CPT tubes for each donor was recorded using the PBMC assay data sheet.

[0429] The blood sample was remixed immediately prior to centrifugation by gently inverting tubes 8-10 times. CPT tubes were centrifuged at rt (18-25.degree. C.) in a horizontal (swing-out) rotor for 30 min. at 1500-1800 RCF with brake off (2700 RPM Beckman Allegra 6R). The cells were retrieved from the buffy coat interface (between Ficoll and polymer gel layers); transferred to a sterile 50 ml conical tube and pooled up to 5 CPT tubes/50 ml conical tube/donor. The cells were then washed twice with PBS (Ca.sup.++, Mg.sup.++ free; GIBCO). The tubes were topped up to 50 ml and mixed by inverting several times. The sample was then centrifuged at 330.times.g for 15 minutes at rt (1215 RPM in Beckman Allegra 6R) and aspirated as much supernatant as possible without disturbing pellet. The cell pellet was dislodged by gently swirling tube and resuspended cells in RPMI+10% FBS+pen/strep (.about.1 ml/10 ml starting whole blood volume). A 60 .mu.l sample was pipette into a sample vial (Beckman Coulter) with 600 .mu.l VersaLyse reagent (Beckman Coulter Cat# A09777) and was gently vortexed for 10-15 sec. The sample was allowed to incubate for 10 min. at rt and being mixed again before counting. The cell suspension was counted on Vicell XR cell viability analyzer (Beckman Coulter) using PBMC cell type (dilution factor of 1:11 was stored with other parameters). The live cell/ml and viability were recorded. The cell suspension was diluted to 1.times.10.sup.7 live PBMC/ml in RPMI+10% FBS+pen/strep.

[0430] The cells were plated at 5.times.10.sup.5 in 50 .mu.l/well of 96-well tissue culture plate (Falcon Microtest). 50 .mu.l/well of 2.times. concentration oligos/controls diluted in RPMI+10% FBS+pen/strep. was added according to experiment template (100 .mu.l/well total). Plates were placed on the shaker and allowed to mix for approx. 1 min. After being incubated for 24 hrs at 37.degree. C.; 5% CO.sub.2, the plates were centrifuged at 400.times.g for 10 minutes before removing the supernatant for MSD cytokine assay (i.e. human IL-6, IL-10, IL-8 and MCP-1).

Example 21

[0431] Evaluation of the Proinflammatory Effects in hPBMC Assay for a Modified Oligonucleotide Comprising Methyl Thiophosphonate Internucleoside Linkages--In Vitro Assay

[0432] A modified oligonucleotide was designed based on the 3/14/3 MOE gapmer, ISIS 353512. This modified oligonucleotide was created by having alternating methyl thiophosphonate (--P(CH.sub.3)(.dbd.S)--) internucleoside linkages throughout the gap region. The proinflammatory effect of the modified oligonucleotide targeting hCRP was evaluated in hPBMC assay using the protocol described in Example 20.

[0433] The hPBMCs were isolated from fresh, volunteered donors and were treated with modified oligonucleotides at 0, 0.0128, 0.064, 0.32, 1.6, 8, 40 and 200 .mu.M concentrations. After a 24 hr treatment, the cytokine levels were measured.

[0434] The levels of IL-6 were used as the primary readout and compared to the positive control, oligonucleotide, ISIS 353512 and negative control, ISIS 104838. The results from two donors denoted as "Donor 1" and "Donor 2" are presented below.

TABLE-US-00008 SEQ ID NO./ ISIS NO. Composition (5' to 3') 06/353512 T.sub.e.sup.mC.sub.e.sup.mC.sub.e.sup.mC.sub.dA.sub.dT.sub.dT.s- ub.dT.sub.d.sup.mC.sub.dA.sub.dG.sub.dG.sub.dA.sub.dG.sub.dA.sub.d.sup.m C.sub.d.sup.mC.sub.dT.sub.eG.sub.eG.sub.e 06/560221 T.sub.e.sup.mC.sub.e.sup.mC.sub.eC.sub.dwA.sub.dT.sub.dwT.sub.d- T.sub.dw.sup.mC.sub.dA.sub.dwG.sub.dG.sub.dwA.sub.d G.sub.dwA.sub.dC.sub.dw.sup.mC.sub.dT.sub.eG.sub.eG.sub.e 07/104838 G.sub.e.sup.mC.sub.eT.sub.eG.sub.eA.sub.eT.sub.dT.sub.dA.sub.dG- .sub.dA.sub.dG.sub.dA.sub.dG.sub.dA.sub.dG.sub.dG.sub.e T.sub.e.sup.mC.sub.e.sup.mC.sub.e.sup.mC.sub.e

[0435] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for nucleosides followed by a subscript "w". Each nucleoside followed by a subscript "w" indicates a methyl thiophosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.S)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscripts "e" are further illustrated below.

##STR00017##

TABLE-US-00009 SEQ ID NO. IL-6 Chemistry/ Conc. (Donor 1) IL-6 (Donor 2) Gap ISIS NO. (uM) (pg/mL) (pg/mL) (gap motif) 06/353512 0 6.3 7.8 Positive control 0.0128 8.3 10.2 (3/14/3) 0.064 77.2 118.2 0.32 151.9 394.3 1.6 152.4 395.3 8 147.6 337.2 40 122.5 228.4 200 119.7 193.5 06/560221 0 5.6 7.6 Alternating 0.0128 6.4 6.9 P(CH.sub.3)(.dbd.S)-- 0.064 6.7 7.6 (3/14/3) 0.32 7.6 8.9 1.6 9.1 11.8 8 17.5 24.3 40 65.8 50.2 200 60.0 100.4 07/104838 0 5.8 7.3 Negative control 0.0128 7.7 7.9 (5/10/5) 0.064 7.5 11.6 0.32 15.1 22.0 1.6 73.1 112.8 8 29.6 51.5 40 41.6 69.5 200 55.4 4018.

Example 22

Single Nucleotide Polymorphisms (SNPs) in the Huntingtin (HTT) Gene Sequence

[0436] SNP positions (identified by Hayden et al, WO/2009/135322) associated with the HTT gene were mapped to the HTT genomic sequence, designated herein as SEQ ID NO: 08 (NT_006081.18 truncated from nucleotides 1566000 to 1768000). The chart below provides SNP positions associated with the HTT gene and a reference SNP ID number from the Entrez SNP database at the National Center for Biotechnology Information (NCBI, http://www.ncbi.nlm.nih.gov/sites/-entrez?db=snp), incorporated herein by reference. The chart below furnishes further details on each SNP. The `Reference SNP ID number` or `RS number` is the number designated to each SNP from the Entrez SNP database at NCBI, incorporated herein by reference. `SNP position` refers to the nucleotide position of the SNP on SEQ ID NO: 08. `Polymorphism` indicates the nucleotide variants at that SNP position. `Major allele` indicates the nucleotide associated with the major allele, or the nucleotide present in a statistically significant proportion of individuals in the human population. `Minor allele` indicates the nucleotide associated with the minor allele, or the nucleotide present in a relatively small proportion of individuals in the human population.

TABLE-US-00010 Single Nuclear Polymorphisms (SNPs) and their positions on SEQ ID NO: 08 SNP Major Minor RS No. position Polymorphism allele allele rs2857936 1963 C/T C T rs12506200 3707 A/G G A rs762855 14449 A/G G A rs3856973 19826 G/A G A rs2285086 28912 G/A A G rs7659144 37974 C/G C G rs16843804 44043 C/T C T rs2024115 44221 G/A A G rs10015979 49095 A/G A G rs7691627 51063 A/G G A rs2798235 54485 G/A G A rs4690072 62160 G/T T G rs6446723 66466 C/T T C rs363081 73280 G/A G A rs363080 73564 T/C C T rs363075 77327 G/A G A rs363064 81063 T/C C T rs3025849 83420 A/G A G rs6855981 87929 A/G G A rs363102 88669 G/A A G rs11731237 91466 C/T C T rs4690073 99803 A/G G A rs363144 100948 T/G T G rs3025838 101099 C/T C T rs34315806 101687 A/G G A rs363099 101709 T/C C T rs363096 119674 T/C T C rs2298967 125400 C/T T C rs2298969 125897 A/G G A rs6844859 130139 C/T T C rs363092 135682 C/A C A rs7685686 146795 A/G A G rs363088 149983 A/T A T rs362331 155488 C/T T C rs916171 156468 G/C C G rs362322 161018 A/G A G rs362275 164255 T/C C T rs362273 167080 A/G A G rs2276881 171314 G/A G A rs3121419 171910 T/C C T rs362272 174633 G/A G A rs362271 175171 G/A G A rs3775061 178407 C/T C T rs362310 179429 A/G G A rs362307 181498 T/C C T rs362306 181753 G/A G A rs362303 181960 T/C C T rs362296 186660 C/A C A rs1006798 198026 A/G A G.

Example 23

Modified Oligonucleotides Comprising Methyl Phosphonate Internucleoside Linkage(s) Targeting HTT SNP--In Vitro Study

[0437] A series of modified oligonucleotides were designed based on ISIS 460209 wherein the gap region contains nine .beta.-D-2'-deoxyribonucleosides. The modified oligonucleotides were designed by introducing a methyl phosphonate internucleoside linkage within the gap region. The oligonucleotides with modified phosphorus containing backbone were tested for their ability to selectively inhibit mutant (mut) HTT mRNA expression levels targeting rs7685686 while leaving the expression of the wild-type (wt) intact. The potency and selectivity of the modified oligonucleotides were evaluated and compared to ISIS 460209. The position on the oligonucleotides opposite to the SNP position, as counted from the 5'-terminus is position 8.

[0438] Heterozygous fibroblast GM04022 cell line was used for the in vitro assay (from Coriell Institute). Cultured GM04022 cells at a density of 25,000 cells per well were transfected using electroporation with 0.12, 0.37, 1.1, 3.3 and 10 .mu.M concentrations of modified oligonucleotides. After a treatment period of approximately 24 hours, cells were washed with DPBS buffer and lysed. RNA was extracted using Qiagen RNeasy purification and mRNA levels were measured by quantitative real-time PCR using ABI assay C_2229297_10 which measures at dbSNP rs362303. RT-PCR method in short; A mixture was made using 2020 .mu.L 2.times.PCR buffer, 101 .mu.L primers (300 .mu.M from ABI), 1000 .mu.L water and 40.4 .mu.L RT MIX. To each well was added 15 .mu.L of this mixture and 5 .mu.L of purified RNA. The mutant and wild-type HTT mRNA levels were measured simultaneously by using two different fluorophores, FAM for mutant allele and VIC for wild-type allele. The HTT mRNA levels were adjusted according to total RNA content, as measured by RIBOGREEN.

Analysis of IC.sub.50's and Selectivity

[0439] The half maximal inhibitory concentration (IC.sub.50) of each oligonucleotide is presented below and was calculated by plotting the concentrations of oligonucleotides used versus the percent inhibition of HTT mRNA expression achieved at each concentration, and noting the concentration of oligonucleotide at which 50% inhibition of HTT mRNA expression was achieved compared to the control. The IC.sub.50 at which each oligonucleotide inhibits the mutant HTT mRNA expression is denoted as `mut IC.sub.50`. The IC.sub.50 at which each oligonucleotide inhibits the wild-type HTT mRNA expression is denoted as `wt IC.sub.50`. Selectivity as expressed in "fold" was calculated by dividing the IC.sub.50 for inhibition of the wild-type HTT versus the IC.sub.50 for inhibiting expression of the mutant HTT mRNA and the results are presented below.

TABLE-US-00011 SEQ ID NO./ ISIS NO. Composition (5'to 3') 05/460209 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/558255 T.sub.eA.sub.kA.sub.kA.sub.dxT.sub.dT.sub.dG.sub.dT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/558256 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dxT.sub.dG.sub.dT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e

[0440] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x" which indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscripts "e" or "k" are further illustrated below.

##STR00018##

TABLE-US-00012 SEQ ID NO./ IC.sub.50 Fold Selectivity ISIS NO. (.mu.M) (mut vs. wt) Gap Chemistry 05/460209 0.30 3.3 Positive control (3/9/3) 05/558255 0.19 6.8 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/558256 0.20 6.5 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3)

Example 24

Modified Oligonucleotides Comprising Methyl Phosphonate or Phosphonoacetate Internucleoside Linkage(s) Targeting HTT SNP--In Vitro Study

[0441] A series of modified oligonucleotides were designed based on ISIS 460209 wherein the gap region contains nine .beta.-D-2'-deoxyribonucleosides. The modified oligonucleotides were synthesized to include one or more methyl phosphonate or phosphonoacetate internucleoside linkage modifications within the gap region. The oligonucleotides with modified phosphorus containing backbone were tested for their ability to selectively inhibit mutant (mut) HTT mRNA expression levels targeting rs7685686 while leaving the expression of the wild-type (wt) intact. The potency and selectivity of the modified oligonucleotides were evaluated and compared to ISIS 460209.

[0442] The position on the oligonucleotides opposite to the SNP position, as counted from the 5'-terminus is position 8.

[0443] The modified oligonucleotides were tested in vitro. Heterozygous fibroblast GM04022 cell line was used (from Coriell Institute). Cultured GM04022 cells at a density of 25,000 cells per well were transfected using electroporation with 0.12, 0.37, 1.1, 3.3 and 10 .mu.M concentrations of modified oligonucleotides. After a treatment period of approximately 24 hours, cells were washed with DPBS buffer and lysed. RNA was extracted using Qiagen RNeasy purification and mRNA levels were measured by quantitative real-time PCR using ABI assay C_2229297_10 which measures at dbSNP rs362303. RT-PCR method in short; A mixture was made using 2020 .mu.L 2.times.PCR buffer, 101 .mu.L primers (300 .mu.M from ABI), 1000 uL water and 40.4 .mu.L RT MIX. To each well was added 15 .mu.L of this mixture and 5 .mu.L of purified RNA. The mutant and wild-type HTT mRNA levels were measured simultaneously by using two different fluorophores, FAM for mutant allele and VIC for wild-type allele. The HTT mRNA levels were adjusted according to total RNA content, as measured by RIBOGREEN.

[0444] The IC.sub.50s and selectivities as expressed in "fold" were measured and calculated using methods described previously in Example 23. The results are presented below.

TABLE-US-00013 SEQ ID NO./ ISIS NO. Composition (5' to 3') 05/460209 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566276 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dxT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566277 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.dx.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566278 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dxA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566279 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dxT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566280 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.dx.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566283 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dxT.sub.dxG.sub.dT.sub.d.sup.- mC.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/573815 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dyT.sub.dG.sub.dT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/573816 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dyG.sub.dT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/573817 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.dy.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/573818 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.dy.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e

[0445] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x" or "y". Each nucleoside followed by a subscript "x" indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "y" indicates a phosphonoacetate internucleoside linkage (--P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscripts "e" or "k" are further illustrated below.

##STR00019##

TABLE-US-00014 SEQ Fold ID NO./ IC.sub.50 Selectivity ISIS NO. (.mu.M) (mut vs. wt) Gap Chemistry 05/460209 0.15 9.4 Positive control (3/9/3) 05/566276 0.76 12.8 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/566277 0.20 17 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/566278 0.25 8.9 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/566279 0.38 -- Single --P(CH.sub.3)(.dbd.O)-- (3/9/3 05/566280 0.27 47 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3 05/566283 0.8 >100 Two --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/573815 0.16 18.8 Single --P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)-- (3/9/3) 05/573816 0.55 18.1 Single --P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)-- (3/9/3) 05/573817 0.17 22.5 Single --P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)-- (3/9/3) 05/573818 0.24 13.5 Single --P(CH.sub.2CO.sub.2.sup.-)(.dbd.O)-- (3/9/3).

Example 25

Modified Oligonucleotides Comprising Methyl Phosphonate Internucleoside Linkage(s) Targeting HTT SNP--In Vitro Study

[0446] A series of modified oligonucleotide was designed based on ISIS 460209 or ISIS 476333, wherein the gap region contains nine .beta.-D-2'-deoxyribonucleosides. The modified oligonucleotides were designed by introducing methyl phosphonate internucleoside linkage within the gap region at a fixed position and using different wing motifs for 3/9/3 and 4/9/4 gapmer motifs. The modified oligonucleotides were tested for their ability to selectively inhibit mutant (mut) HTT mRNA expression levels targeting rs7685686 while leaving the expression of the wild-type (wt) intact. The potency and selectivity of the modified oligonucleotides were evaluated and compared to ISIS 460209 or ISIS 476333.

[0447] The position on the oligonucleotides opposite to the SNP position, as counted from the 5'-terminus is position 8 for ISIS 460209 or position 9 for ISIS 476333.

[0448] The modified oligonucleotides were tested in vitro. Heterozygous fibroblast GM04022 cell line was used (from Coriell Institute). Cultured GM04022 cells at a density of 25,000 cells per well were transfected using electroporation with 0.1, 0.4, 1.1, 3.3 and 10 .mu.M concentrations of modified oligonucleotides. After a treatment period of approximately 24 hours, cells were washed with DPBS buffer and lysed. RNA was extracted using Qiagen RNeasy purification and mRNA levels were measured by quantitative real-time PCR using ABI assay C_2229297_10 which measures at dbSNP rs362303. RT-PCR method in short; A mixture was made using 2020 uL 2.times.PCR buffer, 101 uL primers (300 .mu.M from ABI), 1000 uL water and 40.4 uL RT MIX. To each well was added 15 uL of this mixture and 5 uL of purified RNA. The mutant and wild-type HTT mRNA levels were measured simultaneously by using two different fluorophores, FAM for mutant allele and VIC for wild-type allele. The HTT mRNA levels were adjusted according to total RNA content, as measured by RIBOGREEN.

[0449] The IC.sub.50s and selectivities as expressed in "fold" were measured and calculated using methods described previously in Example 23. The results are presented below.

TABLE-US-00015 SEQ ID NO./ ISIS NO. Composition (5' to 3') 05/460209 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.sup.mC.- sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/558257 T.sub.eA.sub.kA.sub.kA.sub.dT.sub.dT.sub.dxG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/571123 T.sub.eA.sub.eA.sub.eA.sub.kT.sub.kT.sub.dxG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/579854 T.sub.eA.sub.eA.sub.eA.sub.kT.sub.dT.sub.dxG.sub.dT.sub.d.sup.mC- .sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 05/566282 T.sub.eA.sub.kA.sub.kA.sub.dxT.sub.dxT.sub.dG.sub.dT.sub.d.sup.m- C.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.k.sup.mC.sub.e 09/476333 A.sub.eT.sub.kA.sub.eA.sub.kA.sub.dT.sub.dT.sub.dG.sub.dT.sub.d.- sup.mC.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.e.sup.mC.sub.kA.- sub.e 09/571171 A.sub.eT.sub.kA.sub.eA.sub.kA.sub.dT.sub.dT.sub.dxG.sub.dT.sub.d- .sup.mC.sub.dA.sub.dT.sub.d.sup.mC.sub.dA.sub.k.sup.mC.sub.e.sup.mC.sub.kA- .sub.e

[0450] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x" which indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscripts "e" or "k" are further illustrated below.

##STR00020##

TABLE-US-00016 SEQ ID NO./ Mut IC.sub.50 Wt IC.sub.50 Fold Selectivity ISIS NO. (.mu.M) (.mu.M) (mut vs. wt) Gap Chemistry (motif) 05/460209 0.56 3.8 6.8 Positive control (3/9/3) 05/558257 1.7 >10 >5.9 Single --P(CH.sub.3)(.dbd.O)-- (3/9/3) 05/571123 0.96 >10 >10.4 Single --P(CH.sub.3)(.dbd.O)-- (5/7/3) 05/579854 0.63 >10 >15.9 Single --P(CH.sub.3)(.dbd.O)-- (4/8/3) 05/566282 0.51 6.3 12.4 Two --P(CH.sub.3)(.dbd.O)-- (3/9/3) 09/476333 0.56 3.4 6.1 Positive control (4/9/4) 09/571171 0.54 >10 >18.5 Single --P(CH.sub.3)(.dbd.O)-- (4/9/4).

Example 26

Modified Oligonucleotides Comprising Methyl Phosphonate Internucleoside Linkages Targeting PTEN and SRB-1--In Vivo Study

[0451] Additional modified oligonucleotides were designed based on ISIS 482050 and 449093 wherein the gap region contains ten .beta.-D-2'-deoxyribonucleosides. The modified oligonucleotides were designed by introducing two methyl phosphonate internucleoside linkages at the 5'-end of the gap region with a 3/10/3 motif. The oligonucleotides were evaluated for reduction in PTEN and SRB-1 mRNA expression levels in vivo. The parent gapmers, ISIS 482050 and 449093 were included in the study for comparison.

Treatment

[0452] Six week old BALB/C mice (purchased from Charles River) were injected subcutaneously twice a week for three weeks at dosage 10 mg/kg or 20 mg/kg with the modified oligonucleotides shown below or with saline control. Each treatment group consisted of 3 animals. The mice were sacrificed 48 hrs following last administration, and organs and plasma were harvested for further analysis.

mRNA Analysis

[0453] Liver tissues were homogenized and mRNA levels were quantitated using real-time PCR and normalized to RIBOGREEN as described herein. The results below are listed as PTEN or SRB-1 mRNA expression for each treatment group relative to saline-treated control (% UTC). As illustrated, reduction in PTEN or SRB-1 mRNA expression levels was achieved with the oligonucleotides comprising two methyl phosphonate internucleoside linkages at the 5'-end of the gap region, ISIS 582073 and 582074.

Plasma Chemistry Markers

[0454] Plasma chemistry markers such as liver transaminase levels, alanine aminotranferase (ALT) in serum were measured relative to saline injected mice and the results are presented below. Treatment with the oligonucleotides resulted in a reduction in ALT level compared to treatment with the parent gapmer, ISIS 482050 or 449093. The results suggest that introduction of methyl phosphonate internucleoside linkage(s) can be useful for reduction of hepatotoxicity profile of otherwise unmodified parent gapmers.

Body and Organ Weights

[0455] Body weights, as well as liver, kidney and spleen weights were measured at the end of the study. The results below are presented as the average percent of body and organ weights for each treatment group relative to saline-treated control. As illustrated, treatment with ISIS 582073 resulted in a reduction in liver and spleen weights compared to treatment with the parent gapmer, ISIS 482050. The remaining oligonucleotide, ISIS 582074 did not cause any changes in body and organ weights outside the expected range as compared to ISIS 449093.

TABLE-US-00017 SEQ ID NO./ ISIS NO. Composition (5' to 3') 11/482050 A.sub.kT.sub.k.sup.mC.sub.kA.sub.dT.sub.dG.sub.dG.sub.d.sup.mC.- sub.dT.sub.dG.sub.d.sup.mC.sub.dA.sub.dG.sub.d.sup.mC.sub.kT.sub.kT.sub.k 11/582073 A.sub.kT.sub.k.sup.mC.sub.kA.sub.dxT.sub.dxG.sub.dG.sub.d.sup.m- C.sub.dT.sub.dG.sub.d.sup.mC.sub.dA.sub.dG.sub.d.sup.mC.sub.kT.sub.kT.sub.- k 12/449093 T.sub.kT.sub.k.sup.mC.sub.kA.sub.dG.sub.dT.sub.d.sup.mC.sub.dA.- sub.dT.sub.dG.sub.dA.sub.d.sup.mC.sub.dT.sub.dT.sub.k.sup.mC.sub.k.sup.mC.- sub.k 12/582074 T.sub.kT.sub.k.sup.mC.sub.kA.sub.dxG.sub.dxT.sub.d.sup.mC.sub.d- A.sub.dT.sub.dG.sub.dA.sub.d.sup.mC.sub.dT.sub.dT.sub.k.sup.mC.sub.k.sup.m- C.sub.k

[0456] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x". Each nucleoside followed by a subscript "x" indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each ".sup.mC" is a 5-methyl cytosine modified nucleoside. Nucleosides followed by subscript "k" are further illustrated below.

##STR00021##

TABLE-US-00018 SEQ Dosage ID NO./ (mg/ % ALT ISIS NO. Target kg/wk) UTC (IU/L) Chemistry Saline -- 0 100 30 -- 11/482050 PTEN 10 50 228 Full (P.dbd.S) 11/482050 20 36.1 505 11/582073 10 72.2 47.7 Two --P(CH.sub.3)(.dbd.O)-- 11/582073 20 57.4 46 12/449093 SRB-1 10 48 543 Full (P.dbd.S) 12/449093 20 18.5 1090 12/582074 10 51.3 58.3 Two --P(CH.sub.3)(.dbd.O)-- 12/582074 20 30.3 126.3

TABLE-US-00019 SEQ ID NO./ Dosage Body wt rel to Liver/Body Spleen/Body Kidney/Body ISIS NO. Target (mg/kg/wk) predose (%) Wt (%) Wt (%) Wt (%) Saline -- 0 108.4 100 100 100 11/482050 PTEN 10 107.4 154.9 141.8 115.7 11/482050 20 111.3 176.7 142.3 112.5 11/582073 10 108.9 122.9 111.7 100.0 11/582073 20 107.9 133.8 114.6 102.9 12/449093 SRB-1 10 101.3 105.9 117.9 89.3 12/449093 20 95.3 118.6 129.6 93.0 12/582074 10 107.1 92.2 116.4 89.2 12/582074 20 103.8 95.5 128.8 91.9.

Example 27

Modified Oligonucleotides Comprising Methyl Phosphonate Internucleoside Linkages Targeting Target-Y--In Vivo Study

[0457] Additional modified oligonucleotides were designed in the same manner as the antisense oligonucleotides described in Example 25, wherein two methyl phosphonate internucleoside linkages are introduced at the 5'-end of the gap region. The modified oligonucleotides were designed based on ISIS 464917, 465178, 465984 and 466456 with a 3/10/3 motif. The oligonucleotides were evaluated for reduction in Target-Y mRNA expression levels in vivo. The parent gapmers, ISIS 464917, 465178, 465984 and 466456 were included in the study for comparison.

Treatment

[0458] Six week old BALB/C mice (purchased from Charles River) were injected subcutaneously twice a week for three weeks at dosage 10 mg/kg or 20 mg/kg with the modified oligonucleotides shown below or with saline control. Each treatment group consisted of 3 animals. The mice were sacrificed 48 hrs following last administration, and organs and plasma were harvested for further analysis.

mRNA Analysis

[0459] Liver tissues were homogenized and mRNA levels were quantitated using real-time PCR and normalized to RIBOGREEN as described herein. The results below are listed as Target-Y mRNA expression for each treatment group relative to saline-treated control (% UTC). As illustrated, reduction in Target-Y mRNA expression levels was achieved with the oligonucleotides comprising two methyl phosphonate internucleoside linkages at the 5'-end of the gap region, ISIS 582071, 582072, 582069 and 582070.

Plasma Chemistry Markers

[0460] Plasma chemistry markers such as liver transaminase levels, alanine aminotranferase (ALT) in serum were measured relative to saline treated mice and the results are presented below. Treatment with the oligonucleotides resulted in a reduction in ALT level compared to treatment with the parent gapmer, ISIS 464917, 465178, 465984 or 466456. The results suggest that introduction of methyl phosphonate internucleoside linkage(s) can be useful for reducing the hepatotoxicity profile of otherwise unmodified parent gapmers.

Body and Organ Weights

[0461] Body weights, as well as liver, kidney and spleen weights were measured at the end of the study. The results below are presented as the average percent of body and organ weights for each treatment group relative to saline-treated control. As illustrated, treatment with ISIS 582070 resulted in a reduction in liver and spleen weights compared to treatment with the parent gapmer, ISIS 466456. An increase in body and organ weights was observed for ISIS 582071 as compared to ISIS 464917. The remaining oligonucleotides, ISIS 582072 and 582069 did not cause any changes in body and organ weights outside the expected range as compared to ISIS 465178 and 465984.

TABLE-US-00020 SEQ ID NO./ ISIS NO. Composition (5' to 3') 13/464917 N.sub.kN.sub.kN.sub.kN.sub.dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.d- N.sub.dN.sub.dN.sub.dN.sub.dN.sub.kN.sub.kN.sub.k 13/582071 N.sub.kN.sub.kN.sub.kN.sub.dxN.sub.dxN.sub.dN.sub.dN.sub.dN.sub- .dN.sub.dN.sub.dN.sub.dN.sub.dNkN.sub.kN.sub.k 14/465178 N.sub.kN.sub.kN.sub.kN.sub.dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.d- N.sub.dN.sub.dN.sub.dN.sub.dN.sub.kNkN.sub.k 14/582072 N.sub.kN.sub.kN.sub.kN.sub.dxN.sub.dxN.sub.dN.sub.dN.sub.dN.sub- .dN.sub.dN.sub.dN.sub.dN.sub.dNkN.sub.kN.sub.k 15/465984 N.sub.kN.sub.kN.sub.kN.sub.dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.d- N.sub.dN.sub.dN.sub.dN.sub.dN.sub.eNeN.sub.e 15/582069 N.sub.kN.sub.kN.sub.kN.sub.dxN.sub.dxN.sub.dN.sub.dN.sub.dN.sub- .dN.sub.dN.sub.dN.sub.dN.sub.dNkN.sub.kN.sub.k 16/466456 N.sub.kN.sub.dN.sub.kN.sub.dN.sub.kN.sub.dN.sub.dN.sub.dN.sub.d- N.sub.dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.eN.sub.e 16/582070 N.sub.kN.sub.dN.sub.kN.sub.dxN.sub.dxN.sub.dN.sub.dN.sub.dN.sub- .dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.dN.sub.eN.sub.e

[0462] Each internucleoside linkage is a phosphorothioate (P.dbd.S) except for the internucleoside linkage having a subscript "x". Each nucleoside followed by a subscript "x" indicates a methyl phosphonate internucleoside linkage (--P(CH.sub.3)(.dbd.O)--). Each nucleoside followed by a subscript "d" is a .beta.-D-2'-deoxyribonucleoside. Each nucleoside followed by a subscript "e" indicates a 2'-O-methoxyethyl (MOE) modified nucleoside. Each nucleoside followed by a subscript "k" indicates a bicyclic nucleoside having a 4'-CH((S)--CH.sub.3)--O-2' bridge also referred to as a (S)-cEt modified nucleoside. Each "N" is a modified or naturally occurring nucleobases (A, T, C, G, U, or 5-methyl C). Nucleosides followed by subscripts "e" or "k" are further illustrated below.

##STR00022##

TABLE-US-00021 SEQ ID NO./ Dosage ALT ISIS NO. (mg/kg/wk) % UTC (IU/L) Chemistry Saline 0 100 30 -- 13/464917 10 29 1244 Full (P.dbd.S) 13/464917 20 30.1 2335 13/582071 20 10.2 274 Two --P(CH.sub.3)(.dbd.O)-- 14/465178 10 4.9 1231 Full (P.dbd.S) 14/465178 20 10.6 6731 14/582072 10 36.7 44.7 Two --P(CH.sub.3)(.dbd.O)-- 14/582072 20 23.6 43.7 15/465984 10 4.7 61 Full (P.dbd.S) 15/465984 20 0.9 57 15/582069 10 11.1 39.7 Two --P(CH.sub.3)(.dbd.O)-- 15/582069 20 3.3 27.7 16/466456 10 9.5 692 Full (P.dbd.S) 16/466456 20 10.5 2209 16/582070 10 73.9 24 Two --P(CH.sub.3)(.dbd.O)-- 16/582070 20 51.3 36.7

TABLE-US-00022 SEQ ID NO./ Dosage Body wt rel to Liver/Body Spleen/Body Kidney/Body ISIS NO. (mg/kg/wk) predose (%) Wt (%) Wt (%) Wt (%) Saline 0 108 100 100 100 13/464917 10 92.9 125 106.2 102.3 13/464917 20 71.1 110.9 67.2 107.3 13/582071 20 104.6 135.2 142.8 89.8 14/465178 10 94.9 131.3 108.1 85.3 14/465178 20 79.5 147.5 112 95.3 14/582072 10 109.2 117.3 111.7 104.8 14/582072 20 107.1 130.1 107.2 99.8 15/465984 10 111.4 117.6 110.1 98.8 15/465984 20 111.3 122.6 134.5 96.1 15/582069 10 107.8 106.2 97 100.6 15/582069 20 105.4 115.8 106.2 100.4 16/466456 10 109.7 148.6 198.7 105.9 16/466456 20 101.2 182.3 213.7 101.9 16/582070 10 111.2 100.3 116.7 100.8 16/582070 20 111.1 108.9 115.6 95.7.

Sequence CWU 1

1

1613160DNAHomo sapiens 1cctcccctcg cccggcgcgg tcccgtccgc ctctcgctcg cctcccgcct cccctcggtc 60ttccgaggcg cccgggctcc cggcgcggcg gcggaggggg cgggcaggcc ggcgggcggt 120gatgtggcag gactctttat gcgctgcggc aggatacgcg ctcggcgctg ggacgcgact 180gcgctcagtt ctctcctctc ggaagctgca gccatgatgg aagtttgaga gttgagccgc 240tgtgaggcga ggccgggctc aggcgaggga gatgagagac ggcggcggcc gcggcccgga 300gcccctctca gcgcctgtga gcagccgcgg gggcagcgcc ctcggggagc cggccggcct 360gcggcggcgg cagcggcggc gtttctcgcc tcctcttcgt cttttctaac cgtgcagcct 420cttcctcggc ttctcctgaa agggaaggtg gaagccgtgg gctcgggcgg gagccggctg 480aggcgcggcg gcggcggcgg cggcacctcc cgctcctgga gcggggggga gaagcggcgg 540cggcggcggc cgcggcggct gcagctccag ggagggggtc tgagtcgcct gtcaccattt 600ccagggctgg gaacgccgga gagttggtct ctccccttct actgcctcca acacggcggc 660ggcggcggcg gcacatccag ggacccgggc cggttttaaa cctcccgtcc gccgccgccg 720caccccccgt ggcccgggct ccggaggccg ccggcggagg cagccgttcg gaggattatt 780cgtcttctcc ccattccgct gccgccgctg ccaggcctct ggctgctgag gagaagcagg 840cccagtcgct gcaaccatcc agcagccgcc gcagcagcca ttacccggct gcggtccaga 900gccaagcggc ggcagagcga ggggcatcag ctaccgccaa gtccagagcc atttccatcc 960tgcagaagaa gccccgccac cagcagcttc tgccatctct ctcctccttt ttcttcagcc 1020acaggctccc agacatgaca gccatcatca aagagatcgt tagcagaaac aaaaggagat 1080atcaagagga tggattcgac ttagacttga cctatattta tccaaacatt attgctatgg 1140gatttcctgc agaaagactt gaaggcgtat acaggaacaa tattgatgat gtagtaaggt 1200ttttggattc aaagcataaa aaccattaca agatatacaa tctttgtgct gaaagacatt 1260atgacaccgc caaatttaat tgcagagttg cacaatatcc ttttgaagac cataacccac 1320cacagctaga acttatcaaa cccttttgtg aagatcttga ccaatggcta agtgaagatg 1380acaatcatgt tgcagcaatt cactgtaaag ctggaaaggg acgaactggt gtaatgatat 1440gtgcatattt attacatcgg ggcaaatttt taaaggcaca agaggcccta gatttctatg 1500gggaagtaag gaccagagac aaaaagggag taactattcc cagtcagagg cgctatgtgt 1560attattatag ctacctgtta aagaatcatc tggattatag accagtggca ctgttgtttc 1620acaagatgat gtttgaaact attccaatgt tcagtggcgg aacttgcaat cctcagtttg 1680tggtctgcca gctaaaggtg aagatatatt cctccaattc aggacccaca cgacgggaag 1740acaagttcat gtactttgag ttccctcagc cgttacctgt gtgtggtgat atcaaagtag 1800agttcttcca caaacagaac aagatgctaa aaaaggacaa aatgtttcac ttttgggtaa 1860atacattctt cataccagga ccagaggaaa cctcagaaaa agtagaaaat ggaagtctat 1920gtgatcaaga aatcgatagc atttgcagta tagagcgtgc agataatgac aaggaatatc 1980tagtacttac tttaacaaaa aatgatcttg acaaagcaaa taaagacaaa gccaaccgat 2040acttttctcc aaattttaag gtgaagctgt acttcacaaa aacagtagag gagccgtcaa 2100atccagaggc tagcagttca acttctgtaa caccagatgt tagtgacaat gaacctgatc 2160attatagata ttctgacacc actgactctg atccagagaa tgaacctttt gatgaagatc 2220agcatacaca aattacaaaa gtctgaattt ttttttatca agagggataa aacaccatga 2280aaataaactt gaataaactg aaaatggacc tttttttttt taatggcaat aggacattgt 2340gtcagattac cagttatagg aacaattctc ttttcctgac caatcttgtt ttaccctata 2400catccacagg gttttgacac ttgttgtcca gttgaaaaaa ggttgtgtag ctgtgtcatg 2460tatatacctt tttgtgtcaa aaggacattt aaaattcaat taggattaat aaagatggca 2520ctttcccgtt ttattccagt tttataaaaa gtggagacag actgatgtgt atacgtagga 2580attttttcct tttgtgttct gtcaccaact gaagtggcta aagagctttg tgatatactg 2640gttcacatcc tacccctttg cacttgtggc aacagataag tttgcagttg gctaagagag 2700gtttccgaaa ggttttgcta ccattctaat gcatgtattc gggttagggc aatggagggg 2760aatgctcaga aaggaaataa ttttatgctg gactctggac catataccat ctccagctat 2820ttacacacac ctttctttag catgctacag ttattaatct ggacattcga ggaattggcc 2880gctgtcactg cttgttgttt gcgcattttt ttttaaagca tattggtgct agaaaaggca 2940gctaaaggaa gtgaatctgt attggggtac aggaatgaac cttctgcaac atcttaagat 3000ccacaaatga agggatataa aaataatgtc ataggtaaga aacacagcaa caatgactta 3060accatataaa tgtggaggct atcaacaaag aatgggcttg aaacattata aaaattgaca 3120atgatttatt aaatatgttt tctcaattgt aaaaaaaaaa 3160226DNAArtificial sequencePrimer 2aatggctaag tgaagatgac aatcat 26325DNAArtificial sequencePrimer 3tgcacatatc attacaccag ttcgt 25430DNAArtificial sequenceProbe 4ttgcagcaat tcactgtaaa gctggaaagg 30515DNAArtificial sequenceSynthetic oligonucleotide 5taaattgtca tcacc 15620DNAArtificial sequenceSynthetic oligonucleotide 6tcccatttca ggagacctgg 20720DNAArtificial sequenceSynthetic oligonucleotide 7gctgattaga gagaggtccc 208202001DNAHomo sapiens 8gcccagcagg tgtcagcctc attttacccc gcccctattc aagatgaagt tgttctggtt 60ccaacgcctc tgacatatta gctgcatcat tttacatttc tttttttttt ttccttttaa 120atggggtctt gctctgtcac ccaggctgga gtgctgtggt atgatctcgg ctcactgcaa 180tctccacctc cgaggttcca gcgattctct tgcctcagcc tcccgagtag ctgggactac 240aggcacccac catcatactg ggctaatttt tgtgttttta gtagagatgg ggtttcccca 300tgttgcccag gctgatctca aactcctggg cttaagcaat acagccgcgt tggcctccca 360aagtgttggg attacaagca tgagctaccc cacccagctc attttacatt tccacttgtt 420aaactgaaaa ctggcccgag aaagcttctg tactgccatc cttgcgtcct tgcagatgaa 480tcgtaaccta gcatagtagg taggcagact gaaaacctaa cttagcagta ggcttctgta 540acaacagctg tgtctcagcc agttcctgca gccagacttc aaccactcac aggccgcaaa 600ctgttcaaac tgtgttcgga gaaggcgaat tcatctggct gttaacgtgc ctcacttctg 660ctttctgtgg ccactttccc ttttctgtcc ataaatttgc tttgaccaca cagcatccct 720agagtctccc tgaatctgct gtgattctgg gacctgcacc atttgtgaat tgtttttttt 780ttccttgatc agctaaactc tgttcaattc aatttgttgg aagtttttaa cataccaatg 840gtgcaccaag gttccaattt ctccacttcc tcataaataa gtcattttaa atggcttttc 900agtattccaa tatttggaag tattaatgtt tctaccaatt ttctattttt ggacattgag 960gttgtttcat tttttttttc tttttttgag acagagtctc gctccgtcac ccaggctgga 1020gtgcagtggc ctgatcccgg cccactgcaa cctccacctc cctcctcagc ctcctgagta 1080gctgggatta caggtgcatg caccaccaca cccagctaat ttttgtattt ttagtagaga 1140tggggtttca ccatgttggt caggctggtc tcaaactcct gacctcaggt ggtccacctg 1200ccttggcctc ccaaaatgct gggattacag gcctgagcca ctgcgcctgg cctcatcttc 1260ttgatattaa tgttgcttta acatctttgt ccctgtgttt tttgtttttt tttttgagac 1320ggagtctcat tcattctgtc acccaggctg gagttcagtg gcgtgatctc agctcactgc 1380aacctctgtc tcctgggttc cagtgattct cctgcgtcgg tctcctgagt agctgtgttc 1440ctgggtcttt cgatggttat ttaatacttc cctacagtaa tgccctgtgc gtacatgcta 1500agtgtgatga aatggttggc acagttaaat cttttgaaag acattgccaa gtcactcttc 1560agaaaagtga taggaggtca tagcaatttt aagaagtcct catttctaca tttccttact 1620aatctcggtt ggtgtctctt caatctttcc tcacactttt cttgggtttt tcctgaatca 1680tgagtctact acatttacac attttaaagc atctttagaa acaggatctc attttgttgc 1740ccaggctaga gtttggtggc atgattatag ctcctcatac tcctgggctc aagtgatcct 1800tccacctctg aaaccccaaa atttgagaaa ggtctcattt aatttagaaa gtttattttg 1860ccaaggttga gggtgcacac ctgtgatgat atacgagtta aaaagaaatt atttaggcag 1920atactgaggg taagaaagtc ctcggtaagg ttttcttttc aatgaaaagc agcccccaag 1980cattttcttt tctaacaaag agcagcctgt aaaatcgagc tgcagacata cacaagcaag 2040ctggaagctt gcacaggtga atgctggcag ctgtgccaat aagaaaaggc tacctggggc 2100caggcagatc caacatggcg gctccatctt ccctttcctt gtcaaccatg tgcacagtaa 2160ggagcaggca acatagtgtc ccccgagtag agaccaattt gcataataaa aggtgagggt 2220agggtgggca gcttctttgc atgctatgta aacattatgc ctggtccaac caatctttgg 2280gccctgtgta aattagacac cacctcctca agcctgtcta taaaaccctg tccattctgc 2340cgcaggctgg aagacccact ggggcacccc tctctctcta taggagacag ctattcattt 2400ttctctttct ttcacctatt aaagctccac tcttaacccc actccgtgtg tatctatgtt 2460cttgatttcc ttggcatgag gcaatgaacc ttgggtatta ccccagaacc ttgggtatta 2520tgccacttca gtgacacagc ctcaggaaat cctgatgaca tgttcccaag atggtcgggg 2580cacagcttgg ttttatacat tttagggaga catgagacgt caattcatat atgtaagaag 2640tacattggtt ccgtccagaa aggcggggac aacttgaggc agggagagag cttctaggtc 2700acaggtagac aaatggttgc attcttttga atctccgata agcctttcca aaggaggcaa 2760tcagaatatg cgtctattga ctgggcgcag tggctcatgc ctgtaatgcc agcactttgg 2820gaggcggagg tgggtggatc acctgaggtc aggagtttga gagcagcccg gccaacatgg 2880tgaaaccctg tctctactaa aaatacaaaa aattagctgg gcgtggtggc gggcgcctgt 2940aatcccagct actcgggagg ctgaggcagg agaatagctt gaacccagaa ggaagaggtt 3000gcagtgagct gagatggtgc cattgcactc cagcctgggc aacaagagtg aaactccatc 3060tcagaaaaaa aaaaaaaagg cctgggcaaa gtggctcacg cctgtaatcc cagcactttg 3120ggaagccgag gcgggcaggt cacaaagtca ggagattgag accatcctgg ctaacatgat 3180gaaaccccat ctctactaaa aaatacaaaa aactagctgg gtgtggtggc gagcacctgt 3240agtcccagct actcggcagg ctgaggcagg agaatggcgt gaaccgggga ggcggagctt 3300gcagtgagcc gagatcacac cactgcactc cagcccggac gacagggcaa gactctatct 3360caaattaaaa aaaaaaaaaa aaaaaaaaaa aaagagagag agaatatgca tctatctcag 3420tgagcagaag gatgactttg aatggaatgg gagcagttcc tagcttgaac ttccccttta 3480gcttcagtga tttgggggct caaggtatgt tcctttcaca tacctcagcc tcccaagtag 3540ctgggaccac aagtgcatgc caccacacgt ggctaatgtt ttattttttt tgtaggaata 3600gggtctcact atgtgtccag gctggtctaa aacccctgag ctcaaatggt cctcccgcct 3660cagcctcccg aaatgctggg attacaggca tgagccagca tgcccggcct agtctacatt 3720tttataaatt gctaattcaa agttccctct ccaaaacctc atggttttcc ctgttctcat 3780cccctgcacc ctcccttccc ctggagtact cacctggcct tggaggtctg gtgtgagccc 3840ggacttcgat tctaggcaca gcatgtgatg agcgccccca ggtcaaacac ctcccctctg 3900cggcctgtgc ttcaccgcct tgacagtgag aaaggtctcc cttcggctca ttctcgaagt 3960ctcaaacttc acttctcctg tgcgctgatt ctgaattcag cccccgtcca aggtcctggc 4020ccctttctct tctgcttggc gtgttgttca tcaccactgt gcactgctga gggtaagtgc 4080ggttctctgg acctctgctt tatcattaga acagactctt gcggtttccc acgacattcc 4140tttcacttct cacttggaag atgagccgtg aggaaatcct gtgttgtgtg gtatgtgggc 4200tgtgcttctg cttgacttga gggccaagca gcattgcaag ccatggtttt aaataagaaa 4260gaacatttct aaccttcatc ttctagtaag gaaacaagtg ggctttagag ttcttgctca 4320ggaaagacct atgtcccagt ccaaccggac cttttactaa agagatcttc ctgatcctcc 4380tccccaggcc aggggagggg tcctccctgg ggttggagcc tttagtaggg ggtcggagac 4440acgacgtagc cttcatgaca ttcatagtct agttacacga tccctgtaag ggtcagttga 4500agtaagtgct acaaaggaag ggaggtgctc agtggagagg gctctctttt atgtattata 4560tttctttcat ggggagggat atggatcagg gatcagcaga ggtgtttcag tcccgaggga 4620aagaaagtca gcgtggcttg ggagttggga gcagcaagac agtggctcaa gatatcttaa 4680gactagtgga gtacaccttg catgttaaaa gccttgctca gggctgcctg gttcttgtag 4740gacgacagag atggcctagc tctgcatact gcacccccag gggctcagaa cagtgcaaat 4800gtcagtctat ctgtcagtgg cagagccagc cttggagcag gggtgcaagg aggtctctgc 4860actggccagg catgcagaac attctgttca gtagcactgg acagaaggcc ccatctagat 4920gagacagagc tggtggggca ggacaaagac tcctggcagc tcaaacggcc tggcagatgc 4980ttggagagag ggggcttctt gagacagcac catttctggg aagagagtca cctgggaggg 5040atgaggccac gctccggctt ggaggtgaag agaggggctg ctgcaagaaa gaattagaga 5100catgccagcc tttgctgtgt tgcccaggct ggtcatgaac tcttggcctc aagcaatctt 5160cccacctcag cctccccaag cgctgggatt atagacatga gcccccatgc tggccaataa 5220aagatgattt tatggagggg atggtggtga aggttgtggg tggtatgaaa tagtaagaaa 5280tatatattgg tctgcaccca gttcctgcca cagagctcct aaaatcctga gaacttcctg 5340ggtgagcatc ttttgttcta atgaggtgac tcttggtggc tcctggatag gagtgaatca 5400ccagaaagat caagccagag ttagaagcag aaagtgctgg ctataacaca ggaaagctgt 5460aacacaaata ataaagtttt tttttttttt tttgagatgg agcctcactc tgttgcccag 5520gctggagtgc aatggtgcaa tctcagctca ctacaagctc tgcctcccag gttcaagtga 5580ttctcctgcc tcagcctcct gagcagttgg gactacaggt gtgtgccacc acatctggct 5640aatttttgta tttttagcag agacggggtt tcaccatatt aaccaggctg gcctcaaact 5700ccttaccttg tgatccgcct gcctcagcct cccaaagtgc tgggattaca ggcatgagcc 5760accgtgcctg gccaaaagac attgttctta aaagaatcaa ctaactaacc aaataaataa 5820aaatctaacc taattaagaa actaaaaata cacaaaaatt aatttcaagg ggagaaaaat 5880catgtaaaga gagaaagata atgaatactt tgcagaaatt tatgaacata aacataaaac 5940ttggatgaaa tgcatttcta ggaaaacata atttatcaaa actaaccaca agtaaaatag 6000aagcctaaat aggatatttt caagagaaga agtaaagttg tcaaagtgct acccttcaaa 6060aaaacaccag gctcaaacaa tctgacatgg gaatgttagc acaccttaga gagcaaataa 6120aactttgaat gggcttgaaa tattccagac tctagaaaaa caaaacttcc caattctttt 6180tataaagcaa gtataaattg ataccaaaat cttataaaga ccttatacaa aacttcatac 6240caatctcttt tatgaataca aaacccttaa taaagtatta ccagacagaa cccaacaata 6300cataaaaatg tcacatcata acatagtggg gtttatttca ataatgcatg gatggttcaa 6360tacaaggaaa ttcagtaaca caatataata gatcatgtga atatacccaa agaaaaaata 6420gattattttc atagatgctg taaaggcatt tgaccaaatt caacacctac tttttaggtg 6480gtcaataaaa taaattagtt actccttctt tagcatgata aaatatattt atcagcccag 6540aaggcatcat tttacccgat aagggcacac gctggaggga ataatgttaa aattaggaat 6600aagaggatag ctagtttctt tcttcttttt tttttttgag acggagtctt gctctgttgc 6660caggctggag tgcagtggtg caatgttggc tcactgcacg ccccccgcct cccaggttca 6720agcgattctc ctgcctcagc ctcccgagta gctgggacta caggcgcgca ccaccatgcc 6780cggctaattt ttttttgtat tttagtagag atggggtttc accatgttgg tcaggctggt 6840cttgaactcc caacctcacg tactgggatt accggtgtga gccaccacgc cagcccaact 6900actttcaaca ttatccttaa tactgatgct tattgactta ctatggggtt acctctagat 6960aaatccataa taagttgaaa atataagtaa aaaatgccct taatacacct aacctaccaa 7020acatcatagc tgagcccagc ctgccttagc tatgctcaga cactgacgtc agcctacaat 7080tggcaaaatc acacagcagc acagtctact gcagagcatc tgctgtttgc ccttgtgact 7140gcgtggctgc ctgggagctt cccagcttca caagacagta ttacgtagca catcactagc 7200ctggggaaag atcaaagttg aaaatttgaa gtgtggtttc cattgaatgt gtactgcttt 7260tgcaccatca tcaagtcaaa aaattttagt tgaaccagcc taagtttggg accatcttta 7320ttttcaggag gaacttccat gtacattgat gacggacgat agaatccgtt tctatcatcc 7380taatgaacat aatgaataaa tccagacaaa cataaacatt aacagagtaa gcagctttcg 7440gggctggaag ccagaagagg gtgggagcgc agagagagag gccaaacacc agggctgctt 7500ctgctttgcg ggtatttgct gatctggaca aggtatctgg aaggctgagc taagcctcct 7560ttttttttga ggtggcgtct cactctgttg ccaggctgga gtgcaatggt gcgatctcag 7620ctcactgcaa cctccacctc cctggttcaa gcgattctcc tgcctcagcc tcccgagtag 7680ctgggattac aggctcccgc cactacaccc agctgatttt tgtaatttta gtagagacgg 7740ggtttcacca tgttggccag gatggtctcg atctcttgac gtcatgatct gtccacctcg 7800gcctcccaaa gtgctgggat tataggcgtg acccaccgtg ccccgtctga gctaagcctc 7860ttgagcatag gggactaaaa atgaaatcta gcgcatgcca agtttagggt cccaggcaat 7920tcctttccac tttggggtcc actttggggt ccaccccacc caagaagaag gatgacttgg 7980aagtaaacca gctctgaaat atggatggtc ctctgggacc ataccaatcc cttcatatca 8040accacatcca gttcctcaaa actggaactt ggattaagat ggcctaggac ttctagtgtc 8100ccaggagcct ggcattgcaa acaaaaatcc tctccggaag aagataatac cttaagcttc 8160aaatgactct ctaataaatt tcaaatacaa tgtccagcac acaaacacaa attaccagga 8220acgtgatatg aggcctgatg gatgggaatt agcagaaact tcaggcatga gaaacatacc 8280ctcagaggcc tagaatctat ctagtgtcta gataatggag atatgaaata cagacactta 8340aacaactatg tttcccatgt tcaaagagga aatttgcaaa acttgaaagt gttggcagga 8400aatcagaaac tataaaatgt gacaacagca tactttagag tcagtataaa ttacggtccc 8460gaaaactgca gaattccaga acttaatggt aaagcaaggg tttaacagca gaatagaaat 8520agccagagag aactaggaag taagtcagat gacactaccc agaataaggc actgagaggc 8580caaggaatgg aaaatgcaga agaaaggata tggtgagagg atctaatata catttatttg 8640gagtaccagg gagagagaga aggagaagaa cagaagccgt gtttcaagga cggtgactga 8700gaggcttcga aactgatgaa agccatcagt tcacaaattc aaagcccagt gaattccaag 8760gagaaaaaaa gaaatccata ctgtgaaagc aagtccagac aatgacaaac accatcaaca 8820atacacagga caggcataag atgcatttaa tggggacact cagaggcaga gggttatcag 8880aaggaggcac ttctctccca agttctcatc atcccagggc cagggacagc tggtcacacc 8940ttagggagtt cactaggaga gggatctggc ttcttgtcat tctgggtatt tgtagggaaa 9000ttggaaggga accgagagca cctagccaat cgcatagcaa tgggagattt caggctgtgg 9060ggaatgtctt tgctggtgaa aagaacatcc tgaccttaga aatctttcac cgagggggat 9120ctgcgttcca gaacttctgg agctggtata ggtaaggctt tgagctttcc tactgagcca 9180gcctgttgct aggttaccaa aggggacctc gagggccatc tggccaacaa gcagacttgt 9240ctctccttac acccccagac gtatcactgc aaaactacag aaaaccaaag acagagaaaa 9300tcttaaaagc agccagattt aaaaaatggc atattagttt caaagcagca gccatgaaat 9360tgacagctga tgtctcaaca gcaagaatga aaagtggaag acaggccagg tgtggtggct 9420caggcctgta atcccagcac tttgggaggc cgaggcgggt ggatcacgag gtcaggagac 9480caagaccatc ctggctaaca tggtgaaacc ccgtctctac taaaaataca aaaaaattag 9540tcgggcatgg tggtgggtgc ctgtagtccc agctactcgg gaggctgagg caggagaatg 9600gcgtgaaccc gggaggcgga gcttgcagtg agccgagatt gtgccactgc actccagcct 9660gggtgacaga gcaagactct gtctcaaaaa aaaaaaaaaa aaaaaaaaaa aaagggtgac 9720gaagcttcaa tctcctgaaa ggaagcaact gccgcctttg attcgatacc caccaaaatc 9780cgtgaagaag gaaggcaaaa taaaaacact tcctgattga actggaaaga tttccgcaat 9840agaagaccca ctgtccaagg aattctaaag gatgctttcc aggcagaaga aaatgacccc 9900agaggaagat cagagattca ggaaagaaat ggagagtgat aaaaatggaa aattcggggg 9960ccaatttaaa caaaagctga ctgctctaca actgttgtgt ctctatcttt tgtaacatat 10020atgtgtgtgt agcttttttt tttttttttg tcaagatgga ttctcactct gtcgcccagg 10080ctacagtgaa atggcacggt ctcggctcac tgcaacctct gccccttggg ctcaaatgat 10140tctcttgcct cagcctcctg agtagctgag attacaggtg cctggcacaa tgcctggcta 10200atttttgtat ttttactaga gatgggattt ctccatgttg gccaggctgg tcttgaacac 10260ctgacctcag gtgatccacc tgcctgggcc tcccaaagtg ctaggattac aggcgcgagc 10320cactgcatct ggcctatgtg tgtgtttata tggaattaaa acacatggca ataataccct 10380ccaaattggg agaaaccaaa aatagcattt aaatgttgta agctccctgc ataatcaaga 10440agagaataga tttacgttag attttgatac ctggaggatg aatgttgtaa tttctagggt 10500gaccatgaaa agaggagaca acggtgtatg tttttttttt tttgagatgg agtctcactt 10560tgtcacccag gctggagtgt tgtggtgtga tcttggctca ctgcaacctc ctcctcttgg 10620gttcaggcca tcctcccacc taggcctcca gagtaggtgg gatcacaggc acctgccacc 10680acacctggct aatttttttt tttttttaaa tatttagtag agatggggtt tcaccatgtt 10740ggccaggctg gtcttgaact cctgacctca ggcgatctgc ctacctctgc ctctcaaagt 10800gctgggatta caggtgtgag ccatcgcgcc cggccaacag tgatcacttt caaactaaca 10860gaggttcaaa aataaaatca gacttaacca aaaaccaggt aacagagctg gtaggatata 10920cagaaagact gacctcacgt atatcaacga ttacagttaa tattaatgaa ggaaatgctc 10980tagtttaaaa acgagggttg tcaaagaccc cacataagaa gctccttacc agcggtgcac 11040ctagaaccta aggaaacagg acagatgaag gaggacgcgc ccccgccgct gtcctgcgcc 11100tcagccatcc tatgagacgg gaaaggtttc tgtctgcagc tgggcccgtg ctctttacca 11160gctcctggct ttcttctctg gaaggttcct gcctgttttg ccctcacacc tgctcctctc 11220tcagccctct caggggtggg gctggaggcc

accaaagagc ctcctctgct ctccagttgc 11280tcgactgctc ctcatttccc cctggggtct gcgtcagggt ttccttcttt tccagcccca 11340ccccgcgtgc atcccacctg gtctcgggtc ggggctgctc ccgcttactg ccccctgccc 11400aggctggtgt gcaccccctc tggctgcttt caaggcctct tctctcttct cggcaggaca 11460ggcacaggca ggtggccagg tgtcatgctt agctccccgc ccagtgagat tctttcattt 11520aacaatcttc ccctgaatag ttcatgttca ttgctgaaaa tttgaaaaat atggaaaagc 11580acaaagatta agatataaac cgccctcaat tcccctgccc agagagagtc actgctatga 11640cttggtgact aggaacctta tttctctctc gctctttttt ttttttttga gacagagtct 11700tgctctgtca cccaggctgg agtgcagtgg ctcgatctca gctcactgca acctccgcct 11760cctgggttca agcgattctc ctgcctcagc ctcttgagta gctgggatta caggcacctg 11820ccaccatgcc cggctaattt ttgtattttt agttgagaga gggtttcatc ttgttggtca 11880ggcggacttg aactcctgac ctcaggtgat cagcccacct cggcctccca aagtgctggg 11940attacaggtg tgagccactg cgccttcatc tctcttctgt gtatgtgtac gctgtttttt 12000ctttagaatg ggggacgtta tcaggctcta catggtgtgt agtcggctag catgttgtaa 12060gcctttccct gtgtcacaag tgctcatctg gaacaggatt ctaatgactg cctgtggcta 12120tgttgggatt cctttaactc agctccttct gcccagcatc tatctttttt ccatcttttg 12180tcctaagtgt tgctataata aatcattgat cacacatgcc tgactgtttg cataggataa 12240attacgggaa atgtttttgc tgttcaggga ctgtgcccat ttttaggcct cagagacacc 12300atgccagact gcccagtatt gatctttact ctttttagat gatgccaaac ttttctgtga 12360actttaaaaa cctgtgtctt gacagtccat ttctgtaagt ctttcacatt agatttcctg 12420tcaggatgat agtcaattct aggcagatga tgttttctca gccatggctg aagcagttgt 12480gatttgttgt ggccatgtaa agtcccgatg atccattgcc tccctggatg ggttggaata 12540atttggtttg ggagcatata acagaatgac ctggagtcac agcagctcag acggaagtgt 12600atttctccct tacagatgaa agaattccag gccaggctgg aatgacaact gcacacagtc 12660atctgggccc cctccttcca gctcccatca ccccaggatg tggcttttat gcagatgatc 12720caaaatggct gctcaagtcc cagccaacac atcccattcc agggagcagg aaaaaggtgt 12780gtctttccct tcattttatg tgattccttt ctagaagtac tactcattac ttctgcttgc 12840atctccctgg ctagcactta cttagttata tggccatagc tagctgaagg aaggacaggg 12900actgtcatac actagctaag aggcaaactg cttagataaa aaggtctcta aagaaggtca 12960gagcggctgc tagggtgcaa ctctattact tattgttatg ggacgaactg tgtccctcat 13020tcaggttgat gtcctaagcc ccagaacctc agaatgggat tgtatttgga gacaggttct 13080ttaaggaggt aaggaggcta aaatgagatc attagggtgg gccataatcc gactgatgtc 13140ttacaagaag agattaggac acggacatgc tcagagggac ggccacgtga ggacaccaag 13200aaaggcagct gtctgcaagt caaggacagg gctcagggga aaccaacctt gccaacacct 13260tcatctcgga cttctagcct ctaggaccat gagaagatac atttctgttg tttaagctgc 13320ccggtctgtg gtactttgtt atggcagccc aagtaaacaa atacagtcat ctgctgctgg 13380aacaaatcac cccagcactg tggcttggca gcacacatgt ctagtcatag agttatatgt 13440agttacgtgt agagccatat gtatcgtcac acgttctgtg ggtcaggaat ttggacccag 13500cttaaccagc tccacttctc gccagggttc agtcaaatac cagctgcctc ccacctgaga 13560gctcagccgg ggaagggtcc ctttccaatc tcacgtggtg ttggcaggat ccagttcctc 13620atggcctgct ggactgagaa cctcagttct cactgcctgt tggccagagg ccgcctttat 13680gtcctcgcca tgtgggcctc tccaacatgg cagctgactt catcagagca tccatgccaa 13740gaaggcaaca gagagggcca gggagactga agtcataccc ttttgcgacc tagtcatggg 13800gtgacattcc atcacctttg cccattggtt agaagcaggc caccaggtac agcccaagct 13860cacggggagg ggtcatacaa gggtgtcaat accaggaggt gaggggtgct ggggccatct 13920tatgagtctg cccactgagg taactaacaa ccttgaggcc tgacacagtg gacaaaggcc 13980cttattaaca gcagagaact gggaacttta tttatttatt tatttttgag acagagtctc 14040actcttgtca cccaggctgg agtgcaatgg catgatcttg gctcactgca acctccacct 14100cccaggttca agcaattctg cctcagcctc cggaatagct gggactacag gcatgcacca 14160ctacacccgg ctaatttttg tatttttagt agagacaggg tttcgccatg ttggccaggc 14220tggtctcgaa ctcctgacct ctggtgatct gcctgccttg gcctcccaaa gtgctgggat 14280tacaggcgtg agccaccgca cctcgctgga acttaatttt tttagagaca gtgtcgctct 14340atcacccaag ctggagtgca gtggtgcaat cctagctcac ttgcagcctc aaattcctgg 14400gttcaggtga tcctcccaca tcagcctccc aagaactggg aactaacagc tgtttctctg 14460ctgtccttct caagaaaagg gaggctactg ctaccccact ggggacaatg ctgggtttcc 14520ctttaggaca ggctctgaga caaggcggag gtgctgtttg tggccacaga gcaggggact 14580ctgggttgca ggtgtggcct ggctaaagta ggctttactg ggctcctctc tgcctgcatc 14640accccccggc tgggcggttg tctctgaggc caaccttact ccctgctggg caggctggac 14700agctgccctc tccgtttgcc cctctaccac ccaaaaggca ggaggctctg gagaccagga 14760ccctgcccgc cacggcctgt gtcccaggcg tgagggggtg ccccacagac ctctgctgag 14820ctgctgctga atgacgcccc ttgggggtcc tgccggaagg tcagagcagg ggtgcactcc 14880cataaagaaa cgcccccagg tcgggactca ttcctgtggg cggcatcttg tggccatagc 14940tgcttctcgc tgcactaatc acagtgcctc tgtgggcagc aggcgctgac cacccaggcc 15000tgccccagac cctctcctcc cttccggggc gctgcgctgg gaccgatggg gggcgccagg 15060cctgtggaca ccgccctgca ggggcctctc cagctcactg ggggtggggt gggggtcaca 15120cttggggtcc tcaggtcgtg ccgaccacgc gcattctctg cgctctgcgc aggagctcgc 15180ccaccctctc cccgtgcaga gagccccgca gctggctccc cgcagggctg tccgggtgag 15240tatggctctg gccacgggcc agtgtggcgg gagggcaaac cccaaggcca cctcggctca 15300gagtccacgg ccggctgtcg ccccgctcca ggcgtcggcg ggggatcctt tccgcatggg 15360cctgcgcccg cgctcggcgc cccctccacg gccccgcccc gtccatggcc ccgtccttca 15420tgggcgagcc cctccatggc cctgcccctc cgcgccccac ccctccctcg ccccacctct 15480caccttcctg ccccgccccc agcctcccca cccctcaccg gccagtcccc tcccctatcc 15540cgctccgccc ctcagccgcc ccgcccctca gccggcctgc ctaatgtccc cgtccccagc 15600atcgccccgc cccgcccccg tctcgccccg cccctcaggc ggcctccctg ctgtgccccg 15660ccccggcctc gccacgcccc tacctcacca cgccccccgc atcgccacgc cccccgcatc 15720gccacgcctc ccttaccatg cagtcccgcc ccgtcccttc ctcgtcccgc ctcgccgcga 15780cacttcacac acagcttcgc ctcaccccat tacagtctca ccacgccccg tcccctctcc 15840gttgagcccc gcgccttcgc ccgggtgggg cgctgcgctg tcagcggcct tgctgtgtga 15900ggcagaacct gcgggggcag gggcgggctg gttccctggc cagccattgg cagagtccgc 15960aggctagggc tgtcaatcat gctggccggc gtggccccgc ctccgccggc gcggccccgc 16020ctccgccggc gcagcgtctg ggacgcaagg cgccgtgggg gctgccggga cgggtccaag 16080atggacggcc gctcaggttc tgcttttacc tgcggcccag agccccattc attgccccgg 16140tgctgagcgg cgccgcgagt cggcccgagg cctccgggga ctgccgtgcc gggcgggaga 16200ccgccatggc gaccctggaa aagctgatga aggccttcga gtccctcaag tccttccagc 16260agcagcagca gcagcagcag cagcagcagc agcagcagca gcagcagcag cagcaacagc 16320cgccaccgcc gccgccgccg ccgccgcctc ctcagcttcc tcagccgccg ccgcaggcac 16380agccgctgct gcctcagccg cagccgcccc cgccgccgcc cccgccgcca cccggcccgg 16440ctgtggctga ggagccgctg caccgaccgt gagtttgggc ccgctgcagc tccctgtccc 16500ggcgggtccc aggctacggc ggggatggcg gtaaccctgc agcctgcggg ccggcgacac 16560gaacccccgg ccccgcagag acagagtgac ccagcaaccc agagcccatg agggacaccc 16620gccccctcct ggggcgaggc cttcccccac ttcagccccg ctccctcact tgggtcttcc 16680cttgtcctct cgcgagggga ggcagagcct tgttggggcc tgtcctgaat tcaccgaggg 16740gagtcacggc ctcagccctc tcgcccttcg caggatgcga agagttgggg cgagaacttg 16800tttcttttta tttgcgagaa accagggcgg gggttctttt aactgcgttg tgaagagaac 16860ttggaggagc cgagatttgc tcagtgccac ttccctcttc tagtctgaga gggaagaggg 16920ctgggggcgc gggacacttc gagaggaggc ggggtttgga gctggagaga tgtgggggca 16980gtggatgaca taatgctttt aggacgcctc ggcgggagtg gcggggcagg gggggggcgg 17040ggagtgaggg cgcgtccaat gggagatttc ttttcctagt ggcacttaaa acagcctgag 17100atttgaggct cttcctacat tgtcaggaca tttcatttag ttcatgatca cggtggtagt 17160aacacgattt taagcaccac ctaagagatc tgctcatcta agcctaagtt ggtctgcagg 17220cgtttgaatg agttgtggtt gccaagtaaa gtggtgaact tacgtggtga ttaatgaaat 17280tatcttaaat attaggaaga gttgattgaa gttttttgcc tatgtgtgtt gggaataaaa 17340ccaacacgtt gctgatgggg aggttaattg ccgagggatg aatgaggtgt acattttacc 17400agtattccag tcaggcttgc cagaatacgg ggggtccgca gactccgtgg gcatctcaga 17460tgtgccagtg aaagggtttc tgtttgcttc attgctgaca gcttgttact ttttggaagc 17520taggggtttc tgttgcttgt tcttggggag aatttttgaa acaggaaaag agagaccatt 17580aaaacatcta gcggaacccc aggactttcc ctggaagtct gtgtgtcgag tgtacagtag 17640gagttaggaa gtactctggt gcagttcagg cctttctctt acctctcagt attctatttc 17700cgatctggat gtgtcccaga tggcatttgg taagaatatc tctgttaaga ctgattaatt 17760tttagtaata tttcttgttc tttgtttctg ttatgatcct tgtctcgtct tcaaagttta 17820attagaaaat gattcggaga gcagtgttag cttatttgtt ggaataaaat ttaggaataa 17880attattctaa aggatggaaa aactttttgg atatttggag aaattttaaa acaatttggc 17940ttatctcttc agtaagtaat ttctcatcca gaaatttact gtagtgcttt tctaggaggt 18000aggtgtcata aaagttcaca cattgcatgt atcttgtgta aacactaaac agggctcctg 18060atgggaagga agacctttct gctgggctgc ttcagacact tgatcattct aaaaatatgc 18120cttctctttc ttatgctgat ttgacagaac ctgcatttgc ttatcttcaa aatatgggta 18180tcaagaaatt tcctttgctg ccttgacaaa ggagatagat tttgtttcat tactttaagg 18240taatatatga ttaccttatt taaaaaattt aatcaggact ggcaaggtgg cttacacctt 18300taatccgagc actttgggag gcctaggtgg acgaatcacc tgaggtcagg agtttgagac 18360cagcctggct aacatggtga aaccctgtct ctactaaaaa tacaaaaatt agctggtcat 18420ggtggcacgt gcctgtaatc caagctacct gggaggctga ggcaggaaaa tcgcttgaac 18480ccgggaggca gagtctgcag tgagttgaga tcacgccact gcactccagc ctgggtgaca 18540gagcgagact ctatctcaaa aaaaattttt tttaatgtat tatttttgca taagtaatac 18600attgacatga tacaaattct gtaattacaa aagggcaata attaaaatat cttccttcca 18660cccctttcct ctgagtacct aactttgtcc ccaagaacaa gcactatttc agttcctcat 18720gtatcctgcc agatataacc tgttcatatt gtaagataga tttaaaatgc tctaaaaaca 18780aaagtagttt agaataatat atatctatat attttttgag atgtagtctc acattgtcac 18840ccaggctgga gtgcagtgat acaatctcgg ctcactgcag tctctgcctc ccaggttcaa 18900atgcttctcc tgcctcagcc ttctgagtag ctgggattac aggcgcccac caccatgtcc 18960agctaatttt tgtattttta gtagagatgg ggtttcacca tgttggccag gctggtcttg 19020aactcctgac cttgtgatct gtccacctcg gcctcccaaa gtgctgggat tacaggtgtg 19080agccaccatg cctggctaga ataataactt ttaaaggttc ttagcatgct ctgaaatcaa 19140ctgcattagg tttatttata gttttatagt tattttaaat aaaatgcata tttgtcatat 19200ttctctgtat tttgctgttg agaaaggagg tattcactaa ttttgagtaa caaacactgc 19260tcacaaagtt tggattttgg cagttctgtt cacgtgcttc agccaaaaaa tcctcttctc 19320aaagtaagat tgatgaaagc aatttagaaa gtatctgttc tgtttttatg gctcttgctc 19380tttggtgtgg aactgtggtg tcacgccatg catgggcctc agtttatgag tgtttgtgct 19440ctgctcagca tacaggatgc aggagttcct tatggggctg gctgcaggct cagcaaatct 19500agcatgcttg ggagggtcct cacagtaatt aggaggcaat taatacttgc ttctggcagt 19560ttcttattct ccttcagatt cctatctggt gtttccctga ctttattcat tcatcagtaa 19620atatttacta aacatgtact atgtgcctgg cactgttata ggtgcagggc tcagcagtga 19680gcagacaaag ctctgccctc gtgaagcttt cattctaatg aaggacatag acagtaagca 19740agatagataa gtaaaatata cagtacgtta atacgtggag gaacttcaaa gcagggaagg 19800ggatagggaa atgtcagggt taatcgagtg ttaacttatt tttattttta aaaaaattgt 19860taagggcttt ccagcaaaac ccagaaagcc tgctagacaa attccaaaag agctgtagca 19920ctaagtgttg acatttttat tttattttgt tttgttttgt tttttttgag acagttcttg 19980ctctatcagc caggctggag tgcactagtg tgatcttggc tcactgcaac ctctgcctct 20040tgggttcaag tgattctcat gcctcagcct cctgtttagc tgggattata gacatgcact 20100gccatgcctg ggtaattttt tttttttccc ccgagacgga gtcttgctct gtcgcccagg 20160ctggagtgca gtggcgcgat ctcagctcac tgcaagctcc gcttcccgag ttcacgccat 20220tctcctgcct cagtctccca agtagctggg actacaggcg cctgccacca cgtccagcta 20280atttttttgt atttttaata gagacggggt ttcaccgtgt tagccaggat gatcttgatc 20340tcctgacctc gtcatccgcc gaccttgtga tccgcccacc tcggcctccc aaagtgctgg 20400gattacaggc atgagccact gtgcccggcc acgcctgggt aatttttgta tttttagtag 20460agatggggtt ttgccatgat gagcaggctg gtctcgaact cccggcctca tgtgatctgc 20520ctgccttggc ctcccaaagt gctaggatta caggcatgag ccaccatacc tggccagtgt 20580tgatatttta aatacggtgt tcagggaagg tccactgaga agacagcttt tttttttttt 20640ttttttgggg ttggggggca aggtcttgct ctttaaccca ggctggaatg cagtatcact 20700atcgtagctc acttcagcct tgaactcctg ggctcaagtg atcctcccac ctcaacctca 20760caatgtgttg ggactatagg tgtgagccat cacacctggc cagatgatgg cttttgagta 20820aagacctcaa gcgagttaag agtctagtgt aagggtgtat gaagtagtgg tattccagat 20880ggggggaaca ggtccaaaat cttcctgttt caggaatagc aaggatgtca ttttagttgg 20940gtgaattgag tgagggggac atttgtagta agaagtaagg tccaagaggt caagggagtg 21000ccatatcaga ccaatactac ttgccttgta gatggaataa agatattggc atttatgtga 21060gtgagatggg atgtcactgg aggattagag cagaggagta gcatgatctg aatttcaatc 21120ttaagtgaac tctggctgac aacagagtga aggggaacac cggcaaaagc agaaaccagt 21180taggaagcca ctgcagtgct cagataagca tggtgggttc tgtcagggta ccggctgtcg 21240gctgtgggca gtgtgaggaa tgactgactg gattttgaat gcggaaccaa ctgcacttgt 21300tgaactctgc taagtataac aatttagcag tagcttgcgt tatcaggttt gtattcagct 21360gcaagtaaca gaaaatcctg ctgcaatagc ttaaactggt aacaagcaag agcttatcag 21420aagacaaaaa taagtctggg gaaattcaac aataagttaa ggaacccagg ctctttcttt 21480tttttttttt tgaaacggag tttcgctctt gtcacccggg ctggagtgca atgatgtgat 21540ctcagctcac taaaacctct acctcctggg ttcaagtgat tcttctgcct cagcctccca 21600agtaactggg attacaggcg tataccacca tgcccagcta atttttgtgt ttttagtaga 21660gatggggttt caccatgttg gccaggctgg tctcgaactt ctgacctcag gtgatccact 21720cgcctcagcc tgccaaagtg ctgggattac aggtttgggc cactgcaccc ggtcagaacc 21780caggctcttt cttatactta ccttgcaaac ccttgttctc attttttccc tttgtatttt 21840tattgttgaa ttgtaatagt tctttatata ttctggatac tggattctta tcagatagat 21900gatttgtaaa aactctccct tcctttggat tgtcttttta ctttcttgat agtgtctttt 21960gaagtgtaaa agtttttaat tttgatgaag tcgagtttat ctattttgtc tttggttgct 22020gtgcttcaag tgtcatatct aagaaatcat tgtctaatcc aaagtcaaaa aggtttactc 22080ctatgttttc ttctaagaat tttagagttt tacatttaag tctgatccat tttgagttaa 22140tttttatata tggttcaggt agaagtccaa ctttattctt ttccatgtgg ttattcagtt 22200gtcccagcac tgtttgttga agagactatt ctttccccat ggaattatct tagtaccctt 22260gttgaaaatt aatcgtcctt aattgtataa atttatttct agactgtcag ttctacctgt 22320tggtctttat gtcgatcctg tgccagtacc atacagtctt gattactgaa gtttgtgtca 22380cagtttaaat tcatgaaatg tgagttctcc aactttgttc cttttcaaga ttgatttggc 22440catgctgggt cccttgcatt tccgtacgaa ttgtaggatc agcttgtcag tttcaacaaa 22500gaagccaagt aggattctga gagggattgt gttgaatctg tagatcaact tggggagtat 22560tcgcatctta acaatattgt cttccaccta tgaacatggg caaactttgt gtaaatggtc 22620agattgtaag tatttcgggc tgtgtgggca cagtgtctct gtcacagcta cgcggctctg 22680ccattgtagc atgaaagtag ccataagcaa tatgtatgag tgtctgtgtt ccaatagaat 22740tttattaatg acaaggaagt ttgaatttca tataattttc acctgtcatg agatagtatt 22800tgattatttt ggtcaaccat ttaaaaatgt aaaaacattt cttagcttgt gaactagcca 22860aaaatatgca ggttatagtt ttcccactcc taggttaaaa tatgatagga ccacatttgg 22920aaagcatttc tttttttttt tttttttttt tttttgagac ggagtttcac tcttgttgcc 22980caggctggag tgcagtggcg cgatctcggc tcactgcaac ctctgcctcc caggttcaag 23040acattctcct gcacggcctc cctagtagct gggattacag gcatgcgcca ccacacccag 23100ctaattttgt atttttagta gagacggggt ttctccatgt tggtcaggct ggtcttgaac 23160tcctgacctc aggtgatcca cccgcctcag cctcccaaag tgctgggatt acagggtgtg 23220agccaccaca ccctgctgga aagcatttct tttttggctg tttttgtttt ttttttaaac 23280tagttttgaa aattataaaa gttacacata tacattataa aaatatcttc aagcagcaca 23340gatgaaaaac aaagcccttc ttgcaagtct gtcatctttg tctaacttcc taagaacaaa 23400agtgtttctt gtgtcttctt cccagatttt aatatgcata tacaagcatt taaatgtgtc 23460attttttgtt tgcttgactg agatcacatt acatatgtat ttttttactt aacaatgtgt 23520catagatatt gttccatagc agtacctgta attcttatta attgctatgt aatattttag 23580aatttctttt taaaagagga cttttggaga tgtaaaggca aaggtctcac atttttgtgg 23640ctgtagaatg tgctggtgac atattctctc taccttgaga agtccccatc cccatcacct 23700ccatttcctg taaataagtc aaccacttga taaactacct ttgaatggat ccacactcaa 23760aacatttagt cttattcaga caacaaggag gaaaaataaa ataccttata aagcactgtt 23820taatattgta ttaaattgga tcaatttggg ggctagaatg tatgttagag acatgatatg 23880tccataggtc cttgctatca cagtgaggtc tcagggacag tcgtttggta tcatttggga 23940tctcataagc agactctctc tgcttgacct gacaaatcag agtctgtgtt ttaacaggtt 24000cagtgagtga cttacatgca cattggagtt tgggaagctc cactgtaggt gcttagacct 24060tacctttgtt gttgctaata acaatgcaag catttgggag gaagacctgt gttgctcata 24120tgtgtccagg tgtagctgag gtggccttgc ttatctgctg tagggccgtt gagcatttct 24180gtagctgtga tgagtgagct gaggtgagcc tgcggagagc tcccagccat tggtagtggg 24240actcgcttag atgaactgga aggacccttt catctgagca gccactatgg agaaaaacaa 24300ccgaatgagg ggagagacaa tgtgcaattt tatttagggc acaaaggaga gctgtggtta 24360gaaggtgaca tttgagtgga aagggggcaa gccatgtgta tagcgggaga agagaggtcc 24420aggcagagtt aacagaaggc agaaatgctt tccatgtttg agaaccagta aggaggccag 24480tggctgaagt aaggtgaagg gcagaaataa ggatgaggct gcgagagatg agaggttaga 24540gacgagcgtc ttgtgcacca agataagctt gtgtggtcaa aacaagtagt ttaatttatg 24600tttttaaaag atcattttgg ctgggcacaa tggttcatgc ctgtaatacc agtagtttga 24660gacggtgtgg tgggaggatt gcctgaggcc agacgaccag catagccaac atagcagcac 24720ctataaggtc tctacaaaaa actttaaaaa attagctggg catagtggtg tgtgcctgta 24780gtcccagcta ctcaggaggc tgaggaggct ggaggattgc ttgagtccag gagtttgagg 24840ctgcagtgag ctatgattat gccactacac tacaacctgg gcaagagagt gagaccctgt 24900ctctaaatat acacacacac acacacacac acacacacac acacacacac acacacacac 24960acacacatat atatgtatat atatgcattt agatgaaaag atcactttga caataccaca 25020tgctggtgag gatttagaaa aactaggtca cttattgctg gtgggaatat aatatagtac 25080ggccactctg gaaaacagtt tggcagtttg tcataaaact gaacataccg ttagtataca 25140gcccagcagc aactacaatc ctgggcatta atcctagaga aatgaaacct taatgttcac 25200ataaaaacct atactcaagt atgcatagca gctttaccca taatatctaa gaactggaat 25260cagctcagat gtccttcaac aggtgaatgg ttaaactact cagtaataaa aaggaatgag 25320ctactgatag catgcaacag tttaggtgaa gttatgctaa tgaaaaaagc caatcccaaa 25380aggttataca tactgtatga ttctatgttt ttttgcaatg gcacagtttt agggatggag 25440aatagattag tggttgcctg gggttagaga tggggtagta gagtaggtta gtggtggcag 25500aggagagaaa agagagggag gtgaatgtgg ttataaaagg acaacacagg ggaatacttg 25560taatggaaat gctttgtctt tttttttttt tttttttttt tggcgacaga gtcttgctct 25620gttgcccagg ctggagtgca gtggcatgat cttttctcac tgcaacctct gcctcctggg 25680ttcaagtgat acttgtgtct cagtctccca tgttcagagt gaaacaaacc agaggtaatg 25740ttcatccaaa taatccaaca cacatgacat taaaacatca agatcaggtc ggacgtggtg 25800gctcatgcct gtaatcccag cacttttggg aggccaaggt gggcagatca cttgaggtca 25860ggagttcgag accagccggg ccaacatgat gaaaccccat cttgactaaa aatacaaaaa 25920ttagccgggc atggtggtgt gcacctgtag tcccagctac ttgggaggct gaggcaagag 25980aactgcttga acccgagggg cagaggttgc agtgagctga gagtgcgcca ttgcacttca 26040gcctgtgtga cagagtaaga ctccatctcc aaaaaaaaaa aaccaagatc aattaaaata 26100cagcattact gggccgggtg tggtggctca cacctgtaat cccagcactt tgggaggccg 26160agatgggcag atcacgaggt caggagatcc agaccatccc ggctaacacg gtgaaacccc 26220gtctctacta aaaaatacaa aaaattagcc gggtatagtg gtgggtgcct gtagtcccag 26280ctacttggga ggctgaagca ggagaatggt

gtgaacccgg gaggcagagc tggcagtgag 26340ctgagatcgc gccactgcac tccagcctgg gcgacagagc aagactccgt ctcgggggaa 26400aaaaaaaaat aaataaatag aatgctgtag tgtccttgag tttacatgcc cctccttacg 26460cttgtgtgcc cgtgcagatt gcttgattac acaattagag gaggctggcg gaggattgtt 26520ttaatttttt tttttttgag acagtctggc tctgttcccc aggctagagt gcaatggcgc 26580aatcttggtg cactgcaacc tctgcctcct gggttcaagc agttcttctg ccgcagcctc 26640ccgagtagct gggattatag gcgcccgcca ccacgcccaa ctattttttg tatttttagt 26700agagcagcgt ttcaccatgc tggccaggct ggtctcgaac tcctgacctc agatgatctg 26760ctgccccagc ctcccaaagt gctgggatta caggcgtgag ccacacctgg ccgtttgttt 26820taattttgaa ggtgaagtga aagtgactac atttaccaaa agtgattgaa aagccaggac 26880tgttcttacc ctgtttttcc agttcttgct cagagcaagg tggtttcttt ttcacttaat 26940caccatactt acttttcatg tagaacaagt cagtttgagt tatcagttca tcatcttaac 27000taaattccat gggggaagga attagtttta gtttcttaaa cttccaggtt tgcttattgg 27060acaaaatgag atagcaaggc agtgttttta agttagattt tttatttctt tggtaataca 27120attttctcag aaacttagta gtcttttagt ttagttgttt ttagttggtc ctatgttttg 27180gatcacccct ctctacttta ttttgatagt gccaactgtg aagacatctg aagccatagg 27240tttggatggg aaggaggcat ctttagcctg atcatcttcg ccaggctgtt tatctccttt 27300tgcttggctg agaagtctta ataggaggct tattcccagc tatttgggga catagaagca 27360gttagccatt gcttatattt tactgaggtc tgtgtggtat gttgattgta gtcagttaac 27420gattttgaga actgaaggca gcctggtata tatagagtag gtattagact gtgtttcttc 27480taattgaatt tcccatctct tgtaatctat gccatcatct tctgtactgc tgagaaagaa 27540agaaagtttc taatcaaact ataccactgg ttgtaagatg cagtttggct ttagtgatgt 27600taacacatga ttcaaacgtg aaattgattg agtattggtg aaatacagag gagatttaaa 27660gccagaagac ctgggtttaa atgctggctg tatgacttca tatctgtgtg atcttgggca 27720tgtcatggtt ggcacttcaa tttcttctct ctataatggg ggaagtgagg ccagtcatgg 27780tggctcatac ctataatccc agtgctttgg gaggccaaga tgggaagatc gcttgaggcc 27840aggagtttga gcaattgggc aacatcgtga ggccccgtct ctacaaaata ttttgaaaaa 27900attagccagg cccagtggtg cgtgcctgtg gtccgcgcca ctcaggaggc tgagacggga 27960ggatcctttc agcctaggag tttaaggcta aagtgagcca tgattgtgct atcgtactcc 28020agcctgggca gcagagcaag atcctgactc taaaaaaaag taaaataaag taaaatgggg 28080gaaatgaact gctttagtaa catcatctgt tttttctgtg agcagcgtag cttgacagcc 28140attggtgaac tcgtgccctg tgcttccctg tccagatccc cattctgccc gcaacatgga 28200gtataacggt ttattcatag tagtcgagaa acactcactg aatgaatgaa tgaggtgtag 28260aactaagtgg agtgggtaat tcaacacata ttaatttcct tctttttttt atttttagaa 28320agaaagaact ttcagctacc aagaaagacc gtgtgaatca ttgtctgaca atatgtgaaa 28380acatagtggc acagtctgtc aggtaattgc actttgaact gtctagagaa aataagaact 28440ttgtatattt tcagtcttaa tgggctagaa tattctttgt gtcccagcta ttttaaatgg 28500attcagaaat ccatttaaga tgaagaagga cccttttccc atatttctgg ctatatacaa 28560ggatatccag acactgaaat gaataatgtt ccctttttgt aatcttttat gcaaaaatta 28620aaaccattat ggtaattgaa caacatgttt atgtttagtt aacaccctta gcaactatag 28680ttattttaaa accatctatg gtttgatatt tttgcatttg ttgcaatagt aggaacagca 28740caagacagtt cagtttgtct ctcttatttg ctttttcttg gcagtttgct gtcctattgt 28800acctctgctc ctagcagtgg ctggagccca ctcctctgtg cttcgggatt agtggggatc 28860gtggggcatt gactgtaggt cagctttcct tgcttgatct ttctcactgg gatgaactag 28920cagcaccttc ttttgtagct gctttgcttt tgactatctt tctgaccgtt gttcctagta 28980gctgtagatg gtaaatatat ttaggcctgt ttccaatggc tcagtaggag acatattcac 29040ctatgatatc tgaattctgt tacccacatg ggcatgcgtg aaatagttgc cttgccttac 29100tttcccttgg aataaataat tcatgttatt ctcctggtag aagctagaaa aagcctttat 29160agtcagtcag aaaaaaattt ttagacaaat aatcttgatt ttagtactga caaaaacgtg 29220tggtgattct ttttttaatt tttttttgag acggagtttc actcttgttg cccaggctgg 29280agtgcaatgg cgtgatctcg gctcactgca acctctgcct cctgggttca agtgattctc 29340ctgcctcagc ctcccaagta gctggagtta caggcatgtg ctactgtgcc cagctaattt 29400tgtattttta gtagagatgt tggtcaggct gatctcgaac tcccaacctt aggtgatctg 29460cccgcctcag cctcccaaag tgctgggatt acaggcgtga gccagggcgc ccggtgattc 29520atttgttttt tcaaaaaatt tcctcttggc cattgctttt cacttttgtt tttttttttt 29580ttttgagacg gagtcacgat ctgtcaccca ggctggagtg cagtggcatg atcttggctt 29640actgcaagct ctgcctccca ggttcacgcc attctcctgc ttcagcctgg cgagtagctg 29700ggactacagg tgctcgccac cacacccggc taattttttg tatttttagt agagatgggg 29760tttcaccgtg gtcttgatct cctgacctca tgacccgctc aactcagcct cccaaagtgc 29820tgggattaca ggcgtgagcc accgcgcccg gccctctctt gtctttttat tgtggtaaaa 29880tgcacataaa attgactgtc ttaaccattt ttaggggtac agttcagtat atatattcgt 29940aatgttgtac agccatcact gccatctact tcataagttt ttcttctgtc aaaactgaac 30000atctgtcttc attaaactcc ctatcatcca ttctttcctg tagtcccttt ctactttctg 30060tctgtatgag tgtaactgct ctggagacct catgtaagtg gattcctaca ggatttgtgt 30120tttttttttg gtgatctgct tatttttaat gcctctgtgc atttgtatta tatactttca 30180aagtgatttc acaaaaccgt ttcattttag gttaactcat ttctgttgtt tgtgaaatac 30240tgtgtatgat tctgttctgt ttctgtctaa tttgtggaaa tgttgtggga agaaaatgaa 30300ataacaaatg agcatatgtc ctgaaaataa aaatataaaa attctaagtt agcatgctat 30360tgtagaatac aacgctatga taaaagtagg aaaaaaaaag gtttgaattc tatctctgct 30420acctgtgtaa gctgggtgac tttagataag ctgtaacgtg tttgagcctt actggctcat 30480ttttgaaatg taatccctag ttacacagtt cttgtgggat cagatggtac atgtgaaaca 30540ctgtgaaaaa gcaactgcat agatatgttc attagccacc tgagcgggaa gcgtatccca 30600ttgcgatgcc catcatccaa agctatatgt tatctttact tttttttttt tgagacagag 30660tcttgctctg ttgcccaggc tagagtgcag tggtgcaatc tcagctcact gcaagctcca 30720cctcccgggt tcacgctatt ctcctgcccc agcctcccaa gtagctggga ctacaggcac 30780ccgccaccat gcctggctaa atttttgtat ttttagtaga gatggggttt caccgtgtta 30840gccaggatgg tcttgatctc ctgacctcgt gatccgcccg cctcggcctc ccaaagtgct 30900gggattacag gcgtgagcca ctgcccctgg ccatctttac tttttttgtg aaatgacttt 30960aaatacttgg caaacatttg gtcattgttc atctgatctc caccatccag gtctcagaga 31020acataatttc tctctgaaag cttattgacc caggaaataa gatctctttc aatctgagtg 31080cgtcaggctt tattcttgtc attttgtctt ttgataattt tcaaatggaa ttcatggaat 31140gttggcttat attcatatat tagtaaagta tgttgagaca tcttaagatt gatttgtggt 31200tctatatgcc atattaaatc aaaataatag ctgttaatgg ttttcacatt agtctgtctc 31260ttgtttttat ggagtaatgc tgagagttca ttatgcttgt tctacagaag agcatgttaa 31320aaggagtttt tggagtcaga gaggttattc ttggtttcat aggatacact ctatactttt 31380tagggatttc agagtatata gctgaaggtg atattttatg taaatatgtt ttatggaaac 31440ttattgctca tcgctgtttc ctgttaactc tcctaaaata taattaaact tttggaactt 31500ttttatagct tttgtgctag actaattttt gtctctaatg aggttatata aatggcagct 31560tctgacgttt tcaatgtagg aagtcattta aaacttcatg tatattgtga aaatgtagtc 31620tgctttaagc tctctaaagt ggtctaagtt actggttcct aagtatggat gagcatcaaa 31680atcatctgga aaatttgtta aaaatacagt aatgaaggca cctcactgtc ctttttccca 31740aacatacttc tgcattctgt ttgagtaggt agggactaca catttttcac aagtatcctc 31800ttgggaatac ccaggaatgc ttacttgagc aacctcttac taatatgtac cttgataagg 31860tggctaggta aacataaata tacaaaaatc catagatctc ccatatatta gcataaatca 31920gctagaaaat ataacgttta aagatctagt tcacagtagc accaatatat cgaactctaa 31980ggaatcgata aatatgcaaa aactttataa aaacttctgt taatgtttct gaaagatata 32040ggtgaccact ttctagatag gaagatttta tattactaag ttgaattttc tctaaattaa 32100cacagaaatt taaaataatc ttgatcaaaa ttctagtaga ggtatttttg aacttgttca 32160ctgcaagaat aaatacataa ttgcaaagaa tatctcaaaa tcatcaccag gcctggtgtg 32220gtggcccatg cctgtaatcc cagcactttg ggaggctgag gcaggcagat cacctgaggt 32280caagagtttg agaccagctg gaccagtgcg gtgaaacact gcctctacta aaaatacaaa 32340aattagctgg gtgtggtggt gcatgcctgt agtcccagct acttgggagg ctgaggcagg 32400agaattgctt gaacccagga ggtacaggtt gcggtgagcc tagatcgcac cactgcattc 32460cagcctgggc gacaagagca aaattctgtc tcaagaaaaa agagaaaaaa gaaaaagaaa 32520tcaacactaa tatggtgaga cttaatgtat gtgacattaa aatagtgatt ggatgttaaa 32580acaggtatag aacagaaaga agagtgtatg tgtgtatctg tatgaattta tgatgggtgt 32640aacatatatg tattagggaa atgagggaaa tgatacattt ctctgacttt gggagaacat 32700tatatctcta cctcatattg caaacaaaca taaagttcag attaattacc taaatgtgaa 32760aaaatgaaat aatttcttta aaaaatgtaa tcttagtttg aggaaggtta acattataaa 32820ggaaaaaact gttttgagtg gaatatagtt caatatgtca aaatccacct tcaacaaaat 32880tgaaagtaaa ttgaacttgg ggaaagtatt gacagcatat agatcaaagg ttactagcct 32940gtgtaaagag cagttataaa tatcgttaag aaaaacactg tcgacctgtc ggcaccttgt 33000tctccgactc ccagcctcca gaactgtgac gagtaagtgc ttattgttta aaccacccag 33060tctgtatgtg gtattttgtt atagaaactc aagctgatta ggacactagt aatcagtaga 33120ctgaaactga aacaaaaata agaacctttt ttacctgtca aattggcaaa cattaagaat 33180attcagattt ttgtcagagg tgatacaacc ttctaagaag gcaatttggg aaaatataaa 33240gctttagatt attatatgtc tgacctagca gttttacctc tagggtgctt acccctagga 33300aagtgtgtaa tgatattggt gcagtgccct tcatcccatt agaaaattaa aaataacctt 33360aatggcctac cactaaaagg ggattgaaaa tttaagatat atttatttat gtgtttattg 33420agatggagtc ttgcactgtc cgcctgggcc agagtgcaat ggtgcgatct cggctcactg 33480caacctctgc ttcccgggtt catgtgattc tcctgcctca gcctcctgag tagctgggat 33540tacaggctca caccaccgca cccggctaat tttttgtatt tttagtagag atggggtttc 33600actgtgttgg ccagactggt ctcgaactcc tgacctcatg atccgcgccc ctcggcctcc 33660cagtgttggg attacaggtg tgagccactg cgcctggcca gatacattta tacaagagaa 33720tgttagttaa cattcataga tatttatatt ttgtttactt tttattaaaa aaattttttt 33780tagagacagg atcttactct gtcacccagg caggatgcag ttgcacaatc atagcccact 33840gcagcctgaa ctcctgggct taagtgatcc ttctgcctca gccttttgag tacctggggg 33900actttaggca gtgctactat acctggctaa tttttaaatg ttttatagat gagatcttgc 33960tgtattgccc aggctggtct agaattcctg ggcccaagtg atcctcccac cttggcctcc 34020caaagcgctg agattacagg catgagccac cacttctgac caatagatat ttatatttgt 34080gactggaaaa tatattaaca atgtgttaaa aaattcagtt aaaaaataat gaaagatttt 34140tgcttctggc taagatagaa taacaaggac agcatttatc ttcttgcctt gaaatagttg 34200aaaacggaag aaatatatgt aacagtggtt ttcaagttat tgggcatcag gcaaagaaga 34260atagttatcc caggaaaatg aatgtggaga gccctacaat ttccttacat tactgcctgg 34320tcatggcaag aggaaaaact gagaggagac tgaggctgag ccagtggttt gctgggttga 34380ggaggcagag ctgggagtgc agagatgcaa ggtggtgaga gcccatatgg aagaatacca 34440gggaagagag ctgcagaggg agctccggag acctgcaccc tgccctctca gtaccctgtc 34500atgtgtgtag ctgagtactg acgagcactt gcttgtgcgg aaatgaccca gggctggagg 34560tagagccacc tgaaaggatt agaaggaaca gttgctgaaa gtcacacagg gccaggaaga 34620atttctaatc acaccagttg gagtggaaaa cctcagctct catagagcag gtagggtact 34680cagaagggtt tgcccaccta gccccagact aagtttcgtt actctgaccc tacctaatat 34740taaaaagaga ttaattaaat tgttcgcaac aaaaataata tatttcagtg tttgtaacac 34800gtagaagtga attgtatgac aatagcataa aggctggaag agcagaaatt gacatgtatt 34860tgcgctgggc agaataatgc tcccctcttt ccccaaaaga tatcaagtcc taatccctgg 34920agcctgtaaa tattacttta tatggaaaat tgttttatga tgtgattaaa ttcaggatct 34980tgagatgagg gggctatctt ggatgatctg ggtaggcact aaatgcaatc acatatatat 35040aaaaaggagg cagagggaga ttttacacac agagagaagg ccctgtgaag atggaacaga 35100aagatttgaa ggtgctggcc ttgaaaattg gagtgatgaa gctataagcc aaggaatgca 35160gcagccacca aagctggaag aggcacggag cagttctcat ttagagccta ctccagaggg 35220aatgtggtgc tgccaattcc tttttttttt ttttttttaa gatatcattt acccctttaa 35280gttggttttt tttttttttt ttttttttta gtatttattg atcattcttg ggtgtttctt 35340ggagaggggg atttggcagg gtcataggac aatagtggag ggaaggtcag cagataaaca 35400tgtaaacaaa ggtctctggt tttcctaggc agagggccct gccacgttct gcagtgtttg 35460tgtccctggg tacttgagat tagggagtgg tgatgactct taacgagtat gctgccttca 35520agcatctgtt taacaaagca catcttgcac cgcccttaat ccatttaacc cttagtggac 35580acagcacatg tttcagagag cacggggttg ggggtaaggt tatagattaa cagcatccca 35640aggcagaaga atttttctta gtacagaaca aaatggagtg tcctatgtct acttctttct 35700acgcagacac agtaacaatc tgatctctct ttcttttccc acatttcctc cttttctatt 35760cgacaaaact gccaccgtca tcatggactg ttctcaatga gctattgggt acacctccca 35820gatggggtgg cggccgggca gaggggctcc tcacttccca gatggggcgg ccgggcagag 35880gcgcccccca acctcccaga cggggcggcg gctgggcggg ggctgccccc cacctcccgg 35940acggggcggg tggccgggcg ggggctgccc accacctccc ggacggggcg gctggccggg 36000cgggggctgc cccccacctc ccggacgggg cgggtggccg ggcgggggct gccccccacc 36060tcccggacgg ggcggctggc cgggcggggg ctgcccccca cctcccggac ggagcggctg 36120ccgggcggag gggctcctca cttcccggac ggggcggctg ctgggcggag gggctcctca 36180cttctcagac ggggcggctg gtcagagacg ctcctcacct cccagacggg gtggcagtgg 36240ggcagagaca ttcttaagtt cccagacgga gtcacggccg ggcagaggtg ctcttcacat 36300ctcagacggg gcggcggggc agaggtgctc cccacttccc agacgatggg cggccgggca 36360gagatgctcc tcacttccta gatgggatga cagccgggaa gaggcgctcc tcacttccca 36420gactgggcag ccaggcagag gggctcctca catcccagac gatgggcggc caggcagaaa 36480cgctcctcac ttcctagacg gggtggcggc tgggcagagg ccgcaatctt ggcactttgg 36540gaggccaagg caggcggctg ggaggtgaag gttgtagtga cccgagatca cgccactgca 36600ctccagcctg ggcaacactg agcactgagt gagcgagact ccgtctgcaa tcccggcacc 36660tcgggaggcc gaggctggca gatcacttgc agtcaggagc tggagaccag cccggccaac 36720acggcgaaac cccgtctcca ccaaaaaaca cgaaaaccag tcagacatgg cggtgcgtgc 36780ctgcaatccc aggcacttgg caggctgagg caggagaatc aggtagggag gttgcagtga 36840gtagagatgg tggcagtaca gtccagcctt ggctcggcat cagagggaga ctgtgcgagg 36900gcgagggcga gggcgaggga attccttaat ttcagtttag tgatactaat tttggactct 36960ggcctctaaa actgtgaaag aaaaaatttt ttgtttgttt gtttctttta agccacatag 37020tttgtggtaa tttgttacag cagctgcagg aaactaattt atgctgcatg tgaaatggtg 37080taataaggta gattgtgatg aagatacata gtataaacaa ttaagcaaca actaaaagca 37140caacaaggaa ttatagctaa tgaaccaaaa aaggagatta gaataataaa aatggtgaat 37200cccaaagaag ccagaaatag gggaagaggc aaataaagga aagaaagagc ttgatggtag 37260atttcaacct aactatgtca aaaaggacat tacatgtaaa aggcagcgat ttttcagatt 37320gaatggaaaa gtaagactcg gtatatgctg ctgcctgcaa gaaacacatt ctaaatataa 37380aggcaaaaat aacctacagg taacagaacg gaaagaagtt cactgtgctt acaagaatta 37440gatgcaagct agactggttc tgttaatatc agacaaagtg gatttcaaag caaaggctct 37500tgcccaggat gagatggtca tttcataatg atgaagggga ttcgttcatc agcctggcat 37560agcaagctga aatgtttatg caccggacta cagagctaaa atacatgaag caaagcctga 37620cagaactaca agtagaaaca gacaaatcca cagtgataga gatttcagta gccgctctca 37680atgatttgta gaacacgtag ccataatatc tggatctaga acacttgacc aacactgtcc 37740cctgtgcaac ctcattggca tttacaggac actccaccca gcaccagcag aagagacact 37800ctctcaagtg ctcacagaat gtttgccaag atagagcaga tgctgggcca taaaacaagt 37860ctctaaatta aaagcattca aattattcag agtatgtttt ctgacctcag tatcattaag 37920ttggaatata ttataggaag ataacctgga aaagcctcag atatgtggaa aaacccattt 37980ccacatggcc catgggtcag aagtgaagtc aaaagggaaa tttgaaagtc ttttggattg 38040actgatataa aaacaataga tttctaaact tgtggggtgc tgttacagca tagtaaatgg 38100aaatttctag cattaaatgc ctgttttagg aaagaaagat ttcaaatcaa tgacctcagc 38160ttctaccttt ggaaacttga aaatgacaag caaatggaat ccagagttac cagaagggcc 38220aggtacggtg gcttatgcct gcagttctgc cactttggga ggccgaggca ggtggattgt 38280ttgagactgg cagttgaaga ccagcctggg cagcctaggg agaccccata tctacaaaaa 38340acaaaaaaat tagccaggtg tggtggcatg tgcctgtagt cccagctaac caggagtcta 38400aggtgggagg attgcttgag tctgggaggt tgaggctgca gtgaactgtg attgtgccac 38460tgtgttccat cctgggcaac agaatgagac cctgtctcaa aaacaaaaac agttactaga 38520agaatggaca tcataaagat aggagcagaa gtcagtaaaa tagaaaacaa aaatacatag 38580gaaatcaata aaaccaaaag ctggttcatc aagaacatca ataaattggt aaagctgata 38640ggaaaaacag tgaagtcaca aattagcaat atcaggaatg agggagatga cagtagtata 38700gattatatag atattaaaag gactgtatga ggcaggtgtg gtggttcacg cctgtaatcc 38760cagcaccttg ggaggccgag gtggacagat cacctgaggt caggagtttg ggaccagcct 38820ggccaacatg gtgaaactct gtctctacta aaaatacaaa aattagttgg tcgtggtgct 38880gtgtgcctgt aatcccagct acttgggagg ctgaggcagg agaattgctt gaacctggga 38940ggcggaggtt gcagtgagct gagattgtgc cgttgcactc cagcctgggt gacagagcaa 39000gactccatct caaaacaaat aaataaataa aaaggactat atggtaatat tatgaacaac 39060tttatgccaa taaatttgac aacttataga tgaaatggat gagttccttg aaagacacag 39120aaactattaa agctctctca agaagatata gataagctga ttagccctat atctatttta 39180ttgaatttaa atgtaaaaat caatatttag ttactggaaa acttttaagt gtggttggaa 39240atggtatacg aactttttca actgaatttt atgaagtcta atcacaggta aaggttttct 39300gatgaaaatt tagtgtctga attgagatat actgtaaaaa atgttatata tcttaattat 39360ttcttcacat taattacatg ttgaaataat actttgggtg tattgggtta aattaaatat 39420tatgaaaatc ttgcctgttt tctttttact tttgatgcgt cagctaggaa atataaaagt 39480gtagctcaca ttctgtttct gttgacagta ctgctttgga gcacagtgtt tgaatgatct 39540atcatttcaa agacctttcc tcagttcgtt attcatggct gtctgtattc cacatagata 39600aggtctgaaa tactgctaag tggcatgttt tgttttatgc ttttataagt ttgttgatca 39660ttactgatgt ggacttttgg tgcctcttag gctcattgct atcttccaac cattgtttgc 39720aatttttacc tagagataaa gagaaagaga catttggttt cagagtagtt agattgggat 39780catgaaagag caacctcatt ttgatgcttc aaaaatagca catcccccgt attactggga 39840tttgctattc ttgggattac ttcaagaaca tccttgtgtt actggtttgg atgcttctga 39900atgctgtgaa gtcagtttca tgtacatggc tcatcagttt agctctctct tggctttgtt 39960tagacagttg gagcatgatg gcctaaacag cttctttcaa ttaaacattt taaaatagtt 40020tacaaatagt aaacaaactc cagtttttgt gactctttgt ctcgcacaac aaaaacacaa 40080tctgaccatg atcatctggc atcttagggt gaaatatggt tatactttgg cccataccga 40140aagcaagatt aaaaaggggc aggagagata gactgctgaa ctgattttca aggttccaag 40200aatattgtag gttaagagta aaagtaaact tttggtagaa agcagtgggt tgtctaggat 40260tgaagtatct gaagttttta aacgaaaatt taaaaagaaa aatgagaatt gccttacaag 40320tacaatctct tcttttttaa aaaataaact ttattttgaa atagttttag atttatagaa 40380aaaaattaga tagggtagga agttttcata taccctacat ccagttaccc cagttattat 40440catcctaatt tagtgtgaga cattttcatg tttaatgaat caatattgat atgctattaa 40500cttaagtcca gactttattc agattttctt aatttctatg taatgtcctt tttctgttcc 40560agaattccat gcaggacacc ggatacctca ttacatttca ttgtcatgtc accttaggct 40620cctcttgaca gtttctcttc tttttttgct tagaaattct ccagaatttc agaaacttct 40680gggcatcgct atggaacttt ttctgctgtg cagtgatgac gcagagtcag atgtcaggat 40740ggtggctgac gaatgcctca acaaagttat caaagtaaga accgtgtgga tgatgttctc 40800ctcagagcta tcattgttgt aggctgagag aagaagcgat cattgagtgt tcttctgttt 40860tgagtccctg aggatgtctg cacttttttc ctttctgatg tatggtttgg aggtgctctg 40920ttgtatggtt tggaggtgct ctgttgtatg gtttggaggt gctctattgt atggtttgga 40980ggtgctctgt tgtatggttt ggaggtgctc ttgtatggtt tggaggtgct cttgtatggt 41040ttggaggtgc tctgttgtat ggtttggagg tggtcttgta tggtttgcag gtgctctatt 41100gcatggtttg caggtgctct attgtatggt ttggaagtgc tcttgtatgg tttggaggtg 41160ctcttgtatg gtttggagat gctctattgt atggtttgca ggtgctctat tgtatggttt 41220ggaagtgctc ttgtatggtt tggaggtgct cttgtatggt ttggaggtgc tctgttgtat 41280ggtttggagg tgctctgttg tatggtttgg aggtgctctt gtatggtttg gaggtgctct 41340attgtatggt ttggagatgc tctggtatct

gcctgcattg cttgccacac ctgcccggtc 41400agaaggcgct atgttgacaa ttgtgcctgc acggtgccta ggtcaatgaa gggaaccgat 41460ggtagccact ggatgctcct gggaaaatgt cactacaggc accagagaag ccagagctat 41520gcccaaattt ctatgagtct cagttttctt aaccataaaa tgggatcaat gtttttgtgg 41580catgtgtatg agtgtgtgtc tgtgtatgtg tgaggattaa attgtgtatg tgtgaggact 41640aattgccact actggatcct caaagtggta agaagtgttc ttattaataa tgacatcctt 41700acactcttac ccagcaagat tgatgggtgt ggcactgctt ctctttttcc atcacatggt 41760ttccatggta tccttttgcc cagggaatct ttgctttgtg gctagcactt tgttgtttgg 41820ctaatcacgc tttctgtggt caggacgctg gcttctctgg agccatggga ttctagctcc 41880ctgtcttgtc cctagagtgg tcactgtctt ctctctccgc ttgcaattcc tgctttgctc 41940gcatctcact tatgcagtga cgtatatcag tttcaccttg ttctccgtgc ctgctgatca 42000ttggcaccac ttgcatggtg ccatttaggg cctgcttcca gttaagcttg cttctccaca 42060ggcctaaata tccttgcttg cttcttttat tctcactggc aggaccaggg cggtctgtct 42120ttgcatgaga cagggtctcg ctcagtcacc caggctggag tgcagtggct gatcacggct 42180cattgcagcc ttgagctacc gggctcaagc tatcctcctg gcttggcccc ttgagtagct 42240gggactacag gcgtgcacca ccatgcccag ctaattttta aaattatttg tagagatggg 42300atctcgccag gttgcccagg ctggtcttga acgcctgggc tcaagtgatc ctccctcctt 42360ggtttcccaa agtgctggga tcacaggtgt gagccactgt gcctggccct tgatgtttca 42420gttcttgata tttgatcctc agagtcagaa aatctaaaaa gagggctatc ccaggttgcc 42480ttggttcatg gcaaatggga cgttaagagg gcagagagaa tatgaacaga aactgttcta 42540atattggtca tttaatgtgt aagtattgtt cttttttaaa cctccttcat tttttttcca 42600ggaattgctg gacacagtgg cttggtgtgt gtctgaggac tgtaggccat ggccctaggt 42660tgtggtttta ggtctcaggt gctcttcctg gctgtctcct tgcttctttc ccatgtcctc 42720ttctttgttt ccagccattt ctcccttatg cttaagtttg gtgcagcagg gtttggctgc 42780tctcagattc ctgcttcctc agatgctgta gttgtcaggc ccagcgggct ggcagcggga 42840tcaggatctg gctaggtttg ctctcactgt ggcagagtag ggggaggcgt gggagagcac 42900gtgtgacccc aggccagctg tagggagcat aggcatggtc acgtagcctt caggtcctag 42960actttgtctt ctcatgagta tggctgtgtg tgtatggtga aaactaggtt ctacttagcc 43020caagaaaatg ggcacatttt gcatgtggtt tctgtagaga aatgcactgg gtatctgaca 43080tagcctggca gcatgcctcc ctcaggtagg ttagtctcag gcggtgaagc acgtgtgtcc 43140agcaagaact tcatatgtgg cataaagtct ccgttctgtg aggtgctggc aaatcaccac 43200caccgtcaag aggctgaagt gatttttgtc tagggaggca ggaaaggctt cctggagtca 43260gcagccagta ggtgaaagag tagattggag accttcttaa tcatcaccgc ctcttgtctc 43320aaggggtgcc aggaagctgt ggaggctgaa cccatcttat gctgccagag agtgggacac 43380catgagggtc aggtcaaggg gttgtacctt gtttggtaga gaattagggg ctcttgaaga 43440ctttggatgt ggtcagggga gtgtatcatt taggaagagt gacccggtga ggacgtgggg 43500tagaggagga caggtgggag ggagtccagg tgggagtgag tagacccagc aggagtgcag 43560ggcctcgagc caggatggtg gcagggctgt gaggagaggc agccacctgt gtgtctgcgg 43620aagcaggggc aagagggaag aggccagcag cgtgctgcca tcacccagcg actggcgtag 43680attgtgagag accattccct gctcttagga ggggctgagt tttagttttc tcttgttata 43740caataagctt ggtatttgtt tacaaaacat ttgtaaagct aaatcaaggt ttgataaggc 43800ttctagtttt atttaagaag taatgttgaa ataaatgttt gtccaattcg ctttgctcat 43860ttaaggactt tcagtacaaa ctgcaacaac aggattagga tttaaacgtt tctgagatgt 43920ttttactcct cagaatttcc cagaatgtga tctggttttg attttcaagc ttgctgaccc 43980aataggttaa cccacaagtt ttacgaagac catctcagtc cacttacatc aactgcccat 44040gccacggtta aagagatcat cgactgatgt ttggcacagc ttcctccctc ttgggtgggc 44100aagcatttgg aagagaaggc tcctatgggt gagagtgggg caccaaagtc ttccctgtcc 44160catcccctag cttgagaagc ccttctctaa tgtggacttt gtgccgttag catcgttact 44220agcttgaagt tgaccatctg gacgtacttt ctggtttagc ctcacaagtg agcaaggagg 44280gttgagagat gtgctgtgag gaatgtgggg ccccagctgg cagcaggctc tgggtcaggg 44340gggcagggac cacgggcata cctgacagtg aggaggggcc acacctgcag aaaaggatgc 44400aggactccgc cttgggaagt gttctaggcc agagcgaggg tctgtggttt ataagtacac 44460ccacagtgct cgggaccctg cagatgtcca gggtgccgtc tgagcccgta tcatccaaca 44520gaatgttctg ctagtgaaga ttaaagattt actccagggg ctttaggatt tattatatat 44580atataaatcc tatatatata attttttttt tttttttttt tgagatggag tttcgctctt 44640gttgcccagg ctggagtgca atggcgtgat cttggctcac tgcaacctcc gcctcccggg 44700ttcaaactat tctcctgcct cagcctctcg agtagctggg attacaggcg cccaccacca 44760cacccggcta atttttgtat tttttagtag agacggagtt tctccatgtt ggtcaggctg 44820gtcttgaact cctgacctca ggtgatctgc ccgccttggc ctcccaaagt gctgggatta 44880caggcatgag ccaccccacc tggccaggat ttattgtatt tgaaccatct accattttaa 44940ttttgatgtt atgtagtatt tgatgataat gaaagttaaa ttgtttttct ttccattttt 45000ctgtttaagt gaatgacctg tatctagttt attcagtaac ttcctgcata tatttgtttc 45060tttcattctt aatgaatata ttcttaattt agttgctatt atgttttgct ttgccccaaa 45120attgaaatct tagtttcctt ttagctcgtt ttagaactag tgatgggatg tgtcttccat 45180aaatctcttg tgatttgttg taggctttga tggattctaa tcttccaagg ttacagctcg 45240agctctataa ggaaattaaa aaggtgggcc ttgcttttct tttttaaaaa tgttttaaat 45300tttaaatttt tataggtaca cgtattttgt aggtacatgt aaatgtatat atttatgggg 45360tacatgagat attttgatac aggtatacaa tacataataa tcacaccatg gaaagttgga 45420tatccatgcc ctcaagcatt tatcctttgt gttacaaaca atccagttac atgctttact 45480tattttattt tatttttgag acagagtctt gctttcaccc atgctagagt acagtggcat 45540gaccttggct cactgcaacc tccgcctccc gggttcaacc gaactttggg ctggtctcaa 45600actcctgacc tcaggtgatc cgcccgcctc ggcctcccaa agtgttggga ttacaggcgt 45660gagccactgt gccgggcctg attgtacatt ttaaaataac taaaacagtc agggcacagt 45720ggctcatgcc tgtaatccca gcattttggg aggctgaggc aggtgatcac ctgagatcag 45780gagttcgaga ccagcctggc caacatggag aaaccctgtc tctactaaaa atacaaaaat 45840tagccaagtg tggtggcggg cgcctgtaat cctggctact cgggaggctg aggtagggga 45900atcgcttgaa cctgggggtg gaggttgcag tgagccgaga tcacgccact gcattccagc 45960ctgagcgaca gagtgagact ttgtctcaaa aaataaaaat gaaataaaat tgggccgggt 46020gtggtggctc acaccttagt cccagcactt tgggaacctg aggcaggtgg atgcttgaga 46080ccaggagttt gagaccagca tgggcaacat ggcaaaacgc tgtctgtaca gaaattagct 46140gggtgtggtg gtgcacaact atagtctcag ctacttggga gattgaggtg ggaggattaa 46200ttgagcctgg aaggttgaat ctataggtag ctgagattgt gccactgccc ttcagcctgg 46260gcgaccaagt gagaccctgt ctcaaaagaa aaacaaaaaa acaaaaaaca aaccactatt 46320atcgactata tattattgtc tatgatccct ctgctgtgct gtcgaatacc aggtcttggg 46380cccttatttc catcactgag caaacttcac tctgttaagc agcaggtgtg ggatttcatc 46440gttattcagt aattcacaat gttagaagga aatgctgttt ggtagacgat tgctttactt 46500ttcttcaaaa ggttactctt tattagatga gatgagaatt aaaaatggta acttacttta 46560tatctttata attgaagccc actagacctt aaagtagtta ccagatgttt tatgcattta 46620aatggccttt tctctaaaat tagaaagtaa caaggaaaga aaatgcttcg tttctatgca 46680accctcttgg tgactagtat gtgactctta atgcaaccct cattgcaccc cctcagaatg 46740gtgcccctcg gagtttgcgt gctgccctgt ggaggtttgc tgagctggct cacctggttc 46800ggcctcagaa atgcaggtaa gttgtacact ctggatgttg gtttttgtcg ggggccagct 46860gctactgatc ctttatgtct cagctcagat gtcatttcaa aagtctgctc tgccctctcc 46920aaattgcagt cgaccttgcc ctgtttatgt ttccctcata gcactaatcc atgtcagaaa 46980ttgtcacgta cagtctatct gtgtgcttgt ttattttcta tcccaccctt ccgcaagaga 47040cttatgggat gtgtgcccca ggacagcagg ggtcttactg tcttatgctc tgttgcagcc 47100cagcagcgat aacagtgtct gcacatagta cttgcttaaa agatacttgc caaattgttg 47160aaggttgagg taccaatttc attattgctg actataggag ttatagcaaa atatccattt 47220gtctgttaca tgagttaaaa atatggttgt tgcactgtga atagtttggt ttagtcaaaa 47280cagttgtatc ttaacggatt gagaaacaaa agcaggacca cttttcatca gctccctcct 47340tctccttaac cagcaataca tgctgatgct gatatcccat agaccctcag ctccatcctg 47400agtcactggg aatgtggtct aaaccctcac tattaatatg aactgagttt caataagaat 47460cttatatggg tcgggcatag tggctcatac ctttgatccc agcacttcag gaggccaagg 47520caggtggatt gcttgaccca gactaggcaa catggtgaaa cgccgcctct acaaaaaata 47580caaaacttag ccaggcatgg tggtgcgtgc ctgtggtcac agccactcga gaggctgagg 47640tgggaggatc acttgagcct gggaggtgga ggtcgtgttg agccaagatc gcaccactgc 47700actccagcct gggcaacaga gtgagacctg tctcaaaaaa accaaaatcc agaaaagaac 47760ttatatggct gcagaggtat aatcactaag gaaatttcct tttgtataat cttttttctt 47820ttactatcat ttaaaaaaat gtgttatatt tctgaagcaa cacatccagg ttctgcacat 47880agcagccaaa gtgaccttaa agaatataac tgggtcttgt cattccctta tttaaactct 47940tgtacccatt tcccagtgcc gtttagatag agattccaga ctcgtcaatg gctctgtcac 48000ctcagacacc ctgcattgac tcattagtct gattagagtc aggtttttct tcctcctgat 48060ggtttttttt tcccccttag ttctcagcgg aacagtcact tccttaggga ggtttcccca 48120gccaccctct gaggccgtgc ttgttgccag actctgccac tagagggcag ggctgcacca 48180ctcctggcac ctcgcacccg gcctgccctg tcactctgtg tgttgggtga attcctgtga 48240tctgtgactc actgctctgt gtcctacaca ttcggctttt cttctctccc cacaacccca 48300ttttataatt ctcctttttc aggaaagctt tattcccatt taaaaatttt tgtttttaaa 48360atggtatttt cttacactta ttttctaatt aaaaatgagt gttttaagaa gtattatgat 48420ttactgcaaa taatttttaa acccagcctt ttagatcctc tgtgatcata agagaaatga 48480aggatgtctc ccaacacttg agcttcatcc acatttcatc ctcctgttct ttcagctgag 48540ttttccccat cccattaggg actgttggaa tataaaactg gcttttccct aacagggaat 48600gaattgcttc tgtttctcct gaaggagagc tggaagaatg acttgcgttc ttttgcatac 48660acaggcctta cctggtgaac cttctgccgt gcctgactcg aacaagcaag agacccgaag 48720aatcagtcca ggagaccttg gctgcagctg ttcccaaaat tatggcttct tttggcaatt 48780ttgcaaatga caatgaaatt aaggtatgat tgttgcctca ggtcacaaac atgcgagtga 48840tgctgtgagt gagtctgtgg agggtgaggg cttctgaaca gggagtcctg tgggagtgct 48900tcttggggta tgttgtatgt cgtaatttag actaccatca tttgtgttat ttttgaggca 48960cctaaggact tctttccact tctcatttct tactgtgggg tgaagagttg aattgggaga 49020tggtttctag atgcaaattg aaaaggcatt tttccagagc agatttgttt tcggcgtact 49080agagtgactc tttaacctag ctgcgggaag atgactgtgc caagactgca ggtaggagaa 49140agctcactga cgaggccttg tgggtctgaa cgtcctgcag ctatcagagc ctgttggctt 49200cctgttgtgc attccaacaa atcatcttca aacccacttt agtgttttgt ttataatgtc 49260cagaaatagt gaccctgtca catgctctac agattacagg attcttagcc tcttcctttt 49320tggtaggtca gtcctgggtt tgagcccaag tgaccctcct gggaggtgat gatacacact 49380gggtagagtg gaatcagatg gacttggatt agaattctgt cctctttact agttattttc 49440ctctaggcaa actgcccaac agctctaagc tatttccttc gtattctgaa aaataagcct 49500taatgggacc catatagggc aactctgaga gtaaaataaa ggaatatgtg ttagagtgta 49560gcatagtcac ccacgggaag ggcttagatg ttagctgcta ctgctcttat tagctgaatg 49620atttggaata aactgttagc ctctctcatg ttttttctct tgagcttcga agttttcttg 49680ttaatactaa ggagatattc aaactagtca tggggttttg gaatgacgaa gggagatgat 49740gaatctaaag aatttagtgt aatatttctt catgctcagt aaatggtagt ttctgctgct 49800gttattttta ttaccatctc tttggaatgg gagtaggtgc tcctttgtgg tcagaggctg 49860tgagagctcc acagcgccag tttgcccatc tgtacactgg ggtctgttga aggcagtccc 49920ctctgtgata tctctggctg tcagagctca gatgatagat ggtatttttg tactcttagt 49980tctcatcatt ttcatgattt cgatcaccat ttgagtatga tgatgctaac actttgttga 50040acgtagaatc cgttaattac ttccttcctg aacctttggc attaaaaaaa atctattctg 50100ctacctctct gctcatttat ggttattcaa atttattatc aagagcctgg tacagtggct 50160tgtgcctata attgtagcta cttgggaggc tgaggtagga ggattgcttg aggccaggag 50220tttgagacca gcctgggcaa gatagtgaga ccctatctct aaaaaaactg aaaaaaaatt 50280agctggacat gatggcatgt gcctgtggtc ctagctactc aggaggctga gacaggaggc 50340tcggttgagc ccaggagttg gagttcgagg ctacactgag ctgtgattgt gccaccacac 50400tccagcatgg gtggtaaaac aagatgccat ttcttaaaaa aaaaaaatat atatatatat 50460attatcaatg aaattcagta gtaccaacag gattataaac aaagatagta gttcccttcc 50520tactttttct cttaatcctt gtgtctcaca ggcaaacata actcttagta tttcttccaa 50580tatttacttt catgtttctt tctttctttc tttttttttc tttgagatgg agttttgctc 50640ttgttgccaa ggctggagtg caatgacgca atcttggctc accacaacct ctgtctcccg 50700ggttcaagcg attctcctgc ctcagcctcc tagtagctgg gattacaggc atgcatcacc 50760acgctcggct aattttgtac ttttagtaga gatggggttt ctccgggttg gtcaggctgg 50820tctcgaactc ctgacctcag gtgatcctcc cacctcagcc tcccaaagtg ctgggattac 50880aggcgtgagc cactgcgccc agcaacttcc acatttctaa ataacatgct tctactgcta 50940tttttttttt caattttaga cattttttta ctttcactat agttctatca gaattcagtg 51000tgtacgttat tatgcctaag taaatagtca tggttgctta cgtattatat ttctttgatt 51060gtgtttctta tttgatgaga aagctgtgtt ttttgctctg ggttgaaact ggagagagga 51120cctggggagg aggaggagga cagatgaagt tggtgactgt accttcatgg ccatagctgg 51180gttctcagca cccggggatc tgctgatcac ctactcatag gccaggcccc tatcgaagtt 51240ctaggtgacc cagtgctggg gacggggggg ccacctgcaa ggtctaatca tggaggtggg 51300ggctacagtg ttggcttgtg ctggggccag catccttagg aaggcatctt ggaggtggag 51360gagacagccg cccacttctt gattggggcc ttcagcagca ccagcttctt gggcaggctg 51420gtgctggctt tcatcaccat gtcgtgttca atcttcttcc agatcctgac ttctaggttc 51480agctttcctc agaccctggt tcctttcaga ggccattgct gctgccttgc tctttgctgg 51540cttgtgcctt gattatatgt ctttgtacaa ctttttgttt tcctggagtt aatcttcaca 51600tctgttttct tggagttaat cgttacctct atatcgcttg cttattattc tttggccttt 51660ttgtcttctc acaccttcca acttctttgt aatatgtgtt tagtacaatt tttcatgaca 51720ggtagtttac tgaatcagtt tttccccagt gtggtcatcc aacttgagtt atccagctct 51780ctgccccagt ctgggcaggt tgatcttcag gtctgtagta cacttgtatc ctaggacttc 51840tctttgccat tagcctggaa tttcctttgc agttctcccg ttggatgccc agttcctaga 51900tgccatatgt ttttctatcg tctagtagct tcctgagaga agatgaatgg gagggaaatt 51960gtatgaggtt ttgcattcat aaaaatgcca ttttttttcc tgtacacttg gctgggtatg 52020gtgttctggg gtagaaatca ttttccctca gaaatgcaaa gtctttgccc tgttgtctta 52080aaatctccaa cgtgacccga ttccttaacc tatgaatgta cttttctttg gaagctttcc 52140atttttgggg aggtgaagtg ctaggtactt agtaggcctt ttaatttgga aacttacatc 52200ccttcagttc tgggaaaatt ttcttaacat ttctctgaga agttcttgcc ttttattttc 52260tgtgttctct cctgaaattg gttagttgga tgttggtcct cctagattga ctcacatctt 52320acctttttct tttctttttc tggtactttt tagatatcca tctcaaactc ttctattcat 52380tgttatgttt ttaacttctt tcttttcttt gtctcttgat ggggtcttgc cctgttgccc 52440aggttgtggt gcagtggtgc gatcatagct cactgcagcc tcaaattcct gggctcaagc 52500agctgttctg cctcaccctc ccaagtagtt gggactacag gtatgcacca ccacgtccag 52560ctattttctt tacttttttt tttttttttt tgagatggag tcctactctg tcgcccaggc 52620tagagtgcgg tggtgggatt ttggctcact taagcctctg cctcccaggt tcaagcagtt 52680ctcctgcctc agcctctcaa gtagctggga ttacaggtgt gcaccaccat gcccggctaa 52740tttttgtatt tttagtagag ccagagtttc accatgttgg ccaggctggt ctcgaacgcc 52800tgacctcagg tgatccgcct gccttggcct ccgaaagtgc cgggattaca ggcgtgagcc 52860catcattaga tctttaaata ccagtatcta taagtctttt cctcttgagt cagctagtat 52920ccctggaagg aaattactca ttttcctgct tggaggctat aagcttggct atgtttatcc 52980tgcaaccggg gactggaagg gaggggactg acagtgttgc tggtcagggt gccctcttac 53040tttttgtttt ctgtgtgcat ctcacgtctg tcctcagcct atgtaaacac ctcttgagat 53100tatccctctc aatctttgcc ggaggtgggg gaggggctgc ttcctgggct gccttggatt 53160ggagggaaga cctcaggtga gtgggtggga atttgcccaa ggagccatga gaccagccac 53220tatttcaccc tctccatccc tccactttca gatgtatgtg gcgcctccaa agcccgagct 53280cttcttggcg tctgtggctt caataagctt gctttttgct ggtatccctc ctaccctccc 53340ctgtccccag caaagcttgc atttgaactt cttcctacgg gctaacaaat cagtcagtta 53400tgtagctctt gttacttttt agcttccgaa gttttgttga cacccgtagt ctgctaatgt 53460ccctgttctg ttctttctgt tcgtgtaaat atatgcttta tacaacttct ttacatgatt 53520tttgtggggt ttctgggtag cagagcttca caagttcaat ccagcgtgtt ggattagaaa 53580tctcccaccc tctggtttat tcttattctc aaaattacct gccaaacact gatactccct 53640tgtttttcct tttcctgaca ggaaatgtac ataccataca ggacagaaat cattagtgta 53700tcccttggtg aataaccaca aagtgaactt aacccttgta accgccaccc aggtcaagac 53760agaatattac caagcactca gaagcctctc ccctattccc ccgtcactgc tcctgccttc 53820ctccccaagg tcatgactgc tggcttctaa ttccagagtc tgtttttaaa ttctgtgtac 53880atagaccatg gattaagtgt tctttttgtc tggtttattt tggtcgacat taagttcatg 53940agagtcttct atattatcgt gtgtattagt attcctgtag ttttaggagc ttcatagcat 54000tccattgtag ggatatacca cagtttattc attgtattat cactgggttg tttctagttc 54060ttggctattg cgagcagtgc tactgtgacc actcttaggt gtgtcttttg gagtacatgt 54120gcaggtttcc atcttgcaca gctagaggtg gagttgttgg gtgatagggt gtgtgcatct 54180cagctgcagt agaaactgcc aaatagcttt ccttgagtgc ttgtaccagc tcaccctttt 54240gccactgtgt atggggattc caggagctct ggtcctcgct agcacttgga attgctgatg 54300cttttactct tagccttcct gatgggtgtt ttctggaatc acattatgat tttaatttcc 54360attccttaaa gtacccttgg ctctgaagtt taatgattca tgcatctctt cccttttgaa 54420gtactcttac aggtatgttg tgcatgtgtt gaaaagtggc actatctatt ctaaaataca 54480gtatgcctcc tctgtgtttg aacagttgta gcgtggcctt ggggcctcct gttagctggc 54540ttggagaagg gattcttggg attgtagaga ttagacctga ggaggcccct tggagctctc 54600tgactaaatt ttattcttta ttattccaaa ctatttaagc tcaccgtgtg ctgactcatc 54660ataataatga gtagctctca ttgtgcttgt ctatttggac tcatacaatg attttttttt 54720tttctttgag acagagtctt gctctgttgc ctaggctgga gtgcagtggc acaatctcgg 54780ctcactgcag cctccacctc ccaggttcaa gtgattcttg tgcctcagct tctcaagtag 54840ctgagactgc aggtgcgtac caccatgcct ggctaatgtt tgtattttta gtagagacgg 54900ggtttcacca tgttggccag gttggtctca aactcctgac ctcaagtgat ctgccttctt 54960cagcctccca aagtgctggg attacaggtg tgagccactg agcttggcca aagtagtttt 55020ttaagatgtt agtatctttt cttgcagcta aaaaagtttg tcagagatga ttctactttg 55080ttctccaggt gttttctcag ggagaaattg gaggcagtaa gccactgggg gagtcctgtg 55140gctggggggt ggggtagtcc tgtggctcct tgtcagggag tcctgtggct ggcaaggaga 55200gaagtcctgt ggctgggttg ggagggagtc ctgtggctgg ggtctcatcc tgtgcctaac 55260agtgtccaga ggtgccgaga ccagctcagt cggggagacc ctaacccagc agcgctagag 55320gaattaaaga cacacacaca gaaatataga ggtgtgaagt gggaaatcag gggtctcaca 55380gcctttagag ctgagagccc tgaacagaga tttacccaca tatttattaa tagcaaacca 55440gtcattagca ttgtttctat agatgttaaa ttaactaaaa gtatccctta tgggaaacga 55500ggggatgggc cgaattaaaa gaagaggttg ggctagttaa ccgcagcagg agcatgtcct 55560taaggcacag atcgctcatg ctattgtttg tggcttaaga atgcctttaa gcggttttcc 55620accctgggtg ggccaggtgt tccttgccct cattcctgtc aacccacaac cttccagtgt 55680gggcattagg gccattatga acatgttaca gtgcttcaga gattttgttt atggccagtt 55740ttggggccag tttatggcca gattttgggg ggcctgctcc caatacagag gtctcgtgta 55800aattccctgg gaggcgataa gcctctgaga aacagactat gctaaccacg ccatgaaaga 55860gaaacttatt tataaatcag atgccagtta ctagtttact gcttatttgc ccaggcgtag 55920ctctgacaga gtccccgact catagtgctt gctcagtgca tgctgaacaa tgattggaat 55980caagtcatgg ctcagagcat agttttgaat aatgggaaat ggatgttctt aagtaacata 56040gtcaccaaga taatgcgact agctgggtca ccccttttca attttaggat atttttatca 56100agatttaaat ggccatcatt agagttatag cactttctcc tttggattgt cctagaggcc 56160catgagaaag tattccctaa tttcttagga gaacagtttg tgggtagtat gcggtcatgt 56220ccagttaaat tgcagatatt tccgatcgaa gatgttccag tcctgagaac ttcgtgacat 56280tagcaggact tctacaagcc atctcttagg gtggggcatt tactgcagtt ggctagtact 56340cttttctcct taactttgtc atttgttgat ttttttttaa ctgtccccaa atactgtggg 56400cagagtgtat ctagaattga ggcctccacc

attgcggaga ggacatggat gctgagcagt 56460cccctgagtg aaggttataa agaagcaaat agactacaca tgtctgtaaa ctgctcttga 56520gtgtcccaaa tttggggtac ttcagttcag ctgtaggaaa agcctcaaac tgtttatact 56580ttgcaagaat tggaaacttc taattcacgt taagttttat gtaatacatg ataagcttca 56640taggagcttc atcttttatc tacttggact tttgcttccg taggttttgt taaaggcctt 56700catagcgaac ctgaagtcaa gctcccccac cattcggcgg acagcggctg gatcagcagt 56760gagcatctgc cagcactcaa gaaggacaca atatttctat agttggctac taaatgtgct 56820cttaggtaag gtggaggcat atgagtggaa gagtctccag catgtactca agatagacct 56880ttgaaataaa taaaaccaga tgatccctca gcttctagac caggctattt ggcactggtt 56940gattgaatgt gaactgcact ggggctgctg tgagcccgca tgggtctctg tgaccctgca 57000gatgcagccg tgcccaggga ctgggcagtg ggtgtgggct ggtgtgagcc ctgtctgcca 57060cccagggcct ggccctctgt ctgtgtcggc catgactatg gtgagtcttg taggcttgag 57120actgtgcctc gggttcctgc gggttctctg taggtcagtt gacagtttct cctgttgttt 57180gggtaactgt ggaaacgaac actggcaagt gctgaagcga gcatgtggac gtgcgatatg 57240aaataacgac ctggctttca aaggcagtga ggctctctgg aaaggacctt gctgagctag 57300ggatgtgggt gtgtagccat tcccagtggg cctcatggcg tactcgttca tgatcatgtt 57360tgtgccatct tgatctctca ggatctcttc ttttttaaca gattaagccg ggaatctcca 57420aacagtgagt cagatgttaa gatgtcttgc ttccaccccc acaggcttac tcgttcctgt 57480cgaggatgaa cactccactc tgctgattct tggcgtgctg ctcaccctga ggtatttggt 57540gcccttgctg cagcagcagg tcaaggacac aagcctgaaa ggcagcttcg gagtgacaag 57600gaaagaaatg gaagtctctc cttctgcaga gcagcttgtc caggtaggag cacagggttt 57660actctaggcc ctgcatgtga atgactgaca ttcaaagaac cgattaattt ggaagagaag 57720cggcagaacc gagagttaga ggtgtggact ctggagctgc gctgctcgtt tccaacccta 57780ggtgctgacc tctagctgtc ttccctctgt atgtccctgt caccgtgagt caaatgcggg 57840tgatgcctcc tcaggtgccg tgttacctaa gcctctcaga gaccactgct accctgtttc 57900taaaaccaga ggtcacgata tgtgttcatc cacccagtaa atactgattg agcacccact 57960gtgtgctagg ctctgggata ggggctgggt atacaatggt gagtatttca gctgcagctt 58020ctgccccgtg gaggctgtgg cctagcacac tggtctaggc acggtggtat atgctcactc 58080aaggagatag ggacgtggtc gtttggggtg tcggaacaaa atgtcggaac ttctctttcc 58140aatgcagaga aaccttgcag taattctaat gtactgtgat tggcagttga cttcagttct 58200ttgtagcacg cttactcagg ttatttcact aactatgtaa ccatgcagcc tcattttaag 58260caattggatt ttttgaactt tacttaaaat gttatgtcag ggtttttatt gtgcttaatg 58320tgtgccattt agctaagttt tgtaggatac gaaattgtaa gtggcttaaa atgattctta 58380atagaatcat gaattgaaga taatgctaat aatttaagca ctgagttagg tagtgtttgt 58440aaaatgctta gaatgcttcc tggcacatgt taaggccatg taagtgctgc gtgttgataa 58500acagctgagc aaaagtggac tcttaagaaa gtattggggc tgagagttct gttccaacca 58560gctgcccttt ggttattttt cagaataaaa gcagagtctc atgggatatg acatttatat 58620ttccttcaca aaaaacactg ctgagtgttt tgttgagtaa aaagggtgta gccatggtaa 58680taatacattt aaaatatagt ttatttcatc tttaccttgc cttgtttttt ttttaagcta 58740gctttttatt gagaattcca cacatacaaa agtatcaact catgaccagt tatatttcat 58800ttataatcct acttctccct ttttttatta tttgaaagca aaccccaatt atcctcttat 58860ttcatctata agtatttcag tatctctata gatgaggact cttctttatt tttaaaactt 58920tatttttaaa atgatggtca gatgcagtgt tcatgcctgt aatcccagaa ctttgggagg 58980ccaagctggg cggatcactt gaacctggga gtttgagacc agcccgggaa acatggcgaa 59040accccatgtc ttaaagaaaa aaatcagcca agtgtggtga tgcatgcctg tagtcccagc 59100tacttgggag gctgagatgg gagggtcaca tgagcctgga agatcaaggc tgcagtgatc 59160catgattgta ccactgcact ccatcctggg tgatggagca agattctgtc tcaaaaaaac 59220aaaactgcaa aacaacgtca caaaacagtg ccattgttag acctgaaaat attaaacatt 59280tcctacatca aatacccacc aactcattat caatttttct ctctactctt ttggaatcag 59340catctaaata aaattggtcg ataaggattg taaatctctt tgatgaactg gttcccctcc 59400atcccagttt ttttccctta gagttcattt attgagaaac cagattgttt gtcttctaag 59460ttttcctgtg gtctgatata ctgcttccat ctccactgtg taaattaaca cctttttctc 59520ttctctgtat ttcctgtaaa tcaataattg gaggaaaagc cttgtcagat ttagtgtata 59580ttttatatct gagtccagta tttcttatat aatattttaa gataagtgta ctcttttaaa 59640aagtattgaa actatatgct caattttttt taactgatgc ttttaagaag gctgcttgat 59700cataaaagtt tagagatcat tggtctgatg ggaaaagcaa ataattacta aaccgtttag 59760caaggttgag gtgcacatgg tggggcctgg agaagttcag tcatgagccg tcacttatgg 59820gcacgtggaa tctgacccgg cacagagttg ggagaagaca ggagctttat agacagaaaa 59880tgtggtcttt gctaagtccc aggagtgaaa gggtgagaca gtgctcacag cacacgagtg 59940tgggtgcgta gacagagcaa gggtgggtcc tgaaaaggcc tgcaggcttt ctcatagatt 60000agcaagagtg ctggttacgg aggtttctaa catttgtgaa cagatcgaaa ctgtgttaaa 60060ttgggattgc agtaatcctg gaaggacagg gatagagggt gaaggggaaa aaagggtatg 60120gatgtgagac ttaattgctg attttcttaa gacctttctc caaagtaaat aaatgatgtg 60180gcacattttt gaactggcaa attctaaact ctagatatga ttatctctat aacatatctt 60240actccatctt cttttgacta aaaactgttc ttaattaaat taccatgaga cgttcaattc 60300agcaaatgta gtttggctaa ccatatttaa ttagaattta atataatcct aggcctggcc 60360aaactattaa gcaagtgtgg gcaaaatatt gataatttta gatatgcagg aacttagttt 60420gctttccatg tgtgcttttc gaaaaaggaa taaattgaaa aatagaggaa gccctgaaat 60480ccaagaagca aactctctca cctaggcatg cagtaaaagc aattctagga tgattgctgt 60540ttggcgcgta gttcgtatta gaaaccattc ttcttgaata aatagtatgt ttaagaagct 60600gggcagaggg aaggcatatg catatattat caacaaggag ggagaaaaag gcaattagta 60660accatccata ggagggtcag caagatttat aaaggaaatt tgtgatccaa gtatgaagca 60720aaataaggtg cagaataaat tttaagcaag taatagatta gagtaagaga acccatttga 60780ccattaacct tgggacattc tctttcaaat gacatggagt agtactgaaa tctttctttc 60840tttctgagtc taggttattg tgactggact cagaaagaaa tatttcatta ttgcagtgaa 60900taacatttgt gaacattatt gttcataaat tatgcagtga ataacattta tgaacacgtg 60960atgtgtaaga tacatactgt ttatttttag ttaagttttt tggctcaact tctaggcaga 61020gaacattaaa tgtaaatagt gttacctagg agcatgtaaa tggaaatctc catagtatga 61080aagcagtgct gttgctaaca gaatttagga gggggcagat gaggtgaagg aaatgtgggt 61140gctgatttcc ttattacatt gagaggagcc aggagattct ttgttcaaaa tggatggctt 61200aagaagtcaa agtataagct gattacgtag agcaggtacc caaaaatgtt ttgtgtaagg 61260ggccagatag taaatatttt cagtcttgca ggccatccca agtctgtggc agctactcaa 61320cactaccttt gtagcatgaa agcagccaca ggcagcccat aaatgtggct ctgttccggt 61380gaaactttag gtacaaaagc aggtgcaggc cagacctgac ctgtgcactg tggtttgctg 61440acctgggatt caggggtata gaagttacca tcagaagagc taaaagtgag actttttact 61500ttatactctt ctacactgtc tgattttgaa aaaaagaaac atgtatttta taatattaaa 61560gatagggttg gcaaatagca aataaaaata cagaatacca gtgaaatttg aacttcagat 61620acattatgag taattttatg gtgtaagtat attccaaatc atgtgggaca tacttacact 61680acaaaattat ttgttgtttg tttacagttt aaatttgagt gccttgtatt ttatctggca 61740actgtaatta aagggaaaaa gaataaattc attatgttca tataatgtga tatagcaggg 61800gtccccaacc cccaggctgc agagtggtac tggtccatgg gtccccaacc cccaggctgc 61860agagcggtat tggtccatgg cctgttagga accaggctgc ccagcaggaa gtgagcagca 61920ggtgagctgg cattcccacc tgagcaccgc ctcctgtcag atcagtggca gcattagatt 61980cccataggag tgcaaaccct attgtgaact gcacatgtga ggggtctagg ttgtgcgctc 62040cttatgagaa tctaatgcct gatgatctga ggtggaacag tctcgtcttg aaaccatccc 62100ctggccctgt ggaaaaattg tctcccatga aaccagtctc tggtgccaga aaggttgggt 62160agcactgtga tatagtatta aaagtgctaa taaatatggc atactgcctt taaaatgtct 62220ggtagctctt tctcagtggc actcataata gtgttttttg atttttaaat gtgtgtcaag 62280ctgactctcc cctccgtgta tgctgggctt tattttccct ttcctagtca ccagttttgg 62340gaaatagaga tcttcattct catgctgctc ctctagtgca agtgctccat ttatttttaa 62400ggaattaata taacaaaaaa tcatgggaat ttagaaaaca acatggaagc taatgatcac 62460attggtggaa gtgataggga aatatttagg gggagaagtt aaggtataaa ctttgtcaat 62520gaagtcctat taaaaacaac aaaaaagtga agcttaggat gcattttata aactctgacc 62580agaacacctg tgtttctctg tttctaggtt tatgaactga cgttacatca tacacagcac 62640caagaccaca atgttgtgac cggagccctg gagctgttgc agcagctctt cagaacgcct 62700ccacccgagc ttctgcaaac cctgaccgca gtcgggggca ttgggcagct caccgctgct 62760aaggaggagt ctggtggccg aagccgtagt gggagtattg tggaacttat aggcaagtta 62820ttagcaaggt ctactcttac aattaacttt gcagtaatac tagttacact ctattgatta 62880tgggcctgcc ctgtgctaag cagtctgcat tccatcttcc ttgccaaaac ttataataca 62940aatttcatct ttattttata aataggggag ttgggctggg tgtggtggct cacgcctgta 63000atttcagcac tttggaagga tcgcttcagc ccaggagttt gagacaacct ggccaagtga 63060gaccctgtct ctacaaaaaa aaaaaaaaaa aaaaaattag ctgggcatgg tggcacatgc 63120ctgtagtccc agctgctttg gaggctgagg tggtaggatt gcttaagccc aagaggttga 63180ggctgcagtg aatcttgatg gcagctgcac tgagcctggt gacagagcaa gatgctgtct 63240caaaataaat ttaaaaataa aataagagaa ttaaagttta gcaggttggg tggcaaaatg 63300aggccacaca tttaaagccc ctcctcctga ttcttttctc tgccttggct gcctcctgtg 63360gcattttagg tgctgagaaa tgaaaacagt agggaaaata gttccaggat cctcatgtta 63420atttgccaga aatggcatct tcaagtcgtc agagggatct gagagttcct tcctggcctg 63480acttgagaaa atccgtctgt ccccagctct gcgtctgcct ccactgccca gtcacctcct 63540ctccatgctc ttggggctgg gccctacccc accatgcagt gctgccctgg agcagtgagc 63600ttggtgggtc ctgtctggca tgagagctgc ctttgggagc tggatcccag cctctaccac 63660tgggtctggt gcctagcagg ctatggataa acttctgctg actccggcct ctcctaagcc 63720actgcaacgt ggtcggtgta gtgcacagtg tgtgtgcagc gtggccttac tcacagcctc 63780cacattagag agaatctgac tgaagtctta ctgctgcctc gtgtgaacat aaatgtttgc 63840cagaaccatg agcaggaaat gttaatctgc cttgtttcct gtcctttaca cggaagaatt 63900tttttctgta tggaatgcgt gccttacaaa taatgagtgg aaatacccat cgctaatgaa 63960aagttatact tgactgttag tcagctaaat aatctgagat ttctaatact tttaatttgg 64020cttttacaat gcaatttatc ttagcttttt tgatttctta ggtcatatct ttagaactat 64080atatttgaat gttaatgtaa ttttcatatt gaaattaaaa tgttgaactg cgatgttaag 64140tgtttcctgt ggaaaaacgt tcacattttc tctagtttta aagttgaatc aagctgtttg 64200aagattttca catttcttct agattttatc agcttgttac tttatctgtc actttctgtg 64260atttgcagct ggagggggtt cctcatgcag ccctgtcctt tcaagaaaac aaaaaggtga 64320ttatttcaga aatcagagtc ttgtgttgaa tcttactgat tttcttgtat ttctgtaatg 64380taatgtatct tgtatttctt gtaatactgt attggactct gtgtatatct cttctcagat 64440gagtgattat atgtgtgaat gttgctggaa tctgataacc aggcctgaat agttttgtag 64500ggtggctttt aaaaattact ttcatatcag aattgctttg tcataaattt tgaacgcatc 64560ataaatttct aatgttcggg gtcagcagac tttttttgta aagggacaga gtgtaaacat 64620cttagcttta tgggccatat ggtctctttt gcaacattca gctctgccct gtgacaggaa 64680tgcagttgta aagacatgag ctactggcca gctatgttcc agtagaactt tacttacaga 64740aacagacagg ctgtagtttg ccaatacctg ccttagggaa tgtgttgtta tattttgtga 64800gttaccttct cagtaaattt tatttagtat tagtcaggaa tattattaag tagcttcttt 64860tccagcctgg tcaacatagt gagacccggt ctctaccaaa acaaaacaaa acaaaaaaac 64920agccacgcat gtggcatgtg cctgtagcct cagctgctgc tcagggggct gaggcaagag 64980gattgtttga gcccaggagt ttgaggtcac agtgagctgt agtcatgcca ctgcactcca 65040gcctaggcaa cagaatgaga ccttgtgtct taaaaaaaaa aagtttcctt tgttgggtta 65100ttttaatttg gacctggtta tcatttttca gccatattta actttgtaca tatcagaatg 65160ttctgataaa acttaacttt tattaaagtg tttgtgatat aatctgctag ttttggtaca 65220cattatcttt tgcaatgcca gttattttct tttccagtgt gggtttgcat aggaaaagaa 65280ttgctgtcac tttctatttt gaaatcttaa aagactgatc cttttttgtg tcatgatttg 65340agtatttaat tgagagccta atgcctaata ttatttgcag tattaaatgg gatcttaaca 65400ggaatagcat tctagccttc attgaattaa gtaaacattt cttaagagaa cttggaatct 65460ataatatttg cgtcatcata gtatgagata cttaatcaag tttgagattt tagtgaaaca 65520ttgtttagaa gccaaaagga ttctaggaaa aattaatgtc tatattcttg aattaggaga 65580gattttggga cgtgtgacta agttacgctg acacttgttt gtttcttagt cgctttttcc 65640agtggcggtg agaacgaaga tgactgattc acattgctca gatgagttta tcctcttctg 65700gctgggacat gggatatatc ctgtctcttt taagcctttt tggtattttt cccccattga 65760gagctgtgtc ttcaaactct tctgttatag ctggaaaatc ctttttaagt gaaatctgcc 65820caaattataa gacagatgaa ggtagagttg tgttggatat aggattaggg tgaaagtagt 65880gggggtgtcc tggagcctct cttctggtgg cagcctagct cttgtgcctt tgaggaaatt 65940accctgggga cggctctgtg gaacatattt gcaaaccact gatttggaag atagagatgg 66000cttttgttaa gatctgaatt cacctttttg gcattttatt tgatttctca aggtaaagaa 66060cttattttgt aataaagttt cctattattt agtagatagg ccaagttgct gtgttaattc 66120catgtagatt ttgggtttcc tttgctcatt ttttcactct taatctcaca tcattgtaag 66180tttatggaag ttatcatact tctgactttt tctttgaaga gcagaaatta gaaattccca 66240ataattattt tgatagtgtc atttaatgac actcacatgt gatgtagcca caaagattta 66300atgagttcag ttttaaatca tattaagact gttggtttca tttgttctca ttaatgtaat 66360tctgaagatg aacaataaaa tgtattttta gaactttcaa atgaaatatt atttcatcct 66420tccagatcat ataatgctta agttctgatt gttaatcata aagtctagaa aattaaaaga 66480taataaaatg aaagtgactt ttaggtatta gagttttatt ataaattctg gtgtgtcatt 66540ggagctatga catgaatatt tcaaaggcca atagcattgg atctttacag ttataactta 66600ccatttttaa gtttaagtag taatatagat tatttaataa tcaaaatcaa taaatattaa 66660ttattaaaat gttttgtggt atagtttgag aatcattgct tttaactttt tccatatagg 66720tttattgact ttaatagcat tctaaacata acatctctac attctttgtg tttaatactg 66780tggaggtata aaaatactta tatatgatga taaactatat tagagtaaat taaatattct 66840tatgagtttc attttagagt gcatttactt aattttgaag tccttatttt tagcaaacta 66900aaaggaatgt tggtacatta tttactaggc aaagtgctct taggagaaga agaagccttg 66960gaggatgact ctgaatcgag atcggatgtc agcagctctg ccttaacagg tagttctcac 67020tagttagccg ctggtgtgga ccttcactgt ctgccttcca ccccttgccc ttcctgctcg 67080tccccctgca cctggtggac agcacgactg ggggcagcag tggagccagg ttgcttaaat 67140ggggcatatt cgggcttctt ttataatact tactctgaag cttgtgtgtc tgtggtgttt 67200gcatcatata tttgttgttt tccatggttt aggctgtttt aaaattaggt ttatggcttg 67260agcatagggc tttgtgagta ggggatggca ggtcgaaaca tctcatgagt tggatgggtt 67320atgctggggg ttgggaaatg ggatgaaaaa ttatgggatg aaaaattgcc tatggatagt 67380ttaacttgaa agaatctgcc tttgtttaca gatagttatc ttttttcttt tttgagatag 67440agtctcacac tgtcacccag tgcagatacc cagtgtcact ggagtgcagt ggtgtgctct 67500tggtgcactg cagcctccgc cttctgggtt ccagcgattc tcctgcctca gcctcccaag 67560tagctgggac tacaggtgcc cgccaccacg cttggctaat ttttgtattt ttttgtggag 67620acgggttttt gccatgttgg tcaggctggt cttgaactcc tgacctcaag tgatctgcct 67680gcctcagcct cccacagtgc cgggattaca ggagtgagcc actgtgcccg gccagttaca 67740gatacttatc taatgaaatt ctctgtgtac tttataaaag atgaggatta actgaaggta 67800ctaataactg gattatatga gggtggtttt ggttgtataa tcctatctaa aagaatattt 67860tagctataac tgaaagtaag acttaaatat ttagagagga aaatctgaat aattctagta 67920gtaattattt atttacaaaa taaaaataga tttttttttg attacacaaa ttaaacaaca 67980ataaaacatc acagcaatcc ggatactata aagctcacat gcttaccgac ccaactgccc 68040caggagtgac cactgccaac agcttcatgt cgaccttttt gccataattt ttatatagcc 68100ttttttgttt ttaaatggta atttagaaag tcaactagga aaatgtgtta caggtttatc 68160ttccaggaga ataggactgg agtcgagatc ttgaatgtgg cttggaagaa ggcaagccca 68220ccccagagag atgagttgac agttgtttct gaccactgct tgcttagagg gcctgcgtgt 68280ctgtgaccgc ctagctttgc gcccctgact aggctgcccc ttaattacaa atgtctttat 68340atattgctcc agctaaggct tggagtagtc ggttaagaac ttgaacttcg gtttttgcag 68400tgaaacagca tttgagaata tcaccttctg ataagcctta ttttataagg tgggtactgt 68460agtgggaggc agtgtgagag atgcttgaag gatgcactgc tgtcctgcat ttcagcatct 68520tcaggatgct gtgcagctga aacatttgat aacggtggaa ctgttcgtta ttttgcaagc 68580ctgtgattcc ctattgaatg ttttctctcg ccatttgaca aatgagtgtt tctctgtctt 68640cagcctcagt gaaggatgag atcagtggag agctggctgc ttcttcaggg gtttccactc 68700cagggtcagc aggtcatgac atcatcacag aacagccacg gtcacagcac acactgcagg 68760cggactcagt ggatctggcc agctgtgact tgacaagctc tgccactgat ggggatgagg 68820aggatatctt gagccacagc tccagccagg tcagcgccgt cccatctgac cctgccatgg 68880acctgaatga tgggacccag gcctcgtcgc ccatcagcga cagctcccag accaccaccg 68940aagggcctga ttcagctgtt accccttcag acagttctga aattgtaagt gggcagaggg 69000gcctgacatc ttttttttta ttttttattt gagacagagt ctcactccat agtgcagtgg 69060aggccgggca caggggctca tgcctgtaat cccagcactt tgggagactg aggcaggcgg 69120atcacttgag gtcaggagtt cgagaccagc ctggccaaca tggtgaaacc ctgtctctac 69180taaaaataca aaaattagtt gggcgtggtg gcacatgtct gtagtcccag ctgttaggga 69240ggctgaggca ggagaattgc ttgagcctgg gaggcagagg ttgcaatgag ccgagatcgt 69300gacactgcac tccagcccgg gcaacagagc aagactccat ttcaaaaaaa ataaaaaaat 69360aaagtgcagt ggctcgttct cagcccactg caacttctgc ctcccaggct cgagcgattc 69420tcccgcctca gcctcctgag taggtgggat tacaggtggg caccaccaca ctcagctaat 69480gtttgtattt tcagtagaga cagggtttca ccatgttggc caggctggtc tcaaactcct 69540gaccttagat gatccaccca ccttggcctc ctaaagtatt gggattatag ttgtgagcca 69600ccatgcccgg ccctgccacc tgccatcttt tgagttcttc cctggagacc tagacctgaa 69660ccctcctgct tgttctcttg ttatctaata cccctattga cagcgcagct tagatcatta 69720atggagagct tgacctcatc tgataccttc actgaaggaa acaacttagt gtcttttgtg 69780ttgaacactg aggtaaaaaa ttggaatagt tgattatatg aactctgcta aaattgagtg 69840cattttacat tttttaaggc cttgttgggc cctggttaaa taattatttt taaaaatcct 69900taaggagcct attataaaca gatctgtggt cttaatgaaa tgtgattaat actgtgcatt 69960attttaagaa cttttgactt ttcaaaaaac ttttacaaca tttcccattt gatagcggca 70020taggtttaag cacttctcat ctctaagtta gtggacaaaa aaccctcatg gatagtctaa 70080taatgtttgc tacaagtcca tgttgagttt tatactccat tttattttca gttttaaaaa 70140ctgtggttaa atatgtgtaa cataaaattt atgttcttaa ccattttttg cgtatacagt 70200tcgctggtat taaatacatt taaataatgt catggaatca ttgctaccac ccatctctgt 70260aaccttttga tcatgtaaca ctgaagctct gttcccattg aactctattc ctcctttccc 70320gccaagtccc tggcaaccac gattcttctt tctgtcttct gaatttgact actttgggtt 70380ctcatatact ttaggagtca cacagtattt gttttactta gcataatgtc cccaaagctc 70440atgcatgttg tagcctatgt tagaacttcc taatgtttca ggccaaatac tattccattg 70500tatggatagg ccacattttg cttttccatt cctctgtcca tggacacttg tattgcttca 70560tgttttagcc attgtgaatc atgctgttat gaacgtgggt gtacagatag ctcctggaga 70620ctctgctttc catttttttg gctaaatacc cagaaatgga gttgctttta cattccaatt 70680ttaatttaaa acattcatat cattgagtgt tttacttaat agtatagtag ttaacaaact 70740taataaaata gtattttggt aataatttgc tggtagtcca ttgttcagtt tttttaggta 70800aattacacag gacatttcaa gtggacatga aacatcttgt gatgtggaat catgccccaa 70860gctgatggct aaacatatga aataccatac cctaaattta gtagatttag tctttgcaat 70920ttaggagata acctgttata ttgttaggtt tttgtcgaaa agctttgtcc tcatatttcc 70980aacttgctgt aaaatttgtt tgtgaagaca aatatttttg tatgggtttt ttctttttca 71040tattaaaaag aaatgtccac attggaattt ttttggagtt tttagagcta atagagcttt 71100tcataatgta gtgggaatga gtgatcagta agctcttagc agtttccatg cgtgcatttc 71160tgtgccttga aataaatgac agatgagtac atttgtgttc tgtgtgtaaa atgtgctctt 71220tcctcattgc acttccatgt tggagggctt gtctcttggt gatcacactt caaaattctc 71280acagcccccc ttgaaccgtt taggtgttag acggtaccga caaccagtat ttgggcctgc 71340agattggaca gccccaggat gaagatgagg aagccacagg tattcttcct gatgaagcct 71400cggaggcctt caggaactct tccatgggta tgtggactac aggtgatgcg ctacaaagtg 71460gtttgtattc agacctggac atcttaatta

tatctttgct tccaagaaga agtcctttga 71520tactgttttc tgagttctga atagctgatg aaaatgacca attgaggaat aatcatactt 71580tttcttgatc taaatcttat acttttgagt tatcttagca taaatgtata attgtatttt 71640aagtggaaat ttgtcactta atcttgattt ctctgttttt aaagcccttc aacaggcaca 71700tttattgaaa aacatgagtc actgcaggca gccttctgac agcagtgttg ataaatttgt 71760gttgagagat gaagctactg aaccgggtga tcaagaaaac aaggtgaggg acataggctt 71820gagacgactt ggtgtttctg agcttgtgtg aggatttaaa atcgccctgg ctactgtcta 71880ctttattgct ttcccatccc tgggccttta aatttcccct ttaaatacca gctcttccca 71940ggcctgttgt tttctgcctt tccaggtact acccacagcc ttgagaattg cctgagttct 72000gcctcctttg agagtgtgcc ccagacaaat ctattctgta ctgaatgttt ccttgtctga 72060tttcttggat cattcatttg atggttgcgt atggcctgca acgtttcttg ttttggttct 72120actgaactgt tctaaaagtc tctcttcata ttatcttttt acatgtaaat gtaactgtct 72180tcacttttaa ttcctcaagg acaaggaata gcgtttcaca gttcgtccca tcaatcagaa 72240ttatagcctt tggcatctcc ctatctacca ggcccacttc ctcttagatt tgggcttccc 72300caggctgttg cctttcccca agtagcttct gcttgtcctg tagaagacct ttcatgcttt 72360gcttctgcag cagccgttcc tgaatgccta gtgtcaactg ccttcttacc acgcccaccc 72420tccctgcatg ctgcatttat cccctgccac agccctgtga ccctgtgtcc tgctgcctct 72480gacttgtctg tttctgcttg gccatggtct ctgtgaggtc aggtgtgcat atgggcacaa 72540accagggcat ctctttatcc ccagcacctg gcttaagtgc tgctctggaa ctatctgttg 72600aatgaactaa tgcatgaatg tattgttgag tatgagacaa acaagtgtca ttgtctcctt 72660tctagccttg ccgcatcaaa ggtgacattg gacagtccac tgatgatgac tctgcacctc 72720ttgtccattg tgtccgcctt ttatctgctt cgtttttgct aacaggggga aaaaatggtg 72780agtacaaaag gggatgtgca cagttgaagg aaataactag gtttcagagg tcagcttggt 72840ggcctgtttt tgccttgcgt gcagcagagg aagtagaatc tgaggatgag tttggttttc 72900actagccgag gggagggagg aaatgatggg agcaggtagg ttattgggtc tggttttgtt 72960catttgaaaa caatctgttg tttgaggctg aaggtggctt gggtgatttc ttggcagtgc 73020tggttccgga cagggatgtg agggtcagcg tgaaggccct ggccctcagc tgtgtgggag 73080cagctgtggc cctccacccg gaatctttct tcagcaaact ctataaagtt cctcttgaca 73140ccacggaata ccctggtatg ttaaaagttc acatcttatt ttctcagatt taatcattat 73200tgtaaaaact atttcagtat tgactatttt agttttagag cagtaagtgt tttgagttca 73260tttgggatat ttgacctgcg ttgtagctct tcagaaaaca catgaatagt gaagttcttt 73320gtttcatggg ttccctttag atgaaaccca tagaggagaa aagtagaaac ctcagcacgt 73380aagagccaac atatatacac atcggattta aacctaaagc acaaattgtg cctggtcgca 73440gtggcgctga gtcgcactca gccaggccag gcattcacac tcagggtgag tgggaaccag 73500gactggctga ggcagcagtg gacccaagtc tccatcgcgc ccatgcttac tatggagcct 73560tctcgttctc tctttttctt tgggtgagag ggtacacttg tgtttttgaa tttatatgag 73620gtaagtgtgt aatagggttt tttctaatct tttttaagtg gaatctggaa ttttaatcag 73680atttattatc tgacaaccta gaattataat ccagaaagtc tgtggtattg aggacatatt 73740ggcaatatga tgaatctcta attcttaaat cctgaaactt tttttttttt aatcacttag 73800ggttattata gtgaagtcat ttctgaattt ggatcttctc ttcacacctc tttttctctt 73860tcctgagaat taagcttttg tttcgagtta gaaagttgat agtagggaat tgttccatgg 73920ctgagcaatt tatctccaca gaggaacagt atgtctcaga catcttgaac tacatcgatc 73980atggagaccc acaggttcga ggagccactg ccattctctg tgggaccctc atctgctcca 74040tcctcagcag gtcccgcttc cacgtgggag attggatggg caccattaga accctcacag 74100gtaacggcca gtttttcagc tgtgtttttt ctagttatgc ttactaaggt ttaagtttag 74160atgatgatgt ttgttgcttg ttcttctggt taggaaatac attttctttg gcggattgca 74220ttcctttgct gcggaaaaca ctgaaggatg agtcttctgt tacttgcaag ttagcttgta 74280cagctgtgag ggtgagcata atcttctgtg gaaccatttc ttcacttagt ggacatttta 74340tcattgctac aattaaaatt ggagcttaat aggaaatatt tccatgcact ctaaagctgt 74400aaccagtaat acccaccatg tatccatctc tcagctttag aaagaaaacg ttgccagtaa 74460agttaatgct tcataaactt cagtttaagt tctaattctc agaatatttg tttgaaatag 74520acctcttcct aaaggatata tttagaaata acctatcatt aagtgtaaag tctgttgaat 74580atgctgggca cggtgactca cacctgtaat ctgaccactt tgggaggcca aggtggaagg 74640attgcttgag cccaggagtt caagactatg ggcaacatag ttgaccctgt ccctacagaa 74700aattaaaaaa aaaaaaaaaa aaagtagctg ggtatggtgg tgcatacctg tagtctcagc 74760tactcgggaa gctgaggtgg aggggggatt gcttgagccc cagagatcaa ggctgcagta 74820aggcgtggtt acaccactgc cctctagcct gggcaacaga gtgagactgt ctcaaaaata 74880atagtaataa taatcagttg aattaaaaaa aaaaaaaaaa aaaccactgt gctaggccca 74940tagtatggta agagttaaag tgagccttag ggattattta ctcaacctct gtttctgtat 75000aaagtggaat aggctcaatt ctttaagtga tagcatgttg aacctttcca taccaactgg 75060ctcataagtc acaactggcc agtcaacaag agtaaaaatt aactggtaaa aatcaaagca 75120aaaaacctac aattgtcaaa tttgtgggat aactccccct tttaaaatgt catgcctgac 75180agtaatttct ctctagtttc caggttttca gtcagttgtg tcttttttga gcagaaggaa 75240gcatgctaag agctcaatct tgtggctagc tgggggtctt tgtgtcagcc atgcatgtga 75300tggtgcccct gggtgcttgg ggctgcaggg gaggggtaca gcagtagggg cctgttctgt 75360tctctcgtgc tgtggagtac atagtgacat agtggggtgg tccttggtgt aggtcccttg 75420ttcctacccc tgggtctgag atttatttag aagtggtgtt ggggctgtgc ggcaggcccc 75480tctgtaactg atcaatgttt gtgaagttgc tgtttgagag ttgaaaccat gacataagca 75540gaaatggaag gaagaaagaa ccagttatgt gaaagggaca catttacttt taagcttgta 75600tttactgaga taaagtattc ttaatcaatg ttcttgagag gtgtgggaaa aatgcaacat 75660cctggttgca gttaaaccca gaacattgtg tgttgaagag tgacggttct caaaccgtca 75720agacgcgggt actgagtggg actaacctgc tgtcctcttg ccttggacct tgtgttccag 75780aactgtgtca tgagtctctg cagcagcagc tacagtgagt taggactgca gctgatcatc 75840gatgtgctga ctctgaggaa cagttcctat tggctggtga ggacagagct tctggaaacc 75900cttgcagaga ttgacttcag gtaagtgagt cacatccatt agatttcatg aactaagctc 75960aattgaaagt tctgggatca cttgatgcaa ggaatgatgt tatcaagtac cctgtccatc 76020agaaatccga gtggtttagg tagatgacag tgattttctc ctcccagtgg ctttttgctg 76080aactttgccc tatgcttgga attttatttt attttattat ttatttagag acaagatctt 76140gctctgtcgc ccaggcttga atgcagtagc acaatcatag ctcactgaag ctttgaactc 76200taggactcaa gtggtcctcc tgcctcagcc tcccgattag ctaggagaat aggtgtgtgc 76260cgtcacactg gctaatattt tttgtagaaa tggggtcttg ctatgttgcc caggctggtc 76320tcaaactcct gggcttgatt gatcctccat cttggcctcc caaagtgctg ggattacagg 76380catgagccac tgtgcctggc ctagaatttt aaaatataag tagaagagta gatttttttt 76440tttggtagtc ctcgtcattt aagtattctg gatagtggga ataaaagagc ttagaatttt 76500tcatctttgt cttaaacttt taaaaaaatg tagcttatat taattctgct tgtttaaaaa 76560gaatatactc ttcattatac tgaacctagg taagacagct ggtttatatt ttgttgcaat 76620taaaaaacgt gagctgtggt tgcagtgagc caagattgtg gccattgcac ttcagcctgg 76680caacagagtg agacttggcc tcaaaaaaaa aaaaataaca tgagctgtgt tggcactttc 76740attttctaag agtagttttg gctggagaag ttttctttca gtactttctt ttagaaggga 76800aattttcctt tataatttag ggtttgtttt ttttttttcc aagccacctt ttatagagcc 76860cttgtgggtt atttcattta atccttagaa tgtttataaa tctgggcttg ttctcggctc 76920cacccacaga tagggacgct gagcgtgcat gagtgggcag caagatagca ggttatggag 76980ggcccagctc accccttctg tggcttgagc caattttata gggcacttac agagtctttt 77040gaaatagtat ttattttgaa gaaaaagaaa aacagtttac tgagtactgt cttattgagt 77100ctggaattgt gagaggaatg ccacctctat ttatttaaag ccattggcct tttttgttgt 77160tttgagtaag tgctgcccaa ggtccttcca gggcacctgg atgagcctgc tctggagcaa 77220gctggcggta agtgtttact gagtaactaa atgatttcat tgttaaatgt gctcttttgt 77280taggctggtg agctttttgg aggcaaaagc agaaaactta cacagagggg ctcatcatta 77340tacaggggta agcggtttat ttttgtgaga tgctgtttta ccttcaagaa ggtgaaagtg 77400aggctttcct tgtggaattt ctctaaatgc attcgtcatg ttttagatgt ttatttcaca 77460gtttatatca tgaaagttat aatcttgtca tatggattta agtctagtaa tgttgagttc 77520tttctcacta gctttccaaa atatcttacc taaaatttag tcaaatacaa gattatgttt 77580atttttatta tccttctctc taaagctttt aaaactgcaa gaacgagtgc tcaataatgt 77640tgtcatccat ttgcttggag atgaagaccc cagggtgcga catgttgccg cagcatcact 77700aattaggtat ttaccaatat tttatctctt ttcctttttt ggttgaagta ctaaaagata 77760cgagaatgga aagagaggga agaattcaaa ggatgtagag cagtattcct gaatctgagc 77820tcatttcagc cattctattc ttaaactata atgaaaaaaa aatccaaaaa agtctaaaat 77880tataattaaa aaaacaacaa aatactaact gtccattgta aaaagtaatg cactttcatt 77940gtaaaaattt tggactatag agaatagtac taagaagaaa aaaaaaatca ccttcaattc 78000tgctgccacc tggaggtaat cactgttaat attttgctat atactctatg agtttcttgt 78060tcaaaatcag gtcaaaatta catgcaattt tgtaatctga caatttccac ttaatatttt 78120attagcattt tcctgttatg aaacagtaat tttagttatg ggtcgttgtt ttgctatgcg 78180gttgggataa aattttatat actttttttg gcaattactt attatacata aatgtttgtg 78240tatagttttc tttttctgag aattcctgga agttgagtta ccaggcccgg ctttgaattt 78300ttttttttat tttttttttg agacagagtc ctgctctatt gtccaggtgc tatctcggct 78360cactgcaacc tctgtctccc tggttcaagc gattctcctg cctcagcctc ccgagtagct 78420gggattacag gggcacacca ccacgcccaa ttaatttttg tatttttagt agagacaggg 78480tttcacgata ttggccaggc tggtctcgaa cttctgaccc cgtgatccac ctgcattggc 78540ctcccaaagt gctgggatta caggcgtgag ccatggcgcc tggccaggct ttaaatttaa 78600aacaaatctt ctaatagctt tatggaggtt ataatttaca tttcttgaaa tgtactcact 78660ttgagtgtat agtaaactcc aattttatca catttctgtc accccaaatg tatccttgtg 78720cccatttgct gtaacctccg gttcctgccc caactcctag gcagccactc atctattttc 78780tgtcccttaa gatttgtgtt ttcgccaggc gctcatgcct gtaatcccag cactttggga 78840ggccgaggtt ggtggatcac ttgaggtcag gagttcgaga ccagcctggc caacatggtg 78900aaaccttgtc tctactaaaa atacaaaaat tagtcggatg tggtggcaca cgcctgtaat 78960cccagctact cgggaggctg aggcaggaga atcacttgaa cctgggaggc ggaggttgca 79020gtgagcagag atcgcgccac tgccttccaa cctgggcaac agagagagac tgtctcaaaa 79080caaacaaaga tttgtatttt ctggacattt tatagtactg gggtcatagt atagatggac 79140ttttgcattt ggcttctttt acttaattgt gagattggtt cttgttgtag catgtatcag 79200tagtttgttc atttttattg gcgaaagtat tctattatat gaataatacc atattttatc 79260tatccatcag atggatatta tagagttcat gttttggcta atttatgaat tatggtactg 79320tgaacatttg cctgcaagat tttgtgtaga catgtcttca tttctcttga gtagatcacc 79380tagaagtgga tttttaaata attttggtac ttactgtgaa actgctcttc aaaaacatac 79440cattgttcct tccttccttc cttccttcct tccttccttc tttccttcct cccttcctcc 79500ctcccttccc tacttccctc tccctttccc tttcccttcc ccttttccct tccccttccc 79560gcctgcctgc ctgcctgcct tccttccttc cttccttcgt ttctttctac atatacacat 79620ttttttaaat ttcaatggtt tttggggtac aagtggtttt tggttacatg gctgaatttt 79680ggttacatgg tgaagtctga gattttagta cacctgtcac ccgagtagtg taccttgtac 79740ccaatatgta gttttttgtc cctcaccttc cagccttccg ccttgtgagt ctccaatgtc 79800cattatacca cactgtatgc ccttgcgtac ccacagctca gctcccactt ctgagaacat 79860atagcagaaa catgccaaag tatactccca ctaccagaat gtgattgtgc ctgattcttc 79920tcaccagtac aaatatttca aaaaaagtta aatatgtatc agttttttgg gcagaagttg 79980atacttctct ttatttattt attttttttg agatagggtc tcattctatg atgcccaggc 80040tggagtgtgg tggtgcgatc tcggctcact gcagtctctg cctcccaggt tcaagtgatt 80100cccacgtcag cctcccagga agctggaatt acaggcgagg gccaccactg ccagctaatt 80160tttgtatttt ttggtagaga tggggtttca ccatgttggc cagactggtc tcaagctcct 80220gacctcaagt gatccacctg ccttggcctt ccaaagtgct gggattacag gcgtgagcta 80280ccacacccgg ctgatatttc tttttaaaat aacttacctt cttttgaaag taatacatgt 80340ttaatgaaca gaatttaagg aaaatataaa aaaacgaaat aatctttgta atcaaactac 80400tgaaaagaaa accaaagtta cattttggtg catattcttt ttcattttca tcattgtaat 80460ttgcatttct ttgattactt gtgagacact cctttcattt acttaatagg tttatatgac 80520ttgcctattc agagattttg cagctttacc attttctgca aatgatagca acttcttttt 80580gtttgtttgt ttgtggagac agagtctcgc tctgtcactc aggcaggaat gcagtggtgg 80640aatcttggct cattgcaact attgcctcct gggttcaagc gattttcctg cctcagcctc 80700ccaagtagct gggattacag gagtgtgcca ccatgcccgg ctaatttttg tatctttagt 80760agagatgggg ttttgccatg ttggccgggc tgatcttgaa ctcctggcct caagcggtcc 80820ccctgtctcg gcctcccaaa gtgctgggat tacaggcgtg agccaccgta cccagccagt 80880agttacttct tatattctag aaaaaattct actcatgatc aagtctccat gaggaaagag 80940actttaattg aagatcatgg ggcttgcaga ccaatatgat aaaatagttc attgtttcta 81000aaagtattac tgagtgttga tggcagatat gaaccctttt gtttttgtag gaaaatgtta 81060cccgtattct ccatttgaat tcagtttaga tttgttagga atcgcagctt aagctttgcc 81120atctgggagt gtttgggaca gttttgcaga caaaattgca aaagtgccta aggaatgcag 81180ctggcattca gacctgctct gtgctcagta ctctgtggac agacactgtt cagcacttgt 81240tgatcagaag gtttagaaag agaactttca aagttggttt ttaattaaag catttaatag 81300tgtaaataga aagggattaa attttatgac agacaaaaga aagtacagca cccagctggg 81360cgtgggggct cacgcctgta atccagcact atggggggct gaggtgggtg gatcacgagg 81420tcaggagttc aagagttcaa gaacagcctg gccaaggtga tgaaaccctg tctctactaa 81480aactacaaaa attagccggg cgcggtggca ggcgcctgta atcccagcta ctcaggaggc 81540tgaggcagga gaatcacttg aacctggacg gcagaggttg cagtgagcca agattgcacc 81600attgtactcc ggcctgggcc acagagtgac attctgtctc aaaaaaaaaa aaaaaagaaa 81660aaaagaaagt acagcaccca gttatgtccg agtgggtgca tgagagtgac cctgagattg 81720gagacaacgc tgtcacgtgc ttgaagaacg ccacctgaga aagggggcga gaagtggtgt 81780ccgctggtaa ccagaggtgt tggcttagcc atctgcaggg aggagggtgg tctatcacag 81840gtgagtttca tctactttct taagcaaatt aaccttactt ttgtgttagg cttgtcccaa 81900agctgtttta taaatgtgac caaggacaag ctgatccagt agtggccgtg gcaagagatc 81960aaagcagtgt ttacctgaaa cttctcatgc atgagacgca gcctccatct catttctccg 82020tcagcacaat aaccaggtat gctgacccag tggcatcttc acattgtcgg gaaaatgccc 82080tttcctgatg cctttcttta ggctttaatt gaaaacattt tattttctag aaaaaagctt 82140cagctcagga tgtttgagtg taggtcagtc ctttgatagg atattatcat tttgaggatt 82200gaccacacca cctctgtatt taagctctgc cacaatcact cagctgtgac actgtaaatc 82260tcttaatagt ttattacatt ccatgtgctg acagttgtat ttttgtttgt gacacttacg 82320tattatctgt taaaacattt tcactttagt tgtgttacct ttaaagagga ttgtattcta 82380tcatgcctgt tgattttttg gtgagcgggc tattaaagtc agtgttattt agggttatcc 82440actagttcag tgatttgcga gattatcatt cacatttatt gtggagcttt tgaatatcgt 82500gtcaaatggc cacatatatc ccattcttat ctgcttctta ggtgagtggg acacagtgct 82560ttaatgaagc tataatcttc agaattctag cttgcagaga agattgcaga agtgataaga 82620cttgtgcttt ttaattttgt cttttaaatg ttattttaaa aattggcttt atatgatact 82680ctttttttct gctgagtaac agtgttttac aaaacttgga ctaaatgact tctaagctta 82740aatgatcact tgatgctttt tttctgaatt aggaactcag cttatcaaat atcaaagtca 82800taattcctga ataaataacg tcttttttca tgtaaagact gctttaaaaa acacatggaa 82860ggctgggtgc ggtggctcac gcctgtaatc ctaacacttt gggaggccca ggtgggcagg 82920tcgcttgagc tcaggggttc aagaccaccc agggcaacat ggcaaaaccc acctctactc 82980aaatacaaaa aattagccag gcgtggtggc gggcccctgt aatcccagct actcgggagg 83040ctgagggatg agaatcactt gagccccgga ggcagaggtt gcagtgagcc aagattgtgc 83100cattgcactc ccagcttggg ctacagagtg agactctgtc tcaaaaaaag acacacacac 83160aaacaaaaaa aacatggaga catttttttg gccaccttaa tatttcccct cagataattt 83220cctttgttta aactcagaac tggcattttc tctcttggag aagattcagg acaaatactc 83280ctttaagata agtagaagca gtgaaagagg atttgattat caggaatttg ataagcttag 83340aataaattgt tgcttcttaa tgtcatttca gaagatgaat atttattaat agatgccaac 83400tgagatatca ttaaaattga ttactaacta ctacttggaa aagtctccca gttccaaact 83460tcagcaggcc tcttgacaat tcagctgtgg tcaattgggt cttgcgtgat agatacaatg 83520accaattgtg cagcagagtg tgctgcttag ctgcctattc tgttagcatt catgtgttaa 83580cttaaaatca taatctcctt agttttgttg agtgtctccg tggacaagac actgtgaggg 83640atacaaaatc agattggctt tattcaaacc actggggtat tataattcat ttataattta 83700ttttattttt tgcctttttt ccatgtgttc taaaggaatt agagtttgta tataactata 83760atgggggata gaaattgaca tgtgccatga agggaatgca aaaaagtgcc gtgggagatg 83820agaagtggag aaaggaattt cttttttctt ggaagcagga ataacttcat gaagcatgta 83880tttcaactta aacagatagt aggcaacgct gtaaggggag tatggctgca gcaaaagtgt 83940tcggggcaga ctgggaggaa gggagggaat aaattcagcc attgttatgg aataatgatc 84000aaaatttatt ttcagcccgt ttcacttaaa agttgagact gcttaacttt ttttaatctt 84060taatcttaaa cttttaaatg ccatttgatc tttaaaaata tatgttttaa tagtgtattt 84120taagtctcta tatttttgtt attagaatat atagaggcta taacctacta ccaagcataa 84180cagacgtcac tatggaaaat aacctttcaa gagttattgc agcagtttct catgaactaa 84240tcacatcaac caccagagca ctcacagtaa gtctctttct tgatcggtct tactgacatt 84300gtaatagttt ttggtagctt gtatggccag ttagttgtat ggtcatctta cggtgaggtg 84360cttgtcttac agctcttact tatccatgag gcttgctaag aaattgtgct tctgtgaaaa 84420gaatctcagc ttactccagg aatgtaaatg actatgtttt ttctgattat taaagtaata 84480cacgcccaaa ataaaaaaat tcagccaatt taggaagaca caacaattaa aataagccag 84540gcatggtggc tcatgcctgt aatcccagca ctttgggagg ccaaggttgg gggctcactt 84600gaggtcagga gtcggatacc agcctggcca acgtggtgaa accccatctc tactaaaaat 84660acaaaaatta gctgggcgtg gtggcgggcg cctgtaatcc cagctactca ggaggctgag 84720gcaggagaat cgcttgaacc tgggaggtag aggttgcagt gagctgaggt caagccactg 84780cactccagcc tgtgcaatag agcgagactc tgtctcaaaa aaaaaaaaaa aaaaagaaaa 84840gaaaaaagta aactactgtc acctgcattg gtaatgtatc agaagtttaa aatgtctaga 84900ttataattaa ctcagtgacc tggtaatata tactaaggga aaaatattta taatttacat 84960ttttacattt ttattttttt aattttatta tttttttttt gagacagagt tttgctcttg 85020ttgcccaggc tggagtgcaa tggcatgatc tcagctcacc acaacctcca cctcccgggt 85080tcaagcaatt ctcctgcctc agcctcctga gtagctggga ttacaggcat gcaccaccat 85140gcccggctaa ttttgtattt ttagtagaga cagggtttct ccatgttggt caggctggtc 85200tcaaactccc aacctcaggt gatccgccct cctcgacccc ccaaagtgct gggattacag 85260gtgtgagcca ccatgcctgg ccttacattt ttataataag aatttatgtt gctgacatta 85320gaaaagaacc ataatatcca agaatccaag aataattaaa ttatgtacat atgctagtat 85380atagtgtgat gctttggaga atttttaaca atatggagat gtataatctg gattgtaata 85440ttgagtgaaa aaaggcagaa tacaaacctg gtgggggtat agtcggattt cagttaagaa 85500aaataatatt tacatatata catttctcac actggcagat aatcaccaag ataaattttg 85560ggattgtgga tgattttttt cttctttata tttttcagat attctcaaat tttctaaaat 85620gagcaagtat aacttttgtt atcagaaaaa aataatatac aaaagtaatg ttaatttgct 85680ggtgaccagg ttaaaccttt ttatttttat tttttgagat ggaatctcac tctgttgccc 85740aggctagagc acagtggcat gatcttggct cactgcagcc tccgcttcct gggttcaaat 85800gattctctgg ccccagcctc ctgagtggct ggaattacag gcgtgtggca ccacacctgg 85860ctaatttttg tatttttagt agaggtaggg tttcaccagg ttggtcaggc tggtctcgaa 85920ctcctgacct cgtgatccac ccacctcggc ctcccaaagt gctgggatta caggcgtgag 85980ctactgcgcc cagccagacc tttttatttt atttgacaaa agaaatactt ccatgttata 86040gaagactaaa tattgtttgg gctgtctgca gtatggtctt cccttgattt gttcaaaata 86100tcgtaaactt tgcttattta tttttattgt ggccgactgt gtcgggcact gttgtaggct 86160tgggatggaa aaacaggatt cctgccctta gggtttctgc aggctggtca gggagacgat 86220gtggtaagct ggagctcagc tcctaaggat gtgcaggggc agttgagagg cggaagggtg 86280ggagatcatt ccagggtgtg ggcagcacag gaacctctct tcattgggat ataattgcca 86340ttctgataac acgtgtttga ggtgtctaaa gtaggaagtt gtaccatggt gggacagata 86400tcctgtggtt atcatacaca gatctcagtt ttcttctcat tgtttgtact ttttataaag 86460ggtaacagga gatataattc aataaacctt tgtggtgttt gggtgtgatt ttattgtttc 86520tttcttctca gtttggatgc tgtgaagctt

tgtgtcttct ttccactgcc ttcccagttt 86580gcatttggag tttaggttgg cactgtgggt atgtattttc ctcagtatat attaatagtt 86640gtctacaaca gtatgacata aacatagtta ttaggatgcc ctttttcttt ctttttaagt 86700cttttatcaa tttggctttt tggaaaaata tctgatggaa tacttgtttc tgctatatta 86760gctgtgtgag actagtgaca ggagctgtgg gaaatgaatg ccaaatgttc ttaggcattg 86820atgggaattt cagggtgtgg tcttcaagtt catttaaggg aattttcata tgctggcaaa 86880aggcttttct cattagcttg actctttcca aaattatttg ctgtgaatta gaagtttagg 86940aacctttttt cacttaattg tgacctagca tacgaaatgg tgatgattta ggaactactg 87000ttcttgtatt aacagctttt atttaaaaat gattttcctc cagtagatgg ccctactagc 87060atctgggaaa taatttcaag tcttctccag cattcaggaa taggctttca ttttgtgtat 87120caattactga gaatgatttt ggtgactcac atcacatttg agaagtaaac ctgcagattt 87180cttgtgtgtg tcagcaaatg accaactgat atttgcttga agtggattac attatctgct 87240ctagaatgat tgctttccca ccttcctcac atacagactg agcagctacg gtttctaatc 87300ataggtctgg cactagactt cacttctggg caactttggc attggagtaa aatgtattaa 87360tttaaagaaa gttaaaaatc cgttcaagta aacatacagt tctaatactt tttacaattt 87420aaaatataga tttaaatgat aaaataaaaa agaaaatatg ggtagacacc ataatcctcg 87480tttctgcatc tgttcacaag gggttgatat ttatgagttc tattctccat atccattcta 87540tgttctctta atgctcagtc agcacctcag gtggttggag ttcaatgctt ggtagtttga 87600cttacactgt cttttctagg ggattgagcc ctgggtagtc ctgcttattt gaggttgcaa 87660tttgtctttc aataactttt actacaagat atggcgtgtt aaaggatacc attggggaac 87720caacataata atatcaggaa aactaaccac gtcagacctg ccccattgtg tatcaagtac 87780actatttttc catagtaata aagagttcac cccagccaat tctcttttat tttgtgcctg 87840tttactcaat ggcattaaca tgcccaaatg tctgggtagc tgtctcatct ccagttcagc 87900agaaccattg tcatatgccc tagtaaaagc attccttcat tggacactta ggccccaata 87960ctttcattca gatctactac ctgatttcat ttctcaaatg atttttatgg agctctgatt 88020tataggaaag atgttagttg attaaaaata aaacaatttc tgagctggta taaaatgtat 88080tgtgacatgc cttcctcttg gaattgcaag agaaaggaag actgttgttt gcttaaaaat 88140tgtctataat ttgactttgc aaatgtctgc ttccagagtg cctccactga gtgcctcaga 88200tgagtctagg aagagctgta ccgttgggat ggccacaatg attctgaccc tgctctcgtc 88260agcttggttc ccattggatc tctcagccca tcaagatgct ttgattttgg ccggaaactt 88320gcttgcaggt actggtactg agttgaaaca gggactccag gacttggatt ttgatttcct 88380tagggggaat gggggtggtg agcatatgag gggaaaatac tataaggtca ttgccagtga 88440tggcttgtcc ctttagtcaa atttcagatg ttacctatat gcataaacac atgcagttgg 88500cagctgttct gtgctgagta ttttaaagta gcctcttccc aatatagccc ctcagttaac 88560tacaagtaaa ctcattttga atttcatttt aatgggcacc atatgccagt actccctcgg 88620gcactgggat gttaagaaag tataatgtat ggacttcatt ctcaagttag ttttagatta 88680gagggggata cacgtaaaca aaagtgcagt ggtcacacag agtggcccta atcactctcc 88740ttgggcagat ttatgggctg gtaggaaaga gcacaacacg gagagggtgt agcaccttgg 88800cgatgataat ggaggatgtg gccagcaagg aagacggagt ccattgaaat tgattttggg 88860agaagttgcc aatctccatg aaagaattgg ggcctgtgct atttgcttca gggggctata 88920ggagagtttc gtgaaaggga ctaaaagatg agtattttaa taagatcatt catccaactt 88980gaacatgggc tggaggagaa ggtagggaga ctcaggagat taatgttgat gctaaggcaa 89040gataatggct ttgggactgt agggaagaca ctgattgtaa gagaatgaag gaggcagaat 89100tgccaggcct ggttcaccaa ctgaacttcg gttgtgaaga caaagaaacc tgggatgact 89160tcacatcctg ggcaggtgtg tggtggtgac agtcatggaa attgggaaca cagatttgtg 89220cgggaaacat cagtttcagt ttgagtttgg cttatcagtt gaatatcagg cacagatgtc 89280tggccaactc tcaacatagg gtcttaaatg acttcagttc cccaagcaat ttgtccttcc 89340catgctattg gggtggagag gtaatgtctg tgcccatatc acagccagtg ctcccaaatc 89400tctgagaagt tcatgggcct ctgaagaaga agccaaccca gcagccacca agcaagagga 89460ggtctggcca gccctggggg accgggccct ggtgcccatg gtggagcagc tcttctctca 89520cctgctgaag gtgattaaca tttgtgccca cgtcctggat gacgtggctc ctggacccgc 89580aataaaggta atgtcccact tgggtgctgg attcatacag ccttaatgac tatgggtttc 89640cagactacct ttgtttagta atctgtccct tctttattct ctttttgctt taaatgaaca 89700aaattgctca gattgtgaca ctaaatttaa catcaaaatg tgaccatgtg gatgggtgca 89760gtggctcgtg cctgttattc cagcactttg ggagactgag gcaagtggat cacttgaggc 89820caagagttcg agaccagcct gggcaacatc acgaaacccc ctctctacta aaaatacaaa 89880aaattagatg ggttgggccg ggcgtggtgg ctcaagcctg taatcccagc actttgggag 89940gccgaggtgg gcggatcacg aggtcaagag atcaagacca tcctggctaa cacagtgaaa 90000ccccgtctct actaaaaata caaaaaaatt atctgagcat ggtggcgggc gcctgtagtc 90060ccagctgctc gggaggctga ggcaggagaa tggcgtgaat ccgggaggcg gagcttgcag 90120tgagccgaga tcgtgccact gcactccagc ctgggtgaca gagcgagact ccgtctcaaa 90180aaaaaaatta gatgggcatg gtggtgcgtg cctgtaatcc cagctacttg ggaggctgag 90240gcaagagagt tgcttgaacc tgggaggcgg agtttgcagt aagccttgat tgtgccgctg 90300cactccagcc tgggtgacag agtcagactc tttccaaaag aagaaaaaaa tgtgaccatg 90360tgttttatag ctcttttagt atcatcagtc actgttatcc ctaagaggga aatacctagc 90420tttagtttta ggtttccagc attagccaag aaagctcaga attgatgttc ctggccaagt 90480acctcattgc tgtctcctta aatcttggtt aatggctact gtcctggcta gcatagttat 90540ggagcatttc catggttgta gaatgttctg ccaatctcag ggacagtttt gcttttctgt 90600gaagcaataa aatcaacttc aaaacaaatg ttaactattt gtacaatgga tttaagatag 90660accagttcac atactttttt tttttttttt ttttgagatg gagtttcatt cttgttgcct 90720gggctggagt gcaatggtgt gatctcagct cactgcaact tctgcctcct gggttcaaac 90780gattcttctg cctcagcctc tcgaggcaga ttacagctgg gattacaggc atgcaccacc 90840acacccagct aatttttttg tagttttagt agagacgggg tttcaccatg ttggtcaggt 90900tggtctcaaa ctcctgacct gaagtgatct atccgcttcg gcctcccaaa gtgttgggat 90960tacgggcatg agccaccacg cccagcctaa gatagaccag ttcacttact gtttatatct 91020gattactctc tctttgcctt gtcttctacc tttaaaaatc tccctactaa cttcccattc 91080tcctttagct gccatcagtc ttctcccttc tctgcaaaca tctctggaga gtcccagcct 91140cagcccacag agcttcccac tgctctgagg tggaccttgt ttgcaaggct tctttggctc 91200tcttggcctg gaccctgtct actacttcag ccatccttcc ttaacccctg ctggtggttt 91260ctgttgccac actccatagc agcgtttccc gcccagatca tgtctttaca tctctgggca 91320ctgctctggt cctgcctgcc tttccctctt tgtatcctgc aggctgctac ccccatcttg 91380agtgtcctct tcagttggct ttcagagggc ctcctgggtg ttcccttacc cacttgccac 91440tccccagtca ctgggttcag tccttcctgc ccaccagcac atgctttcta ggctctgtcc 91500taggccgtct tctctctttg tagtctctgg gccagtgctg ttctagagag tggcagaatt 91560ttctataacc atggcagtgc tccatagcta tgccaggcaa gacagtagcc actaaacaca 91620tatagctgtt gagcccttga aatgcagcta gtgtgactga agaactgaac cccgattcgg 91680tttaattttc attaaattta aatttaaata accttatgtg ggtagtggct ccagtattgg 91740gcagggcagc ctgagagtcg gggctgttct cctgtcttca gtgtctagat gagggacctc 91800agaggacctg tctctggagc tgcagttcaa tgtagccagc tgccccgtga cacttacata 91860tagctgattt gtggatatgt cagacacggt gtgatgagct cagctttctg tcctcctccc 91920cacatctgcc cctgccccat ttaccccact ttgtgtctta tcaagctaga aacaggtcac 91980cacaagtctt catttccact caccaagtct tttgtttccc ctactaaata ttttgcgaga 92040agaaagtgtg tacctttgta ttcacataca tgtacatgca catatacatg cacatatgca 92100ggggtcccca acctctgtta aaaaccggac tgcaggccgt gcgtggtggc tcacgcctgt 92160aattccagaa ctttgggagg ccgagaccag tgcatcacaa ggtcaggaga tcgagaccat 92220tccggctcac acggtgaaac cccgtctcta ctaaaaatac aaaaaaaaat tagccgggtg 92280tggtggcggg cgcccatagt cccagctacc tgggaggctg atgcaggaga acggcgtgaa 92340cctgggaggc ggagcttgca gtgagccgag attgtgccat tgcactccag cctgggcgac 92400agagcgagac tctgtctcaa aaacaaaaca aaacaaaaaa aaaaaaaacc aggctgcaca 92460ggaagaagtg agcaagcatt accatctgag ctctatctcc tctcaggcca gtggtggcat 92520tagattctca taggagcgtg tatgagttcg ttctcacact tctgtaaaga catacctgag 92580acatataaag aaaagaggtt taattggctc acagttctgc aggctgtaca ggcttctgtt 92640tctgggaagg cctcaggaaa cttgcagtca tggcagaagg tgaaggggaa gtaggcacat 92700cttcacatgg cccacaggaa aaagagagaa ggagagagag agagagacag agagagagag 92760agaaaaagaa agattgagag ggagagagga gggagaaagg agagtgcctg tagggggagt 92820tgctacacaa aggagcacca gggggatggt gctcaaccat tagaaactac ccccatgatc 92880caatcacctc ccaccaggcc ccacctccga cactggagat tacaattcag catgagattt 92940gggtggggac acagagccaa accatatcag agcatgaacc ctattgtgaa ctgcacattt 93000gagggatcta ggttgcatgc tccttatgag aatctaatgc ctgatgatga tttgaggtgg 93060aacagtttca tcccgaaacc atcccccgcc aaccctggtt tgtggaaaaa ttgtcttcca 93120cagaaccggt ccctggtgcc aaaaagtttg gggacctctg cacatatgca tgcacctgta 93180catggacaca taatacatgt acatatgcat actttatatt ctctgccact tctggtccag 93240actgatatac tatctcattt ggattactgc actagccttt tgttttggaa acagcatttt 93300ttaaaaaatt taatttaatt tttttgagat agggtgtcat tctgttgccc agcttggagt 93360gcagtgtcat gatcatagct cactgcggcc tcgatctccc aggctcaagt gatccttctg 93420cctcagcctt ctcagtagtt gggactacag gcatacccac catgcccagc taattttttg 93480attttttttt ttttttgaga cagagtctca gcctgtcgcc caggctggag tgggttggcg 93540cgatctcagc tcactgcaac ttctgcctcc caggttcaag tgattctcct gcctcagcct 93600cccgagtagt tgggattaca ggcgcctgcc accacaccca gctaactttt tgtattttta 93660gtagagacgg ggtttcacca tgttggccag gctggtctcg aacttgtgac ctcgtgatta 93720gcccgcctcg gcctcccaaa gtgctgggat tacaggcgtg agctaccgct cccagccagg 93780aaacagcatt cttgagataa ttcatataat tcacccattt aaagtatata attcattctc 93840tttagtatgc ccacagagtt gtacagccat caccagaatc agttttagaa cccataaagg 93900aactctgtac tctttaccca aaacctccat gcctccagct gcaggcagcc actaacctgc 93960cttctgtctc tgtgactcta cgtcttctgg acattactgt ggatgggctc atacagtcag 94020tgagcttgtg actggtgcct tctaccaagc agggttttca gtgtagcagc ctctctgttt 94080ttcttttttt tttaaattgt gacggaactt ctgcctcccg ggttcaagcg attctcctgc 94140ctcagcctcc cgagtggctg ggactacagg cccatgtcac catgcctggc taattttttt 94200tttttttttt tttagtagag atgggtttca acatgttagc cagggtggtc tcgatctcct 94260gacttcatga tccgcctgcc tcggcctccc aaagtgctgg gattacaggc gtgagccacc 94320atgcccggct aacctttcat ttactgtctg catttcttcc ctgatgcctt ccagtccatg 94380cacccgattg tagccattca tcctattatg gtttaaggtg actgtcttag tcagcatggg 94440ttgccataac aaaataccat agcctgggtg gcttcaacaa cagaatttac ttctcacact 94500tctggaggtt gggaagtcca agatccagga ctttcgcctt gccctcatgt ggtgaggggg 94560tgaggaagct ctgtggggcc tcttatatat ggatgctaat ctcattcatg aggggtctgc 94620cctcatgacc cagtcacctc ccaaaggccc cacctcctaa taccatcacc ctggtaatta 94680agtttcagtg tataaatttg ggggactata gacattgaaa ccataacaag cacttttcta 94740agatcaggga gtgagtaagt agcagagcta ggacctcaat tccacatgtc agtcatcttg 94800ccttcactct gctccatgat ggctgcctcc tagagcattg ggagtctcga tgttctatat 94860gctctcatgt gttgtgtatt ggagatagtt gaggctttat gaatacatct ggatttgttg 94920acttctagct ttgctggtaa ccagctgtga ccttgaataa gttacttcat ctctgagcct 94980gtttcctctt ttagaaacag gagtttaaaa tgctgctttg ggttgggcac ggtggctcat 95040gcctgtaatt ccagcacttt gggaggctga gatgggagga tcactggagc ttggagttcg 95100agaccagcct gggcatcata gtgtgagatc ctgtctcctc aagaaattaa aaaattagct 95160gggtgatgtg gcgtgtgcct gtggtcccat ctactctgga ggctgaggtg ggaggattgc 95220ttgagcccag gaggttgagg ctacaatgaa atatgattgc accccatcct gggtgacgag 95280tgagaccctg tctcaaaaaa gaaaaaaaaa atgctgcttt gtaccccttt catgtcatgg 95340cgtcatggcc aacatagaat gccctggttg tttgctgttg gagggcatgg gcctgggggc 95400tccctgaggg ctccttccat cttcaactca ttctctgtgc acctgttagg aagttgtggg 95460ccagtcccta ccatgtatca ttgtgtgggt aaaagtaaat aaaatgtgta cagtgtctga 95520actgtacata tcagggtcca agaacaaaat gagtgacatg ggttagctct ttttaataaa 95580tggtaaaacc aaatattcta attttcagtt ttgttatact tccatcacat gtttttgttt 95640ttttgttttt tgtttttgtt tttctatttt aggcagcctt gccttctcta acaaaccccc 95700cttctctaag tcccatccga cgaaagggga aggagaaaga accaggagaa caagcatctg 95760taccgttgag tcccaagaaa ggcagtgagg ccagtgcagg taggaaacag cgtggggaag 95820ggagggacat gagtgcagca tctgtcatgt agaaacatag gatttaagta acttggtgtt 95880ttagagaaat aaatataata cacatcagta aagtgagaga aagtttctcc aggtgcggtt 95940caagatatta gaaactaatg actgatgtac acagaccacc ttttggtctg aagcatttct 96000aagtgccact ggctgacatg cagcccctac agcctccagg cttccagccc tagcatggag 96060catcactctc ctatgcttcc ctggttgcag gtgatggctg gagaggcctc ctgattttca 96120gtaagggaag tggtgtagat gcttaggaat agatgtagtg agtgaaaaaa ctgattctga 96180tatgtcaaaa attctgattg gaaatggaat atttacattt ggaagagcta aaggcgagag 96240aaagtgggga taaagtcatc tgagttggag gagcttaaac cattcacaag tttggaggac 96300ctttttttac ccatgaaaag gtcagaacag aaggggctag gatttaggtg tgactgcagt 96360ttattgaatt cccatccata ctgctctcgg tgggcagtgg caggggcagg agaggagcct 96420ggcaaagcat gaagtgactg ctgctgcctc tgctatctgg gacgcctggc cacctgtctg 96480tacagtctcc ctccagaccc attctcacgc tgtctcttgg cacccagggg ccagtgatgg 96540ttctcccatt tgttttgtgt atatagcatt tatatcaagg ctatttattt atttatttat 96600tttatttatt tatttttttg agacagagtc tcactctgtc acccaggctg gagtgcagtg 96660gtgcaatctc ggctcagtgc aagctctgcc tcctgggttc aagcaattct cctgcctcag 96720cctcctgagt agctgggact acaggtgtgc accaccacac ctggctaatt ttttgtattt 96780tttattagtg gagacggggt ttcaccttgt tggccaggat ggtcttgatc tcctgacctc 96840gtgatccgtc cacctcagcc tctcaaagtg ctgggattac aggcatgagt cactgtaccc 96900ggcctattta tttattttta attgacaaaa ttgtatatat ctgtaatata caacatgatg 96960tttgaaatat gtgtacattg gccaggcgtg gtggctcaca cctgtaatcc cagcactttg 97020ggaggctgag gtgggcggat cacgaggtcg ggagttcaag accaaactgg ccagcatggt 97080gaaatcctgt ctctactaaa aataccacaa aaaaaaaaaa aaaaaaaaaa agccgggcat 97140ggtggctcgc gccagtcgtc ccagctactt gggaggctga ggcaggagaa ttgcttgaat 97200ctggcaggtg gaggttgcag tgagctgagt tcatgccact gcactctagc ctgggcgata 97260gagcgagact ccgtctcaaa aaaaaaaaaa aaagaagaaa tacatatgca ttgtggaatg 97320gctaattaac ctgtgcatca cctcacgtat cattgttttg tggtgagaac acttaaaatc 97380tactctttca gtgattttct tgcatatggt acattgctat taactgcagt caccatgcta 97440tacagtagat ctcttgaact cattcctcct gtctataaat gaaattttgt atccttgacc 97500aacacattca aggttttttt tgagatggag tcttcttcac ccaggctgga gtaccatggc 97560acgatctcat ctcactgcaa cctccgcctc ccaggttcaa gcaattctcc tgcctcagcc 97620tcctgagtag ctgggattac aggcacatgc tactgcacct ggctaatttt tgtattttta 97680gtagaagtgg agtttcacca tgttggccag gctggtctcg aactcctgac ctcaagtgat 97740ccgcctgcct tggcctgcca aagtgctggg attacaggtg tgagccactg cacccggcct 97800caagcgtttt aaaagatgct cttttctaag gattgactgt agtacaggag gaagattgac 97860ctgttgaaaa gcctcagcct ttacaagtgt aaaattatca gtatattact atcatctttc 97920tgatgaatta aataaactaa ggactccaag tcaaaagtct tcaaactgaa gtagaatagt 97980tgtatatagt gcttggcact ttaatattta gtatcggttt aatgataatg tttgtgcctt 98040tgccgtcttt aaaacatttt tacatcatcc ctgtttgatt acttggtgtg ctcatgaagt 98100tgttggccac taaggaatct taggctcaga gaggttctgg aattggccag tggtccttga 98160atcagctgct cctatgattc tctaactgat ttctcacaaa gcaaacaagc aatcataaca 98220aaacaactgt gcacactgct cttcttattt tgttatttaa aaagtactta ggctctactt 98280atgtttgtta gtcaatttct cattacttct agttaatcaa aaggtcagag gaaatacttg 98340aatattttca tactagaata ctttaaaaaa tcatgatttc cagtaatctc tttaaaactt 98400ggcaagttat tttgatctaa aagtttatct tttgtgtgca tatttttaaa gcttctagac 98460aatctgatac ctcaggtcct gttacaacaa gtaaatcctc atcactgggg agtttctatc 98520atcttccttc atacctcaaa ctgcatgatg tcctgaaagc tacacacgct aactacaagg 98580tatgggcctc tgcatctttt aaaaatatat atgcacacat acttacgtct aatggatagt 98640tgatgttttt cttatgattt gtaggatgta taagcccttt gagatatgag ttacatttag 98700ttttttcaag tttgtttgtc tttcagcttt gtttatgata gcttctatca tacaggtgtt 98760ttggattttc atattgtttg tactcacagc taagattgat tacagtgaca gagctaggat 98820gtgcagccag gttatagggg gaagtggccc tggtggagtc tggagggatc cgtgtacagg 98880cttccttccc tcccgtgagg ctcacacaaa aatacagcaa catgctggtc ctgcaggtac 98940cctctgccta acatgagcca caattccaga ctcacagaag aaaagcaggt gttcggcata 99000aaccatgtgt ttcaaatagt ctgggcatgg tgagccactt gttatcagct agggaaagtt 99060tatgtcagcg taagaaactg ttcaccagat acccccaaga gccagccttt ctgtctaggg 99120atgttttagt tttttagttc attttttttt ttaactttaa aattttctgt tcatctgcaa 99180tttgttagat atgaagtatg tgtctaattt aatttttgtt tttggttgtc cccaataatg 99240tttacagaag aatttttctg cactaattgg cttgagttac ttacattctc atagttctct 99300agtttcagta gtttcattta ttattttgtt atatcaatct atctgtctgc tcatctatta 99360gaagcatcct tgtttttttt ttttcttttt tagacagagt cttgctctgt ccccaggttg 99420gagtgcagtg gtgcaaccat gcctccctgc agtctcaggg ctcaagtgat cctcccacct 99480cagctcctga gtacctggga ctaccggcat gtgccaccac acccagctaa tttttacatt 99540ttttgtagag acagggtctc cctaagttgc ctgggctggt ctcaagctcc tggcttaagt 99600aatcctccct ccttggcctc ccaaagtgct gggattacag gtgtgagcaa ctgcacccgg 99660ctacaagtat acttcttaat tattgtagct taatggtatt tatgagggga tcagttcccc 99720tgttgttctt tagaattttc tggatattct tctttattga ttttgggatg tgaacaatag 99780aatcaacttc tacttgtaga ttgatttagg gagaacttat acctcagatg ttaagtcacc 99840ctgtccagaa tgtgggatgc tttcctattt gttcagaact ttttaaatta cctcagaagc 99900acatgaaatt taaaggattt taaaaaaaac ttaaagatta tttcacatag ctcttgcaca 99960tttcttgata aatgaatcct caggtattcc tctgtttttg ttactaatag ttacttctta 100020tgggtttttt ttcccctgaa aatcatttat caaacgtatg tggcttattt tctgaaggat 100080gtttgataat tttggaagat atgaaagtct tcatatttta caaggtttga ggtctcttta 100140agctgcatgg ttctcatgtc agctcccaaa gcagaagacg gcatgttgaa aaatgccgta 100200gagaagatac ttcttttcca cctgttttca actcatatca tcttgaattt cagggcacct 100260ttccatgctc ctagtgcttg ctatctgttt attattttcc ttcctgaata ccctgaactc 100320cagcatgttc tgctgtaatt ctggcctccc tggcatcttg gactcctgtt tcctttgctc 100380tgtcatcccc gcggtcagct cctgctgcgc agcttctcag ctgaagtgcg tttggagtgc 100440ctggcgtgtc ttgctggatc tttgagtatt gcctctggtt tccttggttc cttctgctga 100500gttgctcagc gtctccactc cccatttctt gtgtggccct tcctgcactc ctctgattcc 100560ttttgtcttc cctggtttct tgctttggtt tcgagtctcc acagaacttt tgcagctctt 100620ctgaagacct ggaagctttt tcatcttaat tctcatctca tgacctcttt tcccttcttt 100680gagagctaga acttcccatg gtgaacttct ctttccagaa ttccatgcct tcttttccct 100740cccacttacc tgttgtccag gagaggtcag attgctgtgc atattggagg agaacccttt 100800cttccctggg ctcttcatct cacatgacat caccacatca cctcgttcct tggaccctca 100860gtggtgtcac tgctggattt ttctttcctt tggctggcct tagggcacac ccaggttgac 100920tagcgtagtc atggtattta gatccactca cattttcagt ttctgtgtct gtctcttgcc 100980tgcttctgac ttcgcccaga gaaagcttct ctttcacaag ggttcttaga tttatgttca 101040ctgagcacct tcttttctga ggcagtgttt taccaatatt tattttccta gtcagtctcg 101100ccttaccttt cttgttatgc atgtctttgg tcctgaccca ttctctgagt ctgtaaaata 101160gaattgctgt ataatttaat tacatgaaat cctttagaat cttaacacat cttacacctg 101220atttaatatt ttattgtatc caaattgaac caaccctatg tgaatttgac agtgatttct 101280cccagggatc ctagtgtata aggaatagga cttagtattt tctatttttt gatataccac 101340ataccagata ctgattatga tggacattta accctttttt ctcattatga aagaaagtta 101400ggaattattt cttccagtag cgccagtgta acctgaaagc ctttgaaaga gtagtttttg 101460tatagctatc tgaaaggaat ttctttccaa aatatttttc cagtgctgac aacaaacacg 101520cagacacacc ctgcaaggtg agtgtacggc gccgcacagt ggaggcatct gctgcagccg 101580tcgatgtttg tgtctttggt tgtacattat

gagatcgtga cagggccagt aaccgtgtgt 101640tctctccttc accttcccaa ggtcacgctg gatcttcaga acagcacgga aaagtttgga 101700gggtttctcc gctcagcctt ggatgttctt tctcagatac tagagctggc cacactgcag 101760gacattggga aggtttgtgt cttgtttttt ctccttgggt tgtggctggc acacttgatg 101820tgcgtcttct gggctgagtt catctaggat ggagcctggt tctccagggt gcctccggga 101880gactcctccc tgccccacgt gcttgcgtca caggacccaa gtctgactct gccttagcca 101940tgaagtttag ggggaagttt ctatttgtat tctatttttg tctgttatca tgtattagct 102000tagacccagt ttagtttgga aaatcagtgg gtttcaaaat gtgtttgtag agtcctttat 102060ttcttaactt gaccttttca agtggaaagg ggcaaaacag acgggtaagg gggcggggcg 102120ggaggtgtga cttgctcttt tgtgcctgag gaagtaacag agctggggtt gacagtcata 102180ttctctgaca cagatagtct ctgacttatc tcacagaaag tcagcggcag agcctgagtt 102240aaaagtctcg tagattttct ttttcttttt tttggtggct aatttcagtt ttatttatat 102300ttgtttattt atttattata ctttaagttc tgggttacat gtgcagaatg tgcagttttg 102360ttacataggt atacacgtgc catgatggtt tgctgcaccc atcaacccat cacctacatt 102420aggtatttct cctaatgtta tccctccccc agtcccctca ctccccatgg gccccggtgt 102480gtgatgttct cctccctgtg cccatgtgtt ctcattgttc aatttccact tgtgagtgag 102540aacatgcggt gtttggtttt ctgatcttgt gatagtttgc tgagaatgat ggtttccagc 102600atcatccatg tgcctgcaaa ggacatgaac tcatcctttt ttatggctgt atagtattcc 102660atggtgtata tgtgccacat tttcttaatc cagtctatca ttgatggaca ttcgggttgg 102720ttccaagtct ttgctattgt gactagtgcc acaataaaca tacatgtgca tgtgtcttta 102780tcgtagaatg atttataatc ctttgggtat atgcccagta atgggattgc tgggtcaaat 102840ggtatttcta gttctagacc tttgaggaat cgccagactg tcttccacaa tagttgaact 102900aatttacact cccaccaaca gtgtaaaagt gttcctattt ttccacaacc tctccagcat 102960ctgttgtttc gtgacttttt aacgatcgcc atcctaactg gcgtgagatg gtatctcatt 103020gtgattttga tctgcatttc tctaatgacc agtggtgatg agcatttttt cgtatgtctg 103080ttggctgcat aaatgtcttc ttttgcgaag tgtctgttca tatcctttgt ccattttttg 103140atggggttgt ttgctttttt ttcgtaaatt tgtttaagtt ctttgtagat tctggatgtt 103200aatcttttgt cagatgggta gattgcaaaa attttatccc attctgtagg ttgcctgttc 103260actctgatga tagtttcttt tgctatgcag aagctcttta gtttaattag atcccgtttg 103320tcaattttgg cttttgttgc cattgctttt ggtgttttag acatgaagtc tttgcctatg 103380cctatgtcct gaatgttatg gcccaggttt tcttctagga tttttatggt cctaggtctt 103440atgtttaagt ctttgatcca tcttgagttg atttttgtgt aaggtataag gaaggggtcc 103500agtttcagtt ttctgcatgt ggctagccag ttttcccaac accatttatt aaatagggaa 103560tcttttcccc attgcttatg tgtgtcaggt ttgtcaaaga tcagatgatt gtagatgtgt 103620ggtggtattt ctgaggcctc tgttctgttc cattggtcta tatatctgtt ttggtaccag 103680taccatgcag ttttggttac tgtagtgttg tagtatagtt tgaagtcagg tagtgtgatg 103740cctccagctt tgttcttcta gcccaggatt gtcttggcta tgcaggctct tttttggttc 103800catatgaagt ttaaaatagt tttttccaat tctgtgaaga aagtcagtga tagcttgatg 103860gggggatagc attgaatcta taaattactt tgggcagcaa ggccattttc acgatattga 103920ttcgtcctat ccatgaacat ggaatgtttt tctatttgtt tgtgtcctct cttatttcct 103980tgagcagtgg tttgtagttc tccttgaaga ggtccttcac atcccttgta agttgtcttc 104040ctaggtgttt cattccctta gtagcatttg tgaatgggag ttcactcatg atttggctct 104100ctgtttgtct gttattggtg tataggaatg cttgtgattt ttgcacattg attttgtatc 104160ctgagacttt gctgaagttg ctaatcagct taaggagatt ttgagctgaa ccaatagggt 104220tttctaaata tacaatcatg tcatctgcaa acagggacag ttttacttcc tctcttccta 104280tttgaatacc ctttattgct ttctcttgcc tgattgcgct ggccagaact tccaatacta 104340tgttgaatag gagtggtgag agagggcatc cttgtcttgt gccggttttc gaagggaatg 104400cttccagttt ttgcccattc agtatgatat tagctgtggg tttgtcataa atagctctta 104460ctatgttgag atacgttcca tcgataccta gtttattgag agtttttagc atgaaaggct 104520gttgaatttt gtcaaaggcc ttttctgcat ctgttgagat aatcatatgg tttttgttgt 104580tggttctgtt tatgtgatgg attacgttta ttgatttgcg tatgttgaac cagccttgca 104640ttccagggat gaagctgact tgattgtggt ggataagctt tttgatgtgc tgctggattc 104700agtttgccag tattttattg aggattttca catcgatgtt catcagggat attggcctaa 104760aattctcttt ttttgttgtg tctctgccag gctttggtat caggatgatg ctggcctcat 104820aaaatgagtt agggaggatt ctctcttttt ctattgattg gaatagtttc agaaggaatg 104880gtaccatctc ctctttgtac ctctggtaga attcggctgt gaatccatcc tggacttttt 104940ttggttagta ggctattaac tattgcctca agtttagaac ctgttatcag tctattcaga 105000gattcagctt ttttctggtt tagtcttggg agggtgtatg tgtccaggaa tttatccatt 105060tcttctagat tttctagttt atttgggtag agatgtttat agtattctct gatggtagtt 105120tgtatttctg tgggatcggt ggtgatatcc cctttatcgt ttttattgag tctatttgat 105180tcttctctct tttcttcttt attagtcttg ctagcggtct acctatttta ttgatctttt 105240caaaaaacca gcacctggat tcattgattt tttttggagg gttttttttc gtgtctctat 105300ctccttcagt tctgctctga tcttagttat tttttgtctt ctgctagctt ttgaatttgt 105360ttgctcttgc ttttctagtt cttttaattg tgatgttagg gtgttaattt tagatctttt 105420ctgctttctc ttgtgggcat ttagtgctat aaatttccct ctacacactg ctttaaatgt 105480gtcccagaga ttctggtatg ttgtgtcttc gttctcattg gtttccaaga aaatttttat 105540ttctgccttc atttcgttat ttacccagta gtcattcaag agcaggttgt tcagtttcca 105600tgtagttgtg tggttttgag tgagattctc aatcctgagt tctaatttga ttgcactgtg 105660gtctgacaga cagtttgttg tgatttctgt tcttttacat ttgctgagga gtgttttact 105720tccaactatg tggtcagttt tagaataagt gcaatgtggt gctgagaaga atgtatgttc 105780tgttgatttg gggtgcagag ttctgtagat gtctattagg tccgcttggt ccagtgctga 105840gttcaagtcc tggatatcct tgttaatttt ctggctcatt gatctgccta atattgacag 105900tggggtgtta aagtctccca ctattaccgg gtgggagtct ctttgtaggt ctctaagaac 105960ttgcttcatg aatctgggtg ctcctgtatt gggggcgtgt atatttagga tagttagctc 106020ttcttgttga attgatccct ttaccattat gtaatggcct tctttgtctc ctttgaactt 106080tgttgattta aagtctgttt tatcagagac taggattgca atccctgctt tttttttgct 106140ttccatttgc ttgttagatc ttcctccatc cctttatttt gagccaatga gtgtctttgc 106200atgtgagatg ggtctcctga atacagcaca ccaatgggtc ttgactcttt atccaatttg 106260ccagtctgtg tcttttaatt ggggcattta gcccatttac atttaaggtt aatattgcta 106320tgtgtgaatt tgatcctgtc attatgatcc tagttggtta ttttgcccgt taactgatgc 106380agtttcttca tagcgtcagt agtctttaca atttggcatg tttttgcagt ggctggtact 106440ggttgttcct ttccatgttt agtgcttcct tcaggagctc ttgtaaggca ggcctggtgg 106500tgacaaaatc tctgcatttg cttgtctgta aaggatttta tttctcgttc acttatgaag 106560cttagtttgg ctggatatga aattctgggt tgaaaatact ttttttaaag aatgttgaat 106620attggctccc actcttttct ggcttgtagg atttctgcag agagatctgc tgttagtctg 106680atgggcttcc ctttgtgggt aacccgacct ttctctctgg ctgccctttc cttcatttca 106740atcttggtgg atctgatgat tatgtgtctt ggggttgctc ttctcgagga gtatctttgt 106800ggtgttctct gtatttcctg aatttgaatg ttggtctgcc ttgctaggtt ggggaagttc 106860tcctggataa tatcctgaag agtgttttct aacttggttc tattctcccc atcactttca 106920ggtacaccaa tcaaacgtag atttggtctt ttcacatagt cccatatttc ttggaggctt 106980ggttcatttc ttttcactct tttttctcta atcttgtctt ctcgctttat ttcattaatt 107040tgatcttcaa tcactgatat cctttcttct gcttgattga atcggctgtc gaagcttgtg 107100tatacttcac aaaattctcg ttctgtggtt tttagctcca tcaggtcatt taagctcttc 107160tctacactgg ttattctagc cattagtcta acattttttt caaggttttt agcttccttg 107220tgatgggtta gaacatgctc ctttagctcg gagaagtttg ttattaccga ccttctgaag 107280cctacttctg tcaattcatc aaactcattc tccatccagt tttgttccct tgctggtgag 107340gagttgtgat cctttggagg agaagaggtg ttctggtttt tggaattttc agcctttctg 107400ctatggtttc tccccatcat tgtggtttta tctacctttg gtctttgatg ttggtgacct 107460acggatgggg ttttggtgtg ggtgtccttt ttgttgatgt tgatgctatt cctttctgtt 107520tgttagtttt ccttctaaca gacaggcccc tcagctgcag gtctgttgga gtttgctgga 107580ggtccactcc aggccctgtt tgcctgggca tcaccagcag aggctgcaga acagcaaata 107640ttgctgcctg atccttcctc tggaaacatc gtcccagagc acgaaggtgt ctgcctgtat 107700gaggtgtttg ttggccccta ctgggaggtg tctcccagtc aggctacatg ggggtcaggg 107760acccacttga ggcagtctgt tcattatcgg agcttgaatg ccgtaccggg agaaccactg 107820ctctcttcag agctgtcagg cacgtatgtt taaatctgga gaagctgtct gctgcctttt 107880gttcagatgt gcccttcccc cagaggtgga atctagagag gcagtaggcc ttgctgagct 107940gcagtgggct ctgcccagtt cgagcttccc tgctgctttg tttacactgt gagcatagaa 108000ccacctactc tagcctcagc agtggtggac acccctcccc cagccaagct cctgcatccc 108060aggtcgattt cagagtgctg cgctagcagt gagcaaggcc ccatgggcgt gggacccgct 108120gagccaggca caggagagaa tctcctggtc tgctggttgt gaagactgtg ggaaaagtgc 108180agtatttggg caggagtgta ctgctccttc aggtacagtc actcatggct tcctttggct 108240tggaaaggga agtcccccga ccccttgtgc ttcccaggtg aggcaacacc ccgccctgct 108300tcggcttgcc ctccgtgggc tgcacccact gtccagcaag tcccagtgag atgaactagg 108360tacctcagtt ggaaatgcag aaatcacctg tcttctgtgt cgatctcact gggagctgta 108420gactggagct gttcctattc ggccattttg gaagcatccc ttgttttttg aggtggagtc 108480ttgctctgtc gcccaggctg acgtgcatcg gcacaatctc ggcccactgc aacctttgcc 108540tcctggtttc aagcgattct cctacctcag cctccggagt agctgggatt acaggcacct 108600gccaccatgc ctggctaatt ttttgtattt ttagtggaga tggggtttca ccacattggc 108660caggctagtc tcgaactcct gaccttgtga tccacccacc tcagcctcct agagtgctgg 108720gatcacaggt gtcagccacc acgcccagcc atattttcag atctccctct ctttgcccta 108780aaccactgtg cttaataagt agtttttagt ggccagcagt ctccatgtat aacacatttt 108840agcaaaatgg aaaatactat atgttttaaa tttgaacgtg agattatact gaaataaaaa 108900tcatctaact gggattcttt aaatagtaag attttctttt ttgtatgtgg gttttttttt 108960aaccttatta ttatgactgt catatataga aatggctgtt tttcagttac agtcagtgaa 109020tgtatcaaat gctgccttat ccaaataata aaagtaaatt attaataagt cacaatttaa 109080tgaagattga tgttagttga tctttatatt cttgaaatca gccatatggt tgtgtgtgta 109140tgtatatatt tttaaaggta cataaagata ataagctcat ctctgaaaat ttttacattt 109200ggcataagaa taactggata attaagcatc ttattctctg gcctgtgtct ttacagttaa 109260aggtagattt actcacctct ccttttttgt ttttctaagt tcatcttttt tgctgtttca 109320agacagaggc ccattttagc tttctcgcat atccttttgt ttgtactttg gaagcctcac 109380ctgcttaatt gttgagtttt tatccgtggt cttttagagg gggatatgta gggtagaagc 109440tttcacaggt tcttgtttgc acttggcccc tgactgtttt gaggaatctc cctcactgac 109500tcacagcatg gcaaggtttc agatctcttt ctgccacaca gcagttctga ggcagctgga 109560aagatatcca gatgcttaga ttgtcaggcc aggcttgaga tatacaaact attgagcctt 109620atctgtgacc ttgcttaggt gaaggcatca gagcccctgc accaacatgc ataggcctct 109680gcatgtgtgc ggggctgggt gttgaggtct gagcacaagt gtagctggag aggtgagctt 109740gatgtggcga cgggtatgag caggttttct tcagacttct gtgagtttac ctagttccag 109800gatttaaagg cacagagact ttagaattaa aatagaatca ttttcttttt ctaaatagca 109860acactaggaa taaaaaataa taattccaca ttcttgacag gtaatgtttt ttcttgtctt 109920ctaatcctta tttattccat actcattttt atacataatt gaaatgtatt atgcattgga 109980tttttctttt gcattatatt atagacgatt tttcatgtaa ctccttactg ttccatttta 110040tatgttttgt ctggtttaag actttatctg caaaccggga aactgtctct acaaaaagaa 110100aaacaaaaat agttggccgc agtggcatgc gtctgtggtc ccagctactc ggggctgagg 110160tgggaggatt gcttgagcct tgggaggttg aggctgcaaa gagccatgat catgccattg 110220cactccagca tgggtgacag actttatact gtctgttttg ggtgatttga taatgatatg 110280ccctgatgta gtttttttat atcttgtgtt tcttgtgcct gggtttattg aggttgggtc 110340tgtggcttca tagtattttt aaagtttgga aaattttagg ccattctttc tttctttctt 110400tctttttttt ttttttgaga cagtgtctcg ctctgtcgcc tgcgttggag tgcagtgaca 110460ctatcttggc tcactgcaag ctctgcctcc tgggttcacg ccattctcct gcctcagcct 110520cctgagtagc tgggactaca ggcgcctgcc accacgcctg gctaattttt tgtattttta 110580gtagagacga ggtttcactg tgttagccag gatggtctca atctcctgac ctcgtgatct 110640gcccgcctgg gcctcccaaa gtgctgggat tacaggcgtg agccactgca cccagctagg 110700ccattatttc ttcaaagatt ttttttctgc cctgcctccc tccttttttc cctctcttaa 110760aggggctgtg atttcctgaa tgattgctta gtgttgtccc atagcttact gatgctcttt 110820tcagtgtttg attgttttat gtgttttctg ttttgtatag tttctattat tgtgttttca 110880agttctctga tcttttcttc tacagtgtct actctgttgt taatctgtta atctgttgtt 110940aatcctgtcc agcgtatttt tttttttgtt tttgaaacag tctcactctg ttgcccaggc 111000tggagtttag tggtgcgata tcagctcact gcaacctcca cctcccaggc tcaagcaatt 111060cttctgcctc agcctcccga gtagctggga ctataggcac gtgccaccac acctggctaa 111120tttgtgtatt tttattagag atggggtttc accatgttgg ccaaactggc cttgaactcc 111180tgacctcagg tgattcatcc gcctcggtct cccaaagtgt tgggattata ggcatgagcc 111240accgtgtctg gcccctgttc agtgtatatc actaattttg tttttatctc tagaagtttg 111300atttaggtct tttaaaaatg tctccctgtg tttctgttta gctttgtgaa cacaattgta 111360ataactgttt taatatcctt ctctgctagt tctaagatct tctaataact tcccagttct 111420tggtgtttct cattggttga ttgatactcc tcgttttggg ttgtattttc ctgcctcttt 111480gtatggctgc caatttttta ttggatgccc aaccttgtga attttacttt gttggatgct 111540atatattttt gtgttcccat agatcttctt gagctttgtt ctgaggttag ttgagttaca 111600tatagatggt ttactctttt gggtcttgct ttataatttg tcagatgggt tggagcagtg 111660cttagtttag gactaatttt ttttttggac taattattcc tctttaggaa taattaggta 111720ccatgcttag gaggcaagac catcctgagt actctaccta atgaaccaga aagtttgggt 111780tttccagtcc gcctgctgag aacagtgact ttctagccct gtgtgagcgc tgagctctgc 111840tccttctaat cctttccaat gcttctttcc ctggcctcag ggagttttct cacacacata 111900tctctgctga gtactcgaga gggaccttcc ccagatctcc agagctctct ctgtcttgtt 111960ttctcttctc tggtgctctg tcttatgaac tgtggctgtc ttggtctcct tagattctca 112020gcacctcttc aattcagagg gttgcctgtc cctcctcctt gtgccacagc ctaggaactc 112080tctcaaagca gcgagttggg gcagccatag ggctgactta gtctctcgtc tcccagggat 112140cactgtcctt cattgctcat gtccagtgtc ttgaggactc tgggttttgt ctgttttgtt 112200ttttggtttg ctttggttgt ctcaggcagg agggtaaacc cagtccctca ccctcattgt 112260gctcagtagt ggaagtctca ctctattaca ttagatatta gtatttgtag cagagccctg 112320gttccctggt acttggggag ctcttgaaag gccagaaaca gcatgctttc tcaccttttc 112380cagggcttca gtttctggtg cacatcaagc attccataca catttgttaa agtcctttgt 112440tagacaagta gtgattcaca ggttctattt gtaatttttt cagttaacat gtattgggta 112500tctgctggga gctagtaaaa acaaaaagtg gtgtgtgaca aattcaattc tgacaagaac 112560aaccttaaac acttagaata tactttgagc atatcagaat tttaaaaatg tgtggccctt 112620gagtatttga aaccaacaag aatctattgc ttattagtag aggatatttt gttaaacaag 112680tggagagaga ggcattttca gtctaattgg tgttggcttt tagcagctga tggaaaccag 112740ttcgtgatta gccaggcagt ggtgaaacag gctgtgcatt ctgaatgcct aggtatctag 112800gcattcagaa tggtggcgct ctttgagtta gcatcttctt ctttcttgat tctttttttt 112860ttttttttga gatggacttt cgctcttgtt gcccaggtaa caactccagt gcaatggcgc 112920catctcggct cactgtaacc tctgcctccc tggttcaagc gattctcctg cctcagcctc 112980tcaagtagct gggattacag gtgtgcgcca ccacgcctgg ctaattttgt atttttggta 113040gagatggggt ttcactatat tggtcaggct ggtcttgaac tcctgacctc aagtgatgca 113100cctgcctcga tctcccaaaa tgctgggatt acaggcgtga gccaccactc ccagcccctt 113160cttgattctt gaaaaggaca ttgggtgctg tacatctcgt tatagatgtt gataaaaatg 113220cttgtgagaa gagtaacatt aaggtagtta tttggtcatt tttgcagatt attttaagac 113280aattctagga ctgatttgtg gtaaatcaca cattgctgta tcatagttgt gttcactgaa 113340catattcagg ggctctacag atgcagggct cttagctgct ttgcacactt ctgaattcct 113400gccctgcgaa caggactgga tacctaatag acaacaggta cttgataaca gtttattgaa 113460ttaatgagtg aatgaacaga tacataaatg catgaaagaa tggttgtaat gtatataact 113520tggatttcaa gactttttac tgactgttca aaataagaaa ttgaaaactt tcctctgatt 113580ttcctctact atttacacaa tttaaatgga agttatcttg taccttcaat ttctgtctag 113640gattcgtaca ataacgggtc atctctgagt cgcttaatgt ctcacttgtc tttctacagt 113700gtgttgaaga gatcctagga tacctgaaat cctgctttag tcgagaacca atgatggcaa 113760ctgtttgtgt tcaacaagta agagcttcat tcttttcctc ttctgttaag acgttcgggt 113820atgacagcaa aacgctgcta ctccttaaga ggcaggcgct gttggcataa tcagctggga 113880ggattgtggg gtccagcgca gcactttttg gctcagtcca tgattgagcc aagaggccat 113940ccttcccttc actccccagg aggacgaggt ctgtcactgt ggagggcaga ggacaccaga 114000agctcctctg caacctcgct agttaacttc cagtccctcg gagtttctgt ttagaatgct 114060caatctcatt tagaattgca aggaaaccca aaacgcctat ttaaggtaca aacagcactt 114120catacaatat ctcatgaggt attaatagtg attcacagga agaatttcac gctgtgagtc 114180tttgctaaca tatccagtta tttacagatg gatttgatat ttgtgtggga gattcttaaa 114240agtgttgttc acgccacatt gttgatgcct catttttttc actgtagttg ttgaagactc 114300tctttggcac aaacttggcc tcccagtttg atggcttatc ttccaacccc agcaagtcac 114360aaggccgagc acagcgcctt ggctcctcca gtgtgaggcc aggcttgtac cactactgct 114420tcatggcccc gtacacccac ttcacccagg ccctcgctga cgccagcctg aggaacatgg 114480tgcaggcgga gcaggagaac gacacctcgg ggtaacagtt gtggcaagaa tgctgtcgtt 114540ggtggaagca cgaaagagca agcaggaaat actttgtaaa agaataaaaa cgaaaaatgt 114600tagcgaacat cttctaatag tctgctgtat tcagagaact ctaggagata tatatggttg 114660atgcaaagat gatttaaggc atagcccggc cttccaagaa gtgtgtggcc agtgagtgag 114720atgggcttgg gacttacaca tctcagaggt gggggtagag gaggaggaac actgagtggg 114780ctgagaagca gccagctctc attgccaaag tgtgtcagca aaccagaatg cagttcataa 114840tgtccccacc cattcaaagc acaggacctg tagagtggtg tggcatgtgt tggtggcact 114900tttcaggcct gtaacaagga tgaaagaaca gcttcatagc agcacagtag tgctggtgtt 114960cagaggtgtg tgaaggccat agaagcatct tggatatatt accttgtgtt ttgtcagctt 115020tatgactaga agtctctttt cacttaaatt tgtttttttt ttttttgaga cggagtcttg 115080ctctgtcgcc caggctggag tgcagtggtg caatctcagc tcactgcaag ctctgcatcc 115140tgggttcatg ccattctcct gcctcagcct cccgagtagc tgggactaca ggcgcctgcc 115200atcacgcctg gctaactttt ttttgtattt ttagtagaga cggggtttca ccatgttagc 115260caggatggtc tcgatctcct gacctcgtga tctgcccgtc ccggcctccc aaagtgctgg 115320gattacaggc gtgagccacc gcgcccggcc tcttttcact taaatttatg tttgtgtttt 115380taatgcctag tatacaggac ttcttaaatt gccttaagta tgaacaggta tttgagttgc 115440taatctgtat agtagcaata atagaatccc ttgtttttcc ttttataaat ttagcgatta 115500aatagctaca attaaaacac tagagtcagg agtcaaggaa aatacccatg ttccaggctg 115560tatgttagtg atgtacttac tatatattgg agtttcagga gtaagtctgt ttcaatgctt 115620tctgtaacca tttggggtat taataagcat gtgagtgtgt gcatgtttgg gttaatttca 115680tatatgtttc ttagaaggga tatcattgat gtaaatattt taaaggcttg tcctccaaaa 115740aaatcatgta atttcttcta aattactgat cttttaaatg accttcacct ttctctcaaa 115800tctcacttaa gactgggctg agtagtcagt ttcctgtagc agaaaaaagc tcagacttga 115860gtagccttct gcgagtgagg agacttgatg gctgtcaggc agctgtaaac tctaaataga 115920gtgtcattat ctgaagaggg cgatgctgcc acactgagtg gcctttcaag ttgtttctca 115980atctgacacg ttctgatcgt gtgaatgtga aattggtttg agcaggagta tatctgagtg 116040cagaggagat tatttaaaga tattctcatt ctctgcttcc cttttattcc catttggcag 116100atggtttgat gtcctccaga aagtgtctac ccagttgaag acaaacctca cgagtgtcac 116160aaagaaccgt gcagataagg taaatggtgc cgtttgtggc atgtgaactc aggcgtgtca 116220gtgctagaga ggaaactgga gctgagactt tccaggtatt ttgcttgaag cttttagttg 116280aaggcttact tatggattct ttctttcttt ttttcttttt tatagaatgc tattcataat 116340cacattcgtt tgtttgaacc tcttgttata aaagctttaa aacagtacac gactacaaca 116400tgtgtgcagt tacagaagca ggttttagat ttgctggcgc agctggttca gttacgggtt 116460aattactgtc ttctggattc agatcaggtt tgtcactttt atctttcatc catcatacct 116520gttcctaatt tagtacaaat taccctaaaa gacactgaaa tctactttaa agaaatgtgg 116580tctgcatgtt tccctcatca gttgctgctg cttatctttt tcatgcacct agctggtgca 116640gaaggcctgg ggcatagcca gcctcagcaa

gtcagcatcc ttgccccagc tccctggact 116700caaggctaac ctggggttgg ctgttaggga tttccaaagg tttgtcccat ccacttgcct 116760cccctccaaa ataagtttga atttaaattg tgagatacaa ttaagattta ttgtttgggg 116820aacatttttg caaaatctag agttagttta aacagattat caattattac cataattgat 116880catctgcagt ttcaagctat ctaacaggtt cacttacctc tttaaaaagg aatggaattt 116940agcaggacag taactgagac ccgtgctcct ggagtccatg tgggagctgt gtggctctgc 117000acaagcattt gcacgcttcc cctcttgact gcattacctt cctcctatag ttgctgtggg 117060caccagattc tggctagtcc tgtcccttca tgatgcacat tttcctcaag attcgtccca 117120gttaaatcac tgcagatgaa actgcctttt catcgtcaaa atttaactgt catttttgag 117180ccgtgatctt gggctacttt cttatgtggg gtaggaatat ttgtgagtta gaaatattac 117240acttctctat ttccttctag acgtaaatct gttaatcctg tcagcactgt tactcacctg 117300aaagggtctg tttccctagg agaactgagg gcactcggtc aacactgatt ttccacagtg 117360ggtattgggg tggtatctgc ttgttttttt tgttgttgtt gtttgttttt ttttgttttt 117420tttttgagat ggagtctcgc tctgtcaccc aggctggagt gcaggggtgc gatctcggct 117480cactgccagc tccgcctcag aggttcacgc cattctcctg cctcagcctc ccgagtagct 117540gggactacag gcacccacca ctacgccagg ctaatttttt gtatttttag tagagacgag 117600gtttcactgt gttagccagg atggtctcca tctcctgacc tcgtgatctg cccgcctcgg 117660cctcccaaag tgctgggatg acaggcgtga gccaccgcgc ccggcctggg gtctgctttt 117720aatgaaggag gcatcaaggg gtgggctttg cgttggcctg atgctttcat ctttctttca 117780caaaacctgt ccgaagaaaa tccgtctaaa tgggccattg ctctcctcag gaaatagtca 117840ttgggaactt cttttccttt cctttgacac taggaggctg actggggaga agccctggtc 117900tatggctgtg ggcagcaggg gctgagagga gcaggctctc aggggggcac gggtacccca 117960agggaagcca gagccctgat ttgttccatt ctagtaagaa caaagactgc tctggtttca 118020tgtttgttct gattgccttt catcaaccgg tcccctttct cccagttctt aagattcagt 118080acagtgacag ttttatgaac aagaatagaa cactagaaca gacaaaccat tgaactctat 118140gctgataaag atttattgag ctcctgctgt atgtttgcat tctgcccaga ggctctgaga 118200aaaccaggcc atatgctcca tgctttatcc atggaagctc cccgtcaggt tgggaaagct 118260gacagctgca gggaatacag tgtgacacaa aactggctcc catgcagccc ttacgtgtcg 118320cctctcagat ggttggggga cgaaggtcga ctcctttggg tatcttatta ctaaaccagt 118380ttcagggaat ctgtgccacc ctatctgcca ttaacgtgaa cagatgagtc cccaaggtgt 118440aattttgggt attgtctgat gtctcttgga atttattatt tgtttttcca atgagatttc 118500acctcagggt atagtaaagt tgttgagggg attcctggat gtgttctgca attatctagg 118560ctgatttcag aatagagtta tgcttatagt caaatttatc agctgtcaag aattttattt 118620aaaatttatg cagataagca ggaggaaaag aagcctggtt tttacatttt aatcctatta 118680ttgatgtgaa attttatttt ccttcctgta ggtgtttatt ggctttgtat tgaaacagtt 118740tgaatacatt gaagtgggcc agttcaggta atagcatttt attattttag atttttttct 118800tcttcttgtg tacttacatg taatttaggt tattaagtga atgtttaaac tactgttagg 118860catttttgct gttttcttta aatggaaatc tgactaacat actgtgcatt tttgcttctc 118920ttaaaaatta atgtatatct caagacttgt ttggaagtag ttatgtatct gaaaattcca 118980tatgttgtca gtattcattg cacatttcaa agcatttaat tgtgttgaca gatggtggaa 119040tgaaatcttg tggtggagca ctagttttta aatcttctta gagaaagcag ttttatataa 119100tgttgtcttt agtaattatt atgcatttgt attctctgca gctttttctt gctagatgtt 119160gaggttttaa tacttcttgc tagtccatta caggtttata attattaaaa gttaaaattc 119220ttttagtacc taaaatgctt aataaacatt gtaattagga aaatttagtg cagaaggaaa 119280gtgttcccag attccctggg gtctggaaac atagtgttta ttctaattac atgacacctc 119340cactgtgttt tggggcaagt tactgtttct cttttgagtt tcaatttctt caagagcaaa 119400gaggcagagg agagctagga agatcgtagc tgctgtgccc ctgtgccgtc gggtgccttc 119460tacctgctgc ctccgaacct ttacacatgt ccctgctctg cgcgagggca cagatgggat 119520gcactgtggc aggggtgggg ttagagtaga tcacggacac ctgttagctt gatgtgtgct 119580tgctgtcaag gttgaatcat gaattatttt atgttgctta tattgatatg tatcttaatt 119640ttaaaagaaa ggtctaaatg gatgtttttg tttttaggga atcagaggca atcattccaa 119700acatcttttt cttcttggta ttactatctt atgaacgcta tcattcaaaa cagatcattg 119760gaattcctaa aatcattcag ctctgtgatg gcatcatggc cagtggaagg aaggctgtga 119820cacatggtaa cgggacacac ctttcactgt cgtcttcggt gtcgtgatgt gcttggcagt 119880gttcgttttc atatacccac tttgaacgtt gtcagtggca gccatgtgct tctcaggctc 119940tgcatgtgtg tctgtgtatg tgaaggtact ggttagagac gtttcaaaag agaagagagc 120000atattcttta ctctcagcaa tttgtaatct tctcagggaa aaaaattcaa gaaacagtaa 120060gataacctaa ggtacagata gattctgaat ataaagttcc tgttcattca catgaaacgc 120120taaaagttct tcacttgatc ttagccaaaa ggccaagaag cgatgcaaca ctaaaaattc 120180ttaaatcgaa cttgccgtga attaaatttt gatctctcat ccagtggtat tggagatata 120240gtttgacttg ggttcagggc tttctgtttt gcctgatgat tttgctggag cttaaataag 120300gaacccagga gatggccagc tgtgcaagcc cccagcctgt ggaaggagct agtgtggttt 120360tatgaatgag ttgcaaatct ttctttgagc tttttgaact gatcttccag cattgcccta 120420ttgacccctc cctgactcct ttgctggaat ctgtaggctt ttgaactttg acagggacac 120480atcctaagac ccttgcaaac tcccagatgt gagaatggca ctactactta gagtcttttc 120540gactcagcgt gtgtgcagaa gagcatcaac cgggctgtgt tgcgaggcag ggccttggct 120600gacctctcag tgtttacata gctaagccag ttagtgtttg ccacggcctc acaagggctt 120660cagattcaca cagccaaagt atagattatt aaaggcatag gtgtttggtt tcctggactt 120720ggagggtctt tggacagaaa atcagtaggc aaccacaccc agtactttgt gctgggaagc 120780ttggtcatct gtgagagggt cagagagtat acccatgcgt gcatgccacc gaagggtcag 120840tgagtattcc tgtgtgtgca tgtctcaggg ccggagagag tatgtgtcac tgagaggtca 120900gagtgtttgt gtgtgtgtca aagagggttg cattgtgccc ttcactgagg ggtcagaggg 120960tgcctcgcgt gtgtgtgtgt gtacgtgtgt gtgtgtcact gaggggtcag agtgtgcctg 121020tgtgtgtgct tgtgtgtgcg tacatgtcac tgaggggtca gagtgtgcct ctgtgtgtgt 121080gctcatgtgt gtgcatacgt gtcactgagg ggtcagagtg tgcctctgtg tgtgctcatt 121140tgtgagcgta tgtgtcactg agggggtcag agtgtgcctc tgtgtgtgtg ctcatgtgtg 121200agcgtatgtg tcactgaggg ggtcagagtg tgcctctgtg tgtgtgctca tgtgtgagcg 121260tatgtgtcac tgaggggtca gtgttcctat gtgctcatga cattgagggt cagagtgtgc 121320ctgtgtgcca atgaaaggca tttcttatat ttttttatat gtggtcatag tagaccagtt 121380aatttatttt gactcctgtg ttagaccaaa ataagacttg ggggaaagtc ccttatctat 121440ctaatgacag agtgagttta cttaaaaaag cataataatc cagtggcttt gactaaatgt 121500attatgtgga agtctttatt gtcttttcag atgaatcaag tagattattc ttgagaccag 121560gaatgttgct gttttggtta tttggaaagt tttatcattt tcaaattgac ttttgaattt 121620gagtcacctt ttttcagaag tggtgttaaa ttataggagc cctaggtttt ttttcttttt 121680ttagaagtca tcacaaaatg atcagtgttc agaggaagag ctttgacctt ccacatggta 121740taatgattga taaccttaat tcatctctta ccataaacca agtatgtgta agggttttct 121800ttatttcttg aaagcatttt gtagatgttg agagcagttt tccaaatgta atttccatga 121860aatgcctgat aagggtaccc ttttgtcccc acagccatac cggctctgca gcccatagtc 121920cacgacctct ttgtattaag aggaacaaat aaagctgatg caggaaaaga gcttgaaacc 121980caaaaagagg tggtggtgtc aatgttactg agactcatcc agtaccatca ggtaagagga 122040atgtatgttg gaactgtcgt ggatacttta ttgacccgtg cagatggaag gaagtgccat 122100gtggtaacgc tcactgttaa ctgtgttact ttgaaccagg tttgggcttt ctggggcctg 122160ggtagatgcc ggtgcagggg gatggggagg gaggcggggg gtgggggggt gtggtggagt 122220tggggaggtg cagtggcagg aggtgttgtt ggtgtgtatc cttttttttt ttttgagatg 122280gagtctctct ccgtcgccca ggctggagtg tggtggcacg atcttggctc attgcaagct 122340ccacctcccg ggtttaagca attctcctgc ctccacctcc cgagtagctg ggattacagg 122400catgcaccac catgcccagc aaattttttt ttttgtattt ttagtagaga tggggtttca 122460ccatgatggc caagctgttt cgaactcctg acctcaagtg atcctcctgc cttggcctcc 122520caaagtgcta ggattacagg cgtgagccac catgcccagc ctggtgttta tctttaaagt 122580gggcacagcc acaggagttc acctgactcc tggtctgaga gtcacgagat cgttcaagat 122640agtgaggccc tcttttccaa aacgaggacc aaaaatcaat tgacagtgtt ggtcaagatg 122700gtagaaacct taaaatgata gaaatctcaa ctctgaaata aaaactttat ttgtatattt 122760atttaccact attttgacat agggctaagg tctttttctt tgagctgatt tctggttttg 122820ttttcttaaa gtggcataag aattcaaaga cattttgagg aaggctgagt gcagaaatct 122880ctctttttaa atgacttctc ctttctttta acttgcactg ttgtctagcc ctcacttatt 122940ttgtcaattc tttttagctg tttgtctttg aatcttcata aagccatagc ttttctcata 123000agaagcagca ctttctttgt tcattcatat tttaatgaac ccctgtagta tttaattaaa 123060tacttaatgc ctaattaaat cacataattg caatgcaaaa gtacatgtat cataaagagg 123120tctgaaaatg agcaactggc aagcaggtgg tggcaggcag agctgcttgg gtgggtgggt 123180gtcatggaga ggagttcatc agccacatgt tcagtgagct ctggatatgt ctgtttagaa 123240atgatcacta ataaacttgt gctcaaccat gtatacctct gggaagcagg tgctcttcag 123300tagattgcct ctgcagagaa cacagaattg aagtgaatgt ccacaaaggc aatgagccac 123360ctgcagaata gtttagtcaa ggctgtgttt gaagtttgcc aaagattaat atacatttga 123420ttttcatgtt gtgccttttc tctgattgtg aaatattaca aattctatac aaataacaat 123480gatggcaaat cctcctgagc aaagtgtgca ccttgtatgt gccctagagg aacttgtgtt 123540tcgttctgat tcccctacat ttctcatgtc atagagtggg ggttgcatta gtgtccccct 123600gtcctcgctg ggatcacatc tgtttggatc ctagagtctt ccagctgaac tgggacaagt 123660ataacagacg gacacgtagg ggtggaaagg cgtctcttgg cagcagactt tctaattgtg 123720cacgctctta taggtgttgg agatgttcat tcttgtcctg cagcagtgcc acaaggagaa 123780tgaagacaag tggaagcgac tgtctcgaca gatagctgac atcatcctcc caatgttagc 123840caaacagcag gtttgtcccc gcagccttgg cttgttgttg catagtgatg gtagcttaag 123900gtccttgtga aaggtgggtg gctggaatca gctcttcctt cagtcctaat ctgtgccttg 123960atagcagttc tccgtgctag tcatgggaca gctgacttca tttcttctca caatgccatc 124020tcaggttggt attgcccacc tactttacag gggggatccc acagctccga gaggttatgg 124080aggtgatcag gcagcacaca gctttagagt gctggggtga gggcgggcca aggctaactc 124140taaagcccga acccttacct cctacactgc ctcctgcatt ctggtcaacc cagtgtttta 124200tttggtggtt agatttttgt ttttgttacc ttactgcttg taatttagca gttttccttt 124260cctttccctt cctttccttt ccgacagggt ctcactctgt cacccaggct agagtgcagt 124320cgtgtaatct cactgcaaca acctctgcct cccaggttca accaattctc ccacctcagc 124380ctcctgagta gcaaggacca caggtgtgca ccactacgcc tggctagttt tttgtatttt 124440tagtagagat gaggtctcgc tgtgttgccc aggctggttt taaactcctg ggcgcaagtg 124500atccaccaac cttggcctgc caaagtgctg gcattacagg tgtgagccac ctcgcctggc 124560ctattcatca ctaatcagaa tttctatgat caaatgacat gaatcattgt ttccacaact 124620gcagtggaag gaaatggcct ggcagtgcca gtttcagaag cagcctgccc ccagtcaggc 124680acaggccact gtgcccccag tgtagcagca cctctgtagc tcacagagaa gggtggtggg 124740gacctccttg aggcagctct gccagaaaat ctcatgagct gcctggcaca gcttgaggtt 124800gccttttaag tggactcagc aaatacatgt ttgttcatct tgattataca caataaacaa 124860ctactctgta tagtacgagt agtccgtggt ttttggcatt tgatttaaac ttagaggcat 124920gtgatattga tgttactgcc ttcatgactg cacccccatt ctgatttcat aatggaatgt 124980tatcttgaga ccagttagac aacaggacag ggatcttggc ttctggtgag attgacagca 125040gttttagtgt ggtcagggtc tccctgccta cagatggttt tagaatggtg ccctggaagc 125100tttatcccat tcttttctgt gcgtaatctg agtagagtgg agatcgaagg cctgaataca 125160tagtaaatac ctgacttaat atctgccgca atggaaattg tgtgatacaa catttatgaa 125220acgcttagtg cagcacctgc caggtagctc accacaggtg catgttgcat tcagaagtag 125280tgctagatac tatcctgtta ctggcagtgc atacatcagt gatcaaagca gattaaagaa 125340agaccccctg ccttcttgga gtgaagattt tgttgggatg cgggtaaggg gacagacaat 125400agaaaagcaa gtgagtgaag tctataccat ggcggctgat caggaacacc gtacagaaga 125460atccaggagg gaagagagtt aggtggtgtc tgcggtggga gtggcattgt tcagctggtg 125520atgagaagaa gctttggtga tctggtgaca tttgagtgaa tttgcagaaa ggaaagatac 125580aagcctagga gatacctggg gaaggaacat tccaggcaga gcaaatagca gtgcaaaggc 125640cctggcgggg ggcggacatg ctgttagggt acaagcaatg agggtggagg agtggggcag 125700ccatggggag ggaagggagt gaggcctggt ggggtgaggc cagtgtggag gagccttgag 125760agggtttgcg ctgatgtggt gtaggtttta gcaggatcat tcttattcct gagttgagaa 125820tagccttgag ggggaggtga gggcagagca gggccaccca tgtgagaccc ggcactggag 125880tggaatggcc caagtcagca tcccttggca gcatgaaagc aaaaccagca aggtttgctg 125940gtggcttaga tgtggcatgt gagagagagc agggctttgg gggtgatttc agggtgagga 126000cagggtggct gtggacaagg tagggcagac attgggggca gcaggaggtc agagcctgtc 126060tggatgtagc agttgagacc ccataggtgc ctaatgaggt gaggccagca tcaggtgtat 126120gagcctggag ttgtcgagag actgtggggc agggggtcag catctgagat gtccactcac 126180agtggaccca gactggctgg agaggaggag gagcttgaat accgagcctg ctgagtccca 126240gctccaaggt caggtaggtg aggggagcca gtgctggggc agggggagta ggcaggtgtg 126300gggttcctaa agccaagatt ttttttaagg cattttgtgc aggagggcga catctgctgt 126360cagcaccttg ggaacttggc ccaggtttgg cagcaccgag ggcactgatg agtgcttttg 126420gaggagcaaa gggagccaaa ccctaatggg aatgtgttcc tgaaaggaca ggagagagac 126480ttgggaaaag gttttacttg aagagggaac ggagaaatag ggcagtagcc agaggaggag 126540aggagtcggc aatgggttaa gttggcagaa atgaaggcct gtttacgcac tgagggcaga 126600agcaacaggg aggatcagtt catgacacag gagacacaaa tcgccgttgt ggtgttcaca 126660gacatgggtt aggattggct gcatggatga cagagcactg tgggttctcc cagagttgct 126720ggggaggagg cagagttggt gagcacaggc gagggtccag gatgcaggaa tcctggagct 126780caagtcagtt gttcccttgt tgtaagatgt ggccagtgtt gtgagcttca catctgtgcc 126840ttgaaaaaca ccacatctgt ttgcagagtt gtttactatg tatacacact cagtagaaac 126900aaaaattgga aacagtcagt gcccaccatc aataagtaat ggttgaacac actgtggtat 126960aagcttagac tattttagct tgggctattt tgcatgatta aaaatgttct ggccaggtgt 127020ggtggctcat gcctgtaatc ccagcacttt gggaggccaa ggcaggcaga ttgcttgagc 127080tcaggagttt gagaccagcc tgggcaacat ggtgaaaccc tgtctctact agaaatacaa 127140aaagtagctg ggtgtggtgg tgtgcgcctg tagtcctggc taactcagga ggctgaggtg 127200ggaggatcac ttgagcccat tcgtgcgcca ctgcactcct ggggcacaga gtgagactct 127260gttagaaaga gagagagaga aagaagagag agggagggag gaaggaagga aggaaataaa 127320tggaagaaat ggaagggagg aaggggaggg aggaaggaag aaaggaagtt cagccagttg 127380ccttgggagt tctccattgc actgggttaa gtgagaagag cagagacgtt tatgattttt 127440caaaacaact aaaacaaaac ctctgtgggt gagggggcaa ggatatggct ataggaacat 127500ggggcagatt aagaaaggga tatacacaca ccacttagca tttgttacaa ctgttgtggg 127560agggatggag tgcagaaaaa gaaaaaaaaa agtgcacacc atcccatgta tgtgtataca 127620aagggacgct tggaagactg gtccccaaaa tgttggtaat gattgtgtca gggtgctgca 127680gtgctagttg attttttttc acacttttgt atatttgagt cttttacaga aagcatttat 127740tatttatgta ataaaaatct aaatgacaag atttctgtta tgggaaaaat gtagctatac 127800agtgttgttg taaaaatgtt tgcttggttc accactgaac ttaaaatgct tttaaatgag 127860ggaaggtgac gatgagatga ttatgatgat ttgcccttga gttacatagc tggtgtacag 127920gaagctgtcg tttcttttgg cttacgtaga aatgtttgtg gtgtctaatt ccacagatgc 127980acattgactc tcatgaagcc cttggagtgt taaatacatt atttgagatt ttggcccctt 128040cctccctccg tccggtagac atgcttttac ggagtatgtt cgtcactcca aacacaatgg 128100tgagtctctc gcctggctca gcagatgaat ctggacggct tgttcaggct ctgattactg 128160ggaccacccc cagaatgtct gagtcagtca gtttgggtag ggcttcttga gagtttgctt 128220tttttttttt tttttttttt ggtgtggggg tggtgcggaa cagagtctca ctctgtcgcc 128280caggctggag tacagtgtca tgatctcggc tcactgcaag ctctgccttc cagcttcaca 128340ccattctcct gcctcagcct cccgagttgc tgggactaca agcgcccacc accacgcccg 128400gctaattttt ttgtattttt agtagagatg gggtttcacc gtgttagcca ggatggtctt 128460gatctcctga cctcgtgacc cgcccatctc agcctcccaa agtgctggga ttacaggcgt 128520gagccaccgc acccggcctt tttatttttt ttggagatgg agccttgctc tgtcacccag 128580gctggagtac agtggcgcta cctcgactca ctgcaacctc cgcctcccgg gttcaagcaa 128640ttttcctgcc tcagcctccc gagtagctgg gactacaggt gcgtgccact gtgcccggct 128700aattttttgt atttttagta gagacggggt ttcactgtgt tagccaggat ggtcgcgatc 128760tcctgacctt gtgatccgcc cgcctcggcc tcccaaagtg ttgggattac aggtggctct 128820cgcaccaagc caagagtttg catttttagc aaattcccag gtgaaactaa tgcctgcttt 128880tctgggagca cactttggga ctcagtgata gagaggttta ttggtaggat agtaaaatag 128940gagttatttt ctttcacaaa attggcaatt gggggaaatt taatcttcct tttttcttca 129000gctgtgactt atgtattatg tttattttag gcgtccgtga gcactgttca actgtggata 129060tcgggaattc tggccatttt gagggttctg atttcccagt caactgaaga tattgttctt 129120tctcgtattc aggagctctc cttctctccg tatttaatct cctgtacagt aattaatagg 129180ttaagagatg gggacagtac ttcaacgcta gaagaacaca gtgaagggaa acaaataaag 129240aatttgccag aagaaacatt ttcaaggtat gctttctatc tgagcctata actaacccat 129300gccttttggg aagtcacgtg atgtttcaca gtcagtaagt ctggaataat acctggtctt 129360gcttcacttc tgagttgggt aaagaagtct gtatcagtgt aattttctaa tccgtcctgc 129420attatctatg gctcttggtt catacctgtc ttgaagttct gtcatgttct gtctcttgtc 129480ctcagtagag atgctacagc agtggctcgc ctcaggcagg gcagggcagt ggggtggctg 129540tcctgggggc aggcagtagg ggcacgctga cgtcagggaa gttgaaaccc aagagaagcc 129600agtaaaagtg agtctcagat tgtcaccatg tgctggcagt tttacacgct gtcagtaata 129660aaagtcttct ccctgcaggg cagcctgcct ccaataaata cgtgtagtat caaatcctgt 129720cttccctcat aaattgtttg gaagctcccc aaggacagtg atgaggcact cgtaagtgct 129780tgctgcctag atgggtccct ctccaccttt gctagattct gagcattcac tgagttagag 129840ctgcttctgc aaatgtgctg cttctgctaa gtggctgtga cttcatgcag ccttcacttg 129900gtttgtcatc agtggagatg ccctgtgttg tcgaaggaga taagcccagt aagcctgctg 129960ggcacctttt ggtttgcagg ttcagcaggc agcccatggc tttccctgtg tcgcattgaa 130020gcagctggct aaaattgatg atacattaaa ttcctgtgac agatgatcag cttgtatttg 130080tgtaatggtg tacagttcac aaagcttaaa aaaatgctac ctgccatttc atcctcagtg 130140aggaaggtga tacacagaga gaccaagtga ctgtgtccac ggcgacggcg ctctgcattt 130200cactttagcg gttaatgtac tctacctata tttttacttt atatttacca tatatctttt 130260catgtatact tggcgtaagt gctttatagt agtcacctaa ttcactgtca tcttttttgt 130320ttcttggaag gtttctatta caactggttg gtattctttt agaagacatt gttacaaaac 130380agctgaaggt ggaaatgagt gagcagcaac atactttcta ttgccaggaa ctaggcacac 130440tgctaatgtg tctgatccac atcttcaagt ctggtaggtg aatcacatta gtcttcctgg 130500agtgtctcgt tccccattct gcactataca ctctcagagt gtaggagctg tgctgcccgg 130560tagaaactct gccttgccca gtgtgccagt tgaaaatatt tgttgctgta agagtacacc 130620tgataccatg tgacccagca gttccactct tgggtatata cccaaaagaa tggaaagcag 130680ggtggtgaaa agatatttgc atgccagcat tcatagcagc attattcacg atagctaaaa 130740tgtggaacca actgaagtgt ccctcgatgg atgaatggat aagcaaaatc tggtgtatat 130800ttacagtgga atattattca gccttaaaaa aaggacattc tgacacatgc tacaacatgg 130860gtgaccctta aggacattat gctaaatgaa ataagccagt cacaaaagga caaatactat 130920gtgattccac ttacatgagg gacctggagt agttaattca tagatataga aagtagaatg 130980gtggttgcca ggggctgcag gggaggggag ttatttttac aagatgaaga gagttattct 131040agaaatgaat ggtggtgatg gttgtataac attatgaatg tacttaatgc tactgaactg 131100tacagttaaa aatagttaag aggaccaggt gtcatggctc atgcctgaaa tccaagcact 131160ttgagaggcc aaggcaggag gattgcttga gccaaggagt ttgagaccag cctcagcaac 131220atggtaggac cccatctgta caaacaaact agccggggat agtggtgtgc atgtggtccc 131280agctactcag gagactgagg ctggaggatc gcttgagccc aggaggttaa gtctctagtg 131340agatgtgttc atgccactgc actccagcct cggctataga gtaagaccct gcctcaaaaa 131400aacaaaacaa aacaagacaa gagccaaaaa tggttaagat gggccaatca cagtggctta 131460tgcctgtaat cccaacactt tgggaggtca aggtaaaagg atcacttgaa gccaggagct 131520tgggaccagc ctgagcaaca tatcgagacc cctatctcta caaagaaaat caaaaactag 131580ctagatatgg tgggcacatg cctgtagtcc cagctacttg ggaggctgag gtgggaggat 131640ctcttgagct caggagttcg aggctgcagg gagctattat tgcactccag cctgggctac 131700agaatgatac cctgcctctt attaaaaaaa

aatccaaaaa aaaaaaaaag taaacctgag 131760agcttcctcc tcctgtgtta aatttggagg ccaagatgtt tttgttactt ttacaaatga 131820tcaaggacgg tgaaggttgg gcatggtagc tcacacctga aatcccagca ctttgggagg 131880ctgaggcggg gtgatcgctt gagcttgaga ccagcctgga caacatagca agagacccca 131940tctccacaaa aataaaaaaa taaaaaaaaa tagccaggag tagtggcatg agcctgagcc 132000caggaggtca agctgtagtg agccatgatc atgccactgc actccagcct gggcgagatc 132060gagaccatgt ctctagagaa agaaaatgac aaggacagtg aacccaagaa agtcataaga 132120tgccagctgt gcagcaagca tggaaagcag ccagtccaaa ttaggacagt gtgttttcca 132180agaagaacga tcgtttgtaa tgagaatgct ttgctttaaa taaatgacta aatagctaga 132240agcctagttc taggggatag gcacgtcttt cttctctcaa gaaaatagaa aggcaattct 132300aatttctagt aacagcaaac agcattaagt catggtccaa atatgaggca aaccaaaatg 132360tggcttgatt gttcagcagt tgatctgttg gaagcccttg atattaaaaa ggttctcctt 132420taagcggctt aggagtcacg atcaaagacc tatagaaaga gatgccatcc ttctaggatc 132480cttggctctc ttgggaacta gattcagata gtcataatgt aaatactgct tgagctttct 132540ttctttcttt ctttctttct tttttttttt gagacagagt ttcactcttg ttgcccatcc 132600tggagtgcaa tggtgccatc tcggctcacc gcaacctctg cctcccaggt tcaagcaatt 132660ctcctgcctc agcctcccga gtagctggga ttacgggcat gcaccaccac gcctggctaa 132720ttttttgtat ttttagtaga gacagggttt ctccatgttg aggctggtct cgaactcctg 132780acctcaggtg atccacccgc ctcggcctcc caaagtgctg ggattacagg tgtgagccac 132840cgcacccggc ccgagctttc atttttgaaa tcaatgtatg actgaaacac tgaagactta 132900ctgacttaat tatggtttca gaacagaatg aaaatgtctt cggttctgat gaatataaaa 132960ggaaaactaa ccaagttaat ttggcaagta gatggtagag atagaggtgg ggagtggaag 133020gggaactaaa atcttcacct agcattgttg ggattatatg gttacatcat ctgaagttga 133080cagaccaaaa tatagaggct tcagaggtct ccaaatagaa ctaaacatgt aattcagatt 133140gttaggaggt agtataaatg agctaaatct catctttatt acggtagagt taatgggtga 133200tgtctaaagt tgtctgaagt ctataaatca tgacaaatta tgatgtggtg attgtattca 133260acagtctttc agttgcaggg ataaaacccc agtttaaact agagtaagag aaagaatgtg 133320ttggtttaag ctcctggaaa gtgcaggcaa gggtagttgg taggactgca tctagtgttg 133380taattctgtg gtctgcattg tatatttatg catctcagct ctgctttctt cttttcattt 133440atataatttt taaattttat tttaaagata gggtctcact ttgtcgccta ggctgaagtg 133500cagtggcatg aagtgcagtg cgaggctcac tctagcctcg aactcctggg ctctagagtt 133560cttcctgcct cagccttcta agtagctgag acaataggca tgtaccaaca tgcctggata 133620ggttttaaaa tttttttgta gaaatggaag tcttgctgtg ttgcccaggc gggtctttaa 133680ctcttagctt caggcgatcc tcctgcctct gcctcccaaa atgctgaggt tataggtgtc 133740acccaccacg cccagtctca tctctgcttc ctgtgttagt tttgttctct ggtgggctgt 133800tttcacatga ccgaagatga cctctagcag gctgtgttct cagcccctca agtaggccta 133860tgtgattggc cttgcatgag taatatgggt gaccataaac ccctgaatgc tctggtccac 133920atgggccaaa tgggagactg gacagcattc cattgatgag gaggtggggc tggtctccgg 133980gagtaaggga gaggagcaca tgcagtaact gatggtctgc tgcaagggat agcagcacag 134040cagttagaat tttggaggta actaccagaa ctgaaaacag aaatgataac aagtagttgc 134100cttaaaaagg gatgggagca gggtgctttt gtgatcaaag ctcctttctc ttactggatt 134160tttgtacaca ttttgcatac atatcttaga gtaaaagata gcattttcag ccttggtcca 134220tttgaggata ctcttggcgt ggcccgcctc catgctagca ggctctggtt gtgccaagtt 134280cagttgagca tcctggctct tgcctgcacg gaacttccag tcagtgcgtc agtatcacaa 134340gtcttgatat ttcctatgaa gaagaacagt agtgcagtga cagacgaaat gggtgggcag 134400gcagaggcag gatttctgag ggagagaagt agctagcttt ttgcagagaa gagttccggc 134460acccaagaga gcagctgaga gtacaggcag gcaggcagga tgccggtagg gcccggccgc 134520acggcgccac agaatcctgg agaaaggggc ctcttcatgg cctctgcatt cagctgctgt 134580caccctccgc acaggccatg gccaaaattt aattttcata gtggactcta gtttttgagc 134640cttacttgct attattgaaa taattttctt gtttcttttt aaagatcttc ggattatgct 134700tcactgacca ctgtaataag tttaaagttg agaaaatatg gcttgttaat gaatgatagg 134760tcaattttag tatgttggtc attttaatat tttgccacca gttggtttgg atttgatgcc 134820aggaggagac agcctcattt ctaaggacta gtcttgcctt tgtgggataa gggtggtgtg 134880ttctgtgtcc ttctacatgt ccgagcgatc tctgtgcagc tcaaatgtgg tcactgtctt 134940attgcgctga tttcctctcc ttccatctca caattgaggc aaaatattgt tactgttgaa 135000gtgttgtcca ataggacttc cagcagagac aggatgtctg cactgtctaa tttagttgcc 135060tttagccaca tgtggtgttc tgtacctgaa atgtggctgg tctgattgga tagcttaatt 135120tataatttta tttaatttta attaacttaa atttaaacag ctctgtgtgg atagtggctc 135180ctgtatgaga cagtgcaggt ctgttgagaa gcagctttac tggtgggagt ggagggcttg 135240gagagggcac gtgggtttcc tgctggtatc ttttgacctt atttaatctg cccaacattt 135300gcaagtaagt tgtgtgtgtg tgtatatata aatgtgtgtt tctgtcttct tgtttccttt 135360gactgcattt atttgaaaga cactaggtgg cagaattact gtatttgatt ggtttcaaga 135420taagagttga aataattcat ctcgtgtttt tatataagta aggtgtgttt agcatgtaaa 135480attggtaata tgtattcacg tactgcttaa acaaaggcta tgaattccac ccataaaccg 135540aaaatgaaga cctttaaatt tgtccatttc aggcgtgggt acttcttaaa taatacctgg 135600ttcaggaact agtcagaatg gcacccttga ctttttgttt cctgcttttc ctcttgttgg 135660gagaggaggg tattcatccc aaagtggttt gcctatttca cattccatct aggataagca 135720gaatagccaa gaaagatagc tgtcctcctg tttacaacat ttggggtaac cagcatccct 135780ctcttttggt ccaagataga ctggtttaga aacagatgat ggcaccagag gcccaggagg 135840tggaaacatc agctttgttt gttgtccatg tggctgaatt agagctgtct ggccttgtag 135900cctcaacacg gccttccagc tttgctcacc gtgattttca aggacacatc ttgtgctctt 135960ccctgcctgc catccagact atacccagtc agggtggcag gagctgctgc cccttcctcc 136020ctgagtcctg gtcgtgggtg gtggagatgt gccatgacgc tcacggaggc atgctcaccc 136080cttcctctgt ggcagagggg atggctgcac gacagctctt ccctgtcctt tccaaagcgt 136140ctgtggttcc actttttggg gcaaagcagg aatactggaa gagagagaaa gtggtccttt 136200ctatagtaat aaagttgaca ttgattcaag ttcatgcttg gggaaaggac agggctacta 136260acaattataa tgctgggagc aatggaattt tctcatgggt atgtggtagg tttaatttta 136320attatcccag ttaattctta gaactgctct gtgaagtatt tcccgctttg tgcttaagtt 136380ctaaaagatc ctgtgccaaa accaagaatg aaaacccaag cattctttct tgcccatcga 136440tctttctctc atcaggccac ttcttgggtt gatagtggtg agtgtagccg ctgccacttt 136500cagaataccc accatgggcc ccagtcactg tgtggcgtgg agaagagatg gttctctctg 136560tgtcatagct gaacaagccc agcccagaga ggtttctgcc ctaggagctc tcgatggtgg 136620aattgggatg cgatcccaca tcctgcctgt tttgaaaaca gcattcttta tttccaattc 136680ctgcttccat tgttcctttt aatatttctt tgtttagctc acaaaaacac ggcttgcgga 136740gctgctgcgt gcagctgtag ctgtttctct gggtgcagcc tgcatccgcc ttcctgcccg 136800cctcctttcc tgcactgcca tcgtggtctc cgggcacttg gtccctttct cttcccctga 136860gtccctttgg ctcccctgtg ccacccttgt gatccacagg ctctgccttc tttctgtctc 136920agactgctgc tcatcactac tcgggaccct aggaagggag gttccaccga gaagcatctt 136980ctcatctcag ccacgttctc agtgccactg ttgtctttgt taggtaatgg tagctactgt 137040aacaaataaa ccaacatttc catggcttca caccagagaa ggttgtttct tggttttatg 137100acaatgtatt gagggtgttc ttggttcacg gatggttttc ctccatgtgg gaattcgggg 137160acccaggctc ctttccttct tttggttctg ttctccaggc cttcacatcc tctgtgtctg 137220gttggggaca aggagaggga aggtaaagaa ggctttgtgg ccttggataa gtgacaggca 137280tgcctttgct ggtgttctct cgtggtgaca ggtcacagcc ccaccctgta aaaggggact 137340gagagacgtc gtcctgctgc ttcccagcag cagcactgtg gtctctgatg tgttttctgt 137400gaggataaaa acaggtgatt ccaggatgag gaaagtcagg gaaacccttg gaaggagggg 137460accaggcggg tgtcaccatg ggattagtgg tggcttcaga atgagctgca gcgagtgcca 137520tgccttctaa agcttttgct attctgatat gcccacacca tgcccagcag gtgtctgcct 137580tgctctccgc agagagagtg atgaatcctt ctcatgagcc tctgtccagt tgttcctccc 137640tccacctgga agggaccctg ggttcctcat aacatcccag cggaacaggg gaccttctat 137700cctgtcccca agttcatcct catcctcctg ccggcttcct ggcccctctt atgtctgctt 137760cctgacgcca catccttctg gattctctgg aattgaattt tgcctttgat gcttatttaa 137820aaatatccat tgcaggccag gtgtggtggc tcacacctgt aatcctgtgc actttgggaa 137880gccaaggtgg gcagattgct tgagcccagg agtttgagat tagcctgagc aacatgttga 137940aatcctgttt ctatagaaaa tacaaaaatt agctgggcat ggtggcgcac acctatactc 138000ccagctactc aggaacctga gacaggagga tcaattgagc cccggaggcc aaagctacag 138060tgggctgtga tcgtgccact gtactccagt ctggtcaaac agagtgagac cctgtctgaa 138120aaaaaaaaaa aaatccattg catacttcac cgtagcgaaa catgtatgtc ttacctttcc 138180tttcctgcct gtagctgctc ttttacactt aacagccaca ctaagccagc cttaaatgaa 138240aaacaaacca gcacttcctg tgccctcctg cttccttcat gaggggtccc tccctctgtg 138300tacactccat tctcattgcc catggtggtt tgtttccctc ttgtttctca agccatggca 138360gcctgcctct tgccctcttt actaaaaagg cctttgcaga ggctgcctgt gttctttctt 138420tctaggtctc tctcatccta ggccctccag cttgattctg tggagctgcc ctcttgtcac 138480tcagtagctt gtggggtctt ctctgtctag ccacttaatt gattgtgttc ctcgagttgc 138540tgtccatggt ctctcgttac tgttttctct gtgtttctgc ctctctcctt ggccttggta 138600ggtccatccc ctttgtgacc ttggctgttg ctctcatgga caactttctc ttgctggtcc 138660ttgtagtcct ggcatccagc ttctcgacac gggacttgtc ctgccagtac ctcagacttg 138720cacttaaaat tgaactagca ccactgtcac tctccagggc ctcttcttgt taattagatc 138780attagggatg ttcagaatcc cagcatcata gtatgttcct cctcccgcta ccccaggaac 138840cctaacctta cctcctcctc tctatctact aggaggtggc cctcagagtc cgtctcatct 138900tccacctgaa cttccctaat aggctccagc agctgccacc ccgggggctg agtacttcct 138960ccatgccttg tgcagtgctg agccctttac ctgggttctc ctgtttgctc cttattacag 139020ccctgcgaac agatactgct cttaattcca tcttacacct aaggaagctg aggccccagg 139080taaggtgcat ccaaggtcac ccaggtagta gacagtagag ccacgatctg aaccaggcag 139140tctgattcag agcctgtgtt gacactcagc cacctagaac acagcttgga ttgtgggttt 139200ctattacctg ttcaaaaccc ctacatcccg ggtctgtccc tgcacgtgct ctgtggcctg 139260gctgcatctt ccttgaaggc agtgcatgcc tcttcactca gggggcccat gcaggaacag 139320agggccccac agaaggatga ggccagtgca gaatgggctg gaggggacaa tgctgaccag 139380gaagcaagtg tagagaaatc ccaggaaacc tggaggagcc agagacaagg cattagaact 139440cctcgtcgtg acctggtctg cattctctga gtgtgctgct tctgttagct cgcttccttg 139500gtctcaggtt atagtttaag gcattgtgga gccctaaaaa gcctgtactc tgtttttacc 139560tgttttagga ccctttcact ttggggatgt gttgattttt tttttttttt tttttttttt 139620tttgagatag agtctcgctc cattgcccag gctagagtgc agtggcacga tcttggccac 139680tgctgcccct gcctcctggg ttcaagcaat tcttgtgctc ccgcctccca aatacctggg 139740attacaggca cccgccacca cactcggcca atttttgtat ttttagtgga gacagggttt 139800taccatgttg gtcaggctgg tctcgaactc ctgacctcaa gtgatctgcc caccttggcc 139860tcccaaagtg ctgtgattat aggcgtgagc caccacaccc ggcctgaaat ttaaatcaga 139920aataaaattt tgatcccaac agtgatgcca ggcagcccag atctggggga gagggtggcc 139980ttggccagct gggcctttct ctgtttccca agtcttgctg cctctccctg ctgggctttg 140040cagcctgtgc atgtctctgt gcctttgacc ttgtttatcc aaaggagagg atagaatgaa 140100gtcatgattc ctggagccct gagaaggatg ctgtggagaa atttgccggt agaatctagc 140160tgagtgtgtt gctgaggtgc cagcattgtg tgtggggagg ctgaccgctt ggcctgccta 140220ggcccaggat gctccatggc cgggcacaga ggccacttgg ctgtcaggtg tcaggagcct 140280gcagagggca cacagagcct ggaccgcagg ggggtcctgc tttctcacct ggcctccttc 140340agcatttctg tccctcagtc cttagcaagc ccaggagctg ttgagtttgg caggtgccga 140400gtgctgttcc tgcctgtgta gctgtggctc agtcctgtgg gggccccgct gtggcccgag 140460tgcagtgatt cgaggcgctg agtgttccct gactccttct ccaggagctg tgttcagact 140520ttcgcagctc ttggcttgga gctcctggag ggcttggcat tgccgaccaa tgtggaggtc 140580gacagtgaga gaggaggaat gctagctttc ttgaccagtc cattaaataa gtgggatatt 140640ggccaggcac ggcggctcac gccttaatcc cagcactttg ggaggctgag gcgggtggat 140700cacgagctca ggagttcaag accagcctgg ccaacatggt gaaaccccct ctatactaaa 140760aatacaaata ttagctgggc gtggtggcag gcgcctgtaa tcctagctac ttgggaggct 140820gaggcaggag aacagcttga aaccggaagg tggagtttgc agtgagccaa gattgcgcca 140880ctgcactcca acctgggcaa caagagcaaa actctatctc aaaaaaaaaa aaaaaagtag 140940gatatctgtt tctgcttaga aaaatcagaa ttttctaaat gccaggtgtt ctgaatacgt 141000aagtatggga gacgactcag cctgtttcat ttttatgtaa aatcttcgcg tagccatgtg 141060gcactggacc gagatgaaag caaagacatt tctccttaac tttgtttcta ggaatgttcc 141120ggagaatcac agcagctgcc actaggctgt tccgcagtga tggctgtggc ggcagtttct 141180acaccctgga cagcttgaac ttgcgggctc gttccatgat caccacccac ccggccctgg 141240tgctgctctg gtgtcagata ctgctgcttg tcaaccacac cgactaccgc tggtgggcag 141300aagtgcagca gaccccgaag taggttcata atgccccaca gcccagggcg ccagcccagc 141360accctgtcct gagactccca gtaacctgag ctttggccac cgttaaagca ttttcatttt 141420ccattttttg tgagggcttg tgaaatttct gctgcatatt aatattcctt tcatggacag 141480catattattg ggacaaacat gcggtccagc taaaggcatt caaaatagca gttgctttct 141540aaatgcgatt ttctttggca ggttctttga caccattgca tcttgtggga tatgcttgtc 141600atgctctgtg gctcctacta agttctagtc cttaaattgg ttccatagcc agacatgttg 141660caatgtctta acctcattat aaagtaaatg tggttctggt tatccttaga taatgaagta 141720acagtgtagc aaatttcaaa acctcttgga aatgttattt taccattcaa aaaggcttac 141780taaggttctc gttatgggtg gccctctttt tgcaaaaggt tttcaggctt aagctccatt 141840tctaggtgct ccaacactcc attatttgta tatgtatgga aataaaagct gtgaccaccc 141900ccaaccctgg cccccgccca gctgaatcct cagcacagta tttctggaag gctcaagatc 141960ccacgctggg gaaaagaagt tctggagaca aaagagggca ggtgctgccg tgcctctctg 142020ctcagtatgg atactggacc ttgtgctgcc agggctccca gtagggccag ttcatggcac 142080tcagctggaa agtccactgt tgggaggcat tcttaaccat ccactctgtg ccgtatgtag 142140tggggtctgg tcattctgtt ggaggagaca gaccagtgac gacatttgaa atgcttggtg 142200gatgtcttag gcctgttacg atgactgagc actgtggggg caggagacag aaagtcagtg 142260tctcctagtt ctgtgctgct ttaacgtgca tagaaatcag ctgcggattc agcagatcac 142320tccttttctg acagatgggc ctgcttactc tgatgttata tcagaaagct ctgaatctgg 142380gaattgtgtc ccctgaattg gagtaacaga aatgcttaga tgatgagtgt ttaaaagaaa 142440taaaccaaag gtaaatttag tttggaattc agcaagcgtc ttcattcagc cctctgaggg 142500caaactacag ctttttgtaa atgtaggtaa attctgtgac tgtttcgtga ccccctctga 142560tccagttttc ctttataacc ttctgtattg ttccttctat tatcctgaaa taacattaat 142620agattaggct gggcgtggtg gctcatgcct ataatcccag caccttggga agccaaggcg 142680ggcagatcac ctgaggccag gacttcgaga ccagcctggc caacatgatg aaatgctgtc 142740tctactgaaa ataacaaaaa ttagccgagc atggtgacag gtgcctgtag tccctgctac 142800tcagaaggct gaggcgggag aatcgcttga acctaggagg aaaaggttgc agtgagctga 142860gatcgcgcca ctgcactcta gcctgggtga cagagtgaga ctccatctca aaaaaaaaaa 142920aaaaaaaaaa aaattaatgg atcaatggat ttttaaccta ataattaaat ttcaaaaaat 142980atcgttcttt aatggtaatg taaaggtaaa attaagataa tatgtaacaa gcatgtgagt 143040gtctaaggtg tccccgtggt ggaaggaaaa aataaatccc cataagtgtc caagatgccc 143100atagagagca gagctgttct ggtttaaacc cctgctctta gcactgtgtt tttccagctg 143160tgggtggtgg gggatgagta tctttttatt tccatgagat gagaaaaatg aattactaga 143220agtgtgaaat acaaaacaca gctgctcttt ttttagccat agactcagca gccataaaat 143280tgctgtatcc agttgcagaa attcctgctg cttactcttg accctctctc ggtttgtgtg 143340catctcctct caggctggct cccagatggg agctggctcc aggcgacact gggtgctctg 143400ctccaggagg tccttatgtg ggtcctgccc tagcctagcc cctctcttat ggactctgtc 143460actgtgggtt tatgattcac tctcaatctg tcttacctct tggtgaactg ttagagtcct 143520gcctatactt tggcgcttgt gggtgtgttg tggtacacat gatgtgttgg tcacttccca 143580gctcatcttg ttctgagtca ccctagattt gggacattca ttcgccacca gtaccgggcg 143640gtgtatggcc tgagatttgg gggggcttgt gctgctacaa attggggctg aatttgagtt 143700gacagtggac cttctttatg tctactgctc atatttgaat tgcaaatact gcctcttctc 143760tttcagaggc tcattaccct atagctgtat tattgcaaag tgcacaatta cagcttgagt 143820gtaagtcaca ctgcgctggc aggacggccc actgagaaag ggcacgtttc ctgttcgtta 143880gttttcacat tgacacataa tttacaatac agtaaaatgt acttttctat caactgtagt 143940cagtaacagc ccccctcccc caaccacatc aagatataga ggagtgctgt cacttcaaac 144000agttccctct tcctctgcca catcctgccc ctccccaggt ctaaccacca atccgtgctc 144060tgtccctctg ttcagcccat tgcagaaggc catagaaata gaatctatag gctaggtgtg 144120gtggctcatg cctgtaatcc cagtattttg agaggctgaa gtgggaggat gacttgaggc 144180tgggagttca agactagcct gggctgccta gcaagacccc atctccagaa aaaaaaaatt 144240taaaaattac aatcacgtcc ctgtagttca gctgcttggg aggctgaggc aggaggatca 144300cttgagctca ggagttagag gttacagtga gctatgatcg tgccactgtg ctccagccta 144360ggtgacacag caagacgttg tctctgggga aaaaagaaag aaacggaacc acgcggtgtg 144420cagccttctg agtctggccc ctttcggtga gcagtgtcta aagttctgtc gcgtgttgcc 144480cacgcgtcgg tggctcgctc cttgcaactg ctgagcattg tatggctagg ctgtagtttg 144540ttttcacttc accagttggg aaacagagaa aaggcacttt ttaaaaagtt taaatctgta 144600gaattttggt ttttaccagt tctcttctaa atcctgaggg attacaggaa aagttgttgt 144660atttcagaat attcttagct tgatgtgacc tctgtccccg ttaaggccct ttgccgcaat 144720gggaaggacg tcgctcggtc agaccctgaa ggtcagaggg gcagtttggg agtgtgtcaa 144780cattttaact gtatggacta gagccaagag tctcaaggtt tataattccc acgtattcaa 144840aaagaaaaaa acaataaagt gagaagtcag tgtagagtga aataacctgt gttagtgggg 144900aagaagtgtt tttaaacagg atttccataa cgtataacat caacatgttt agagtggtga 144960tgtttcattg ggaaacgaac agtaaaacat gaaagcaggg aggttttcat tctggcagtt 145020ggcaactttc acggcagatg gagaatttca aaagcaattg ctcaattatc aaacatagcc 145080agtgtgagtt ctgaaataaa ggtgctgatt gaatgtgcag ctttatggtg gattttgcta 145140ttcaggcaag cattttaatt ttctgcctgt taaattctgt tttctttagt ttttcatatg 145200tggtttattg tagcttagga atagataact gagagtatat attacacata caacattctg 145260atatggcaat atttaaaaca acttgtctgt tttagaacta gaattaaaca taatcatctt 145320cagtattttg caaataagct cactgccatc cagaaacatt gtcaatgcat ctgttgctcc 145380ttctagaaga cacagtctgt ccagcacaaa gttacttagt ccccagatgt ctggagaaga 145440ggaggattct gacttggcag ccaaacttgg aatgtgcaat agagaaatag tacgaagagg 145500ggctctcatt ctcttctgtg attatgtcgt aagtttgaaa tgcctgtaaa cggggttgag 145560ggaggtgggg accaggagaa catcctgtgt agatgacact tgcatggacc ctctggaacc 145620cagaccgccc ggtgtcctgc caagctccat cgaaactaaa tctagaatga atgtttactt 145680ctgctgtgac atataattgg agaccaggcc tggccttcca gtcactggat tctaagttgg 145740actgtgagag tttttgcagc tgactcattt atcaaatgcc cggctattgg ctcacgccta 145800catgatgctg ggtatgtttg ttaatttgag ggaagcaatg gaataataat aactaatgat 145860ttaaaaaaca aagtaagtgc attgactgta gtggggttct gattttaaat ttttttaaaa 145920attaatacca ggagcagtgg cttatgccta aattccagca actcgagagg ctgaggtagg 145980aagatcactt gagcccagga gtttgagaca agcctgggct atggtgtgag acacccatct 146040ctaaaaaaat aaaaaataaa aaattatcca agtgtggtgg ctcgtgcctg taatcacagc 146100tctttgagaa gctgagggcg gaggatggct tgagcctggg agttcgagac cagcctggca 146160acacagagaa accctgcctc taccaaaaaa agaaagagag gaagaaagaa aaattagcct 146220ggcgtggtgg tgcatgcctg tggtcccagc cacctgagag actgagaagg gaggattgct 146280tgagcccaga agtttgaggc tgcagtgagc tgtgactgtg tcactgcact ccggcctggg 146340tgacaaggcg agacccctgc tctaaaataa tttttttaag ttaatttgta gaaaaggtgt 146400tagatgttct ttgtcacatt ttatgatgga ttcctgttta aatgccgttc tctttaaaga 146460aaaaaaaata acttgtggga gtttttaacc ataaaactag catcacatat ttaccatgga 146520gaatttacaa aaaaacaaat aaacggagga aaataaaacc tcctgtaatc atactactca 146580gagataactt gctgttagat tttggtctag atttaatact ttttctatat ttatattaaa 146640aatatttaaa acatatgcat ttctttgtca caaacatggt atcttataga tactactgtc 146700acatagcaaa acagtgttaa atattctgaa tcagaaaagg aagccgactc tccaactgaa 146760agaggtgtta tcctagagac tttttctggt

gatgacaatt tattaatagt cactttttgc 146820tttactttct ctattgaagt agtttttcta ttttgttcta cttttaagga taatataatt 146880tataatgctg tttttcacag aaatataaga aaaaagatac taattttata agttaataaa 146940gtttgatcat cccaaatcca aaaatctgaa atccaaaatg ctccaaattc tgaagctttt 147000tgagtgctga cattatgttc aaaggaaatg ttcattggaa ggtttcagat tttcggattt 147060agggagctca acaaataagt ataatgcaca tatttcaaaa cctgaaaaaa atcctaaatt 147120cagaatactt ctgatcccaa acatttcaga taagggttat tcaacctgta ctgtcagatg 147180atcccaaatg aaaaatatta atcgttaacc aaatatcaag gaattgatca cattttacag 147240tttctgccta ggattatgaa tcaagatgaa aaggctctgc atgtttaaaa atatatattt 147300ttattttctt ataaatctta aatatctaca cttaagattt atttgatatg tgggatccat 147360tcatattttg gattcaacag ttctgtcaaa actgtggcag tgatagggga ttcttttttt 147420cccactgaac tatcacaaaa ttggaaaaag agtaattgga gaaccccact ggcttagccg 147480gcccgaagcc cgggagaggg caggcagtgc tgtggatggg gtcatcccag cgcaacgctg 147540cccctgctac ctgcggatct cgctgaggcc tgcctttgtc ctttgaccct tggccatttg 147600ttagtgtctc tgagagctgg actgctgtac cctacttccc cagggggcct aacttcacac 147660agcctctgcc gcagtgcgtg gttggaggtg acggccttgg taaatcgagt ttcctacctc 147720ctcaattatt tgtgctcata cactgtatat ttttagtgag gtttatattt gggatgtgtt 147780ttctccttct taccctttct ggcctttcta tggcattaat acctggtctc ttcttgtgta 147840cttgaaaatg aatctctcat catatttttc cttagtgtca gaacctccat gactccgagc 147900acttaacgtg gctcattgta aatcacattc aagatctgat cagcctttcc cacgagcctc 147960cagtacagga cttcatcagt gccgttcatc ggaactctgc tgccagcggc ctgttcatcc 148020aggcaattca gtctcgttgt gaaaaccttt caactgtacg tcttcatcct gccgactatt 148080gccagttgca gttttccctg ccttaaaaat ggagtattga aatttttaac tttaatttct 148140gatttgcaaa atagtcatct tttgttcttt tccttcttgc tgttagccaa ccatgctgaa 148200gaaaactctt cagtgcttgg aggggatcca tctcagccag tcgggagctg tgctcacgct 148260gtatgtggac aggcttctgt gcaccccttt ccgtgtgctg gctcgcatgg tcgacatcct 148320tgcttgtcgc cgggtagaaa tgcttctggc tgcaaattta caggtattgg gaagagaaac 148380cctgatattg atttatattg aaaatttagc aggccaagca aaacaggtgg ctggcttttt 148440cctccgtaag tatggtcttg acatggtcac cgatagaaac atggaaacat ctgcaaactt 148500gccgttactc gtgtgtccga tctgactgtt tcttgtattt ttttctagtc tgcccttact 148560aggatgaact gtacacatca gttcatcctt tttaaatgag catgaggtta ttttgggttg 148620ttaggtgtta caaacacact aatgtgtttt tgtctattag agcagcatgg cccagttgcc 148680aatggaagaa ctcaacagaa tccaggaata ccttcagagc agcgggctcg ctcagaggta 148740atgctggaaa cacaggtcgt ccttgtgtta ggacaaccca ggatataaag gatatagatt 148800tgtacgggaa taaattcaca ggacaagaaa tcgatgtgcc ttataggtgg gtttactgca 148860gaagtgccat aatagaacct tcctactttt aaaacaacca gatctcactt tctaaagagt 148920aaaggatgac cggcaggatc acgtctgtga cgtgagtgga ggcagtttgc actcctggtg 148980gctgtttgag aggtagcatt tagaatgcct gtattcactg tcctgtgatg agtgggaaaa 149040taggttatca ggtttatctt agcaaaatca aagcatgtca tctaattgct aaacaagagt 149100tggcaaatct gagagacatt actcaatcct tggcatgcag gacttacatc tgcatcctgt 149160tgccatttta tgtcttcaaa gcatttaatc atttagttgt gtttgcaaag tctttgagaa 149220gcctttgtca gaaatcccta catctcctat gtgagtgtat ttccatgact gcagaataag 149280ttaaactttt acctttttcc ttcccttgcg gggcggggtg gggggcaggg attgtgtgtg 149340tgagagggag agagagacag cagagaagga gaatataatt atcatgctgt gtactttgag 149400ctgaaactgc aaaaaaggaa aaacacacaa aaattattat gcttttcagt ctttagagta 149460ccttgtctat tatgcttttc agtctttaga gtaccttgtt gatggtgttt ttaaatggga 149520ttgggcacaa ttaggtggac agtttgggat gatttttcag tctgtagggc caagctcttt 149580tgtaatttgc attatgaagt tgtcactctc atagcagatg gcgggagata aactattatt 149640actttttgac cctagactta gtcttcagtc cagatgaggg agattaaaag attataaata 149700tcttgtgcca gatgaggtga ttttattttg aaatgaccat gaattcctat cagttgtctt 149760actgggatat ttgatagtgg aatttgtgca tttgagtctt agatgatctg ttttacattt 149820attaagaaag cctttattag cttttatact gtgtattgcc tgttgcagtg tttgagtata 149880aatgaaattt ctggaaaata ttaatggagt acaaactgtg atacttaaaa gtaaactagg 149940gcctgcattt gtatcatgac ctgtttgagt attgatgaga agatagctgt gaagaaaaag 150000gtttaaacaa gtgtattttc ctttaagaag ccactaatag tgcatctcct tagagtgtat 150060atttctagaa tcctagtgtg cagagtttag actaagacta aaaaaaaaaa aaaacaaatt 150120atactgtaat ttcattttta tttgtatttt agacaccaaa ggctctattc cctgctggac 150180aggtttcgtc tctccaccat gcaagactca cttagtccct ctcctccagt ctcttcccac 150240ccgctggacg gggatgggca cgtgtcactg gaaacagtga gtccggacaa agtaagtgtc 150300cagcgtgtct gcatgggagg cacagggcgc tgagtgcctc tgtcacctgt ggcagataca 150360gagagtgcag aggaggtgcc gtggacccaa ggagttctgg cgctcggctc ggctcagtga 150420agctgtggtt agagacgtgg ggggccatca aggtctgagg gagccaagca gtgctgatgt 150480gggacccttt tggtaggagt gtggggtgag tagttagtgg gtgaatcaag gaatagtcgg 150540ccgtggcctg caggcccctg actgcacagg ccttcaagca catgtcaatg ccgttagcct 150600ccctccatct cctcatacct tctggccacc tgtgagttgc actgccactg ccagccattc 150660tggtatgttg tcagcacctc cactgctcat acctcatggt tagggaccac ctggagcctt 150720ggtagagcct tggtagagcc ttggtactct actttcctgg acaaagttca gcttatgaat 150780atgaatttag atttcaaaaa ccagcagccc aagtataaga aagcgaaggt tcagtcctgc 150840cttcttaggc tctattcgct aagcacctgc cctgccctgg ttgctgggga gagatgagta 150900aagcagacaa cccaggagag gatggcaaag gggccgctaa cccttagtgg tttagctata 150960tttggaaggc ctattggaag ttcaccaggt gaagggggag gctgtgaggg tgcccaggca 151020ggtaacagaa gtccaaaggg gaaaacctgt ggtgtggtga gccgtatagc cacagcctgc 151080cggccggcag ccctctcagc ctagtgcggt gttcccaagc actggcctag gcctgtagct 151140ccagggatgt gaagtcccct tgaacgccgc ccatcatgtt ccccttatcc atttttttct 151200tcccaggact ggtacgttca tcttgtcaaa tcccagtgtt ggaccaggtc agattctgca 151260ctgctggaag gtgcagagct ggtgaatcgg attcctgctg aagatatgaa tgccttcatg 151320atgaactcgg tacgggggga gcagtggagg caaggaatcc tcagcttttc ttgtgacttc 151380caagtgggat ttgtctcatc atcatgtgac ccacttgttg acaacacatg ttggggactc 151440cagtctgggc agggacggga tgtcggagag actccactct gaatggggcc gggaagtggg 151500gaggactcca tttcagatgg ggtcgggaca tgggggttat gctgatcgag acagaaaagc 151560acattgtttc agccacatta gaatccacgg aggtgttgtt ttgaaatcca gctggcccca 151620aggctgggtg tatggtttgg gatgagaact atctggcctc cactggagga acaaacacag 151680gatgttatca tctaagctcc atggccaaga cagaatggaa gtcaaggttg cgtatttgcc 151740gtagacttca acacagtgtc gtaatgcgtg acgtcaataa cttgtttcta gtgtcttgga 151800agttgatctt tagtcgtaaa agagaccctt ggatgcagcg agatttcctc tactcacacc 151860tctgttagat gtagtgaggt tcttcacccc ccaaccccag atgtcagagg gcaccctgcg 151920cagagctagg aggccatgca aagccttggt gtccctgtcc ctcacccgtg ggcaggtcct 151980gtgagcagtg ggggggccac ctcttgggta tggtgcagcc atggcccaag cagggcttct 152040tctcagacct actaggacgg gagaaacctc ctggtgcttt agccctgcgt tgatatgcag 152100caaatgggag ggaagtgggc acctgggagg acaaatgcct gtagaggccg ggagtgacgg 152160caggtgttca tgaaaagaga ccttgtgggg agggcaacac aacagtgtgt tctgatgtac 152220tgaagagctc aactgaaaac aacaggagaa ttagcccaaa atccatttac taaaattgtt 152280tatctttttt tttttttttg agacaaagtc tcgctgttgt cccccaggct ggagtgcaat 152340ggcgctatct tggctcactg caacctccgc ctcctgggtt catacgattc tcctgcctca 152400gcctcccaaa tagctggtat taacaggcat gcaccaccac gcccggctaa tttttgtatt 152460tttagtagag acgggatttc accatgttgg ccaggctggt ctcaaactcc tgacctcagg 152520tgatccgccc acctcggcct cccaaagtgc tgggattata ggcctgagcc accacgcccg 152580gcctaaaatt gtttatctta agattcatgc agtgaaagct aacttactga gtgataaatt 152640tgcttagtga tctgtttatt aggttttcca aatttgctaa ttgggctttg aacagctgta 152700aaagttctga ctgtaaaaga aagcttcaac ttttggcatt catgatgctt ttctgagtat 152760taaactaaga tagatgtttt acctgaagga tcggccacca atctttaaat ggctaaacaa 152820aagggttgct aaaacataat ccaaattgac ataagaaata ccatttttcc aaccaaaatt 152880ttggcattca tatggctact tttacgtatt tcagctgcat ttgaacatct ttttcaaact 152940ttagggtggt tggtgtatca ctgaggtctt ggatgacact ttagctttga ttttgttttt 153000atgaattaaa attgtcatac caaaattttt atttcaagca aatccaagag cataaaaaat 153060taaaatatta cttaaaatac taagagagaa cagatatata ttttactaag catatgttga 153120atgaaattgt tcaaatattt ataacaggca tagagtagaa ttttcttaaa aatatttttg 153180atggtatacc aatttgtatt ttctcagaaa catttgcctt attctttttt ctgttgtgtt 153240tttcttacct gattgaaagc tcataatctg ttgttattgt ttgttaacct ttaatgctct 153300gatttcagga gttcaaccta agcctgctag ctccatgctt aagcctaggg atgagtgaaa 153360tttctggtgg ccagaagagt gccctttttg aagcagcccg tgaggtgact ctggcccgtg 153420tgagcggcac cgtgcagcag ctccctgctg tccatcatgt cttccagccc gagctgcctg 153480cagagccggc ggcctactgg agcaagttga atgatctgtt tggtaattaa aattaaaatt 153540tatcttattt ttaaaaagca ttccagggcc agtatagtac tttgcaccaa gtaaatgtac 153600aataaaggca gtggatctaa tacattgaaa gcgtttacag aggtagctaa agagcagcac 153660gggtgtcctc ggctcagaat ttcttcctgt gtgtttgcca ctttgccatt cattgacatg 153720gtcatggaca tagggctcta agcccttgag gaaggctggg ccagacctca ggggagatgc 153780agccccaaac cacgtgcagt cctgtggacg gatgtgtaga tgtgccactg aggaacaatg 153840tcttgagctt tcatcagatt ctcagagaat tgcttgactg cctttcgaag ttgatgcatc 153900tgtgctcacg tttgcaccca cccacgaggt ccttctgttt caggggatgc tgcactgtat 153960cagtccctgc ccactctggc ccgggccctg gcacagtacc tggtggtggt ctccaaactg 154020cccagtcatt tgcaccttcc tcctgagaaa gagaaggaca ttgtgaaatt cgtggtggca 154080acccttgagg taagaggcag ctcgggagct cagtgttgct gtggggaggg ggcatggggc 154140tgacactgaa gagggtaaag cagttttatt tgaaaagcaa gatctctgac cagtccagtc 154200acttttccat ctcagcctgg cagtaagtct tgtcaccgtc aagttattgt agccatcctt 154260caccctcacc tcgccactcc tcatggtggc ctgtgaggtc agccaggtcc ccttctcatc 154320tgcacctacc atgttaggtg gatcctaatt ttagagacat gaaaaataat catctggaag 154380tactttatgt cttaagttgg cctggacatg tcagccaagg aatacttact tggtttgtgt 154440tagtgcttgt aattcgcccc cagaatgtgt acacgttctg gatgcattaa agtctggcct 154500gtatccttaa agggccatcg ctgtgctgcc tgccctcagc aaggacacac tttgcagacc 154560cacagaggct ccgcctccac ctcacaccaa agaaagggag gagtccaaag ggcatcagtg 154620ccattactca caaaatgata aatacaccct tattctgaac cacgtggagt catatggttt 154680gtgatccctg tccttcaggt ttcagcttag tggggaagtg ggaaagtcag cgtgtgatca 154740cagcacaggg tgattgctgc tgattatatt atgtgcctgc tgtatgcagg atgaaatact 154800ttatatgcgt catcttattt gactctcaca accccctgtg agataggctc tgttactccc 154860atttgacagg tgaggaaagc aaggcttaga gaatttcagt gacttgccca ggtcctctga 154920gctaggaagt agccattctg gcatttgaac ccaaggcctg ctatccctag aacccacgct 154980ctcaaattca acctatgaca gaggcaagcc ctggtgctgt gggagcccca aggaagagcc 155040tctggcctgg tggccacgta gcccaggaga gatttctaca ggagcccaca gcgctgaagg 155100agagagaggc agcagagtaa gggggctttg tggcagagag gggactggca ctttggggaa 155160taggtgggtc aggactgaat gtaatggagc catgtcagag ctgtccttct ggaagggcaa 155220gggcacctgg acgcgctgcc cctcagtgct ttggacggtt ccacaactgt gattcacacg 155280gcttccccaa acgaaggtac acgagtgggc attctgtgac tcggtacttc cctttaggcc 155340ctgtcctggc atttgatcca tgagcagatc ccgctgagtc tggatctcca ggcagggctg 155400gactgctgct gcctggccct gcagctgcct ggcctctgga gcgtggtctc ctccacagag 155460tttgtgaccc acgcctgctc cctcatctac tgtgtgcact tcatcctgga ggccggtgag 155520tccccgtcca tgaacggtgg gttcctatca tagttcctgt ctgcttcacc atgtttttat 155580tttgtgctgc ctgtttgcca ggtactaagc taggaattgg ggatggagag gtagataaaa 155640tatgcatcag gaagggctgg gccccatctc ttactctcca atatattgga gtctacactg 155700gaatttaact ggaatttgct tttttagtca ttttatttag attttgaagt ttcagctttc 155760atcaaaaata cctctaaact ttatgtctct gtgatctttg gtcttagctg ttttatgtat 155820ttagtcttat atgatcataa gattaataac attacattca gaagattatt tgttttctgt 155880cagagttaaa atgtttgttt ttatactgca ttgtaatatt aacgtactgt aaaataaaag 155940tggcttgttc ttttcaagga acagtatcct caacaagggt cattagccac aatttttaaa 156000aaattggacg tcatagttta catgttagag ggcgttttga agctttgtat ttttaaatta 156060aatgttatag agtgatgttt tcatgtttca taattgtttt catctgtgca tttgtagcca 156120acttgaaaac aaagatccag ggattactac ttaaaagcca gacttcttgg aggttatagt 156180gatgattttg atagtatctt gagccgtctc ataataacct cagggtgaga gatggccaac 156240aggagacagt cgagggactt agaaatctga atgaaatctg aagttcaaat cttcagacat 156300ataccactaa ccaagagatt ggtacctcag tctagtattg tctgtttgtc taaaattggt 156360tctaaggaat ctaggctagt ctgtctatcc ctttcaactt ttgtgaggct gcacaaatgt 156420aaaatgttga ataaaaagca ctgatggaag tgtgtagaaa ttcttctctt tgttctgttg 156480taattttagt tgcagtgcag cctggagagc agcttcttag tccagaaaga aggacaaata 156540ccccaaaagc catcagcgag gaggaggagg aagtagatcc aaacacacag agtaagtctc 156600aggacccatt tttttcttac atgttgttcc tccaggactt aaaaatcatt cacagagacg 156660tgcaccgcgg tgagtgtgga ctcctggaag cgcaccgtag ctccgctgtg tcctgctgct 156720cctccctagc tgtcagggag gctgtagtcc attgctttgc cagctctttt gtttccgagt 156780gaacacctta tccgtacaca tgcggctgtc tctgacccta cagaccagct gggatgccac 156840tgggggagcg ctcccttccc cccgcacttc ccacactctg cagttattct gagatccttg 156900agggcaggga acaggtttgt cttctttgtg ttctcagaaa ttaatgctcg gcctctggtc 156960agcaagcaac aaccttttgt tgagtgataa tgaataaata aatgtttccc acatgagtat 157020tcagtaacct cagtgtcagg ttcagccatc tgttttggtg gatatttaaa agaaaattcc 157080gcttttccta cagaaaaaaa aaaaaatcca aatcccagtg atttaagcca gttatagact 157140tagacatata ctacggcttt tcatgcactt tcctcccaat tctagagtag gtattttact 157200aggaaaatgg tggcagtgcc tgttgggagg aagattcttt ggccaagtgt cttttgttct 157260tgccagggcc cctaggctgc tggggtgctt cagcttcttt agcccagtgt ctggtgggga 157320atggcccctg ttgcctgtcc cacagaggtg ggggtgcctc acctggagcc tgtccacaca 157380ttttacacag cacgcttacc tggagcatca ggcatctttt ccatgctctg tggctcagga 157440aacacgcctt ttcaatcatg agtgcaccag tgcttttggg ctttttctcc ccgcttttgt 157500gcaatcctgg ttgtggatgg agttttcctg tctttagtct tctgcatagt acttttctct 157560tctggttccc ggttcaaggt tttgtaatta gagaatgacc cagaagcaat ggcattttaa 157620tgcacagcca aggacttctc tgaatttgta tctcaaacct ctgtgggtcc ttcaggcttc 157680agtttgtgat ttcatgattt cttgttgcta cctaaggaat atgaaaacac ccacctccct 157740actctgcatc ttccagccga gtggcacctc aggctgtgga tcctgtgctt ctgtggtgag 157800gataagaata gtgccaaccg tgtggattga aatcaatcag ttaatccctc catgtaaagc 157860acctggaacg gatgacagtc ttgttatgaa tactcaacaa atgctatcat gatttttagt 157920tagatttcca ttgctttaaa acagttgaga catcttggcg gtttgagtta gagcaacggg 157980ccctgaagtg ggttctgttt gggtgaagat gattatgctt attccccatg gccctcttta 158040ggcaagagtg ggaagctttc tttgtttttt taatcacctc gataggacgt tacttcttaa 158100aggtcatcca ataaatatta ataggccggg cgcggtggct cacgcctgta atcccagcac 158160tttgggaggc cgaggcgggc ggatcacgag gtcaggagat cgagaccatc ccagctaaaa 158220cggtgaaacc ccgtctctac taaaaataca aaaaattagc cgggcgtagt ggcgggcgcc 158280tgtagtccca gctacttggg aggctgaggc aggagaatgg cgtgaacccg ggaggcggag 158340cttgcagtga gccgagatcc cgccactgca ctccagcctg ggcgacagag caagactccg 158400tctcaaaaaa aaaaaaaaat attaataaag ccaactcgtt agcgtggggc ttaattgctt 158460aagtccaatg agaagtcctt ctctatccta ggaagttgcc caaactgtag aatctcgtgg 158520cctgtgggta atagccacgt aatacacact cactgcctca acaaatcata ttttagtagg 158580tatgatattc tagactcaag acaccattct gtggatcttc ccaagggtgt gaagtgtcca 158640cagcgtctgc cttgggagtt tccatgccca ccagaaccat gccccaagcc cctcaagcac 158700tctgacctag gaaagccagt gaagcaagga tgacaacatg gccctttgat actagctgag 158760ggacagacac aggtcctggg agaccagaga aagacgaggg gcagaggagg tgtcctaaag 158820gaagtctgag gctgaggagc cacaggatgg cttccagctg tcacaggctg ctgctggcct 158880tatcacagag agtgggccag agggctggga accaaggcca gagctcaggt tcaggaccat 158940tccagcaatc ccagcagaaa atggggagaa ttgtatggta taggcggata tgaaggtaga 159000atctgcaggc cttcagtggc caactcagag tctaagtgga ttccacagtt acagcttgag 159060cagctggttg taggtcatgc tttctacact gggcatatag gatgtgtttt ttaaaaagtc 159120ctctcttaac cgttgcttgt ttagatccta agtatatcac tgcagcctgt gagatggtgg 159180cagaaatggt ggagtctctg cagtcggtgt tggccttggg tcataaaagg aatagcggcg 159240tgccggcgtt tctcacgcca ttgctaagga acatcatcat cagcctggcc cgcctgcccc 159300ttgtcaacag ctacacacgt gtgcccccac tggtgagtct gctcgttcct tgcagaagac 159360caagtacggt gaaaggcacc ggtaggccct gggctgggca cacgtgagag ggcgggacag 159420aatccccgca gcccagaggc tgcctgctgt ggttctggtg cccactgtgg ttctggtgcc 159480aggctgcttt cctcaggcac cacgtgtgga ggtcgctagt agaaatactg ggttttctaa 159540aatgaactga ggccctacat ccctaagaga ttagtgttag acctgattct agagcaacta 159600gaccactttg cttaatagca gaccagaaac cacaccccct cgagtgagtg agattttcct 159660ttggagataa ttcatgtttt tctacacagt tttgcagttg tcttcagaat tggtttaaag 159720taggtgttat tgccaggcgc agtagctcat gcctgtaatc ccagcacttt gggaagccaa 159780ggtgggcgga tcacttgagg tcaggatttc gagaccagcc tggccaacat ggtgaaaccc 159840catctctact aaaaatataa aaattagcca ggtgtggtgg tgtacgcctg taatcccagc 159900tactcaggag actgagacag gagaatcgct tgaacccagg aggcgaaggt tgcagtaagc 159960cgagatcgcg ccactgcact ctagcctggg caacagagca agactccgtc tcaaaaaaaa 160020aaaaggtagg tgttattgat cagaaccctt gtttcagata acatgaggag cttagcttga 160080ggagagtgag ggttgatgga gggggactga cttctgccca gtgaaatggc atcatctccc 160140accagcccgc tgaaataaga tgatggggcc tgttccttag ggcctgcagc atcctcaggc 160200aggaaagaaa ggccgacctg gcagggtgtg agccagcagg tgtaggtcag ggagaatgga 160260gccaggtccc agggaagagg cttgtggctg cctgagaagg gtgcgtgcct gcctgtgtgt 160320gtgtgtgcac gtgtgtgtat gtatgctgga gagtctaggg aggcttgctc caaggacgca 160380gtattgtttg atcctgagag ataaggattc tgccgcaggg aatgaaggta ttccagatgg 160440cgggcttatt ccgaagaaga ggccagtgcc tggcggtgct ggaagcagtt gcagaacagg 160500gagttgtagg ctttcctggg aagagagcag caggggtgct ggagaagcag gccacacttg 160560ctgcatgggg ttgctctcgg ccccactctt ggtgcacagc gagtcactgt gggttcatta 160620gcatctggtt atgagacagt aactgctcct ttggaggggc tcgtggagac catgcaggag 160680ggcacggtct tgaggtcatg ccgtccagag cacacctgag gataggccag gacgggctgc 160740acgctgtagg taaaattcct ccagcaagct cttcactggc attgaggagt tccctgagtg 160800cggtcatctg gaaggcagct gtaacaggca ctgcagtctc tccctgggtg ggtaccagag 160860aggagcatag gggagcataa ccgatttaaa gagagggctt tcctgtggtg aggtaagaga 160920ttagctggtc attatcatag agccccctct gcctttgtgc agatgggctg tgggaatcct 160980ggggttccgt tgggtccttt gtcacctcac tgaaggcatg taagctgagc tggccagacc 161040gtgagctgat cctgccactt gaacagcatc aagcctgcct ctggattctt ctgtgcatgg 161100cacttgtctg agcacctcac gcacagagaa ctggacttca gagtttacag aaataagctg 161160tatggttcat tttcatgcct gcttgccaat aaacatatct gagctgaacc tcattgaacg 161220cctgccttta ttctagcaca gcacctgctg tttgtgggcg aggggtgctg tctctaactc 161280ctgcctgctt ctcccagcac tccctgagtg gggtgtgcca gcagcctcag gatgaggaca 161340ggaagtggga gggcagagca gatttgggag ggccacttga tggggaagga agtcccagga 161400agcagttgga gctgttttct gggggagaag gtgccagctc tgggacagtg ttggggtagt 161460gaggagggag cccagtggag agaagtcggg cttcctgctt cctcacagta tgtctgtcct 161520gactcaactc ggatgatgtc acttcctttt catcttctca ggtgtggaag cttggatggt 161580cacccaaacc gggaggggat tttggcacag cattccctga gatccccgtg gagttcctcc 161640aggaaaagga agtctttaag gagttcatct accgcatcaa cacactaggt actcttgggg 161700cctctccttc aggtcaccat tgtcggacat ctaccgggag gaaatccaga gcccccagta 161760ctgggatctt ctcatttgac tccagaaaag atttaagcat gataataata caaacctatg 161820tgaatacatt ttgcagtgtt ggcaaaactc

cttttatact gagaaaatag atcccagttc 161880ctgtgttttg tggcttgaat cccagctttg tgtattccgg gcttgtttga agtcaggaaa 161940ggttcatgtg tagtggacaa cgtgagacca aattctgcct tagattttgc atttaggcta 162000aacagtggca gcacttgtct cagaatgttt tcttgtgttc accagtctga tcctgttgtg 162060tctcagtggt ccattttctc atatgggaac aagcagacgg gagcagatgg agtcaggttt 162120cttggcactc gccttcccca gagcctagag gcagcatggg gagaaagcag gcttggggct 162180cagacagtcc tggtctgctt ccagccctcc tacctgagca gcgcagggca agtccgtcta 162240acctctagag accctcagtt ttgtcatatg taaaatgggg gtcgtgtcta tttcatagaa 162300ttgttgcaga tttagaaatt acatttctaa acaaatgtta ccccttattt ctaaataagt 162360gtctaaatga ataagtcacc acttttgccc ctatttgatg gcaagaggtg tgatcttgtg 162420gtgggactgt aatcagtcag ttctcagtga ctgtgccctg ctgtggtgtt tcctggaatg 162480ttcctgtctt gtcctagaaa gtctggcagg ggcaccctga ctccactgtc cagtcctctc 162540cccagtccct cgggcttctg cagatttgag gcttgtttgg atcccagaag gttgtggcag 162600gagacacctt gcctctactt tcccctttat aattcaatgt ccaaagagag ccctgagcag 162660gtacctcacg ccagctgcct cacggagctc ctcctcttcc tggctgtgag gatcggtatc 162720agtggcctcc tgctctctcc cccttgccta acacgagcac ctttgcttac ttgggtgccc 162780ttgctcttga actgcccatc ggacgtgcgt gacccaagac tgtgccgcag tccttgcctt 162840gtctgtgctc attttctttg ttcatttttt tccctgtaac gtaaattgtt atatttgtct 162900gtatctgtgt ctgaatcagt cctgcacgct ctccttctct ctgtctcttg ttctttcttt 162960accccgttta tcacggggac cccgatgtcc attgctctag ttctcctgtc ctaagcaccc 163020catcccgtct ctctggcctt accacaagtg gcgtggctgc ctcagacatc atgatgggga 163080catgaagcac agctgtcaga aacaactgtt cgttagatac actcgaatgc agctcatcaa 163140tagggatgga gggtctgtcg gatgtatttt cactgaatcc ccgttcctac cttgatacac 163200tctttttaat ctattcttct agacaggtca gaggaaccat tactttgact tttaaatttt 163260tagcagcttt attgaggtag aattcacata ctacagattt cacccactct aagcggacag 163320cttggtggcc attagtttta tccacagagt tgtgcagcca gctgcacagt ctcagggctg 163380gactccaggg aagattttag cccatttagt gagtggggca gaagtggccc tggccctgca 163440cgaggttgcc tgcatgggcg tccctgccct gtccctgtgt ctgctccact gggggttgac 163500caggctgcca gggccgactt gggcctgtgc cacctgcctc tcatgtgtct cggacagtgc 163560agccgatgtc tatacttcgg tttcctcaat gatgaaatgg aggggatagt gttccccgca 163620tcatagaact gtgtgaggtt taagggactc actgcccttg gcgtggagcc ttctccaggg 163680gccgtgctgt gtcggcgtag ctgtcagctc tccgttacag gcttgagaag ggttgacact 163740ctctcatgta acatttatat ttctaggctg gaccagtcgt actcagtttg aagaaacttg 163800ggccaccctc cttggtgtcc tggtgacgca gcccctcgtg atggagcagg aggagagccc 163860accagaagta aggccacacc ctgtgctggt tggcacatgg gcagttatgg ccgcttgcag 163920gcctttggtg gggaataaaa taaggcagca agctggtgtt ctttttttct cttaccttat 163980ttttgaaaga gtagctgaat ggtgtcttga ctgatattcc agagcaggga caaagcctgc 164040tgaggtctgg gggctgcgat taccaatggc tggaatgcat tttattacgg tgcattccat 164100gttaaggatc aatacgattg tgccctttct ggaaaatatc ttttagttta tcaatattca 164160gaggagtgta ggttgaatta aaatgaaaag gcactttata aaggccatga gtagtacctg 164220gtttcatttt tctaatgtct tgcagagatt ttatcaggct tcttgaagtg ttcacgtaca 164280ttacgctaac acgatattaa taataactgt gctctggtac agcggagcca gcagaatggg 164340aagttgtgga atgcaggccc ttgattctga tagaaggtgt ggtttgaact cacagaaatg 164400acagtttgga gggtagacat atgtcacaag tcatcaagat tgtctttaaa ttcatgcata 164460gaagctaaca gggtgtcata agcaaggcct gtaaaatgta tgagggaatt caaagataat 164520ttattaaaaa gtaattcatg tttggagttt tgtgcccaaa ggagtccttg atttgaaaaa 164580tgggcttttg cccatcagat tgtttcaggg cccgtgtgtg cggaggccct gccttgtgcc 164640ccgtgagctc agcctgacag aaatcctttg gtagcactta aggctcctct tcctcccatt 164700gaggcaggga agactctggg ttctgcaggc agaggtggtt gtgggtgtct tgctgctctt 164760gttgacatgt gggctctcct tccaggaaga cacagagagg acccagatca acgtcctggc 164820cgtgcaggcc atcacctcac tggtgctcag tgcaatgact gtgcctgtgg ccggcaaccc 164880agctgtaagc tgcttggagc agcagccccg gaacaagcct ctgaaagctc tcgacaccag 164940gtttgcttga gttcccacgt gtctctggga catagcaggt gctggggaca gtgggttccc 165000cgctgaagcg tccagcagct tcaaccaggc cgttttcctt cattgctaga attgaaaaca 165060ccgtccgtgt ggcctgtgca ggagatgcag acccaaaggt ggcctcctgg tcagtgagaa 165120gctggaaacg tgacaggaac tgacgtgggg ttattgagca tttaggggaa gacgttagca 165180gagcaggaat gagcaggcaa ctagtagaac acccacttaa gggctcacgg acaggtgctc 165240acttaggaag tgagtttcat ttggtattac accaggttcc tttaggcaaa gcggagggaa 165300agttctggtg tttttcactt gtaagatttt gaaggaaaca aaacactctt tacctttttt 165360ctaaaatgta ggtttgggag gaagctgagc attatcagag ggattgtgga gcaagagatt 165420caagcaatgg tttcaaagag agagaatatt gccacccatc atttatatca ggcatgggat 165480cctgtccctt ctctgtctcc ggctactaca ggtacctgag ggaaagggtg cgggggagcg 165540gttgtacttg ggctagaatg agagaagact ggcatgctca ccacaccagt gatgcgggaa 165600gacctgagtg tggtctgagt tggaggctgt ggtgctaaat acgctgcccc tttcataagc 165660aggagtctta gtcaggccca gggaggaagt aaaatctgga aatgaatgag aagcattctc 165720tcctgccagt caagaaatga gaagcgaaag aattctcacg ggctgtaaga ccagcaggat 165780ttaaaagttg aattagttgc ttatgttaag aactcaacca agttcatcta cacaagctga 165840atctccagct tttcctaaga aaccatgtgt ggcagtggct gcagggcagg gcacagctgg 165900gcctgagcac cccgctccct gcacctctcc cctccctggg ccctgcctgt cactgcccac 165960tctcccacca agccttccgg ttgtgtgcct gccctatcac aggcatcgga gcttgtcacc 166020tggtttaaaa gaagagagtt gtgtggggat ttgggatgca cgtttttcac tcaaaagtat 166080tttagcgtag agctctgtga ttccgtagct atttaggagt ttaagcacct tgaaggcttt 166140aattgcagaa agttctatgt ggacgtgcaa tgtgttatac gcagtgtcta tgagactcaa 166200atgtttatta gggcgttgaa gtaaactgag cacttggagg gccatggatc cagccttcaa 166260ggagctcata agtcaggagg acccaggagc aatgacctgt catagaaggc agaaaagagg 166320ggcacagagg tgggtgggag gcatacacag gcagctcctg gagctccaag gggagcaagt 166380gcttccaggg aagggggcgt ggaggcccct ttggaggagg caagttgatc tggggtctgg 166440cagagggtta gctggggaca tttagcggga ggctggtgcc cgggaattgg ggggatgccc 166500agcagaaaga catgaggagg ctggcctggg gcgtgggggg gtgtgaaagg ttaagtgggg 166560gcattatcct gctcccgctc ctgccggctg tatctggtca gcctgggcac cgaggtgggg 166620ttctggaagg cactgttcac caaaatgctt atctgggtcc cccagagagc ttgcctgcct 166680ggactgtcgg ctcgcctgca actgctgact cctaagcttt tgcagctcag cccacaacca 166740gttcctattc acagaggtgg gagctgaggg gtgacaagtg actgctgcag tcttatttgt 166800catagagaaa aagtgacaga gtccagcttg cccactggcc ctgccagctt aactggttat 166860aaagtgacaa atccccaaga cccacagggc tctgcacaac ctgggccctc ctgccagtgg 166920cggcgagggc aggtggctca cggctgggtg cctgtctggg caggagctgg gctggtatgg 166980ggtgggcctg cggccctgcc cccctgtgca gatcaagact cagggtgctg gtgttcacag 167040gtgccctcat cagccacgag aagctgctgc tacagatcaa ccccgagcgg gagctgggga 167100gcatgagcta caaactcggc caggtcagtc tcgcgccccc gccgcctggc ctctgtccgt 167160ttctgtcctc agactttggc gcttgacaca cccaggagaa aagctcagtg cactttttaa 167220atgaaaggaa gttttccttt tttttaaaaa aaaatttaat gttcattgtt tttatctgtt 167280ttattcctag gtcccgcaag cagaggaagc attagttttg tttttattta tgttctgtat 167340tccagaaagt agttaagaga cctcacatgt agcgatagag atgtgtgtaa gagacagtga 167400gagggcgtga cttggactta agcaaggacc gtgagacaca aaaagggggg tgaggacaga 167460gtggagtcag ctgaaatgct caggaggaag tagacgccat gaagggccat ggtatggggg 167520gccgcaggcg tggccgtgag tgtccctggg gccagctctt ggggggctcc ctgagtgtcc 167580ctgtccctgt ggccagttct gggtgggagc cccgtgtgca ggcagacagc tcggccactt 167640cctagcaggt cacattggtc tgtgcttctg tttcctcctc agataagtga agggattcaa 167700gggtctgggt gtggtggcta acacctgtaa tctataacat tttaggaggc tgaggcagga 167760ggcttacctg agctcaggag gttgaggctg cagtgagcca tgattgcacc actgcactcc 167820agcctgggca acagaccagt actctgtccc ttaaaaaaaa atgtaaacag aaacgtaggg 167880ccatttgcat atgatggcac atggcgtgga gccctacagg tgtatgctgg gcggggcccg 167940gctgtgctgg ccgacttgca cctttccctc caccccggtg ctgtgtcttt cgctcaccgg 168000gttcctgatt tagtgaaagc agttgtgcag gacagttctc tttgtagctt ttgtttctgt 168060ggaaatgggt cagaatatgg tgtttagaaa cacttatgag ctctgagagt ttcctcttct 168120gagttcctgg cctgcagcct tcacagcaga aaccctgtga tgtcacaagc ctgtttctgt 168180tccctgctct ctgcctgtac tgtcctgttt tgtgcctgcc ggtttcagtg acaggaagca 168240gggagctact ggaccagcct gtatttttct agacatagtt ggaaaaagaa gtcccactct 168300tctgtccttt cacctttgac agatgtttcc accccaagat aagtgaaaat gaccaatagg 168360atgcactgta tttttcatga aagtgtttct gaagggcagg ctgagagtga gaggcctggg 168420gctcactggg tgcctctggc cttgtcctgg gcccagggac actggtctgt gcccgaggta 168480ttccctatcc ccccaacccc gctgcatttg gccacatcct tcaatgtttg cgttgtgtcc 168540agcgtccgca aaccaactgt catgggatca tactggggct gaagtacggt cccacccctg 168600ccctgtctgg ggctgaagta cagtgccacc cctgccctgt ctggggctga aggacagtgc 168660cacccctgcc ctgtctgggg ctgaagtaca gtgccacccc tgccctgtct ggggctgaag 168720gacagtgcca ccccttccct gtctggggct gaaggacagt gccacccctg ccctgtctgg 168780ggctgaagga cagtgccacc cctgccctgt ctggggctga aggacagtgc cacccctgcc 168840ctgtctgggg ctgaaggaca gtgccacccc tgccctgtct ggggctgaag gacagtgcca 168900cccctgccct gtctggggct gaaggacagt gccacccctg ccctgtctgg ggctgaagga 168960cagtgccacc cctgccctgt ctggggctga aggacagtgc cacccctgcc ctgtctgggg 169020ctgaaggaca gtgccacccc tgccctgtct ggggctgaag gacagtgcca cccctgccct 169080gtctggggct gaaggacagt gccacccctg ccctgtctgg ggctgaagga cagtgccacc 169140cctgccctgt ctggggctga aggacagtgc cacccctgcc ctgtctgggg ctgaaggaca 169200gtgccacccc tgccctgtct gggatgttta gcccctagat gccactggac tgagccgcta 169260cttgcttttg ggaaagaggg gtgggggtta ggggtctggg cgaggggagt gcaggggctc 169320ctccttggcc tgagagctgt tcatacagac tcctcgccca ctccctgcag ggtgctgggt 169380cccagggggg aaatggccct tggtgccaag aacgtgagtt ggggctagtg ccagtgatga 169440tggagaacag ctttttatgg gcacacagcc cacagcactg tgccaagtgc tcgaggcttc 169500ccgagaacca ggcagaaagg aggacagtcg aggtgtgctg actgcgtggt ggctgcgtga 169560tctagagcgc gggtcacaaa ggcgcgaggg agctctggcc ttgggtttac cgcaatgact 169620gccagtgcgg gagactggaa aaggaatctc acgtattggt tccgtgtttt ggggactcca 169680ttcagatgtc acttaggagt gaaagcatcc cttcgtagag cctctttctg tgtcaccctc 169740ctcagctgct cctggggttg actggcccct gattcatgcc tttagcatgt gctggagctt 169800cccagcagct gtccagcccc tgccccaccc tctctgtggg ctcccttgcc cgtaacctgg 169860ggtgtctgaa cgacccttgc taaggggcag actgttagac ggtaggcatg tgctgagtcc 169920cagtggccac acccacccac caggagcctg gcactgtggc cgcagcactg agcagtgccc 169980cgtttctgtg gcaggtgtcc atacactccg tgtggctggg gaacagcatc acacccctga 170040gggaggagga atgggacgag gaagaggagg aggaggccga cgcccctgca ccttcgtcac 170100cacccacgtc tccagtcaac tccaggtttt ccaatggcct ttttcttttt aacagaaatt 170160tgaaatttct tatcagtcat ttgatttgtt tgaggtgctt cttgaaatga gcctctcatc 170220tcatgtactt ggaaaatacc catctcgcat attccacagg aaacaccggg ctggagttga 170280catccactcc tgttcgcagt ttttgcttga gttgtacagc cgctggatcc tgccgtccag 170340ctcagccagg aggaccccgg ccatcctgat cagtgaggtg gtcagatccg taagtgagcc 170400ttcccattcc cctcacacct gcacgtgcca cacgcaccac acacgccaca caccccacac 170460acacacaccg cccacacaca tgccacttgc acacacaccc ctcatgcatg caacacacac 170520acaggccaca cgcaccatag acaccacaca cacatgccac atgcacacac atacacggca 170580tgcaccatac acacaacaca cacagcacac atgccacaca cacacgccac accacatgca 170640ccacacacat gccacatgca cacacactcc acatgcatgc accacacaca cacacacaca 170700ccacacacac cacatgcacc acaccacaca ggttacatgc acacaacaca cacatgccac 170760gtgcacacac cccacacacc acatgtatgt gccacacaca gcacacaacc acacacatgc 170820accacacaca tgccacatgt gcatgcacca gacacatggc acacactaca cacacgccac 170880gtgcacacac cccacacaca tgtacgcacc acacacatgc cacacacaca tgcaccacac 170940acatgccaca tgtacacaca tgtatataca caccccacac cacacacaca ccacttgcac 171000accacgcaca cacaccacat gcgcacacac acaccacata cgccacatgt acacaccata 171060cacacaccat acatgcacca cgtgtaccac gcacccacac agacacagca cacgcataca 171120ccacacacac acgcacacat gcgtcccgca cagtaatgtc tcttgggtgt aagaacacga 171180cttgccagta gtagcgttct ggatgcgttg cctggattct aacagcgcga ttctcccctt 171240gccctcctgg ttttccacat ctccagcttc tagtggtctc agacttgttc accgagcgca 171300accagtttga gctgatgtat gtgacgctga cagaactgcg aagggtgcac ccttcagaag 171360acgagatcct cgctcagtac ctggtgcctg ccacctgcaa ggcagctgcc gtccttggga 171420tggtaagtga caggtggcac agaggtttct gtgctgaagc cacgggggcc catctgcctt 171480gggacctggt gttggccaga ggtgccgggt gcggctgcct ccttccaaga gttgacccga 171540accggactcc acggcccacg tgagctgcag tgcttctcag atggaggggg ttcagcgacg 171600gtcagtgcca ttcacaggtc actgtgatgt gggttgtggc ggccaagcca tggtttgggg 171660tcccgtatcc ctgggcttat gacatcattg tagtagccca tccccacaga accacggtgt 171720gtggtggcgc tgaggcatcg tagatggtgg aaatgctact ggcttcccca tgctctgccc 171780tgaggcctga ctgcctcact ccccttctca gttatgttcc aggccccccg agcttcctgg 171840ctggacagct tctctcctgg gggccgtttt gtcacagtga ccctgtgttt ctagtcccaa 171900atctgggtgc tatagtctct ttttagcgtg gtggttgtct tagtcttttt tggctgctac 171960cacaagttac cttagactgg gtaatttata aacagtggaa atttacttct caccgttctg 172020ggggctggaa gttttcatgg tcaaggtgcc agcagatttg gtgtgtgatg agggctgctc 172080tctgcttcat agatggcatc ttctggctgg gtcctcacgg tggaaggagt gaacaagctc 172140cctcaggcct tttagaaggg ccccaatcca caagggctct cccatcatga cctcatcacc 172200tcccaaggcc ccaccttctt gtactgtggc actgcaaatt aggtgtcagt gtaggagttt 172260caggagggat agaaacattc agaccatccc agcggtcaag tgttcatcct cttgagttcc 172320tccttattct gcttctggtt tatcaggatt cagccagtgc agcatggtac ctgtattctg 172380tggcacatca ccacatggta tttgccaagt atccatcacc tgcacacgtg aaatcattgc 172440ccgtgggtcc cgacatctgg cgaagcatat tcaaggatgg cagaactgtc agagctggca 172500cctctggttc cttgtcatgt ggcattacct agtaatccat tttatgatag caatggaaac 172560tcatttcttc aacaaacacc tgagtggctg ccgtgtgcca gccgtctggg gcccttggtg 172620agaatggcat ggtggtgccc atcagggcct gcctagcccg tgctctggac gggctcctgt 172680gtgtcaggaa cgacaatgct gtcatgacgg tgaatgattt ttttttttgc catcactcca 172740gccgctaaca tttgcggagc tcttcctccc gcacccccac ctgacaaggc caagggtgac 172800cttggcccca ccctaggcgg ccaaggtcag aggttagctg gcttgtctgg gtcacacaaa 172860atgcagcaga ggttgaggtg agcacatgtc cgtgacctgg agcctgactc cctctctgcg 172920agtcttgact gctcttgcct agactctgtc ctccccgagc ccaaacgcca gtcatcttcc 172980cttgtgggtg tccttcagcc tggtgccatg ctggtgactc agcagccgtc cagggagtgg 173040aaacaattga gtgtgtgggt tccctgtgtg ggcatctctc ttcacggcga acaccctctg 173100ggtgttgccc acacgatgtc aaagcggctc ttggaagggg tccttctcct ttgtgggaag 173160tttcagctgc tgggctaact tgaattgtaa ctgtggtttt gtgctcaggc ccagatcccc 173220ctaggcaagt gttgtgccat cagtaatcaa atgagaaata atcattttga aaagcagatc 173280ctaaggcagg atggtcatgg acactcactc ccagctcttt gtgcactcat gctttctgga 173340agatggccat cctctgtgaa ggttttcagc gcgtcatgct tggtacccac gtatccagag 173400catgtcgttt tgaggtattt gcccaccgtt gtgaaatccg tgccacccga gagcaggtcc 173460tgatgtgggg ctttcagaag tgggacctgg ggccgtacgc agtccttagg gaggggccgt 173520gtggcgttgt gcgtgtgagg ggatagcaca gggtgaggtg ggggcccaag aaggaagtga 173580cccacaaaga acagcctcct cttttggtcc ttgttcctgg gatggctggg agtggcttct 173640gtgtcgtccg gccatttccc ctgcggagag gctcctacca ctgccgagaa cctcatcatt 173700ccacaaaaac aagaggccgc ctggccatcc agcgctccat gggaattctg tgtccccata 173760gtcttgggct gaaggagggt gacattcctt gctgacttct gcaggggtct cctcactgtt 173820aaagagcaga ttgaaagtga agaacgtggg ctaagtgttt aggtcgatat ttaaccctgc 173880taggttttgg atactaagtg aaattgaggc cattttggtt gaagttgaca gaaaccacta 173940tcagggatcc ccaagactac cccaggcttt tctagaaaga ctctcagcta agatgtgtta 174000tggtaaaagc acacaaaaca aaatcagcaa agaaaattag caagggcaga ggcccatggg 174060gcgatgtccc gaggacacca ggcttgagct tccagaatcc tctcccagcg gggtcgtgca 174120ggacgcactt aactccccgc acagtgagcc gtgacagcgc gtgtgcagtg tcgtcgccag 174180gaaagcacac tagagactcg gtgccagggt ttttactggg ggctgggcac atgggcaccc 174240tctgcctgcc tcgtgcccag actctggact cccggaggga aggcaagttc tcagcaccaa 174300ccctggtgcc cacacaagca gctgagcaca gggagcccct cctcagtgag gatggtgggc 174360accgtcccaa caccagccag gggccagcct tgcacacagg cctctcagga tggtctccgg 174420cctgctgtgt agtctcttct gcacacaagc gtgagggcag cgcccccgcc tcggctgtgg 174480ggaggagcca ctgggacgtg agctctggtg gcatgcagca gcttttgtct gtgtgtgcct 174540aggacaaggc cgtggcggag cctgtcagcc gcctgctgga gagcacgctc aggagcagcc 174600acctgcccag cagggttgga gccctgcacg gcgtcctcta tgtgctggag tgcgacctgc 174660tggacgacac tgccaagcag ctcatcccgg tcatcagcga ctatctcctc tccaacctga 174720aagggatcgc ccagtgagtg ggagcctggc tggggctggg gcgggggtct cagaatgagc 174780tgtgaaggaa gcagcatcac cctctccaag tgcccaggct cctggccaga tggcaggcca 174840ggtatcagtg ggaacccagg tgggtgccat ggctgaggtc agtgagacgc aagagcacag 174900gtgcgtccta gaggcttcct cgggcacctc cagcgagctg gagctctcgc ctctgctgct 174960gtctcatgtg gcgcttagca cactctccca cgtgcccatt cctgactctg ctctcgaggc 175020catcggctct cattctctgc tcccagaacc ctgttattac ccaggctagc ctcctctctg 175080caccttcccc gccctggccc agtacctccc tcttgtttcc actgtgattc cgacctcacc 175140ttatcttaaa gctgctggac ggcaggttct gtacacacgt gtccttgaca aagcacggct 175200ggtgccgcaa cccctcagcg agcaagtcaa gctcttcaca gcgatgtctt acaagcgcag 175260agggctctgt gacaccctgg tctcaccgcc actcttccaa agtcgcagag gctttagcag 175320agatgggccc agcctctctg agtcataggc ttctgcacac gggagctgtc tttagaggga 175380gggtggaatt tcatcagcca cccacatggg ggagttgagg gcaagaatta ggagcaaaga 175440tgggaagggg tctgggagga atggccagtg atcccctttg acaagtgggc aggaaacggg 175500ggctaggtca aagttgagtg gaagacctgg agggagacgg gaaggtctct gtaggcacag 175560ttcagacagg agggaggtgt gagccagggc acatgccggt ggccgtctgg caggatttgg 175620gacatgctgg agcagggaca gcggctcatc aggggccatt gccctcatcc aggccagagt 175680gtcacaagcc cgtggggagg cccttctcgc ctgtcatcct tgctgggcag tgggtgctgt 175740gctagcagga caggcggacg gctggcaact gtctctgcat ccctggagcc tggcataggg 175800ccaagtcaca cggggcacag gcctgcaaat caggcacata tgttggtgca gtgacgtgat 175860tttggggggc agccccagaa caggccccag acacaggcca aagccctgcc tgtgctggtg 175920tgttgggctg ttctatggct cttgctgtgg gcatggagga ctcagggaag gagagttgag 175980gtggtccagg agttgcgttt gggatgcaga gagcttgtgg catccaggta gaaatggtgc 176040gtggggctga cctcagcacc atgggcagag gggccgtgtc acgtgcctcc gaggtggagg 176100tgggaccacg tggtgacaga tatacgcatc actgggcacg tttttgtggg tgttgggggg 176160catcgtattg gctcctctgt tcacagtggc cactcattca gtccctggct accaggtcct 176220cactgtgcca tggggaaggc cggcgctgtc gggggatcac agaaggcagc acgtcatgat 176280ggcatgtgcc atgaaggaaa agcacagggc actcaggaag tagaggggac tggcctgggg 176340tgtgggaatc tagggcctcg ttgagggaca gagagaggaa gtgtgtggtg gccagcatgg 176400aggtggccac aggggaggct gagttaggcc gagagggcag ggcgttgggg aggtagacgg 176460gctcagccac tcagggagtg gtcaagcaga ggctgaaggg tcaggccagg ttgcaggggc 176520ctgggggagc cactcagggt aggcgctccc gggagcccgc ctggcccata gctctacact 176580cccgcgtggg gccggacatg ctgtgaagcc ctctccacgt tggatggggg tggctgagcc 176640tggatgctgt ctcccgtttt cagctgcgtg aacattcaca gccagcagca cgtactggtc 176700atgtgtgcca ctgcgtttta cctcattgag aactatcctc tggacgtagg gccggaattt 176760tcagcatcaa taatacaggt gagtgggccc tggctgtctt cctctgcaca cggggagtgg 176820gcttcccttc tcttttcctt gcaggatcat accagtgggc cagttttgac ttggtcggga 176880ggaggcatga acacctgaga ctgtgcagcg

attctttgac acagaggcct ttctccctgt 176940gcagatgtgt ggggtgatgc tgtctggaag tgaggagtcc accccctcca tcatttacca 177000ctgtgccctc agaggcctgg agcgcctcct gctctctgag cagctctccc gcctggatgc 177060agaatcgctg gtcaagctga gtgtggacag agtgaacgtg cacagcccgc accgggccat 177120ggcggctctg ggcctgatgc tcacctgcat gtacacaggt gagcatgtac acggtgccca 177180taaggccagc ccaagtcctg ttcaagggag gcaggagcat gctcactcaa gggacctcga 177240ctaggtgccc tctgatttca cacttctggt gttgccccaa gccggcccca tcaccttgca 177300agaaaggctc tggagccccc agggctggag tacctggtca gggttgaccg tccctgtggt 177360cactcatccc atgtggctga gctgggctgg gtcctgggca agcaaggggc tgatatcacc 177420tgctttcaga tctccaggga ctcactggac ccctgtgtac aaagcactgt ctacagagcc 177480tattgggttg tatagaggta accttcgtac tgaacacttt tgttacagga aaggagaaag 177540tcagtccggg tagaacttca gaccctaatc ctgcagcccc cgacagcgag tcagtgattg 177600ttgctatgga gcgggtatct gttctttttg ataggtaaga agcgaagccc catccctcag 177660ccgttagctt ccctagaact ttggcctgaa gctgtgcttt tgtgtgtgtc tgctgatccc 177720ctggcgctgt tgctggagtc ctgccagtga ttccccacca cagcctgacc atgggctgcc 177780ttggctcagg gttccactgg cgagctggtg gtccttggac cccagcactc aggtgtagcg 177840ttgaccagtt ccaaggttgt cccagtgcct gcccatctct cctgagggct cagggacagt 177900acctggcagt tgggggtgtg gcagggggca ggaatgacca gcctctggga gggtggggca 177960gaagcctgta cagtgaggag gagctggctc agcctggctg cctatcgtga gaggggagcc 178020cacggggctg tgggaggggg gccgtggtgc ctgtgagcag ggtgaggagc agcggcagga 178080ggatgaaggt ggaacccaca catgcatctt tgagacccgt gtggtcagtg gcttctgccc 178140cccaccaccc cccactgctg tgcgtgcata gaattggctt ccctcacctg ctctggaagt 178200gggttaggag cttggtaggg ctttttctca aggacaaggg cccctgattt gctctcaggc 178260ctcagtcctg gcgacatggt ggatctggag ccttgttgca ctgccttgcc tgtgctctcc 178320aatcagggtg gccagtgggg agccatttgg cttttctcaa gagcatactc aggtggacct 178380tgctccactg tttgaccaga tgaggcattc tgaacagcca agcctgtgct ggtctgtttt 178440catgttgatt tttttttttc ttttcttttt gagatggagt ttttcccttg tcacccaggc 178500tggagtgcaa tggtgtgatc tcggctcact gcaacctccg cctcccgggt tcaagtgatt 178560ctcctgcctc agcctcccta gtagctggga ttacaggcac acaccaccat gcccagctaa 178620tttttgtgtt tttagtagag acggggtttc accgtgttgg ctgggctggt ctcgaactcc 178680tgaactcaag tgatccaccc tccttggcct cccaaagtgc tgggattgca ggcgtgagcc 178740actgcgcccg gcccccatgt cgatttttaa atgcacctct gcatcgttct tcagtcccca 178800tatgctcact gagcaccact gcgactggca gacgggcaca gggaggcgcc acgaccagtc 178860ctggccttca aggggcttgt ggtctagtgg gcccaatgct aggtggcgag tgctccaaag 178920agtgtggtgc acgccttccg cttgaccgct ctccagacgc cacagggagg cacctcgcag 178980ctgaccacag atttctctct gtggagcagt gtcttcagag cggctgccat gccactgctg 179040ggcgagggtc tgcgggcggg tagagccagg agcacctgtg aggaagtgca ctgccatttt 179100cgtagctgct tcccgtgtgt ctcagttaca cacggctggc atgtgtgcac tgatgagacg 179160ggaacgtgat ggttgctttt cagcactgaa agggatactg ctcagggggc gtgtttcagg 179220atctggttag ggaagaagca gcgagagcac agatggggcc ctgtgtggta acaagaaaaa 179280agtcctggtt gacaacagtg ccacgaagcg ttagaacaca tagggatgtt tgtggagcat 179340ttgcatgtgg aaagcagcaa aaacataatg ggaacgggtt cttttgttat gatttttaaa 179400aatctctttt gtaacatcct tcccgctgcg ccgtttctgc atattccttt atgtagcttt 179460caaactcctc ttaggagttc tggtccctac agggcgtggg agcccaggct ttacgtagct 179520ttcaaactcc tcttaggagt tctggtccct acagggtgtg ggagcccagg gcctgtgccg 179580agcagcctgc ctccacgagc tagacagagg aagggctggg gttttgcctt tttagtctca 179640aaattcgtac tccagttgct taggctctga ctttccccac ttggaaagtc cctcacggcc 179700gagggtccct cccagccctg atttcacatc ggcattttcc ccagtattag agccaaggcc 179760ctccgcgggc aggtggggca gctgtgggag ctggtgccag tctctgacct gcgtccctcc 179820tcccaggatc aggaaaggct ttccttgtga agccagagtg gtggccagga tcctgcccca 179880gtttctagac gacttcttcc caccccagga catcatgaac aaagtcatcg gagagtttct 179940gtccaaccag cagccatacc cccagttcat ggccaccgtg gtgtataagg tgaggttgca 180000tgtgggatgg ggatggagtg ggaaagcctg gaggtggagt tgcctccgac ttcccagcag 180060attcgccagc agagcccagc tcctccgctt taaagcagca atgcctctgg cccccacccc 180120acccccgcca cccaggcgca gcaggtgctt cccgtccccc cagccctgac actcaggcac 180180ctgcttgctc cttgcaggtg tttcagactc tgcacagcac cgggcagtcg tccatggtcc 180240gggactgggt catgctgtcc ctctccaact tcacgcagag ggccccggtc gccatggcca 180300cgtggagcct ctcctgcttc tttgtcagcg cgtccaccag cccgtgggtc gcggcgatgt 180360atcctctctg ggtccctggt gctggccccg tttcccttgt caacaccgag gctcatgttt 180420catgataagg ttttgaaacc taacctttgc aaaaacccca cagatgccag ggtgacaggc 180480cctcagcccc agggaagtaa aatgctgaca ggggtacaga aaggagcacg tccagacatt 180540tgctgaccag ggcctctcag aggggccggt gtatggcagg agggtcgcag ctgaggggcc 180600tttctgtgga gggcctgggt gaggggagcg agggtgggcg gtggtctctg cagacgtccc 180660gcccactcgc gggctctgtg tggctgggct tctcctgaca ctgcttctca ttagctttgg 180720tcattgtgcc tcgatcgccc tctcggggaa aggcttaagt aaagatccag ttcccacccc 180780cagatgctgg ctgccaggag tttccctttc cacagccctt ccccaagaca gaccacaaga 180840gcctccaagc agcacagttg tcctggtgct gacagcacag ccttgcccgg cgtgcctggc 180900acggctctgc cctcactgca ttggagcagg gctagtggag gccagcggaa gcaccggcca 180960ccagcgctgc acaggagcca ggccaggtga gtgctgccga gtgggtgccc tgcctgcagg 181020gcatccagcc agccaagggt tgcaggaatg gaggtggagg cgctgatgca gctggaggca 181080tccaggtggc ccttccgggg ctctgctcgc tctccaggct ccctggaccc ctttgtagac 181140tgtttcagga gaggaactcc caggtgagga cagggaggca gcattcccct catttgccgg 181200cctttttcct taactcctgc accagcctcc cacatgtcat cagcaggatg ggcaagctgg 181260agcaggtgga cgtgaacctt ttctgcctgg tcgccacaga cttctacaga caccagatag 181320aggaggagct cgaccgcagg gccttccagt ctgtgcttga ggtggttgca gccccaggaa 181380gcccatatca ccggctgctg acttgtttac gaaatgtcca caaggtcacc acctgctgag 181440cgccatggtg ggagagactg tgaggcggca gctggggccg gagcctttgg aagtctgcgc 181500ccttgtgccc tgcctccacc gagccagctt ggtccctatg ggcttccgca catgccgcgg 181560gcggccaggc aacgtgcgtg tctctgccat gtggcagaag tgctctttgt ggcagtggcc 181620aggcagggag tgtctgcagt cctggtgggg ctgagcctga ggccttccag aaagcaggag 181680cagctgtgct gcaccccatg tgggtgacca ggtcctttct cctgatagtc acctgctggt 181740tgttgccagg ttgcagctgc tcttgcatct gggccagaag tcctccctcc tgcaggctgg 181800ctgttggccc ctctgctgtc ctgcagtaga aggtgccgtg agcaggcttt gggaacactg 181860gcctgggtct ccctggtggg gtgtgcatgc cacgccccgt gtctggatgc acagatgcca 181920tggcctgtgc tgggccagtg gctgggggtg ctagacaccc ggcaccattc tcccttctct 181980cttttcttct caggatttaa aatttaatta tatcagtaaa gagattaatt ttaacgtaac 182040tctttctatg cccgtgtaaa gtatgtgaat cgcaaggcct gtgctgcatg cgacagcgtc 182100cggggtggtg gacagggccc ccggccacgc tccctctcct gtagccactg gcatagccct 182160cctgagcacc cgctgacatt tccgttgtac atgttcctgt ttatgcattc acaaggtgac 182220tgggatgtag agaggcgtta gtgggcaggt ggccacagca ggactgagga caggccccca 182280ttatcctagg ggtgcgctca cctgcagccc ctcctcctcg ggcacagacg actgtcgttc 182340tccacccacc agtcagggac agcagcctcc ctgtcactca gctgagaagg ccagccctcc 182400ctggctgtga gcagcctcca ctgtgtccag agacatgggc ctcccactcc tgttccttgc 182460tagccctggg gtggcgtctg cctaggagct ggctggcagg tgttgggacc tgctgctcca 182520tggatgcatg ccctaagagt gtcactgagc tgtgttttgt ctgagcctct ctcggtcaac 182580agcaaagctt ggtgtcttgg cactgttagt gacagagccc agcatccctt ctgcccccgt 182640tccagctgac atcttgcacg gtgacccctt ttagtcagga gagtgcagat ctgtgctcat 182700cggagactgc cccacggccc tgtcagagcc gccactccta tccccaggcc aggtccctgg 182760accagcctcc tgtttgcagg cccagaggag ccaagtcatt aaaatggaag tggattctgg 182820atggccgggc tgctgctgat gtaggagctg gatttgggag ctctgcttgc cgactggctg 182880tgagacgagg caggggctct gcttcctcag ccctagaggc gagccaggca aggttggcga 182940ctgtcatgtg gcttggtttg gtcatgcccg tcgatgtttt gggtattgaa tgtggtaagt 183000ggaggaaatg ttggaactct gtgcaggtgc tgccttgaga cccccaagct tccacctgtc 183060cctctcctat gtggcagctg gggagcagct gagatgtgga cttgtatgct gcccacatac 183120gtgaggggga gctgaaaggg agcccctcct ctgagcagcc tctgccaggc ctgtatgagg 183180cttttcccac cagctcccaa cagaggcctc ccccagccag gaccacctcg tcctcgtggc 183240ggggcagcag gagcggtaga aaggggtccg atgtttgagg aggcccttaa gggaagctac 183300tgaattataa cacgtaagaa aatcaccatt ccgtattggt tgggggctcc tgtttctcat 183360cctagctttt tcctggaaag cccgctagaa ggtttgggaa cgaggggaaa gttctcagaa 183420ctgttggctg ctccccaccc gcctcccgcc tcccccgcag gttatgtcag cagctctgag 183480acagcagtat cacaggccag atgttgttcc tggctagatg tttacatttg taagaaataa 183540cactgtgaat gtaaaacaga gccattccct tggaatgcat atcgctgggc tcaacataga 183600gtttgtcttc ctcttgttta cgacgtgatc taaaccagtc cttagcaagg ggctcagaac 183660accccgctct ggcagtaggt gtcccccacc cccaaagacc tgcctgtgtg ctccggagat 183720gaatatgagc tcattagtaa aaatgacttc acccacgcat atacataaag tatccatgca 183780tgtgcatata gacacatcta taattttaca cacacacctc tcaagacgga gatgcatggc 183840ctctaagagt gcccgtgtcg gttcttcctg gaagttgact ttccttagac ccgccaggtc 183900aagttagccg cgtgacggac atccaggcgt gggacgtggt cagggcaggg ctcattcatt 183960gcccactagg atcccactgg cgaagatggt ctccatatca gctctctgca gaagggagga 184020agactttatc atgttcctaa aaatctgtgg caagcaccca tcgtattatc caaattttgt 184080tgcaaatgtg attaatttgg ttgtcaagtt ttgggggtgg gctgtgggga gattgctttt 184140gttttcctgc tggtaatatc gggaaagatt ttaatgaaac cagggtagaa ttgtttggca 184200atgcactgaa gcgtgtttct ttcccaaaat gtgcctccct tccgctgcgg gcccagctga 184260gtctatgtag gtgatgtttc cagctgccaa gtgctctttg ttactgtcca ccctcatttc 184320tgccagcgca tgtgtccttt caaggggaaa atgtgaagct gaaccccctc cagacaccca 184380gaatgtagca tctgagaagg ccctgtgccc taaaggacac ccctcgcccc catcttcatg 184440gagggggtca tttcagagcc ctcggagcca atgaacagct cctcctcttg gagctgagat 184500gagccccacg tggagctcgg gacggatagt agacagcaat aactcggtgt gtggccgcct 184560ggcaggtgga acttcctccc gttgcggggt ggagtgaggt tagttctgtg tgtctggtgg 184620gtggagtcag gcttctcttg ctacctgtga gcatccttcc cagcagacat cctcatcggg 184680ctttgtccct cccccgcttc ctccctctgc ggggaggacc cgggaccaca gctgctggcc 184740agggtagact tggagctgtc ctccagaggg gtcacgtgta ggagtgagaa gaaggaagat 184800cttgagagct gctgagggac cttggagagc tcaggatggc tcagacgagg acactcgctt 184860gccgggcctg ggcctcctgg gaaggaggga gctgctcaga atgccgcatg acaactgaag 184920gcaacctgga aggttcaggg gccgctcttc ccccatgtgc ctgtcacgct ctggtgcagt 184980caaaggaacg ccttcccctc agttgtttct aagagcagag tctcccgctg caatctgggt 185040ggtaactgcc agccttggag gatcgtggcc aacgtggacc tgcctacgga gggtgggctc 185100tgacccaagt ggggcctcct tgtccaggtc tcactgcttt gcaccgtggt cagagggact 185160gtcagctgag cttgagctcc cctggagcca gcagggctgt gatgggcgag tcccggagcc 185220ccacccagac ctgaatgctt ctgagagcaa agggaaggac tgacgagaga tgtatattta 185280attttttaac tgctgcaaac attgtacatc caaattaaag gaaaaaaatg gaaaccatca 185340gttgttgctg tgtgaggctt gctttgcttc atgagaacct agaccttgct gagctggagt 185400cttaggaagc agtctcctaa gtgcttctcc agcaggggca gaaactgtcc caccagctaa 185460catctggcat tatggagggt cccccaggca gctgccagca gggacaggcc ccgtgttttc 185520tgtagccagg gatgaggaag tggccccagg gcatgggcct ggctgggtgc ttctgcaagg 185580gccttcccaa accacagtac aggtggtctt cctgccctgc agatgggagc tgtgggagct 185640gctggagctg ctggagcctt catggtcaag tgacatcata agcttatatg acatacacaa 185700gcctcaggac ttggcccatg gcactgaagc aggtcatcag gcccagcaca gagactagag 185760ctgtgttctc acagggccca ccacccttcc acctccttgg ccattgacac ctgcgtccct 185820ggcccagctg ctcccaggta acccccaaag cagctggcac atcccacctc tggtgtggcc 185880ggggctgctg tgtgtccgca gggcctgccc cgtctattct agcttgtttg tcctgtctga 185940accagcgcct actccaagaa gcctctgctc agcccagcgg ggatgcttct aagctccgga 186000cgagcctctc ggaagccttg gtgattggtg gtgtagtcat cttgggatgc agatgtctta 186060ccaacctgca agaacaaaaa ccctgtggct tcctctggtg cagggtattt agtcaatgtt 186120tgctgaggtc ccgtctggtt ctggctaatt ggcaggggtc gtccacccat tctttccctg 186180ctctgctgtc tgtgccagga gagacggggg ccagtcggcc aaggggccag ctcctgctgc 186240ctgctcctct tgggcacgtg cgggggcccc ctttctctga gcagggatag ggatcagtct 186300gccggaggga tgtggtggac aggcctaaag catttggggc ggggcatgcc acttgagctc 186360cctaaatctg tctcctcata ggtgacaccg ctccagggcc ccccagtggc ctctcctttc 186420agagctacct aaattctggt cacttcagag aaatggagca cccccttctc cctggtccag 186480gtgtggacag cctggcacac tgagcacacc tggcatggct ggtaatttca gaaagaagag 186540gggccggggt ccagtgggaa gcagcggtga acccctcgtg agtgggcttt gcagtccctc 186600cccatgccac ggcagagctg ccctcaacac agccttcctc ttcctcatcg gagagcacac 186660cctgtcccct tgccgagctg tgccctgtgc cttcggtggt atttgatttt ggctgctact 186720ggctttgttg ggatctggaa gtcgcttccc ctgcgtggtg cgtggagcac tgtaagtcag 186780atgagggaag tagccagggt gaggtgagta ccgggtggag ccgccactga agggactggg 186840taggggggcc ttgcctctac atgatgtgac acagccaacc gaggacagag gaagccccgt 186900tcctgggggt gtggggtgca cccctcaggg aagcctgcag tggggcctga ggaaaggcat 186960cctccgcgag cccacgagtc tggtccatga gcaccgtgac agtgtctgtg ggtagaggtg 187020gacccggcct tgtgtcatca ccaggacctc ttttgggaaa ccatgtggac atcgcttgcg 187080ggtcccccag gctctgcagc cccagcagcc tggctgcctt ttgggcaagt ggcttgagcc 187140acagaggacc cagtcctgtt gcagccacat cctctggggg ggcccgccag tgtggccggc 187200tttctccacc ctacaccagg cctccaggtg tcctggtcgg gggtgtctgg gccctgggtg 187260ggccctgtgg acctgtgagg tcagggtcag ggcatcactg gaggcagagg gctgaagttg 187320tgggtctggg ttccccttgt gtgcacaggc ccctgccctc catgcttggt caggcagcta 187380cccccaaaac tgctaggaca ggctggtcct gaggtggatc ctggcccctg taccctctgg 187440acagcccacc cgcccaacct tctaccctgc cccagcggcg gcagtgttgg ccacatcctt 187500cccctcctgg ccccaattgc tctggggaag tccaggctcc ggagcctgcc caggggcccc 187560ccgtgatttg ggcccaggac tccacgtggt tctctgcctt cacccaagcc ctgaactcct 187620cagctgccaa atccccaccc atctgcacag gctgtgctca ccactgctgc tcctggaagg 187680tgcccctcag tgggacgccc acctcctctc tgggcttctg tgtttgggag ccctgctgcc 187740cccacccttg gtcagtcccc atgtcctgct ggcctgtcag gcagggcaga aaatccaccc 187800agaaatgctg agcaggatga gagtctagtt gggcccagcc tcattattta gaagggatgg 187860aggcctaggg agcatgcttc tagcctgagc ccagcagggc cccgcccatg tcccaggtct 187920gcaccaggga cagctcctgc cgaggcctga cctgcccctt ctccctcagg tgctgctggt 187980tgaccagcct ctggccctag gagaccccgt agcgactgag ggtcccagca ggccatgcag 188040ctttgccaag gtacgagccc ctccccagca ggggacagat gtggggaccc tcccaggcag 188100gagcagctgg gtgcctggtg ctgccatctg ctgcctgcct ggttcttgtc ctcacattgg 188160aggtcagtgt gagggctctg cctcgggaaa ggccatggag cttgccctgt ccagggcctc 188220ccatgtgcac tgagcctggg aagagagggt tggagttgag ccttttaccc tgggaatgct 188280gcctggagga tggtgcgggt gtggggtggc accctgccag gcagggccct gcctccctgc 188340gcccactgga actcgggcag gcaggggtgt aggtgcctcc tctagagccg tccggtgggg 188400gcccccggca gtggtggtgg tgtccactgg ccagcagctg ccccttcagc caggacagta 188460ggcctgacgc tgtccccagc agctccaagg tggatttgtg gaagggggta gagggcacgt 188520agaggcccca tgacctcccc agggttctgg gagggctgtg cccccttagc cagcaccatg 188580ctgggtgata tagtcagatc ctgttacccc tgttgtggag gtgaggaaac aggttagtgg 188640ggaggacatg actaaggtcc atgctgagtc gctagagctg cacccagaac cactgctggg 188700accccatgcc tttctgctta ccccttgtgc cgggagatgc caagagatgc tgggagccag 188760ccccacctct gcccttggag tcatggctac ggaaagggca ttcggaccgg tccctgacct 188820caccggggag ggccgaaccc tgttcctgag gagccagggc ttcctagagg aggtaggcct 188880tctagtcact ccttcatctg caggcactcc acagagctct ctgtgccagc ccccagcacg 188940gagggctgac cttagtcgag tggagatgcc ccagtgccag gcagtaggga tgatgtctcc 189000tgaggcccag atggaaggga ctggactagt ctcatggggc tgatggtggg gccaggcctt 189060gaccagggac ccagtgtagg gggtgcagag acccctctga gttcctcaca catccctggg 189120gccctcccca tacacttcct atcctgactg cgggcaagag ggagccccag ttcgccttcc 189180ctatgctggg cacccacagt ggggctgggc acccccgcca tgcccctgcc ctgtccttcc 189240cctgagagcc tcggtcccac ctccaaggtg cctcagagga cagcaggggc agcgggcaga 189300ggccgagatg cctcctcatt ccaggctcag ctgcccttct tggggcagcc cacacctgag 189360agtctcctgc agttggtcag gcctgaggag ggcagggggg tgcctgctgt ccctctgctg 189420accacagtgg catttagcct gggcaccgcg cccagcacag tccatgctgc acaggtgccg 189480tgggctccac agagccctgc ctgacatgca tgtgttacgt ttcgggtgcc gatgcccttg 189540ggcggcactt ctccgggcag aacccccagg ccaccgctcc ggttccggtt ccgctgcatc 189600tggggctctc ggcaggctgt ggtcctccgg ccagcctggg ggcatctcag tccctcagcc 189660ccacaggggc ctgccccgca gcctgggcct cgagccccgt ctccgcacgc tgtgccgaat 189720ctggctgccc atcagctccc tgcgtaccca gactgtgccc tgccatgccc gtggctcttc 189780ccaggagtgc cctgtggcct ccccctggct tgctgggctg attccctcct gtgtctcaaa 189840cagagctcac ctttgccatc actgctgtcc tcaccggccg gtgccagagg cccgtgtctg 189900tgtaccctgt gtctgcacct ctgggcaggg cctggctctg accaacccgg gcttccagtg 189960tccacagacc taaggcccag ggcgcctggg ggctggagca agagaagcaa aaggagccaa 190020gggtgggggt ttggggttct tgtgagggcc cagccccagg accccaggac caggacaccc 190080aggagcccca gggcccagcc ccagttcaga aggcaggggc cttctgaggg agcttaaggg 190140tcccacagcc caggaccccc accagggcca gtggccagcg ttgggggact cagcctcctc 190200gtcgctcgtc ctctctgttt ctcccacctt ttgccccctt tctccttgcc tgttcccacc 190260cgaggccccc tcttggcctg cgtgagccgg ggcggcactg aactgggggc cgatccgcct 190320gggcggcggt gagaggcagg gccgggagcc gggccgctgg gtttgggcct ggcccgctcg 190380ccgcaatatt gatggcccgt cagtgcagcc ctgattcctg tgctttcagt taaaaggttt 190440ctgttgttgt agcttatgca gttgctctgt tgctatggaa acgtgacatc aaaatgacgt 190500ttcccgttta aaagctttta actaaattcc tgcctgtcag atgtaggccc cattttgagc 190560gtggagctgc cttcgagcga gcgtgagcgg cgcctcccgc ccatggtgcg tggggccggg 190620ccggggccct cgctgagcgc gctctctcac cccacaggcg cctccggcat ggcggcggcc 190680gaggggcccg gctacctcgt gtctccccag gcggagaagc accggcgggc ccgcaactgg 190740acggacgccg agatgcgcgg cctcatgctg gtctgggagg agttcttcga cgagctcaag 190800cagaccaagc gcaacgccaa ggtgtacgag aagatggcca gcaagctctt cgagatgacc 190860ggcgagcgca ggctgggcga ggagatcaag atcaagatca ccaacatgac cttccagtac 190920aggtgggcga gcgggcagtg tgggccccac caggacgggc gggcccgggc gtggcgggcc 190980gctcctgact ttcttggagc tctgagtcgg gacgatgtgt gggtcgtggc ctgcctgtcg 191040gtctcctctg gccgggtatg ggcagaaccc cacggggtga gacggggccc acggaaaccg 191100tgtgtgcagc cttccattgg ggaagtgggg aaactgaggc ccagcaaggg caggaaacca 191160gtctaagagc tgaggggtag caggggtggg gctggtgctg ggcagaggcc aggatggctc 191220ccaggacgta tgggcggtct gggcactgtc cctcggaggc agcaacactc atggtggtgc 191280ccactgacct cacaccctgc tcccccatag ggaggcggcg gctgccagtg ccctccccac 191340caccaagctc ccaagctcag caggggtttc aggggcctac tgcgtcattg gggaaattga 191400gactgcaagt gagaaggagg ctcagtgctc tgcgacttgg agcatccact gagcctctgc 191460catgagccgg tgagccccac tggggctggc cctagggtca cggtggggta tttccagaaa 191520tcaccaggtg aggtgcagga ccagccagcg catgggtggg gcttacggtg cgaagaagaa 191580agaggtggag gcctgccctg gcccaggact cccagcgtgg gggctcccgg cctggcccca 191640cctctgctcc tgctacatgg caggtgggcc cttcctgccc tggcaacctg cagggaaggc 191700cggaggggac cacccagcca gggagatgtt ggcgtctagg aggggacagg tgtggtccca 191760cacacccagc atcttaaagt gcgtgggtcc ccagcccatt aggacagggt cccgggtggg 191820caggggtcat ggtggggtga aggtctcagg cacaggcaag gtcacaggtg cggtgagggt 191880cttgcagggt gtgaaggtca taggtgtgcg gtgaaggtca caggtgtggg gtgatggttt 191940tgggtgtggg gagggtcttg cacggagcga

gggtggcagc aagagctgga agctgcaggg 192000ggagaatggc agcagagagc acccggccct gtgggcggcc tggacagggc tgggcctggg 192060gctgccggag agcctgtcag cttccaggat gggagtggcc tcactcagct gctccacctc 192120cgggtcaggc aggtgagcct ggggcagaga ggctgagagc acctgagcca cttgtgggag 192180aggccacccc cactgccccc ctcaggcgag gagccggcct ccagcacagc agaagggaac 192240ccccagtccc cagccctagt gggagtgggg aagaggccca gcaaggcccc ggacagaccg 192300ccagcctgtg aggtctccgc tttcagttgc gttgatttga ttttttctga gccttgaagg 192360aggggtccgg ggcctggccc tgcccaaagg cccctaggca ggccccaaag ccgggaccta 192420gggtgctgag catgacggat gttgggtttg agcggctggc ttgcgacgtg agggctgagg 192480tgtgagcctg ggtatcttca gaggttcggt ggacacaggc agctgcccgc ggccccactg 192540ttcccgtggc ctcctagtcc tgctcaggca cctggtgagg aagggacgca gagggcagtg 192600ggaggtggcc acgactgttc cagcaggctc ccctctgact caggaattca cgggcaccac 192660ctccctggct ggctctggtt ggtgtctggc caggttattc attatttatg ctgaaagcct 192720cttcagagtc ccaggggagg gtttctgtct ccattcctgg aggctgagag atgagggtgc 192780agcagagtgg gggcctccac tccagaccct gcagtctggg ctggccaagg gctgcaccgg 192840tgcactgcac gtcatggctg atgaagcact tccacaccgc agcccctcag agctgccaca 192900gtcagcctta gttcaccgag ggggaagctg aggcccagag catgagaggg acttgcccag 192960ggccacatag tccttagcag aggaagctgt ggctgggtga ctcgatcttt gtcctttttc 193020tttatacccg cagtctcccc atagcagagg cttttctttt ttttttcttt ttcttttttt 193080tttttttaca agaactcttt atatattaag gctgttgggc tgaagaagcc tgagagggtg 193140gctggttctg tggagcatgg tttgttgaag tacagtttgg gggcctccta cactgagaat 193200aggccttttc tcgtttctcc aaagagtggg ctggctcaag tagggcagag agagaagcct 193260ggggcagagg ttagggatgg gcacccagcg cctgccctca cacgctctgt gctggtgtct 193320tcacagccac gtgccaccct gggcagcatc ccctgctcac catctggctg tgcctgtttg 193380ctgggggcac ctcattcaga atccagctta ttgtttccaa cggccaatgg ccacaccctg 193440gcaggtagca agagtaggag agaggagaca cccactccga gcacaggttg ggtttggagc 193500ccggccttgg ggcactctgt cactcaaagg cagagtgggg agtgggcact gggccttagg 193560aggtactggg tccagtgagg cagagatgcc cctgccccac ccccaccttg tggcttcttc 193620cctggcctgg ccagagctgt ctggccgcca tggggccctg tgtctcctgc cttgacctcc 193680cagagggcag ccgaggccca ggggaggcct ggggacttag cctctcaggg caggacctgt 193740ctgcaggagt aggtgggtgc tgggggtccc agtggtaatg aggcatcagg cagtgtggga 193800aggggcccat ccggcccacc ccagggcctc tgggcaggtt gcaggttgta gcgctggatc 193860taggctcctg cccagactgt aggttcaacc aagaatggca tgggagccca gcctgctgtt 193920tgctttatta aatctgccct gtagctgggg gaggggctta ctttgatcat cactatgtca 193980ttgatataaa aatagaggct cagagaggtg aatgaacctg cccaaagtca cacagcaaag 194040tgtggagatg agatactgac tcagggctgt ggacactgaa gcctgtgctc taacgccagt 194100ggctgtcgct ccctgaggca ttctctcccg aacaacacag ttattatatt acaaaatatt 194160atcactatat ttatatatct tataatacct tattattaca ataaaacctt attactctac 194220ctttcaaaat gaattattta aaaagcagta tttgctcatt gcagagagtc tagaaactat 194280agaaaagcaa gggaaaagca ataggaccag ccccaaggtc ccagcatgca cagataacct 194340tagtaatact gggacgtgtg cttccttttt aacatctgag cccgtgtagg tcctgaagcc 194400cagcttcttt ctaagtccat tgtcatcttg accctggagc ctggccgatt ttgctgggga 194460ggcccttgcc agccgagagc ggctcctgcc tgtgccggcg tggcgcgccc ctctgctgag 194520gctgggcagg acaggggctg ggccagctct gtttctcacc cttggctctt gtgtctctcg 194580tttcaggaaa ttaaaatgca tgacagatag cgagtccgcc ccgcccgact ggccctatta 194640cctagccatt gatgggattc tggccaaggt ccccgagtcc tgtgatggca aactgccgga 194700cagccagccg ccggggccct ccacgtccca gaccgaggcg tccctgtcgc cgcccgctaa 194760gtccacccct ctgtacttcc cgtataacca gtgctcctac gaaggccgct tcgaggatga 194820tcgctccgac agctcctcca gcttactgtc ccttaagttc aggtagtgtg tctgcttgtc 194880cttcccctgc cctggggtat ctcagccccc accatttaga gaaagggact gggagtggca 194940aggccggcgg cggcggccac agtggttgca gaggccgtgg ctgcgggcag cgcctccagg 195000gacaggcggc ctcagaccag ggagggcttt agtgtccaca ggcagaccga gtttgtctcc 195060cagctccatc acttttgagc tgcacggaaa gttccttgac ttctctggcc tcagtctccc 195120tcctataaaa tgggggtaaa tcagtacctt tctcagaggg tggctgggag catcacagga 195180gagaagacgc agcatggggc ccggcacacg gagggagacc aagccccaga ccccagaatg 195240cgccccctgg cctcccttag cccacacaga ccccaccctc acaggctagc tgccctctca 195300gcactgggga gggtgtcggg ctgcacctca tcacgtgttg ccgtgggcat gacccgtccc 195360ctctgccatc catcccacac ctcagacccg tcccgtgctg gccacgtgac tgtgcctgca 195420agatgctcac agggcagccg ggagccaggc agcatgcagg acagacacct gcggggtggg 195480cctggggagc ccagagaagg tgcttttgag gaggggacat ttggggtggg ctttcaaggt 195540aaaatagaag ttggccattt ggaggcaaga acaggaagat tgtggatttg agtcacagct 195600tctcccctgc cctggtcttc aagtctttct gacaggaggt gtcagaaaag tatctttagt 195660agagaaggcg tctccgagga gggtccctct catgccgggg gccgctgctt gactcaggat 195720ttctcattga agacctgaga caaaaacgct tttgctggca gctagaagga accagcagga 195780ggcctgagat ttgtggctgt tgttcccgtg gactgagccc agttctcaga ctcagctgcc 195840tggggccttg cacaggactg gggcgtgggg gctgccctcc ctgatcaggc ccaaagcgcg 195900gatctcacgc ccctgaggtt ggctgtaccc tctcagctca gagcagagtg tgggccaggg 195960atgagcaggc actggagcag ggccctgggg tctgtgggtt ttggcagctc cctgcccttc 196020agggaggtct gctgagacca cgggtggccc ctaccccagc agcagagctc tcaggaggcg 196080cccacagggc tggactgcct ttactcacca cctctaccag agctctgagg tcctggggag 196140agagcccagg cctcttgtgg gccccacacc ctctaggtgc ctgtccttct gcctctctac 196200caaggtgtgc cggccccatt tctaggccgc cgggagataa gggggctcac atctcaggcc 196260cttccttctg ggacctcagt ttccccatct gcctaaggcc gggtggggct ggtggtcttg 196320gcttccctac aggggtcctg agtactctgc actacccagc accccccacc cctgccttca 196380tctctccctg ggggtggtct ctccacccct ggcccccaac tggggctgag cccccacctg 196440cccagtttgg tgggtgaagg gtgctccctg gcaggatatg cccctctgca gcccagaaca 196500tcccaccctt tccagaccga aggggtgtgg attgtcctgg gaccctggtc attggggtca 196560tccgctagtc gcaaaggacg gcaatgcctg tggcctctct ttctttcttt ttcttttttt 196620ttttttttga gacggagtct cgctcttgtg cagagagcag tggcgcgatc ttggctcact 196680gcaacctccg cctcgtgggt tcaagcgatt ctcctgcctc agcctcccga gtagctggga 196740ttacaggcac ccgccacaac gcctggctaa tttttgtatt tttagtagag atggggtttc 196800accatgttgg ccaggctggt cttgaactcc tgacctcagg tgatccacct gcctctgcct 196860cccaaagtgc tgggattaca ggcataagcc tccacacccg gccacccctg ttactttctg 196920tcaaaggcgg tgggttctgg cccctccttt gcacatggaa tatgagaccc tgagtaagtg 196980acctgactcc ctggggcctc agtttcccca tttgcccagt aggattgtcg ggagggtccg 197040gtgaggcccc tggtgtgccc aggctctgtg gccagcacgt ccacagccgg cactgtcctt 197100ccaggtcgga ggagcggccg gtgaagaagc gcaaggtgca gagctgccac ctgcagaaga 197160agcagctgcg gctgctggag gccatggtgg aggagcagcg ccggctgagc cgcgccgtgg 197220aggagacctg ccgcgaggtg cgccgcgtgc tggaccagca gcacatcctg caggtgcaga 197280gcctgcagct gcaggagcgc atgatgagtc tgctggagag gatcatcacc aagtccagcg 197340tctaggccag caggcggcgg cggcggcggg gccgggcggc tggtggtact gctcaggcca 197400cccagggcag gccactcagg ccaggcgggc aagggggccg ccccgcgagc ggagaccgcc 197460ttccacctgg cctctggcag gatgtccctt ctgaggggta ttttgaggaa cccccaggcc 197520ctggggaccg tgaggctcca gtctccagca tgaatgccct tcctcggaca caggccaggg 197580cctctggggt tcactccgag taagaacgtc ctagagccac tctccagtgt cgttactatc 197640aatgatactt gacgtggctt tgatattaaa cgtatacttt ttcattcttg cctggaacgc 197700acagtttgct gttgctggct tggtgaggat gccctgattg atggatcccg aaaatgaaag 197760cagatggaaa cgggttgggg caggctggag ctgggggagc tctctcctga agggaaccct 197820gtgtcctccc tcaccaggac ctctgcgtct ctccttaaat ggcctctgac gcctgatgaa 197880aaccccagcg accttccagg aggcttttat tcagctctgt ttggagcatc aggtgtttcc 197940actgcctcct tagcaatgac actaataaaa gtcgtaacac ctgttcacat gcacagccct 198000gttgagtgtt ctgggtgctg gagatatcat ggtggatgac acaaaggccc tggcctcttg 198060gagcttatgc tcccatgcgg ggaagacaca tgggtcagta gagaaatggt tgcaggttgt 198120gataagtgct ggaagggagg ggttggcctg aggacacgga ggcagacata cgtggagctg 198180ggaacagtgg ccacacaggg aacggccagt gcgaaggccc agaggcagag gacactggag 198240caagcccagg agcagctagg aggctggtgg ccagcagcca ggccacggaa gcccgtgcag 198300cccgtgggga ggagtgttca tgcttttcaa gcttagtggg agtcttttgg ccagtgcagc 198360tctgggtctg acatcggtgg gggacagagg ggtggtggag cggccacagc tgcaagctca 198420cctcactgcc ggcccttcca ccagtttcaa actctttcta gaagctccag ctttcccaaa 198480gctgaattct ctatgagcct ccttggccgg gactcgggcg tctggttgcc ctggctgcaa 198540aggaggctgg ggccaggtgt gtttgagtca cctcctggaa ttaggcaagt tgctgcccaa 198600atagaaggtt gttggcaggt gggtcagcag gtgaacagca tggtttgact cagggttcag 198660aaaaatctcc ctctggctgc caagcgagca ggccgtggag acaggtgcag aggcaggtgt 198720ggcagcaggc atcctgccag gcagtgctgc agtcatcctg cgacaagcag cagcagctca 198780tcctaccctc tagggggtct tgaggtcagc caggcaagag agcagcttgg actccactgg 198840gtgtgggacc agcctgtgga ccatggtggt gtggagggtg ccctcggcct gcctgtgtga 198900aggagaggcc ggcgtgttct gtggagccca aaggggagct gggcaagcag gattcacttc 198960actctgaggg tcctggagct cccaccctcc tcagccatct ccccagagcc tgtgtgccga 199020ggactcggcc catgttgctg tgggatgaga ggcagagtgt cgtgagggtg taaggagcgg 199080cggcagtggt gggaggaggg agcagcagcc agcgctacgg tgccagtttc cagctgccag 199140atgacgccgc tgaccctgtg gttgagaaga gatgcacaga gccagctctt gcaagccagt 199200gtggctgcca tagcacctgc cgagaagcag aaggaagggt ggccccagga ggacagagga 199260tgcgggcaca tctgatgcgg gcctgagttt tgggagcttt tgctctagcc agtttccagc 199320tccgggaccc acccgcctcg taggcaagac accacccaag aaatcatttg cttaacaaac 199380acactgggct ccaactggac acctgtgcca ccctagatgc tgggaaccca gccatgacac 199440aggcacctgc ccccagctgc tgaccactga ggctggctag cagctcccat ggggccagtg 199500tggggttccc cagcctccta acagggagcc agtcacaagc cctcgagagg gaagggtgcc 199560cgcggccctg gcaggaaggt taggctggac gctcccacaa gacataacag atggaggttc 199620taaatgatgt agcaacttct tcaccctgaa actgctgtag agtcagccat gacgcaccgg 199680tacttcagta actgccaggc atccgggaca gcacaccgcg agtcgctgct gtgcttgggt 199740tagaagtggt ttggtctgtt ttcttctcgc cctctctaat cagagtcagt gattcatgcc 199800cttccatcac cttagagaag gggcaggcgc tgcccgacct tctccaggct ggagcagcat 199860cgcctcatgt cagcagaact cagctgtaga atatcgtggg gttggtgcct ttcatcagca 199920gcatgtcctt aacaactttc tgatttcttc cttagttgtt ggtccattaa ggagaaaaaa 199980aatgatctca gccattgcta aaatatttga taagattcag caaagcagca tgttaacatt 200040gaaaactaga atcaggagcc aggcagatgt gcttgctttt cacctgtagt atttcatgtt 200100gttttgacgt ttttagctaa tgcattaaga taaataaaca aaagccgggc acggtggttc 200160acgcctgtaa tcccagcact ttgggaggct gaggcgggag gatcctctga ggtcaggagt 200220tcaagaccag cctgaccaac atggagaaac ctcgtcatta ctaaaaatac aaaattagct 200280gggcgtggtg gtgcatgcct gtaatcccag ctacttggga ggctgaggca ggagaatcgc 200340ttgaacccgg gaggcggagg ttgcagtgag ctgagattgc accactgcac tccagcctgg 200400gtgacagtga aactcggtct caaaaaaaaa aaaaaattaa aaaaagataa ataaaataag 200460caggataaga aatgaagaaa gtagagttac ctttgttttc agatttcatt tttgtatacc 200520cagaaagcca aatgtacaaa agactgggag ctctttaaac cagcttaaac ttgttgaaaa 200580tgaggatgaa gaaatatccc attcagagtt ggaatgaatt taacccagaa ggaacaggac 200640ctctactgaa gagaactatg cagtcttact gaaaaatcta aataatacct gagcgctgga 200700gaaacttcgc acactcctga aagctccaaa gtcaatgtca tcattttatt aatgtcattc 200760caaacatagt ctcaataata tcacttcttg gttttgacat ggacgcgatg atgtttaaat 200820tcatatgaaa aaagaacggg gccaaaagtc caaggccagt cagcgtgaga agaccgctcg 200880gcctccctcg gagtcgggga gttggaaccg cagactgaga tcatgtggct gctggaggcc 200940aggacgaacg tcgggaaatg gagactcctg cgttgctggt gggatgtggt gcagccgctt 201000ccaggagcaa tttggtgtcc cgtcctaaag ctgaagaaac gcatttcctc tggtcagtgc 201060cactcctaga caggccaccc tgcggcagcc gtcctcaaac tggtctgagg acccctcaac 201120gctcttaaaa atcattaaaa gtgggccagg tgcggtggct cacacctgta atcccagcac 201180tttgggaggc caagacaggc ggatcacgag gtcaggacat tgagatcatc ctggctaaca 201240cggtgaaacc ccgtctctac taaaaataca aaaaattagc cgggcgtggt ggcgggcgcc 201300tgtagtccca gctacttggg aggctgagcc aggagaatgg cgtgaaccca ggaggtggag 201360cttgcagtga gctgagatca ctccactgca ctccagcctg ggcagcagag cgagactctg 201420tctcaaaaaa aaataataaa taaataaata aaaataaaat aaaataaaat tcattaaaag 201480tgccaaagaa cttttgctta tgtgagttct aatgaccaat attaatacac attagaatat 201540cttattagaa attaaacctg agacctttag aaaacatgta ttcatttcaa aatagcaata 201600aacccatgac atattaacat aaataacaat tgtatgaaaa atatattttc caaaacaaaa 201660agttttcggg agaagtgtgg catagtttta catggtcgta aatctctggc ttaagagaag 201720cccactggcc tctcagcagg ctctgggtcc gtccactttg ggggtgtttt ggttgtgaag 201780tataggagtg aatggagaag ctcattctta cccagatgtg tatttgaaaa gaaaaggaac 201840attttaataa cctttgcaaa taatcggtat attcttccgt gatcctattc caacactgga 201900caggtggtgg tttgtttttt ttttttggag acggagtccc gctctgtcac tcaggctgga 201960gtgcagtggc gcgatttcag ctcactgcaa gctccgcctc c 202001917DNAArtificial sequenceSynthetic oligonucleotide 9ataaattgtc atcacca 171013481DNAHomo sapiens 10gctgccggga cgggtccaag atggacggcc gctcaggttc tgcttttacc tgcggcccag 60agccccattc attgccccgg tgctgagcgg cgccgcgagt cggcccgagg cctccgggga 120ctgccgtgcc gggcgggaga ccgccatggc gaccctggaa aagctgatga aggccttcga 180gtccctcaag tccttccagc agcagcagca gcagcagcag cagcagcagc agcagcagca 240gcagcagcag cagcagcagc aacagccgcc accgccgccg ccgccgccgc cgcctcctca 300gcttcctcag ccgccgccgc aggcacagcc gctgctgcct cagccgcagc cgcccccgcc 360gccgcccccg ccgccacccg gcccggctgt ggctgaggag ccgctgcacc gaccaaagaa 420agaactttca gctaccaaga aagaccgtgt gaatcattgt ctgacaatat gtgaaaacat 480agtggcacag tctgtcagaa attctccaga atttcagaaa cttctgggca tcgctatgga 540actttttctg ctgtgcagtg atgacgcaga gtcagatgtc aggatggtgg ctgacgaatg 600cctcaacaaa gttatcaaag ctttgatgga ttctaatctt ccaaggttac agctcgagct 660ctataaggaa attaaaaaga atggtgcccc tcggagtttg cgtgctgccc tgtggaggtt 720tgctgagctg gctcacctgg ttcggcctca gaaatgcagg ccttacctgg tgaaccttct 780gccgtgcctg actcgaacaa gcaagagacc cgaagaatca gtccaggaga ccttggctgc 840agctgttccc aaaattatgg cttcttttgg caattttgca aatgacaatg aaattaaggt 900tttgttaaag gccttcatag cgaacctgaa gtcaagctcc cccaccattc ggcggacagc 960ggctggatca gcagtgagca tctgccagca ctcaagaagg acacaatatt tctatagttg 1020gctactaaat gtgctcttag gcttactcgt tcctgtcgag gatgaacact ccactctgct 1080gattcttggc gtgctgctca ccctgaggta tttggtgccc ttgctgcagc agcaggtcaa 1140ggacacaagc ctgaaaggca gcttcggagt gacaaggaaa gaaatggaag tctctccttc 1200tgcagagcag cttgtccagg tttatgaact gacgttacat catacacagc accaagacca 1260caatgttgtg accggagccc tggagctgtt gcagcagctc ttcagaacgc ctccacccga 1320gcttctgcaa accctgaccg cagtcggggg cattgggcag ctcaccgctg ctaaggagga 1380gtctggtggc cgaagccgta gtgggagtat tgtggaactt atagctggag ggggttcctc 1440atgcagccct gtcctttcaa gaaaacaaaa aggcaaagtg ctcttaggag aagaagaagc 1500cttggaggat gactctgaat cgagatcgga tgtcagcagc tctgccttaa cagcctcagt 1560gaaggatgag atcagtggag agctggctgc ttcttcaggg gtttccactc cagggtcagc 1620aggtcatgac atcatcacag aacagccacg gtcacagcac acactgcagg cggactcagt 1680ggatctggcc agctgtgact tgacaagctc tgccactgat ggggatgagg aggatatctt 1740gagccacagc tccagccagg tcagcgccgt cccatctgac cctgccatgg acctgaatga 1800tgggacccag gcctcgtcgc ccatcagcga cagctcccag accaccaccg aagggcctga 1860ttcagctgtt accccttcag acagttctga aattgtgtta gacggtaccg acaaccagta 1920tttgggcctg cagattggac agccccagga tgaagatgag gaagccacag gtattcttcc 1980tgatgaagcc tcggaggcct tcaggaactc ttccatggcc cttcaacagg cacatttatt 2040gaaaaacatg agtcactgca ggcagccttc tgacagcagt gttgataaat ttgtgttgag 2100agatgaagct actgaaccgg gtgatcaaga aaacaagcct tgccgcatca aaggtgacat 2160tggacagtcc actgatgatg actctgcacc tcttgtccat tgtgtccgcc ttttatctgc 2220ttcgtttttg ctaacagggg gaaaaaatgt gctggttccg gacagggatg tgagggtcag 2280cgtgaaggcc ctggccctca gctgtgtggg agcagctgtg gccctccacc cggaatcttt 2340cttcagcaaa ctctataaag ttcctcttga caccacggaa taccctgagg aacagtatgt 2400ctcagacatc ttgaactaca tcgatcatgg agacccacag gttcgaggag ccactgccat 2460tctctgtggg accctcatct gctccatcct cagcaggtcc cgcttccacg tgggagattg 2520gatgggcacc attagaaccc tcacaggaaa tacattttct ttggcggatt gcattccttt 2580gctgcggaaa acactgaagg atgagtcttc tgttacttgc aagttagctt gtacagctgt 2640gaggaactgt gtcatgagtc tctgcagcag cagctacagt gagttaggac tgcagctgat 2700catcgatgtg ctgactctga ggaacagttc ctattggctg gtgaggacag agcttctgga 2760aacccttgca gagattgact tcaggctggt gagctttttg gaggcaaaag cagaaaactt 2820acacagaggg gctcatcatt atacagggct tttaaaactg caagaacgag tgctcaataa 2880tgttgtcatc catttgcttg gagatgaaga ccccagggtg cgacatgttg ccgcagcatc 2940actaattagg cttgtcccaa agctgtttta taaatgtgac caaggacaag ctgatccagt 3000agtggccgtg gcaagagatc aaagcagtgt ttacctgaaa cttctcatgc atgagacgca 3060gcctccatct catttctccg tcagcacaat aaccagaata tatagaggct ataacctact 3120accaagcata acagacgtca ctatggaaaa taacctttca agagttattg cagcagtttc 3180tcatgaacta atcacatcaa ccaccagagc actcacattt ggatgctgtg aagctttgtg 3240tcttctttcc actgccttcc cagtttgcat ttggagttta ggttggcact gtggagtgcc 3300tccactgagt gcctcagatg agtctaggaa gagctgtacc gttgggatgg ccacaatgat 3360tctgaccctg ctctcgtcag cttggttccc attggatctc tcagcccatc aagatgcttt 3420gattttggcc ggaaacttgc ttgcagccag tgctcccaaa tctctgagaa gttcatgggc 3480ctctgaagaa gaagccaacc cagcagccac caagcaagag gaggtctggc cagccctggg 3540ggaccgggcc ctggtgccca tggtggagca gctcttctct cacctgctga aggtgattaa 3600catttgtgcc cacgtcctgg atgacgtggc tcctggaccc gcaataaagg cagccttgcc 3660ttctctaaca aacccccctt ctctaagtcc catccgacga aaggggaagg agaaagaacc 3720aggagaacaa gcatctgtac cgttgagtcc caagaaaggc agtgaggcca gtgcagcttc 3780tagacaatct gatacctcag gtcctgttac aacaagtaaa tcctcatcac tggggagttt 3840ctatcatctt ccttcatacc tcaaactgca tgatgtcctg aaagctacac acgctaacta 3900caaggtcacg ctggatcttc agaacagcac ggaaaagttt ggagggtttc tccgctcagc 3960cttggatgtt ctttctcaga tactagagct ggccacactg caggacattg ggaagtgtgt 4020tgaagagatc ctaggatacc tgaaatcctg ctttagtcga gaaccaatga tggcaactgt 4080ttgtgttcaa caattgttga agactctctt tggcacaaac ttggcctccc agtttgatgg 4140cttatcttcc aaccccagca agtcacaagg ccgagcacag cgccttggct cctccagtgt 4200gaggccaggc ttgtaccact actgcttcat ggccccgtac acccacttca cccaggccct 4260cgctgacgcc agcctgagga acatggtgca ggcggagcag gagaacgaca cctcgggatg 4320gtttgatgtc ctccagaaag tgtctaccca gttgaagaca aacctcacga gtgtcacaaa 4380gaaccgtgca gataagaatg ctattcataa tcacattcgt ttgtttgaac ctcttgttat 4440aaaagcttta aaacagtaca cgactacaac atgtgtgcag ttacagaagc aggttttaga 4500tttgctggcg cagctggttc agttacgggt taattactgt cttctggatt cagatcaggt 4560gtttattggc tttgtattga aacagtttga atacattgaa gtgggccagt tcagggaatc 4620agaggcaatc attccaaaca tctttttctt cttggtatta ctatcttatg aacgctatca 4680ttcaaaacag atcattggaa ttcctaaaat cattcagctc tgtgatggca tcatggccag 4740tggaaggaag gctgtgacac atgccatacc ggctctgcag cccatagtcc acgacctctt 4800tgtattaaga ggaacaaata aagctgatgc aggaaaagag cttgaaaccc aaaaagaggt 4860ggtggtgtca atgttactga gactcatcca

gtaccatcag gtgttggaga tgttcattct 4920tgtcctgcag cagtgccaca aggagaatga agacaagtgg aagcgactgt ctcgacagat 4980agctgacatc atcctcccaa tgttagccaa acagcagatg cacattgact ctcatgaagc 5040ccttggagtg ttaaatacat tatttgagat tttggcccct tcctccctcc gtccggtaga 5100catgctttta cggagtatgt tcgtcactcc aaacacaatg gcgtccgtga gcactgttca 5160actgtggata tcgggaattc tggccatttt gagggttctg atttcccagt caactgaaga 5220tattgttctt tctcgtattc aggagctctc cttctctccg tatttaatct cctgtacagt 5280aattaatagg ttaagagatg gggacagtac ttcaacgcta gaagaacaca gtgaagggaa 5340acaaataaag aatttgccag aagaaacatt ttcaaggttt ctattacaac tggttggtat 5400tcttttagaa gacattgtta caaaacagct gaaggtggaa atgagtgagc agcaacatac 5460tttctattgc caggaactag gcacactgct aatgtgtctg atccacatct tcaagtctgg 5520aatgttccgg agaatcacag cagctgccac taggctgttc cgcagtgatg gctgtggcgg 5580cagtttctac accctggaca gcttgaactt gcgggctcgt tccatgatca ccacccaccc 5640ggccctggtg ctgctctggt gtcagatact gctgcttgtc aaccacaccg actaccgctg 5700gtgggcagaa gtgcagcaga ccccgaaaag acacagtctg tccagcacaa agttacttag 5760tccccagatg tctggagaag aggaggattc tgacttggca gccaaacttg gaatgtgcaa 5820tagagaaata gtacgaagag gggctctcat tctcttctgt gattatgtct gtcagaacct 5880ccatgactcc gagcacttaa cgtggctcat tgtaaatcac attcaagatc tgatcagcct 5940ttcccacgag cctccagtac aggacttcat cagtgccgtt catcggaact ctgctgccag 6000cggcctgttc atccaggcaa ttcagtctcg ttgtgaaaac ctttcaactc caaccatgct 6060gaagaaaact cttcagtgct tggaggggat ccatctcagc cagtcgggag ctgtgctcac 6120gctgtatgtg gacaggcttc tgtgcacccc tttccgtgtg ctggctcgca tggtcgacat 6180ccttgcttgt cgccgggtag aaatgcttct ggctgcaaat ttacagagca gcatggccca 6240gttgccaatg gaagaactca acagaatcca ggaatacctt cagagcagcg ggctcgctca 6300gagacaccaa aggctctatt ccctgctgga caggtttcgt ctctccacca tgcaagactc 6360acttagtccc tctcctccag tctcttccca cccgctggac ggggatgggc acgtgtcact 6420ggaaacagtg agtccggaca aagactggta cgttcatctt gtcaaatccc agtgttggac 6480caggtcagat tctgcactgc tggaaggtgc agagctggtg aatcggattc ctgctgaaga 6540tatgaatgcc ttcatgatga actcggagtt caacctaagc ctgctagctc catgcttaag 6600cctagggatg agtgaaattt ctggtggcca gaagagtgcc ctttttgaag cagcccgtga 6660ggtgactctg gcccgtgtga gcggcaccgt gcagcagctc cctgctgtcc atcatgtctt 6720ccagcccgag ctgcctgcag agccggcggc ctactggagc aagttgaatg atctgtttgg 6780ggatgctgca ctgtatcagt ccctgcccac tctggcccgg gccctggcac agtacctggt 6840ggtggtctcc aaactgccca gtcatttgca ccttcctcct gagaaagaga aggacattgt 6900gaaattcgtg gtggcaaccc ttgaggccct gtcctggcat ttgatccatg agcagatccc 6960gctgagtctg gatctccagg cagggctgga ctgctgctgc ctggccctgc agctgcctgg 7020cctctggagc gtggtctcct ccacagagtt tgtgacccac gcctgctccc tcatctactg 7080tgtgcacttc atcctggagg ccgttgcagt gcagcctgga gagcagcttc ttagtccaga 7140aagaaggaca aataccccaa aagccatcag cgaggaggag gaggaagtag atccaaacac 7200acagaatcct aagtatatca ctgcagcctg tgagatggtg gcagaaatgg tggagtctct 7260gcagtcggtg ttggccttgg gtcataaaag gaatagcggc gtgccggcgt ttctcacgcc 7320attgctaagg aacatcatca tcagcctggc ccgcctgccc cttgtcaaca gctacacacg 7380tgtgccccca ctggtgtgga agcttggatg gtcacccaaa ccgggagggg attttggcac 7440agcattccct gagatccccg tggagttcct ccaggaaaag gaagtcttta aggagttcat 7500ctaccgcatc aacacactag gctggaccag tcgtactcag tttgaagaaa cttgggccac 7560cctccttggt gtcctggtga cgcagcccct cgtgatggag caggaggaga gcccaccaga 7620agaagacaca gagaggaccc agatcaacgt cctggccgtg caggccatca cctcactggt 7680gctcagtgca atgactgtgc ctgtggccgg caacccagct gtaagctgct tggagcagca 7740gccccggaac aagcctctga aagctctcga caccaggttt gggaggaagc tgagcattat 7800cagagggatt gtggagcaag agattcaagc aatggtttca aagagagaga atattgccac 7860ccatcattta tatcaggcat gggatcctgt cccttctctg tctccggcta ctacaggtgc 7920cctcatcagc cacgagaagc tgctgctaca gatcaacccc gagcgggagc tggggagcat 7980gagctacaaa ctcggccagg tgtccataca ctccgtgtgg ctggggaaca gcatcacacc 8040cctgagggag gaggaatggg acgaggaaga ggaggaggag gccgacgccc ctgcaccttc 8100gtcaccaccc acgtctccag tcaactccag gaaacaccgg gctggagttg acatccactc 8160ctgttcgcag tttttgcttg agttgtacag ccgctggatc ctgccgtcca gctcagccag 8220gaggaccccg gccatcctga tcagtgaggt ggtcagatcc cttctagtgg tctcagactt 8280gttcaccgag cgcaaccagt ttgagctgat gtatgtgacg ctgacagaac tgcgaagggt 8340gcacccttca gaagacgaga tcctcgctca gtacctggtg cctgccacct gcaaggcagc 8400tgccgtcctt gggatggaca aggccgtggc ggagcctgtc agccgcctgc tggagagcac 8460gctcaggagc agccacctgc ccagcagggt tggagccctg cacggcgtcc tctatgtgct 8520ggagtgcgac ctgctggacg acactgccaa gcagctcatc ccggtcatca gcgactatct 8580cctctccaac ctgaaaggga tcgcccactg cgtgaacatt cacagccagc agcacgtact 8640ggtcatgtgt gccactgcgt tttacctcat tgagaactat cctctggacg tagggccgga 8700attttcagca tcaataatac agatgtgtgg ggtgatgctg tctggaagtg aggagtccac 8760cccctccatc atttaccact gtgccctcag aggcctggag cgcctcctgc tctctgagca 8820gctctcccgc ctggatgcag aatcgctggt caagctgagt gtggacagag tgaacgtgca 8880cagcccgcac cgggccatgg cggctctggg cctgatgctc acctgcatgt acacaggaaa 8940ggagaaagtc agtccgggta gaacttcaga ccctaatcct gcagcccccg acagcgagtc 9000agtgattgtt gctatggagc gggtatctgt tctttttgat aggatcagga aaggctttcc 9060ttgtgaagcc agagtggtgg ccaggatcct gccccagttt ctagacgact tcttcccacc 9120ccaggacatc atgaacaaag tcatcggaga gtttctgtcc aaccagcagc cataccccca 9180gttcatggcc accgtggtgt ataaggtgtt tcagactctg cacagcaccg ggcagtcgtc 9240catggtccgg gactgggtca tgctgtccct ctccaacttc acgcagaggg ccccggtcgc 9300catggccacg tggagcctct cctgcttctt tgtcagcgcg tccaccagcc cgtgggtcgc 9360ggcgatcctc ccacatgtca tcagcaggat gggcaagctg gagcaggtgg acgtgaacct 9420tttctgcctg gtcgccacag acttctacag acaccagata gaggaggagc tcgaccgcag 9480ggccttccag tctgtgcttg aggtggttgc agccccagga agcccatatc accggctgct 9540gacttgttta cgaaatgtcc acaaggtcac cacctgctga gcgccatggt gggagagact 9600gtgaggcggc agctggggcc ggagcctttg gaagtctgcg cccttgtgcc ctgcctccac 9660cgagccagct tggtccctat gggcttccgc acatgccgcg ggcggccagg caacgtgcgt 9720gtctctgcca tgtggcagaa gtgctctttg tggcagtggc caggcaggga gtgtctgcag 9780tcctggtggg gctgagcctg aggccttcca gaaagcagga gcagctgtgc tgcaccccat 9840gtgggtgacc aggtcctttc tcctgatagt cacctgctgg ttgttgccag gttgcagctg 9900ctcttgcatc tgggccagaa gtcctccctc ctgcaggctg gctgttggcc cctctgctgt 9960cctgcagtag aaggtgccgt gagcaggctt tgggaacact ggcctgggtc tccctggtgg 10020ggtgtgcatg ccacgccccg tgtctggatg cacagatgcc atggcctgtg ctgggccagt 10080ggctgggggt gctagacacc cggcaccatt ctcccttctc tcttttcttc tcaggattta 10140aaatttaatt atatcagtaa agagattaat tttaacgtaa ctctttctat gcccgtgtaa 10200agtatgtgaa tcgcaaggcc tgtgctgcat gcgacagcgt ccggggtggt ggacagggcc 10260cccggccacg ctccctctcc tgtagccact ggcatagccc tcctgagcac ccgctgacat 10320ttccgttgta catgttcctg tttatgcatt cacaaggtga ctgggatgta gagaggcgtt 10380agtgggcagg tggccacagc aggactgagg acaggccccc attatcctag gggtgcgctc 10440acctgcagcc cctcctcctc gggcacagac gactgtcgtt ctccacccac cagtcaggga 10500cagcagcctc cctgtcactc agctgagaag gccagccctc cctggctgtg agcagcctcc 10560actgtgtcca gagacatggg cctcccactc ctgttccttg ctagccctgg ggtggcgtct 10620gcctaggagc tggctggcag gtgttgggac ctgctgctcc atggatgcat gccctaagag 10680tgtcactgag ctgtgttttg tctgagcctc tctcggtcaa cagcaaagct tggtgtcttg 10740gcactgttag tgacagagcc cagcatccct tctgcccccg ttccagctga catcttgcac 10800ggtgacccct tttagtcagg agagtgcaga tctgtgctca tcggagactg ccccacggcc 10860ctgtcagagc cgccactcct atccccaggc caggtccctg gaccagcctc ctgtttgcag 10920gcccagagga gccaagtcat taaaatggaa gtggattctg gatggccggg ctgctgctga 10980tgtaggagct ggatttggga gctctgcttg ccgactggct gtgagacgag gcaggggctc 11040tgcttcctca gccctagagg cgagccaggc aaggttggcg actgtcatgt ggcttggttt 11100ggtcatgccc gtcgatgttt tgggtattga atgtggtaag tggaggaaat gttggaactc 11160tgtgcaggtg ctgccttgag acccccaagc ttccacctgt ccctctccta tgtggcagct 11220ggggagcagc tgagatgtgg acttgtatgc tgcccacata cgtgaggggg agctgaaagg 11280gagcccctcc tctgagcagc ctctgccagg cctgtatgag gcttttccca ccagctccca 11340acagaggcct cccccagcca ggaccacctc gtcctcgtgg cggggcagca ggagcggtag 11400aaaggggtcc gatgtttgag gaggccctta agggaagcta ctgaattata acacgtaaga 11460aaatcaccat tccgtattgg ttgggggctc ctgtttctca tcctagcttt ttcctggaaa 11520gcccgctaga aggtttggga acgaggggaa agttctcaga actgttggct gctccccacc 11580cgcctcccgc ctcccccgca ggttatgtca gcagctctga gacagcagta tcacaggcca 11640gatgttgttc ctggctagat gtttacattt gtaagaaata acactgtgaa tgtaaaacag 11700agccattccc ttggaatgca tatcgctggg ctcaacatag agtttgtctt cctcttgttt 11760acgacgtgat ctaaaccagt ccttagcaag gggctcagaa caccccgctc tggcagtagg 11820tgtcccccac ccccaaagac ctgcctgtgt gctccggaga tgaatatgag ctcattagta 11880aaaatgactt cacccacgca tatacataaa gtatccatgc atgtgcatat agacacatct 11940ataattttac acacacacct ctcaagacgg agatgcatgg cctctaagag tgcccgtgtc 12000ggttcttcct ggaagttgac tttccttaga cccgccaggt caagttagcc gcgtgacgga 12060catccaggcg tgggacgtgg tcagggcagg gctcattcat tgcccactag gatcccactg 12120gcgaagatgg tctccatatc agctctctgc agaagggagg aagactttat catgttccta 12180aaaatctgtg gcaagcaccc atcgtattat ccaaattttg ttgcaaatgt gattaatttg 12240gttgtcaagt tttgggggtg ggctgtgggg agattgcttt tgttttcctg ctggtaatat 12300cgggaaagat tttaatgaaa ccagggtaga attgtttggc aatgcactga agcgtgtttc 12360tttcccaaaa tgtgcctccc ttccgctgcg ggcccagctg agtctatgta ggtgatgttt 12420ccagctgcca agtgctcttt gttactgtcc accctcattt ctgccagcgc atgtgtcctt 12480tcaaggggaa aatgtgaagc tgaaccccct ccagacaccc agaatgtagc atctgagaag 12540gccctgtgcc ctaaaggaca cccctcgccc ccatcttcat ggagggggtc atttcagagc 12600cctcggagcc aatgaacagc tcctcctctt ggagctgaga tgagccccac gtggagctcg 12660ggacggatag tagacagcaa taactcggtg tgtggccgcc tggcaggtgg aacttcctcc 12720cgttgcgggg tggagtgagg ttagttctgt gtgtctggtg ggtggagtca ggcttctctt 12780gctacctgtg agcatccttc ccagcagaca tcctcatcgg gctttgtccc tcccccgctt 12840cctccctctg cggggaggac ccgggaccac agctgctggc cagggtagac ttggagctgt 12900cctccagagg ggtcacgtgt aggagtgaga agaaggaaga tcttgagagc tgctgaggga 12960ccttggagag ctcaggatgg ctcagacgag gacactcgct tgccgggcct gggcctcctg 13020ggaaggaggg agctgctcag aatgccgcat gacaactgaa ggcaacctgg aaggttcagg 13080ggccgctctt cccccatgtg cctgtcacgc tctggtgcag tcaaaggaac gccttcccct 13140cagttgtttc taagagcaga gtctcccgct gcaatctggg tggtaactgc cagccttgga 13200ggatcgtggc caacgtggac ctgcctacgg agggtgggct ctgacccaag tggggcctcc 13260ttgtccaggt ctcactgctt tgcaccgtgg tcagagggac tgtcagctga gcttgagctc 13320ccctggagcc agcagggctg tgatgggcga gtcccggagc cccacccaga cctgaatgct 13380tctgagagca aagggaagga ctgacgagag atgtatattt aattttttaa ctgctgcaaa 13440cattgtacat ccaaattaaa ggaaaaaaat ggaaaccatc a 134811116DNAArtificial sequenceSynthetic oligonucleotide 11atcatggctg cagctt 161216DNAArtificial sequenceSynthetic oligonucleotide 12ttcagtcatg acttcc 161316DNAArtificial sequenceSynthetic oligonucleotide 13nnnnnnnnnn nnnnnn 161416DNAArtificial sequenceSynthetic oligonucleotide 14nnnnnnnnnn nnnnnn 161516DNAArtificial sequenceSynthetic oligonucleotide 15nnnnnnnnnn nnnnnn 161616DNAArtificial sequenceSynthetic oligonucleotide 16nnnnnnnnnn nnnnnn 16

Claims

1. A gapped oligomeric compound comprising a contiguous sequence of linked monomer subunits having a gap region located between a 5'-region and a 3'-region wherein the 5' and 3'-regions each, independently, have from 2 to 8 contiguous RNA-like modified nucleosides, each independently selected from a bicyclic nucleoside comprising a bicyclic furanosyl sugar moiety and a modified nucleoside comprising a furanosyl sugar moiety having at least one substituent group that each adopt a 3'-endo conformational geometry when put into an oligomeric compound and wherein the gap region has from 8 to 10 contiguous .beta.-D-2'-deoxyribonucleosides and wherein from one to three of the internucleoside linking groups located between .beta.-D-2'-deoxyribonucleosides in the gap region have Formula I: ##STR00023## wherein: each X is O or S; each Q is, independently, selected from C.sub.1-C.sub.6 alkyl, substituted C.sub.1-C.sub.6 alkyl, C.sub.2-C.sub.6 alkenyl, C(.dbd.O)OH and CH.sub.2C(.dbd.O)OH; and each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ.sub.1, SJ.sub.1 and OC(.dbd.O)J.sub.1; each J.sub.1 is, independently, H or C.sub.1-C.sub.6 alkyl; and wherein each internucleoside linking group other than internucleoside linking groups having Formula I is, independently, a phosphodiester or a phosphorothioate internucleoside linking group.

2. The gapped oligomeric compound of claim 1 having only one internucleoside linking group of Formula I.

3. The gapped oligomeric compound of claim 2 wherein the internucleoside linking group of Formula I is located between nucleosides 1 and 2, 2 and 3, or 3 and 4, counting from the 5' gap junction.

4. The gapped oligomeric compound of claim 1 having only two internucleoside linking groups of Formula I.

5. The gapped oligomeric compound of claim 4 wherein the internucleoside linking groups of Formula I are located between nucleosides 1 and 3, or 2 and 4, counting from the 5' gap junction.

6. The gapped oligomeric compound of claim 1 wherein each internucleoside linking group other than internucleoside linking groups having Formula I is a phosphorothioate internucleoside linking group.

7. The gapped oligomeric compound of claim 1 wherein each monomer subunit comprises a heterocyclic base independently selected from uracil, thymine, cytosine, 4-N-benzoylcytosine, 5-methylcytosine, 4-N-benzoyl-5-methylcytosine, adenine, 6-N-benzoyladenine, guanine and 2-N-isobutyrylguanine.

8. The gapped oligomeric compound of claim 1 wherein each Q is, independently, selected from CH.sub.3, C(.dbd.O)OH, CH.sub.2C(.dbd.O)OH, (CH.sub.2).sub.2OCH.sub.3, CH.dbd.CH.sub.2, CH.sub.2CH.dbd.CH.sub.2 and C.ident.CH.

9. The gapped oligomeric compound of claim 1 wherein each Q is, independently, selected from C.sub.1-C.sub.6 alkyl and substituted C.sub.1-C.sub.6 alkyl.

10. The gapped oligomeric compound of claim 9 wherein each Q is, independently, substituted C.sub.1-C.sub.6 alkyl wherein the substituent group is OJ.sub.1 and J.sub.1 is C.sub.1-C.sub.6 alkyl.

11. The gapped oligomeric compound of claim 9 wherein each Q is CH.sub.3.

12. The gapped oligomeric compound of claim 1 wherein each X is S.

13. The gapped oligomeric compound of claim 1 wherein one or more of the RNA-like modified nucleosides each comprising a 2'-substituted furanosyl sugar moiety wherein each 2'-substituent group is, independently, selected from halogen, OCH.sub.3, OCH.sub.2F, OCHF.sub.2, OCF.sub.3, OCH.sub.2CH.sub.3, O(CH.sub.2).sub.2F, OCH.sub.2CHF.sub.2, OCH.sub.2CF.sub.3, OCH.sub.2--CH.dbd.CH.sub.2, O(CH.sub.2).sub.2--OCH.sub.3, O(CH.sub.2).sub.2--SCH.sub.3, O(CH.sub.2).sub.2--OCF.sub.3, O(CH.sub.2).sub.3--N(R.sub.3)(R.sub.4), O(CH.sub.2).sub.2--ON(R.sub.3)(R.sub.4), O(CH.sub.2).sub.2--O(CH.sub.2).sub.2--N(R.sub.3)(R.sub.4), OCH.sub.2C(.dbd.O)--N(R.sub.4)(R.sub.4), OCH.sub.2C(.dbd.O)--N(R.sub.5)--(CH.sub.2).sub.2--N(R.sub.3)(R.sub.4) and O(CH.sub.2).sub.2--N(R.sub.5)--C(.dbd.NR.sub.6)[N(R.sub.3)(R.sub.4)] wherein R.sub.3, R.sub.4, R.sub.5 and R.sub.6 are each, independently, H or C.sub.1-C.sub.6 alkyl.

14. The gapped oligomeric compound of claim 13 wherein each 2'-substituent group is independently selected from F, OCH.sub.3, O(CH.sub.2).sub.2--OCH.sub.3 and OCH.sub.2C(.dbd.O)--N(H)CH.sub.3.

15. The gapped oligomeric compound of claim 14 wherein each 2'-substituent group is O(CH.sub.2).sub.2--OCH.sub.3.

16. The gapped oligomeric compound of claim 1 wherein one or more of the RNA-like modified nucleosides comprises a bicyclic furanosyl sugar moiety each having a bridging group independently selected from 4'-(CH.sub.2)--O-2', 4'-(CH.sub.2)--S-2', 4'-(CH.sub.2).sub.2--O-2', 4'-CH(CH.sub.3)--O-2', 4'-C--H(CH.sub.2OCH.sub.3)--O-2', 4'-C(CH.sub.3).sub.2--O-2', 4'-CH.sub.2--N(OCH.sub.3)-2', 4'-CH.sub.2--O--N(CH.sub.3)-2', 4'-CH.sub.2--C(H)(CH.sub.3)-2' and 4'-CH.sub.2--C(.dbd.CH.sub.2)-2'.

17. The gapped oligomeric compound of claim 18 wherein each bridging group is 4'-CH[(S)--(CH.sub.3)]--O-2' or 4'-(CH.sub.2)--O-2'.

18. The gapped oligomeric compound of claim 1 wherein the sugar moiety of each RNA-like modified nucleoside is the same.

19. The gapped oligomeric compound of claim 1 comprising at least two different types of RNA-like modified nucleosides wherein the different types of modified nucleosides have at least different modified sugar moieties.

20. The gapped oligomeric compound of claim 19 wherein the different types of RNA-like modified nucleosides include 4'-CH[(S)--(CH.sub.3)]--O-2' bicyclic nucleosides and 2'-O(CH.sub.2).sub.2--OCH.sub.3 substituted nucleosides.

21. The gapped oligomeric compound of claim 1 wherein the 5' and 3'-regions each, independently, have from 3 to 6 RNA-like modified nucleosides.

21. The gapped oligomeric compound of claim 1 further comprising at least one 5' or 3'-conjugate group.

23. A method of inhibiting gene expression comprising contacting one or more cells, a tissue or an animal with an oligomeric compound of claim 1 wherein said oligomeric compound is complementary to a target RNA.

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