PRODUCTION OF VIRAL VECTORS

Abstract

The present invention relates to methods and compositions for the production of viral vectors. In particular, the present invention provides methods and compositions for faster, higher titer and higher purity production of viral vectors (e.g. adenoviral vectors). In some embodiments, the present invention provides gutted and helper viruses with identical or similar termini. In other embodiments, the present invention provides terminal protein linked adenoviral DNA. In certain embodiments, the present invention provides template extended adenoviral DNA.

Description

CROSS-REFERENCE

[0001] The present Application is a continuation of U.S. application Ser. No. 15/236,205, filed Aug. 12, 2016, which claims the benefit of U.S. application Ser. No. 14/163,331, now U.S. Pat. No. 9,453,240, filed Jan. 24, 2014, which claims the benefit of U.S. application Ser. No. 12/884,027, now U.S. Pat. No. 8,637,313, filed Sep. 16, 2010, which claims the benefit of U.S. application Ser. No. 10/381,153, now U.S. Pat. No. 7,820,441, filed Oct. 9, 2003, which is a National Stage Entry of International Application Number PCT/US01/29496, filed Sep. 21, 2001, which claims priority to U.S. Provisional Application Ser. No. 60/235,060, filed Sep. 25, 2000, each of which applications are hereby incorporated by reference in their entirety.

REFERENCE TO A SEQUENCE LISTING

[0003] The instant application contains a Sequence Listing which has been submitted in ASCII format via EFS-Web and is hereby incorporated by reference in its entirety. Said ASCII copy created on Jan. 23, 2014, is named "39891_704_302_07763ST25_raw.txt" and is 217 kilobytes in size.

FIELD OF THE INVENTION

[0004] The present invention relates to methods and compositions for the production of viral vectors. In particular, the present invention provides methods and compositions for faster, higher titer and higher purity production of adenovirus vectors.

BACKGROUND OF THE INVENTION

[0005] Conventional adenovirus (Ad) gene-delivery vectors are based on replacement of early regions of the viral genome with an expression cassette coding for a gene of interest. Unfortunately, Ad vectors have drawbacks that limit their usefulness for many applications. First, the cloning capacity of these vectors is limited to 8-10 kb. Second, despite deletion of the E1 region, leaky expression of immunogenic viral proteins occurs in vivo, which leads to a host immune response and elimination of gene expression from transduced tissues. Gutted, or helper-dependent, adenoviral vectors may overcome these drawbacks. Gutted vectors contain cis-acting DNA sequences necessary for viral replication and packaging, but usually do not contain viral coding sequences (See U.S. Pat. No. 6,083,750, incorporated by reference). These vectors can accommodate up to 36 kb of exogenous DNA and are unable to express viral proteins. Gutted vectors are produced by replication in the presence of a helper virus, which provides all necessary viral proteins in trans. Since the viral proteins act to replicate both gutted and helper genomes, gutted adenovirus particles are prepared as a mixture with helper virions, though selection against helper virus packaging can reduce this contamination. Particles containing gutted viral genomes, rather than helper genomes, are subsequently purified on the basis of their lower density.

[0006] Generally, the starting point for production of a gutted virus is plasmid DNA. The plasmid contains the viral inverted terminal repeats (ITRs), the viral packaging signal, and exogenous DNA to be carried by the gutted virus. To increase production of gutted virus, most investigators linearize the gutted viral plasmid (some systems require the ligation of viral ITRs after linearization). The plasmid DNA is co-introduced with helper sequences into a cell line that can replicate the helper virus, normally 293 cells. Replication of the helper virus eventually causes lysis of the cells with the lysate containing a large number of helper virions and a comparatively small number of gutted virions.

[0007] To increase the number and proportion of gutted virions in the lysate, the initial mixture is generally serially passaged. Helper-dependent Ad vectors are usually propagated with constant selective pressure against helper virus packaging. During early passages, selection allows for gradual improvement in the ratio of gutted to helper virus. At the last passage selection removes the majority of helper virus before further purification. Unfortunately, growth of vector stocks under selective pressure can lead to rearrangement of helper and gutted viruses.

[0008] The production of gutted virus particles from plasmid DNA in the first step of gutted vector production is so inefficient that titers of less than 100 particles per milliliter have been reported. In some cases no gutted virions can be detected until at least one serial passage has been performed. What is needed is methods and compositions for faster, higher titer and higher purity production of adenovirus vectors.

SUMMARY OF THE INVENTION

[0009] The present invention relates to methods and compositions for the production of viral vectors. In particular, the present invention provides methods and compositions for faster, higher titer and higher purity production of viral vectors (e.g. adenoviral vectors). In some embodiments, the present invention provides gutted and helper viruses with corresponding termini. In other embodiments, the present invention provides terminal protein linked adenoviral DNA. In other embodiments, the present invention provides template extended adenoviral DNA (e.g. for increased viral production/recovery and plaquing efficiency). In additional embodiments, the present invention provides methods and compositions for culturing gutted and helper adenoviruses (e.g. with similar or identical termini). For example, the present invention provides compositions and methods for regulated expression of site specific recombinases. In another example, the present invention provides compositions (e.g. cell lines) and methods for culturing adenoviral vectors with adenoviral protein IX.

[0010] In some embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising a first origin of replication, ii) helper viral DNA comprising a second origin of replication, wherein the second origin of replication has similar activity level in a replication assay as the first origin of replication, and iii) target cells; and b) transfecting the target cells with the helper-dependent viral DNA and the helper viral DNA under conditions such that helper-dependent viral vectors are produced. In particular embodiments, the present invention provides compositions comprising the helper-dependent viral vectors produced with the methods of the present invention. In certain embodiments, the helper-dependent viral DNA comprises adenoviral DNA. In particular embodiments, the helper-dependent viral DNA comprises a heterologous gene sequence. In some embodiments, the helper-dependent viral DNA comprises the left and right inverted terminal repeats (ITRs) of adenovirus, the adenoviral packaging sequence (e.g. linked to one of the ITRs), and a heterologous gene sequence.

[0011] In preferred embodiments, the first origin of replication and the second origin of replication have nucleic acid sequences that are identical. In some embodiments, the first and/or second origin of replication lie near the terminus of the viral DNA. In other embodiments, the helper-dependent viral DNA has been released from a plasmid backbone by restriction enzyme digestion. In some embodiments, the helper viral DNA has been released from a plasmid backbone. In preferred embodiments, the helper-dependent viral DNA is at least partially linear (in some cases, entirely linear). In other embodiments, the helper viral DNA is at least partially linear (in some cases, entirely linear). In certain embodiments, both the helper-viral DNA and the helper viral DNA lack internal FseI restriction sites (e.g. so plasmids containing both kinds of viral DNA may be digested with FseI to release the viral DNA without cutting viral coding sequences).

[0012] In certain embodiments, the first origin of replication and the second origin of replication have nucleic acid sequences that are similar (e.g. they differ by one base, two bases, or three bases). In additional embodiments, the origins are similar and one of the origins is the natural origin and the other is unnatural (e.g. it has additional sequences attached). In some embodiments, the helper viral DNA is adenoviral helper viral DNA. In preferred embodiments, the first origin of replication and the second origin of replication are not linked to terminal protein or any terminal protein remnant.

[0013] In some embodiments, the helper viral DNA comprises a crippling sequence. In preferred embodiments, the crippling sequence comprises recognition sites for site-specific recombinases (e.g. loxP and Frt). In some embodiments, the target cells express adenoviral DNA polymerase and preterminal protein. In other embodiments, the target cells express adenoviral factor IX.

[0014] In some embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising a first origin of replication, ii) helper viral DNA comprising a crippling sequence and a second origin of replication, wherein the second origin of replication has similar activity level in a replication assay as the first origin of replication, iii) target cells, and iv) a vector encoding a site-specific recombinase; and b) transfecting the target cells with the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase under conditions such that helper-dependent viral vectors are produced. In preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time. In particularly preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time such that the vector expresses the recombinase in a regulated manner (e.g. the amount of recombinase in the transfected cells builds up slowly over time). In some embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase occur at different time (e.g. the helper-dependent viral DNA is transfected before the helper viral DNA, or vice versa). In particular embodiments, the transfecting is accomplished by a method selected from calcium phosphate-DNA co-precipitation, DEAE-dextran-mediated transfection, polybrene-mediated transfection, electroporation, microinjection, liposome fusion, lipofection, and biolistics.

[0015] In some embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising a first origin of replication, ii) helper viral DNA comprising a second origin of replication, wherein the second origin of replication has a similar activity level in a replication assay as the first origin of replication, and iii) target cells; b) transfecting the target cells with the helper-dependent viral DNA and the helper viral DNA under conditions such that helper-dependent viral vectors are produced; and c) recovering the helper-dependent vectors. In preferred embodiments, the recovering step yields a helper-dependent titer of up to approximately 30 fold increase compared to transfection/infection protocols in cells expressing adenoviral DNA polymerase and preterminal protein (e.g., at least a 10 fold, at least a 15 fold, at least a 20 fold, or at least 25 fold increase). In particularly preferred embodiments, the recovering step yields a helper-dependent titer of up to approximately 60 fold increase compared to transfection/infection protocols in cells expressing adenoviral DNA polymerase and preterminal protein (e.g., at least 40 fold, at least 50 fold, or at least 55 fold increase).

[0016] In some embodiments, the present invention provides compositions comprising; a) helper-dependent viral DNA comprising a first origin of replication, and b) helper viral DNA comprising a second origin of replication, wherein the second origin of replication has a similar activity level in a replication assay as the first origin of replication. In certain embodiments, the helper-dependent viral DNA comprises adenoviral DNA. In particular embodiments, the helper-dependent viral DNA comprises a heterologous gene sequence. In some embodiments, the helper-dependent viral DNA comprises the left and right inverted terminal repeats (ITRs) of adenovirus, the adenoviral packaging sequence (e.g. linked to one of the ITRs), and a heterologous gene sequence. In preferred embodiments, the first origin of replication and the second origin of replication have nucleic acid sequences that are identical. In certain embodiments, the first origin of replication and the second origin of replication have nucleic acid sequences that are similar (e.g. they differ by one base, two bases, or three bases). In additional embodiments, the origins are similar and one of the origins is the natural origin and the other is unnatural (e.g. it has additional sequences attached). In some embodiments, the helper viral DNA is adenoviral helper viral DNA. In preferred embodiments, the first origin of replication and the second origin of replication are not linked to terminal protein or any terminal protein remnant.

[0017] In some embodiments, the present invention provides kits and systems comprising; i) helper-dependent viral DNA comprising a first origin of replication, and ii) helper viral DNA comprising a second origin of replication, wherein the second origin of replication has similar activity level in a replication assay as the first origin of replication. In preferred embodiments, the kits and systems of the present invention further comprise target cells (e.g., cells expressing adenoviral DNA polymerase and preterminal protein). In other embodiments, the kits and systems of the present invention comprise the helper-dependent viral vectors produced by the methods of the present invention, and one additional component (e.g., an insert component with written instructions for using the components of the kit and system). The kits and systems of the present invention may comprise any of the components listed herein (e.g., helper-dependent viral DNA, helper viral DNA, target cells, insert component, etc.). In particular embodiments, the kits and systems of the present invention comprise a host cell and one additional component, wherein the host cell comprises a) helper-dependent viral DNA comprising a first origin of replication, and b) helper viral DNA comprising a second origin of replication, wherein the second origin of replication has a similar activity level in a replication assay as the first origin of replication.

[0018] In some embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising an origin of replication linked to a replication-promoting agent, and ii) target cells; and b) transfecting the target cells with the helper-dependent viral DNA under conditions such that helper-dependent viral vectors are produced. In particular embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising an origin of replication linked to a replication-promoting agent, ii) helper viral DNA, and iii) target cells; and b) transfecting the target cells with the helper-dependent viral DNA and the helper viral DNA under conditions such that helper-dependent viral vectors are produced. In certain embodiments, the present invention provides compositions comprising the helper-dependent viral vectors produced with the methods of the present invention. In preferred embodiments, the replication-promoting agent is selected from Ad2 preterminal protein, Ad2 terminal protein, Ad5 preterminal protein, and Ad5 terminal protein. In other embodiments, replication-promoting agent is selected from at least a portion of Ad2 preterminal protein, Ad2 terminal protein, Ad5 preterminal protein, and Ad5 terminal protein. In preferred embodiments, the replication-promoting agent is Ad5 terminal protein.

[0019] In some embodiments, the helper-dependent viral DNA comprises adenoviral DNA. In other embodiments, the helper-dependent viral DNA comprises a heterologous gene sequence. In some embodiments, the helper-dependent viral DNA comprises the left and right inverted terminal repeats (ITRs) of adenovirus, the adenoviral packaging sequence (e.g. linked to one of the ITRs), and a heterologous gene sequence. In some embodiments, the helper viral DNA is linked to adenoviral terminal protein. In additional embodiments, the helper viral DNA is adenoviral helper viral DNA. In preferred embodiments, the helper viral DNA comprises a crippling sequence (e.g. loxP). In particular embodiments, the helper viral DNA comprises recognition sites for site-specific recombinases. In certain embodiments, the target cells express adenoviral DNA polymerase and preterminal protein. In other embodiments, the target cells express adenoviral protein IX. In certain embodiments, the target cells express adenoviral DNA polymerase, preterminal protein, and adenoviral protein IX. In some embodiments, the method further comprises recovering the helper-dependent vectors. In particular embodiments, the recovering yields a helper-dependent titer of up to approximately 85 fold increase compared to transfection/infection protocols in cells expressing adenoviral DNA polymerase and preterminal protein (e.g., at least a 40 fold, 55 fold, 70 fold, or 80 fold increase). In preferred embodiments, the recovering yields a helper-dependent titer of up to 170 fold increase compared to transfection/infection protocols in cells expressing adenoviral DNA polymerase and preterminal protein (e.g., at least 100 fold, 120 fold, 140 fold, 150 fold, or 160 fold increase).

[0020] In particular embodiments, the present invention provides methods for producing helper-dependent viral vectors comprising: a) providing; i) helper-dependent viral DNA comprising an origin of replication linked to a replication-promoting agent, ii) helper viral DNA comprising a crippling sequence, and iii) target cells; and b) transfecting the target cells with the helper-dependent viral DNA and the helper viral DNA under conditions such that helper-dependent viral vectors are produced. In preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time. In particularly preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time such that the vector expresses the recombinase in a regulated manner (e.g. the amount of recombinase in the transfected cells builds up slowly over time). In some embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase occur at different time (e.g. the helper-dependent viral DNA is transfected before the helper viral DNA, or vice versa). In particular embodiments, the transfecting is accomplished by a method selected from calcium phosphate-DNA co-precipitation, DEAE-dextran-mediated transfection, polybrene-mediated transfection, electroporation, microinjection, liposome fusion, lipofection, and biolistics.

[0021] In some embodiments, the present invention provides compositions comprising helper-dependent viral DNA comprising an origin of replication linked a replication-promoting agent. In preferred embodiments, the replication-promoting agent is selected from Ad2 preterminal protein, Ad2 terminal protein, Ad5 preterminal protein, and Ad5 terminal protein. In other embodiments, replication-promoting agent is selected from at least a portion of Ad2 preterminal protein, Ad2 terminal protein, Ad5 preterminal protein, and Ad5 terminal protein. In preferred embodiments, the replication-promoting agent is Ad5 terminal protein.

[0022] In some embodiments, the present invention provides kits and systems comprising i) helper-dependent viral DNA comprising an origin of replication linked to a replication-promoting agent, and ii) target cells. In preferred embodiments, the kits and systems of the present invention further comprise helper viral DNA. In other embodiments, the kits and systems of the present invention comprise the helper-dependent viral vectors produced by the methods of the present invention, and one additional component (e.g., an insert component with written instructions). The kits and systems of the present invention may comprise any of the components listed herein (e.g., helper-dependent viral DNA, helper viral DNA, target cells, insert component, etc.).

[0023] In certain embodiments, the present invention provides methods comprising: a) providing; i) a first helper-dependent viral DNA comprising a first origin of replication capable of promoting a first activity level in a replication assay, ii) an agent capable of extending the first origin of replication, and b) contacting the helper-dependent viral DNA with the agent for a period of time sufficient to generate a second helper-dependent viral DNA with an second origin of replication capable of promoting a second activity level in a replication assay, wherein the second activity level in a replication assay is greater than the first activity level in a replication assay. In other embodiments, the present invention provides methods comprising: a) providing; i) a first helper-dependent viral DNA comprising a first origin of replication capable of promoting a first activity level in a replication assay, ii) an agent capable of extending the first origin of replication, iii) helper viral DNA, and iv) target cells; b) contacting the helper-dependent viral DNA with the agent for a period of time sufficient to generate a second helper-dependent viral DNA with an second origin of replication capable of promoting a second activity level in a replication assay, wherein the second activity level in a replication assay is greater than the first activity level in a replication assay; and c) transfecting the target cells with the second helper-dependent viral DNA and the helper viral DNA under conditions such that helper-dependent viral vectors are produced.

[0024] In certain embodiments, the first origin of replication is natural. In some embodiments, the first origin of replication is non-natural (e.g. it has one, two, or three bases added onto the natural origin of replication). In other embodiments, the agent is selected from the group of terminal transferase, T4 DNA ligase, and T4 RNA ligase. In preferred embodiments, the agent is terminal transferase. In some embodiments, the helper-dependent viral DNA comprises adenoviral DNA. In other embodiments, the helper-dependent viral DNA comprises a heterologous gene sequence. In still other embodiments, the helper-dependent viral DNA comprises the left and right inverted terminal repeats (ITRs) of adenovirus, the adenoviral packaging sequence (e.g. linked to of the ITRs), and a heterologous gene sequence. In particular embodiments, the helper viral DNA is adenoviral helper viral DNA. In preferred embodiments, the helper viral DNA comprises a crippling sequence (e.g. a site specific recombinase). In some embodiments, the crippling sequence is loxP. In some embodiments, the target cells express adenoviral DNA polymerase and preterminal protein. In other embodiments, the target cells express adenoviral factor IX. In certain embodiments, the method further comprises recovering the helper-dependent vectors. In preferred embodiments, the second activity level in a replication assay is approximately 2-2.5 fold greater than the first activity level in a replication assay.

[0025] In other embodiments, the present invention provides methods comprising: a) providing; i) a first helper-dependent viral DNA comprising a first origin of replication capable of promoting a first activity level in a replication assay, ii) an agent capable of extending the first origin of replication, iii) helper viral DNA, iv) target cells and v) a vector encoding a site-specific recombinase; b) contacting the helper-dependent viral DNA with the agent for a period of time sufficient to generate a second helper-dependent viral DNA with an second origin of replication capable of promoting a second activity level in a replication assay, wherein the second activity level in a replication assay is greater than the first activity level in a replication assay; and c) transfecting the target cells with the second helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase under conditions such that helper-dependent viral vectors are produced. In certain embodiments, the present invention provides compositions comprising the helper-dependent viral vectors produced with the methods of the present invention. In preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time. In particularly preferred embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase all occur at approximately the same time such that the vector expresses the recombinase in a regulated manner (e.g. the amount of recombinase in the transfected cells builds up slowly over time). In some embodiments, the transfection of the helper-dependent viral DNA, the helper viral DNA, and the vector encoding a site-specific recombinase occur at different time (e.g. the helper-dependent viral DNA is transfected before the helper viral DNA, or vice versa). In particular embodiments, the transfecting is accomplished by a method selected from calcium phosphate-DNA co-precipitation, DEAE-dextran-mediated transfection, polybrene-mediated transfection, electroporation, microinjection, liposome fusion, lipofection, retroviral infection and biolistics.

[0026] In some embodiments, the present invention provides kits and systems comprising i) a first helper-dependent viral DNA comprising a first origin of replication capable of promoting a first activity level in a replication assay, and an agent capable of extending the first origin of replication. In other embodiments, the kits and systems further comprise helper viral DNA and/or target cells. In other embodiments, the kits and systems of the present invention comprise the helper-dependent viral vectors produced by the methods of the present invention, and one additional component (e.g., an insert component with written instructions). The kits and systems of the present invention may comprise any of the components listed herein (e.g., helper-dependent viral DNA, helper viral DNA, target cells, insert component, etc.). In particular embodiments, the kits and systems of the present invention comprise a host cell and one additional component, wherein the host cell (e.g., mammalian) stably and constitutively expresses adenovirus preterminal protein, adenovirus DNA polymerase, and adenovirus protein IX.

[0027] In some embodiments the present invention provides mammalian cell lines stably and constitutively expressing adenovirus preterminal protein, adenovirus DNA polymerase, and adenovirus protein IX. In some embodiments, the cell line is D2104#10.

DESCRIPTION OF THE FIGURES

[0028] FIG. 1 shows: A) (SEQ ID NOS:21-26) the structure of viral origins of replication (both natural and non-natural origins that result when particular restriction enzymes are employed); B) points where viral genome is mutated to remove FseI restriction sites; and C) partial structure of pD1940#3 and pD1940#6.

[0029] FIG. 2 shows improved gutted virus rescue that is achieved by co-transfection of matching plasmid-derived gutted and helper virus DNAs.

[0030] FIG. 3 shows a method for conversion of plasmid-derived Ad origins to natural form (creating TP-primer and ligating it to plasmid derived viral DNA).

[0031] FIG. 4 shows that conversion of plasmid-derived gutted virus to a natural, TP-linked structure facilitates gutted virus rescue.

[0032] FIG. 5 (SEQ ID NOS:31-34) shows limited extension of template strand of the Ad origin increases plaquing efficiency and gutted virus recovery.

[0033] FIG. 6 shows that the regulated expression of Cre recombinase improves gutted virus recovery.

[0034] FIG. 7 shows the recovery of gutted virus in D2104#10 cells.

[0035] FIG. 8 shows the nucleic acid sequence of (+)lox(+)pol helper virus (SEQ ID NO:1).

[0036] FIG. 9 shows the nucleic acid sequence of pBSX (SEQ ID NO:12).

[0037] FIG. 10 show a restriction map of pBSX.

[0038] FIG. 11 shows the nucleic acid sequence of .DELTA.FseI.4 helper virus (SEQ ID NO:9).

[0039] FIG. 12 shows pD2076#2.

[0040] FIG. 13 shows TP-DNA complex from (+)lox(+)pol helper viral DNA; deproteinized Hirt prep DNA from .DELTA.FseI.4; and pD1940#3 and pD1940#6.

[0041] FIG. 14 shows the nucleic acid sequence of pD1940 (SEQ ID NO:13).

[0042] FIG. 15 shows the nucleic acid sequence of pD1962delBbsI-pIX (SEQ ID NO:14).

[0043] FIG. 16 shows a restriction map of pD1962delBsI.

[0044] FIG. 17 shows the nucleic acid sequence of .DELTA.HIX#3 (SEQ ID NO:15).

[0045] FIG. 18 shows the nucleic acid sequence for: Ad2 preterminal protein (SEQ ID NO:17); Ad2 terminal protein (SEQ ID NO:18); Ad5 preterminal protein (SEQ ID NO:19); and Ad5 terminal protein (SEQ ID NO:20).

DEFINITIONS

[0046] To facilitate an understanding of the present invention, a number of terms and phrases are defined below:

[0047] The term "oligonucleotide" as used herein is defined as a molecule comprised of two or more deoxyribonucleotides or ribonucleotides, usually more than three (3), and typically more than ten (10) and up to one hundred (100) or more (although preferably between twenty and thirty). The exact size will depend on many factors, which in turn depends on the ultimate function or use of the oligonucleotide. Oligonucleotide may be generated in any manner, including chemical synthesis, DNA replication, reverse transcription, or a combination thereof

[0048] As used herein, the term "helper dependent viral DNA" or "gutted viral DNA" refers to viral DNA that codes for viral vectors that contain cis-acting DNA sequences necessary for viral replication and packaging, but generally no viral coding sequences (See U.S. Pat. No. 6,083,750, incorporated by reference). These vectors can accommodate up to about 36 kb of exogenous DNA and are unable to express viral proteins sufficient for replication. Helper-dependent viral vectors are produced by replication of the helper dependent viral DNA in the presence of a helper adenovirus, which alone or with a packaging cell line, supplies necessary viral proteins in trans such that the helper-dependent viral DNA is able to be replicated. Gutted vectors may be constructed as described in U.S. Pat. No. 6,083,750.

[0049] As used herein the term "helper viral DNA" refers to viral DNA encoding helper viral vectors, that are capable of providing, alone or with a packaging cell line, viral proteins in trans such that a gutted virus is able to replicate. A "helper adenovirus" or "helper virus" refers to an adenovirus which is replication-competent in a particular host cell. The host may provide, for example, Ad gene products such as E1 proteins. The `helper virus` is used to supply in trans functions (e.g., proteins) which are lacking in a second replication-incompetent virus (e.g. a gutted viral vector). Therefore, the first replication-competent virus is said to "help" the second replication-incompetent virus thereby permitting the propagation of the second viral genome in the cell containing the helper and second viruses. Helper virus may include a sequence capable of crippling helper virus replication in the presence of certain crippling agents. An example of a helper virus with a crippling sequence is the (+)lox(+)pol helper virus (SEQ ID NO:1). The (+)lox(+)pol helper virus is an E1-, E3-deleted virus that can be negatively selected using Cre recombinase and carries an alkaline phosphatase reporter gene in its E3 region. The packaging signal, which consists of packaging elements I-V, is flanked by loxP sites in direct repeat orientation, allowing removal of the packaging signal in the presence of Cre (a crippling agent).

[0050] The term "bacteria" refers to any bacterial species including eubacterial and archaebacterial species.

[0051] The term "virus" refers to obligate, ultramicroscopic, intracellular parasites incapable of autonomous replication (i.e., replication requires the use of the host cell's machinery). Adenoviruses are double-stranded DNA viruses. The left and right inverted terminal repeats (ITRs) are short elements located at the 5' and 3' termini of the linear Ad genome, respectively, and are required for replication of the viral DNA. The left ITR is located between 1-130 bp in the Ad genome (also referred to as 0-0.5 mu). The right ITR is located from .about.35,800 bp to the end of the genome (also referred to as 99.5-100 mu). The two ITRs are inverted repeats of each other.

[0052] The term "transfection" as used herein refers to the introduction of foreign DNA into eukaryotic cells. Transfection may be accomplished by a variety of means known to the art including, but not limited to, calcium phosphate-DNA co-precipitation, DEAE-dextran-mediated transfection, polybrene-mediated transfection, electroporation, microinjection, liposome fusion, lipofection and biolistics.

[0053] The term "stable transfection" or "stably transfected" refers to the introduction and integration of foreign DNA into the genome of the transfected cell. The term "stable transfectant" refers to a cell which has stably integrated foreign DNA into the genomic DNA.

[0054] As used herein, the term "gene of interest" or "heterologous gene sequence" refers to a gene inserted into a vector or plasmid whose expression is desired in a host cell. Genes of interest include genes having therapeutic value as well as reporter genes. A variety of such genes are contemplated, including genes of interest encoding proteins which provide a therapeutic function (such as the dystrophin gene, which is capable of correcting the defect seen in the muscle of MID patients), the utrophin gene, the CFTR gene (capable of correcting the defect seen in cystic fibrosis patients), etc.

[0055] The term "reporter gene" indicates a gene sequence that encodes a reporter molecule (including an enzyme). A "reporter molecule" is detectable in detection systems, including, but not limited to enzyme (e.g., ELISA, as well as enzyme-based histochemical assays), fluorescent, radioactive, and luminescent systems. Examples of reporter molecules include, but are not limited to, beta-galactosidase gene (available from Pharmacia Biotech, Pistacataway, N.J.), green fluorescent protein (GFP) (commercially available from Clontech, Palo Alto, Calif.), the human placental alkaline phosphatase gene, and the chloramphenicol acetyltransferase (CAT) gene. Other reporter genes are known to the art and may be employed.

[0056] As used herein, the term "activity level in a replication assay" refers to the level of activity observed for a particular type of viral origin of replication as measured in a replication assay. Examples of replication assays include, but are not limited to, plaque assays, rate of initiation of DNA replication assays, and replication factor affinity assays.

[0057] As used herein, the term "plaque assay" refers to a means for measuring the frequency with which virus or viral DNA can replicate productively (See, Graham, F. L. and Prevec, L. Manipulation of Adenovirus Vectors in Gene Transfer and Expression Protocols, Clifton: The Humana Press, Inc., 1991, hereby incorporated by reference). The assay may be performed, for example, by using either virus (by infection) or viral DNA (by transfection). For purposes of measuring the activity of an origin of replication the assay is performed using viral DNA. When viral DNA is introduced into cells by transfection, some transfected cells allow replication of the genome and progeny virions are produced. If the cells have been overlayed with agarose, the progeny virions diffuse to and infect only nearby cells. Thus, after several rounds of replication, foci of dead cells are observed (e.g. their presence may be highlighted through use of dyes like neutral red). These foci of dead cells are referred to as "plaques". To measure the activity of an origin of replication in this assay, the origin is linked to helper-independent viral DNA and transfected into cells which support growth of the virus. The cells are overlayed with agarose, and the investigator waits for the appearance of plaques (e.g. 3-14 days). After plaques have appeared, their appearance may be highlighted with dye, and their number counted. The higher the number of plaques, the more often the viral DNA has been converted into replicating virus, and the higher the activity of the origin of replication is found to be. The number of plaques observed is also correlated with the amount of DNA transfected, so the results of a plaque assay may be expressed as "specific activity"; that is, the number of plaques observed per weight of DNA transfected. An origin of replication that is more active than a second origin will tend to display more plaques in the plaque assay.

[0058] As used herein, the term "rate of initiation of DNA replication assays" refers to methods for determining the rate of initiation of DNA replication on a given origin (See, Challberg M D., Rawlins Dr., P.N.A.S., 81(1):100-4, 1984, herein incorporated by reference). The rate of initiation of DNA replication on a given origin may be measured, for example, by incubating the origin together with all the viral and cellular factors required for initiation, and then noting the rate with which new copies of the non-template strand appear. Generally, the steps in such an assay include: isolation of cellular and viral factors from infected cells; incubation of the isolated factors with origin fragments and radioactive nucleotides; observation of new DNA copies using an assay method such as gel electrophoresis followed by autoradiography. For each origin, the analysis is usually performed at several time points, so that the appearance of new DNA copies may be charted over time. Using this information, the rate of their appearance can be calculated. An origin of replication that is more active than a second origin will tend to cause the rate of appearance of new DNA copies to be more rapid in this assay.

[0059] As used herein, the term "replication factor affinity assays" refers to methods for determining the ability of viral DNA to attract viral replication factors (e.g. adenovirus DNA polymerase, adenovirus preterminal protein, NFI, and NFIII, See Pronk et al., Nucleic Acids Research, 25(10):2293-300, 1993, herein incorporated by reference). The affinity of a replication factor for an origin of replication may be measured, for example, by incubating the two together at a variety of concentrations and then determining, at each concentration, the amount of origin DNA that was bound by factor. One example of a method used to determine the amount of bound origin DNA is an "electrophoretic mobility shift assay" (EMSA). In this assay, the presence of factor bound to DNA causes the mobility of the origin-containing DNA to be reduced in polyacrylamide gels. Using radioactive origin DNA, the amount of DNA bound by factor can therefore be determined by measuring the amount of radioactivity found in an electrophoretic band of reduced mobility--the larger the amount of radioactivity, the larger the amount of DNA bound by factor. The affinity of an origin of replication for a replication factor is indicated by the concentration levels at which substantial binding can occur: the lower the concentration at which binding occurs, the higher the affinity is said to be. The relative affinities of two origins for a replication factor could be compared by incubating radioactive samples of each origin together with different concentrations of replication factor, usually in the presence of random DNA fragments to inhibit non-specific interactions. If the first origin has a higher affinity for factor than the second origin, a lesser concentration of factor will be required to bind a given amount of origin DNA. For example, a lesser concentration of factor will be required to retard the migration of a certain proportion of DNA sequences containing the first origin than DNA sequences containing the second, as determined by EMSA.

[0060] As used herein, the term "target cells" refers to any cells that may be transfected with viral DNA. Target cells include, but are not limited to, bacterial cells, mammalian cells, and insect cells. Target cells may from any source including, but not limited to, bacterial colonies, cell lines, tissue samples, and blood samples.

[0061] As used herein the term "expresses said recombinase in a regulated manner" refers to the expression of recombinase in a target cell such that the level of recombinase in the cell gradually increases over time. This gradual increase in expression allows the helper viral DNA to replicate at a greater rate initially after transfection (when the level of recombinase is lower), and slows the replication rate of the helper virus as the level of recombinase increases. One example expression of recombinase in a regulated manner is provided in Example 6.

[0062] As used herein, the term "similar activity level in a replication assay" refers to the situation where two origins of replication have about the same activity level in a replication assay (e.g. plaque assay, replication factor affinity assay, or rate of initiation of DNA replication assay). For example, similar activity level includes a difference of 20 fold or less, preferably 10 fold or less, more preferably 5 fold or less, and most preferably 2 fold or less.

[0063] As used herein, the phrase "wherein said second activity level in a replication assay is greater than said first activity level in a replication assay" refers to a second activity level of at least 5% greater, preferably 10%, more preferably 20% greater, most preferably 50% greater, than said first activity level.

[0064] As used herein the phrase "at about the same time" refers to transfection steps that occur within approximately one hour of each other.

[0065] As used herein, the term "under conditions such that helper-dependent viral vectors are produced" refers to conditions such that help dependent viral DNA is able to replicate inside a cell (e.g. may require helper viral DNA) such that helper-dependent viral vectors (particles) are produced.

[0066] As used herein, the term "origin of replication" refers to the DNA sequence elements that are necessary and sufficient to direct replication of a DNA molecule to which they are attached. Generally, the sequence elements include binding sites for replication factors and usually span the points at which the synthesis of new DNA strand begin. Origins of replication can often be identified by the fact that their mutation or removal prevents replication of DNA molecules to which they had been attached and which had formerly replicated in a given system. In addition, the attachment of an origin of replication to a formerly inert molecule should be sufficient to cause its replication in a given system. For example, the origin of replication for adenoviral DNA has been identified as including at least the first 50 base pairs of the adenoviral genome and commonly refers to approximately the first 100 base pairs of the adenoviral genome also known as the inverted terminal repeat (ITR). Removal of the ITRs from adenoviral genome prevents its replication; the addition of ITRs to most DNA molecules is sufficient to allow their replication in cells that have been infected by helper independent adenovirals, which provides viral replication factors.

[0067] As used herein the term "viral recovery" refers to collection and storage of progeny virions produced by cells (e.g. infected by helper-dependent and helper viral DNA). This can be accomplished with or without purification of the virions to remove cellular contaminants. For example, a simple method for viral recovery is to collect lysed cells and store them in the freezer. The presence of virions may be revealed through an examination of the lysate by any of several methods including, but not limited to, plaque assay, a transduction assay that reveals the presence of a marker genes like beta-galactosidase, or physical methods such as chromatography followed by spectroscopy.

[0068] As used herein, the term "transfection/infection protocol" refers to the standard protocol where helper-dependent viral DNA is introduced into cells by a transfection method at approximately the same time (e.g. plus or minus 24 hours) that intact helper independent viral particles (e.g. contain adenoviral terminal protein linked to the origin of replication) are allowed to contact the cells and infect them. After a variable period of time the cells lyse due to replication of the virus. At that point, the progeny viral particles are collected.

[0069] As used herein, the term "replication-promoting agent" refers to a compound or molecule that may be ligated to viral DNA terminus such that the activity level in a replication assay of such viral DNA is increased (compared to not having the replication-promoting agent ligated to the viral terminus). Examples of replication-promoting agents include, but are not limited to, Ad5 adnenoviral preterminal protein, Ad5 adenoviral protein, Ad2 preterminal protein, and Ad2 terminal protein.

[0070] As used herein, the term "agent capable of extending said first origin of replication" refers to any agent that is capable of adding single nucleotides, or oligonucleotides (e.g. 10 mers) to the terminal end of viral DNA. Examples of such agents include, but are not limited to, terminal transferase, T4 DNA ligase, and T4 RNA ligase.

[0071] As used herein, the phrase "contacting said helper-dependent viral DNA with said agent for a period of time sufficient to generate", in regards to time, refers to the length of time required to expose viral DNA origins (natural or un-natural) to an agent capable of extending such origins, such that the activity level in a replication assay of such extended origin is increased (as compared to not extended origins). This time period may vary according to the agent employed and other conditions (e.g. type and concentrations of nucleotides). One example of determining the appropriate length of time is provided in Example 5.

[0072] As used herein, the phrase "said first origin of replication and said second origin of replication have nucleic acid sequences that are substantially similar" refers to the situation where the first and second origins, while not identical, have origins of replication that are similar in nature (e.g. they both have additional nucleotides added to the natural origin of replication such that the ability). One example of substantially similar origins is provided in FIG. 1A, comparing the structure of the PacI digested viral DNA origin to the FseI digested viral DNA origin.

DESCRIPTION OF THE INVENTION

[0073] The present invention relates to methods and compositions for the production of viral vectors. In particular, the present invention provides methods and compositions for faster, higher titer and higher purity production of viral vectors (e.g. adenoviral vectors). In some embodiments, the present invention provides gutted and helper viruses with corresponding termini. In other embodiments, the present invention provides terminal protein linked adenoviral DNA. In other embodiments, the present invention provides template extended adenoviral DNA (e.g. for increased viral production/recovery and plaquing efficiency). In additional embodiments, the present invention provides methods and compositions for culturing gutted and helper adenoviruses (e.g. with similar or identical termini). For example, the present invention provides compositions and methods for regulated expression of site specific recombinases. In another example, the present invention provides compositions (e.g. cell lines) and methods for culturing adenoviral vectors with adenoviral protein IX.

I. Gutted and Helper Viruses with Similar or Identical Termini

[0074] In typical gutted virus-helper virus rescue production methods, the helper virus eventually comes to dominate the contents of the packaging cell (to the detriment of the gutted adenovirus). The number and proportion of gutted virions is small because plasmid DNA, whether circular (with fused ITRs) or linear, is a poor substrate for initiation of adenoviral DNA replication. As a result, replication of the helper virus occurs in many cells without concomitant production of gutted virus, despite the presence of gutted viral plasmid substrate.

[0075] As mentioned above, to increase the number and proportion of gutted virions in the lysate, the initial mixture is generally serially passaged. Helper-dependent Ad vectors are usually propagated with constant selective pressure against helper virus packaging. During early passages, selection allows for gradual improvement in the ratio of gutted to helper virus. Unfortunately, growth of vector stocks under selective pressure can lead to rearrangement of helper and gutted viruses. In addition, serial passage is time consuming.

[0076] Published protocols for rescue of helper-dependent Ad vectors employ gutted viral DNA derived from plasmids and helper viral DNA derived from replicating virus. Most investigators transfect gutted viral DNA and then infect with replication-competent helper virus the "transfection/infection" protocol. Others have compared transfection/infection to co-transfection of gutted viral DNA from plasmids and helper viral DNA prepared from replicating virus and found that co-transfection is more efficient. In these protocols, the helper and gutted viral DNAs have different structures at their origins of replication.

[0077] The present invention provides gutted and helper viral DNA with similar corresponding termini or linked to terminal protein, thus alleviating some of the problems of normal viral rescue protocols. While not limited to any mechanism, providing gutted and viral DNA that are substantially similar at the origin of replication allows parallel amplification of both types of vectors, thus preventing the helper viruses production from dominating over gutted virus production. Again, while not limited to any mechanism, it is believed that substantially similar termini or origins of replication (or identical termini or origins of replication) allow parallel amplification of both types of vectors because neither type of virus has a competitive advantage for attracting replication factors (such as adenoviral polymerase, transcription factors, etc.).

[0078] The present invention provides gutted and helper viruses with corresponding termini, and methods of employing such vectors for increased production yields (and faster production) of adenoviral vectors (which, may then be used, for example, for gene therapy applications). In some embodiments, gutted adenoviral DNA and helper adenoviral DNA (e.g. both located on plasmids) are released from their plasmids with the same restriction enzyme (cutting at the termini) such that the termini of the linearized DNA are the same (i.e. the gutted and helper adenoviral DNA have corresponding termini). Any type of restriction enzyme (or other enzyme that will cut DNA) may be used, as long as at least one viral terminus is released from its host vector or the ends of the DNA are able to be cut, leaving corresponding termini on both the gutted and helper DNA. In particular embodiments, different restriction enzymes are employed. In such embodiments, the ends of the viral DNA may not be identical, but the ability of the ends to promote replication in cells is approximately the same (e.g. neither type of DNA has a substantial competitive advantage after transfection, such that replication of both types of viruses proceeds at approximately the same pace). In preferred embodiments, the same restriction enzyme is used to generate the termini of both the gutted and helper viral DNA.

[0079] Preferably, restriction enzymes are employed that cut close to or at the termini of helper and gutted viral DNA. In some embodiments, creating gutted and helper adenoviral DNA with identical or similar termini requires that particular restriction sites be removed from one or both types of DNA (to prevent the digestion of the viral DNA). An example of removing unwanted restriction sites (FseI sites) from viral DNA (the Ad5 genome) is provided in Example 1. A similar procedure can be employed to remove other types of unwanted restriction sites from viral DNA. In this regard, any restriction enzyme could be employed to create identical (or similar) termini if the suitable modification are made (if necessary) in the viral DNA.

[0080] To confirm that the restriction enzyme employed is capable of releasing replication-competent viral DNA from flanking DNA sequences (e.g. plasmid DNA), an assay similar to Example 2 may be employed (transfecting gutted and helper DNA into cells known to replicate adenoviral DNA). Such a technique may also be employed to test the relative efficiency of production of viral particles from viral DNA with various termini.

[0081] In certain embodiments, neither the gutted or the helper viral DNA contain terminal protein, and both types are transfected into a cell line as DNA (e.g. the helper DNA is transfected as DNA, instead of a viral particle). In such embodiments, the identity of the termini of the helper and gutted viral DNA is not critical, as long as the termini both do not contain terminal protein or any terminal protein remnant (e.g. one serine residue). In certain embodiments, the gutted and helper viral DNA are co-transfected into a packaging cell line.

II. Replication-Promoting Agent Linked Adenoviral DNA

[0082] Another method for increasing viral production is linking gutted adenoviral DNA (e.g. the adenoviral origin) to a replication-promoting agent (e.g. adenoviral preterminal protein or adenoviral terminal protein). The normal substrate for initiation of adenoviral DNA replication is terminal protein-DNA complex. Plasmid-based substrates propagated in, for example, E. coli, normally lack terminal protein. As such, replication is greatly increased by linking gutted adenoviral DNA (and, in some embodiments, helper viral DNA) to adenoviral terminal protein.

[0083] In the transfection/infection protocol, or when helper virus terminal protein-DNA complex is used for co-transfection, the helper virus DNA is already attached to adenoviral terminal protein. While not limited to any mechanism, it is believed that linking the gutted adenoviral DNA termini to a replication-promoting agent (e.g. adenoviral terminal protein) reduces the competitive advantage helper virus has when supplied as viral particles (or DNA) that is already attached to terminal protein. In this regard, both types of viral DNA have a similar ability to attract replication factors and replicate into viral particles. Again, while not limited to any mechanism, it is believed that the presence of a replication-promoting agent (e.g. adenoviral preterminal protein) bound to the template confers higher affinity for incoming Ad polymerase-preterminal protein complex, an essential viral replication factor.

[0084] One method for preparing gutted viral genomes linked to adenoviral terminal protein (i.e. terminal protein serves as the replication-promoting agent) involves purifying terminal protein-containing fragments. Terminal protein-containing fragments (e.g. isolated from intact virus), can be purified away from other viral DNA fragments before ligation. It is desired that such purification be employed as the presence of other viral fragments would tend to inhibit the desired ligation reaction, since both partners in the desired ligation (gutted viral genomes and terminal protein-containing fragments) would likely be ligated to contaminating, more numerous random viral fragments in a mixed reaction. A second purification step may be performed after ligation, when unligated terminal protein-DNA fragments are removed. As these fragments contain natural Ad origins, failure to remove them could reduce the yield of gutted virus by inhibiting viral replication. Another method for obtaining terminal protein is purification of terminal protein-gutted genome complex from gutted virus preparations.

[0085] In a preferred embodiments, gutted Ad genomes are linked to normal Ad origins (FIG. 4). This method requires relatively small amounts of terminal protein DNA-complex (e.g. 2-4 moles of terminal protein-DNA complex are sufficient to convert approximately 1 mole of gutted viral genomes to the natural, terminal protein-containing form). Conveniently, the reaction can be performed without purification of the terminal protein-DNA reagent either before or after origin conversion (See Example 3).

[0086] In some embodiments, the compound used in the conversion process is terminal protein linked to single-stranded DNA (e.g. from the non-template strand of an Ad ITR). Another term for terminal protein linked to single-stranded DNA is "TP-primer". Example 3 provides one example of the preparation of TP-primer, employing a restriction enzyme digest of viral TP-DNA complex (employing Bsh1236I, AluI, and HinfI) followed by .lamda. exonuclease treatment. Other restriction enzymes may be employed in this process. Preferably, restriction enzymes are chosen that leave a substantial length of nucleic acid (i.e. `primer`) on the TP-primer reagent. For example, Bsh12361, employed in Example 3, is known to cut between base pairs 73 and 74 of the Ad5 ITR, so this type of digestion results in terminal protein linked to a 73-bp, double stranded DNA molecule. This method may also employ other exonucleases (i.e. besides .lamda. exonuclease), preferably 5' to 3' exonucleases (e.g. T7 gene 6 exonuclease).

[0087] In some embodiments, the TP-primer reagent is purified after it is constructed (e.g. to remove any mononucleotides or oligonucleotides created as a result of the enzyme digests). For example, as the TP-primer contains single-stranded DNA, any type of solid-phase purification strategy may be used (e.g. paramagnetic beads linked to single-stranded DNA that is complementary to the DNA in the TP-primer reagent--after binding of TP-primer to the beads, the beads could be collected and the TP-primer reagent released through heating). Other suitable purification/collection techniques are known in the art.

[0088] TP-primer may also be constructed synthetically. Such a synthetic reagent would contain, for example, a peptide fragment (or entire protein) of the Ad terminal protein linked to any number of bases from an adenovirus ITR. Synthesis techniques for polypeptides and nucleic acid are well known in the art.

[0089] A natural or synthetic "primer" sequence, for generating a TP-primer molecule, is selected to be substantially or completely complementary to a strand of specific sequence of the gutted viral template. A primer must be sufficiently complementary to hybridize with a template strand (e.g. such that primer elongation can occur). A primer sequence need not reflect the exact sequence of the template. Non-complementary bases or longer sequences can be interspersed into the primer, provided that the primer sequence has sufficient complementarity with the sequence of the template to hybridize and thereby form a template primer complex. Complementarity need not be perfect, stable duplexes may contain mismatched base pairs or unmatched bases. Those skilled in the art of nucleic acid technology can determine duplex stability empirically considering a number of variables including, for example, the length of the oligonucleotide, base composition and sequence of the oligonucleotide, ionic strength and incidence of mismatched base pairs.

[0090] TP-primer molecules (or similar molecules) are used to convert viral origins to "natural" viral origins of replication. In a preferred embodiment, TP-primer is used to convert plasmid derived gutted viral genomes to natural adenoviral origins by attaching TP-primer to the terminus of adenoviral DNA. Any type of method may be employed. For example, gutted viral genomic DNA (flanked by restriction enzyme sites) may be digested with the appropriate restriction enzyme to release the gutted viral DNA. The products of this are then subjected to limited digestion with a 5' to 3' exonuclease (limited digestion with this type of enzyme exposes single-stranded regions near the gutted vector genomic termini, see FIG. 3B). Any type of 5' to 3' exonuclease may be employed (e.g. T7-gene-6 exonuclease, exonuclease, etc.). Digestion with the 5' to 3' nuclease is for a limited time (e.g. about 1-2 minutes), such that enough single strand template is exposed to hybridize to the nucleic acid in the TP-primer, but not so much that the entire strand is digested. The longer the single-stranded nucleic acid is on the TP-primer compound, the more 5' to 3' digestion is needed to expose a single-stranded template for hybridization. The exonuclease is preferably inactivated (e.g. by heating) prior to the introduction of the TP-primer.

[0091] TP-primer is then added to the digested product that is created after exonuclease digestion. The nucleic acid portion of the TP-primer (i.e. the `primer` portion) will hybridize to its complement on the partially digested viral DNA. In preferred embodiments, the nucleic acid portion of the TP-primer is relatively long (e.g. 25 or more bases) such that the TP-primer reagent can bind efficiently to the exonuclease digest gutted DNA, even at low molar ratios. However, any length of `primer` nucleic acid capable of hybridizing to the exonuclease digested viral DNA may be employed (see discussion above). Once the TP-primer reagent is added to the digested viral DNA, the mixture may be subjected to conditions that promote rapid hybridization. For example, the temperature of the mixture may be raised (e.g. to 75.degree. C.) and allowed to cool (e.g. the temperature is allowed to fall slowly over 2-3 hours to room temperature).

[0092] Hybridized TP-primer molecules are then extended (e.g. using T4 DNA polymerase, Taq polymerase, etc.) and nicks are repaired (e.g. using T4 DNA ligase) in the presence of dNTPs. In some embodiments, products of the extension and nick repair are incubated for a period of time (e.g. 5 minutes) at 0.degree., then a period of time (e.g. 5 minutes) at room temperature, and then a period of time (e.g. 2 hours) at 37.degree. C. In certain embodiments, EDTA is then added to this mixture, and the mixture is stored on ice. In particular embodiments, the reaction products are dialyzed against transfection buffer before being used (e.g. before being used to transfect cells).

[0093] In particular embodiments, the successful addition of TP-primer to the origin of replication (e.g. of gutted adenoviral DNA) is confirmed. Confirmation may be performed by any method. For example, a restriction digestion may be performed on the TP-primer-viral DNA molecules followed by agarose gel electrophoresis (See FIG. 4A, and Example 3). Another example of a method that may be employed to confirm the successful addition of TP-primer to the origin of replication is determining if these molecules have increased specific activity of these molecules (e.g. Example 4).

[0094] Linking gutted viral DNA to adenoviral terminal protein (e.g. by attaching TP-primer) increased the yield of gutted virus produced in a gutted viral rescue procedure. In some embodiments, co-transfection of terminal protein linked gutted DNA with terminal protein DNA complex from helper virus results in an 85 fold increase in virus production, when compared to transfection/infection protocols using C7 cells without linking the gutted viral DNA to adenoviral terminal protein. In other embodiments, co-transfection of adenoviral terminal linked gutted and helper adenoviral DNA results in greater than a 2.5 fold increase in adenoviral production (e.g. 2.7 fold increase), compared to not linking either viral DNA to adenoviral terminal protein.

[0095] The replication-promoting agent may be adenoviral terminal protein. Viral DNA may also be linked to adenoviral preterminal protein. Any source of terminal or preterminal protein (e.g. natural or synthetic) from any type of adenovirus (e.g. Ad5 and Ad2). The terminal protein or preterminal protein may be made synthetically by, for example, transfecting cells with an expression vector (e.g. plasmid) with a gene sequence encoding a least a portion of adenoviral terminal, or preterminal, protein. Examples of such nucleic acid sequences that may be express in such a recombinant fashion include, but are not limited to, SEQ ID NO:18 (Ad2 terminal protein, FIG. 18) and SEQ ID NO:20 (Ad5 terminal protein, FIG. 18). Examples of preterminal protein nucleic acid sequences include, but are not limited to, SEQ ID NO:17 (Ad2 preterminal protein, FIG. 18) and SEQ ID NO:19 (Ad5 preterminal protein). The sequences, or portions thereof, may linked to viral DNA as described above. The present invention also contemplates other replication promoting agents, including lipids, other proteins, carbohydrates, and nucleic acids, as long as they are capable of promoting the replication of viral DNA when linked to the origin of the viral DNA.

[0096] Another method for creating terminal protein-linked viral DNA is by the use of Cre recombinase to transfer a segment of DNA linked to terminal protein. For example, gutted viral plasmid DNA containing a loxP site near at least one terminus is incubated with terminal protein-DNA complex from a helper virus whose genome contains a loxP site. Cre is then added to the reaction to facilitate intermolecular exchange.

[0097] The present invention contemplates terminal protein linked gutted adenoviral DNA that is transfected with helper viral DNA that is either linked to terminal protein (e.g. natural adenoviral DNA), or not linked to helper viral DNA (e.g. deproteinized helper viral DNA). For example, terminal protein linked gutted viral DNA may be used in conjunction with adenovirus (e.g. transfection/infection protocol), deproteinized viral DNA or terminal transferase treated (see below) helper viral DNA. In some embodiments, the helper virus does not contain terminal protein. In other embodiments, the helper virus does not contain terminal protein and is used at a higher concentration than the gutted viral DNA. These sequence may also be mutated (e.g. directed evolution) to increase their ability to promote replication (See, e.g. U.S. Pat No. 5,811,238, hereby incorporated by reference).

III. Template Strand Extended Adenoviral DNA

[0098] The present invention provides a further method for increasing gutted virus production (and recovery), as well as methods for increasing the plaquing efficiency of adenoviral DNA after transfection into cells. In particular, limited extension of adenoviral DNA termini (e.g. gutted adenoviral termini) increases plaquing efficiency (e.g. approximately 10 fold increase in efficiency, see Example 5 and FIG. 5) as well as increasing gutted virus recovery (e.g. an increase of 2.5 fold gutted viral recovery).

[0099] In preferred embodiments, the terminus of an adenoviral DNA is extended for a time sufficient to allow increased plaquing efficiency and/or gutted virus recovery. As demonstrated in Example 5, various time points may be tested to determine the appropriate limited template extension (e.g. in Example 5, approximately 30 minutes of extension in the presence of terminal transferase was optimal, with 6 minutes being less than optimal and 150 minutes being worse than no template extension). In some embodiments, adenoviral template DNA is extended from approximately 6 minutes to approximately 100 minutes. In preferred embodiments, the adenoviral DNA is extended for approximately 20 minutes to approximately 40 minutes. In particularly preferred embodiments, the adenoviral DNA is extended for approximately 30 minutes (e.g. 25-35 minutes). The time required to achieve a successful limited extension may be determined empirically employing methods similar to Example 5 and will vary depending on the conditions used (e.g. extending enzymes employed, concentrations of dNTPs, etc.).

[0100] Any type of enzyme capable of extending viral template DNA may be employed. For example, Taq polymerase, T4 polymerase, T4 DNA or RNA ligase, or terminal transferase may be used. In preferred embodiments, terminal transferase is employed. In some embodiments, the viral template DNA sequence is linearized by digesting with restriction enzyme(s) before template strand extension.

[0101] Template strand extension of viral DNA templates (e.g. gutted adenoviral DNA) employs molecule(s) capable of adding deoxyribonucleotide triphosphates (dNTPs) to the viral template DNA. In some embodiments, all four dNTPs are provided in the reaction mixture (i.e guanine, cytosine, adenine, thymine). In other embodiments, only two or three of the dNTPs are provided (e.g. guanine and adenine, or guanine, adenine, and cytosine). In preferred embodiments, only guanine, adenine, and cytosine are supplied to the reaction mixture (i.e. not thymine).

[0102] Limited template extension of viral DNA increases plaquing efficiency and gutted virus recovery. In certain embodiments, the plaquing efficiency is increased two fold (i.e. the plaquing efficiency is double compared to controls that do not have limited extension of the template DNA). In preferred embodiments, the plaquing efficiency is more than doubled (e.g. 3 fold, 4 fold, and 5 fold increased efficiency). In particularly preferred embodiments, the plaquing efficiency is increased approximately 10 fold. In some embodiments, the recovery of gutted virus is increased two fold. In preferred embodiments, the recovery of gutted virus is increased more than two fold (e.g. 2.5 fold). In some embodiments, template extended gutted viral DNA is transfected into cells, followed later by infection by helper virus (i.e. a transfection/infection protocol is employed). In preferred embodiments, helper and gutted viral DNA are co-transfected into cells (See Example 5, and FIG. 5D).

[0103] Extensions of viral DNA may also be accomplished by ligating various length oligos to the viral origin (i.e. ligation of oligonucleotides is employed instead of or in addition to the methods described above). For example, T4 DNA ligase may be used to ligate various oligonucleotides (e.g. ranging from 2-100 base pairs in length, and mixtures of various lengths) to viral origins in order to increase the activity of these origins. Again, assays may be employed to determine the optimal length of oligonucleotides to employ and the amount of time ligation is allowed to proceed.

IV. Culturing Gutted and Helper Adenoviruses

[0104] Methods and compositions are also provided by the present invention to increase viral recovery. In particular, improved selection strategies are provided (particularly well suited for gutted and helper adenoviral DNA with identical or similar termini). The present invention also provides cells lines expressing protein IX (and methods for allowing cells to express factor IX) to increase viral recovery.

A. Regulated Expression of Site-Specific Recombinases

[0105] Site-specific recombinases have been used to reduce helper contamination and improve gutted virus titer during serial passage. In these systems, the packaging element of the helper virus is flanked by recognition sites for site-specific recombinases like Cre or Flp. In these systems, the yield of gutted virus after rescue from plasmid is low, so improvement in gutted virus titer during serial passage is paramount. Use of a site-specific recombinase improves gutted virus titer by improving the gutted:helper ratio after lysis of a plate, so that a higher percentage of particles produced contain gutted viral genomes. This method results in a higher gutted virus titer at the following passage, since each infected cell contains a higher proportion of gutted genomes.

[0106] Such systems are typically designed for infection of each producer cell by at least one helper virus particle. This protocol typically allows for complete lysis of the plate despite the action of recombinase, which acts to prevent packaging and spread of helper virus, but does not prevent death of infected cells. In these systems, high-level production of the site-specific recombinase is desirable. Since each cell is infected by helper virus, viral spread is not necessary; higher production of recombinase leads to lower contamination with helper virus but does not compromise gutted virus production.

[0107] As described above, gutted virus rescue is most efficient when gutted and helper viral genomes with identical origin structure are co-transfected into producer cells (see also, Example 2). Employing gutted and helper viral genomes with identical (or similar) origin structure, however, a smaller fraction of transfected cells convert the helper virus DNA into replicating virus. This fact is confirmed by the observation that lysis of transfected plates takes about a week, although the time for a single round of viral replication is on the order of 24 hours. Virus produced by those few cells that converted transfected DNA to replicating virus must spread through the plate before complete lysis occurs. Under these conditions, constitutive, high-level expression of recombinase is not appropriate (See Example 6). In the presence of high levels of recombinase, the few cells that can produce virus produce very little, which often is not sufficient to lyse the plate, typically a requirement for high titers of gutted virus.

[0108] Regulated expression of site specific recombinase is provided by the present invention in order to take advantage of the beneficial activity of site specific recombinases, yet avoid the detrimental results evidenced in cells expressing site specific recombinase constitutively. Site specific recombinase may be regulated in time, with minimal to no expression at early times after transfection and high expression at later time points. While not limited to any mechanism, it is believed that the expression of a site-specific recombinase is detrimental at early times after transfection, when transfected helper genomes are being converted to replicating virus, thus providing helper particles that should spread through the plate. At later time points, however, when helper and gutted virus particles are replicating in tandem, expression of site-specific recombinase could increase the proportion of viral particles that contain gutted genomes, thereby assisting in gutted virus recovery. One example of providing such temporal expression employs co-transfection of site specific expression vectors (e.g. Cre recombinase expression vector) with viral genomes (e.g. gutted and helper viral genomes with identical origins of replication) (See Example 6). In this manner, transfected cells are not expressing Cre at the time of transfection, and after transfection, some time will pass before the appearance of the first molecules of Cre protein, since RNA and then protein must be synthesized. Finally, the level of Cre will increase to some equilibrium level on a time scale that depends on the half life of the RNA, the half life of the protein, and the strength of the promoter used to drive Cre recombinase expression.

[0109] The amount of the recombinase expression vector employed will depend on many factors. Importantly, transfecting cells with a level of recombinase expression vector that is too high to allow the helper virus DNA to replicate at a high enough level to infect most of the cells, and lyse the plate is to be avoided (See Example 6, where 176 ng of pOG231 is less effective than providing no Cre at all). Likewise, transfecting cells with a level of recombinase expression vector that is too low to prevent the helper virus from dominating the type of virus being expressed is also to be avoided (See Example 6, where 1.41 ng of pOG231 was no more effective than providing no Cre at all). Determining the appropriate level of recombinase expression level to employ for a given type of cell type, recombinase, promoters employed, etc., is within the skill in the art. For example, a concentration type assay may be employed as exemplified in Example 6. As demonstrated in this example, various levels of recombinase expression vector may be tested to determine the optimal levels of starting recombinase expression vector that should be employed. Examples of appropriate levels of recombinase expression level are provided in Example 6 (for the types of conditions employed in this assay). For example, appropriate levels of pOG231, as determined in example 6 include approximately 5-37 ng of expression vector, preferably 7-36 ng of expression vector, more preferably 16-35 ng of expression vector. Of course, altering the type of vector, cells, conditions, etc., may change the appropriate level as described above.

B. Culturing Adenovirus in Cells Expressing Adenoviral Protein IX

[0110] In order to improve production, gutted and helper adenovirus are co-transfected in cells expressing adenoviral protein IX (pIX). The protein IX gene of the adenoviruses encodes a minor component of the outer adenoviral capsid which stabilizes the group-of-nine hexons which compose the majority of the viral capsid (See U.S. Pat. Nos. 5,932,210 and 5,824,544, hereby incorporated by reference). Based upon study of adenovirus deletion mutants, protein IX initially was thought to be a non-essential component of the adenovirus, although its absence was associated with greater heat lability than observed with wild-type virus. More recently it was discovered that protein IX is essential for packaging full length viral DNA into capsids and that in the absence of protein IX, only genomes at least 1 kb smaller than wild-type could be propagated as recombinant viruses.

[0111] In one embodiment, an expression vector encoding protein IX is co-transfected with the gutted and helper adenovirus. In some embodiments, gutted and helper adenovirus are transfected in a cell line that expresses adenoviral protein IX. In preferred embodiments, the cell stably and constitutively expresses adenoviral protein IX. In particularly preferred embodiments, the cell line also expresses E2B proteins. One example of a cell line expressing E2B proteins (adenoviral DNA polymerase and preterminal protein) is the C7 cell line (See, U.S. Pat. No. 6,083,750). Creating a cell line that stably and constitutively expresses adenoviral protein IX, in addition to adenoviral DNA polymerase and preterminal protein, may be accomplished, for example by stably transfecting C7 cells (or other cells expressing E2B proteins) with a vector expressing adenoviral protein IX (See Example 7, creating the D2104#10 cell line).

[0112] Additional cell lines that stably and constitutely expresses adenoviral protein IX, in addition to adenoviral DNA polymerase and preterminal protein are contemplated. For example, any type of cell known to effectively allow adenoviral replication may be transfected with an expression vector encoding adenoviral protein IX (preferably with a selectable marker). Preferably, the cells also express preterminal protein and adenoviral DNA polymerase. Transfected cells may be grown on selective media. Clones are then screened for expression by transfection with an adenoviral protein IX negative genome, and clones producing virus after transfection are isolated.

V. Heterologous Gene Sequences

[0113] As described above, the present invention is useful for the production of adenoviral vectors (e.g. helper-dependent adenoviral vectors). The adenoviral vectors produced, in preferred embodiments, comprise a heterologous gene sequence, such that the vectors may be useful for various applications (protein expression in vitro, therapeutic applications, etc). Suitable heterologous DNA sequences include, for example, nucleic acid sequences that encode a protein that is defective or missing in a recipient subject, or a heterologous gene that encodes a protein having a desired biological or therapeutic effect (e.g. an antibacterial, antiviral, or antitumor function). Other suitable heterologous nucleic acids include, but are not limited to, those encoding for proteins used for the treatment of endocrine, metaloic, hematologic, cardiovascular, neurologic, musculoskeletal, urologic, pulmonary, and immune disorders, including such disorders as inflammatory diseases, autoimmune disease, chronic and infectious diseases, such as AIDS, cancer, hypercholestemia, insulin disorders such as diabetes, growth disorders, various blood disorders including various enemias, thalassemias, and hemophilia; genetic defects such as cystic fibrosis, Gaucher's disease, Hurler's disease, adenosine deaminase (ADA) deficiency, and emphysema.

[0114] The therapeutic or diagnostic nucleic acid sequence, in some embodiments, will code for a protein antigen. The antigen may include a native protein or protein fragment, or a synthetic protein or protein fragment or peptide. Examples of antigens include, but are not limited to, those that are capable of eliciting an immune response against viral or bacterial hepatitis, influenza, diphtheria, tetanus, pertussis, measles, mumps, rubella, polio, pneumococcus, herpes, respiratory syncytial virus, hemophilus influenza type b, chlamydia, varicella-zoster virus or rabies. The nucleic acid sequence may also be a normal muscle gene that is effected in a muscle disease (e.g. muscular dystrophies like Duchenne muscular dystrophy, limb-girdle muscular dystrophy, Landouzy-Dejerine muscular dystrophy, Becker's muscular dystrophy, ocular myopathy, and myotonic muscular dystrophy). For such muscular dystrophies, the nucleic acid may be a heterologous gene encoding the full length dystrophin gene (or cDNA sequence), BMD-minigene, .DELTA.H2-R19 minigene, Laminin-.alpha.2, utrophin, a-sarcoglycan, and emerin. BMD mini-gene refers to dystrophin cDNAs containing internal truncations corresponding to specific exons of the gene, in particular, a deletion of the sequences encoded on exons 17-48 [Amalfitano et al., in Lucy J, and Brown S. (eds): Dystrophin: Gene, Protein, and Cell Biology (Cambridge University Press, 1997), Chpt. 1, 1-26, herein incorporated by reference]. .DELTA.H2-R19 refers to a specific dystrophin eDNA containing internal deletions corresponding to specific functional domains of the gene, in particular, a deletion of the sequences that encode `hinge 2` through `spectrin-like repeat` 19 [See Amalfitano et al.].

[0115] Nucleic acid sequences may also be antisense molecules (e.g. for blocking the expression of an abnormal muscle gene). The nucleic acid sequence may also code for proteins that circulate in mammalian blood or lymphatic systems. Examples of circulating proteins include, but are not limited to, insulin, peptide hormones, hemoglobin, growth factors, liver enzymes, clotting factors and enzymes, complement factors, cytokines, tissue necrosis factor and erythropoietin. Heterologous genes may also include gene encoding proteins that are to be produced (e.g. commercially produced) in muscle cells in vitro or in vivo. For example, the improved expressions systems of the present invention may be applied to preexisting, working muscle expression systems to improve the level of expression of protein product from a gene of interest. The present invention also contemplates employing any gene of interest (heterologous or endogenous).

VI. Using Adenoviral Vectors

[0116] The adenoviral vectors produced as described above may be used, for example, in drug screen or in gene therapy methods. In one screening method, an adenoviral vector (e.g. helper-dependent adenoviral vector, produced according to the above methods) contain adenoviral DNA operably linked to a heterologous gene encoding an factor (e.g. enzyme, protein, antisense molecule) with a known function (e.g. alcohol dehydrogenase), is contacted in vitro with a tissue culture sample (e.g. a muscle cell containing tissue culture) such that the heterologous gene is expressed. A candidate compound is added along with a substrate for the enzyme (e.g. ethanol), and a parallel assay is run without the candidate compound. The level of enzyme activity is detected (e.g. amount of substrate remaining over time) in each assay. The results of both assays are compared in order to determine the affect of the candidate compound on the activity of the enzyme. In other embodiments, the candidate compound many comprise a factor suspected of altering gene expression of the heterologous gene and the assay detects that degree and/or ability of the candidate compound to reduce the activity of the expressed factor. One of ordinary skill in the art will appreciate that many other screening methods can be used. The adenoviral vectors may also be used advantageously in gene therapy to replace a defective gene in subject with a heterologous gene.

EXPERIMENTAL

[0117] The following examples are provided in order to demonstrate and further illustrate certain preferred embodiments and aspects of the present invention and are not to be construed as limiting the scope thereof.

[0118] In the experimental disclosure which follows, the following abbreviations apply: N (normal); M (molar); mM (millimolar); .mu.M (micromolar); mol (moles); mmol (millimoles); .mu.mol (micromoles); nmol (nanomoles); pmol (picomoles); g (grams); mg (milligrams); .mu.g (micrograms); ng (nanograms); 1 or L (liters); ml (milliliters); .mu.l (microliters); cm (centimeters); mm (millimeters); um (micrometers); nn (nanometers); .degree. C. (degrees Centigrade); Sigma (Sigma Chemical Co., St. Louis, Mo.); and

Example 1

Generating Gutted and Helper Virus with Identical Termini

[0119] This example describes the deletion of internal FseI sites in the nucleic acid sequence of an Ad5-based helper virus, and insertion of this nucleic acid sequence into a plasmid such that it is removable with FseI.

[0120] The FseI recognition sequence, "GGCCGGCC", contains cytosine residues and can be arranged to overlap with the first nucleotide of viral DNA so that only one additional base pair is attached to viral DNA removed from plasmid vectors with this enzyme (FIG. 1A). In addition, FseI is rare in cloning vector polylinkers and mammalian sequences, so it is ideal for removal of gutted viral genomes from plasmid vectors. FseI has been used previously for linearization of viral shuttle vectors, which contain a portion of the Ad genome; however, it could not be used to liberate the entire Ad5 genome from plasmid DNA, because the Ad5 genome contains two FseI sites.

[0121] In order to remove the FseI sites in the (+)lox(+)pol helper virus DNA sequence (SEQ ID NO:1), mutations were created that destroy both FseI sites while maintaining the ability of the virus to replicate (transitions were made at nucleotides 12587 and 17756, creating SEQ ID NO:9, FIG. 11, see also FIG. 1B). The mutation at nucleotide 12587 was chosen so as to preserve the amino acid sequence of capsid protein Ma. Primers 92521, CGGAATTCGGATCCAGCGACCGCGA GCTGAT (SEQ ID NO:2) and 92531, CGGAATTCAGCCGGCTTCGTCGGGCCGGATGGC (SEQ ID NO:3) were used in a PCR reaction to simultaneously amplify approximately 540 base pairs of the Ad5 sequence, to introduce the G to A transition at nucleotide 12587, and to flank the resulting DNA sequence with EcoRI sites. The product was digested with EcoRI and ligated to the large, approximately 2.2 kb ApoI fragment of pBSX (pBSX--SEQ ID NO:12, FIG. 9, which is a minor modification of a Bluescript vector, with alterations to the polylinker sequence, See FIG. 10) to yield pD1858#7. Primers 92541, CGCGGATCCGCCGGCTACGGCCTGACGGGCGG (SEQ ID NO:4) and 92551, CGGAATTCACACACATACGACACGTTAG (SEQ ID NO:5) were used to amplify approximately 1 kb of Ad5 sequence, to introduce the C to T transition at nucleotide 17756, and to append an EcoRI site to the rightmost end of the resulting DNA fragment. The product was digested with EcoRI and NgoMI, then ligated to EcoRI-, NgoMI-digested pD1858#7 to yield pD1863#4. This plasmid was digested with NgoMI and ligated to the 5162-bp NgoMI fragment from the Ad5 genome, resulting in pD1866#17, which contains both transitions mentioned above. To create a virus lacking FseI sites, pD1866#17 was digested with EcoRI and co-transfected with FseI-digested terminal protein-DNA complex from (+)lox(+)pol Ecd-AP helper virus. The sequence for (+)lox(+)pol Ecd-AP is SEQ ID NO:1, FIG. 8. After one week of incubation, the transfected cells showed evidence of viral cytopathic effect, indicating that they contained replicating virus, designated .DELTA.FseI.4 (SEQ ID NO:9, FIG. 1B). The DNA was extracted from these cells by Hirt prep (DNA episomal extraction method employing lysis in 0.6% SDS/10 mM EDTA, followed by addition of salt, incubation at 4.degree. C., and centrifugation to remove contaminants, Hirt, B., J. Mol. Biol. 26:365

[1967]) and shown not to contain FseI sites by restriction digest.

[0122] To confirm that FseI could be used to release replication-competent viral DNA from flanking DNA sequences, .DELTA.FseI.4 genomic DNA was cloned into a plasmid vector, where it was flanked by FseI sites (Fig. IC). Primers 82701, CGGAATTCGGCCGGCCATCATCAAT AATATAC (SEQ ID NO:6) and 82741, CGGTCGATTCAATTGCTGGCAAGCTTCGG CCCTAGACAAATAT (SEQ ID NO:7) were used in a PCR reaction to amplify approximately 400 bp from the left end of (+)lox(+)pol Ecd-AP helper virus and to introduce flanking restriction sites: EcoRI and FseI at the left end of the fragment and HindIII, MfeI, and TfiI at the right end. The product was digested with EcoRI and TfiI and cloned into the 1.86 kb ApoI/TfiI fragment of pBSX (See, FIG. 9), generating pD1812#1. Primers 82701 (SEQ ID NO:6) and 82731, CTATGCTAACCAGCGTAGC (SEQ ID NO:8) were used to amplify approximately 1 kb from the right end of (+)lox(+)pol Ecd-AP helper virus and to add FseI and EcoRI sites at the right end of the fragment. The product was digested with HindIII and EcoRI and cloned into HindIII-, MfeI-digested pD1812#1, generating pD1821#8. To clone .DELTA.FseI.4 viral genomic DNA into pD1821#8, the plasmid was digested with HindIII and recombined with .DELTA.FseI.4 Hirt prep DNA in BJ5183 bacterial cells (BJ5183 bacterial cells, see Hanahan, D., J. Mol. Biol., 166:557

[1983]). The resulting plasmids, including pD1940#3 and pD1940#6, were shown by restriction digest to contain the entire .DELTA.FseI.4 genome flanked by FseI sites (FIG. 1C). No internal FseI sites were detected, confirming that virus .DELTA.FseI.4 contains mutations that destroy these sites.

[0123] To show that FseI digestion could release replication-competent Ad DNA from plasmids, pD1940#3 and pD1940#6 were digested with FseI and transfected into C7 cells (C7 cells express both Ad DNA polymerase and preterminal protein, see U.S. Pat. No. 6,083,750, hereby incorporated by reference). Plasmid pFG140 [See, Graham, F. L., The EMBO 1, 3:2917 (1984)] known to produce replicating adenovirus after transfection, was used as a control. Both sets of transfected cells were overlaid with agarose after transfection and stained with neutral red 10 days after overlay. It was determined that FseI-digested pD1940#3 and pD1940#6 produced 36 and 56 plaques per microgram, respectively; pFG140 produced 38 plaques per microgram. This result indicates that mutation of internal FseI sites did not prevent replication of adenovirus and that FseI is an appropriate enzyme for release of viral DNA from plasmids.

Example 2

Rescue of Helper-Dependent Ad Vectors Using Plasmid-Derived Substrates with Corresponding Termini

[0124] This example describes the rescue of helper-dependent Ad vectors using plasmid-derived substrates with corresponding termini. To demonstrate that efficient gutted virus rescue depends on the relative specific activities of gutted and helper viral DNA, a FseI-terminated gutted virus was co-transfected with various forms of helper virus DNA or transfection/infection was performed (FIG. 2). The gutted adenovirus DNA employed was pD2076#2, which contains a gutted Ad genome flanked by FseI recognition sites and carries an inducible beta-galactosidase expression cassette (FIG. 12). This plasmid was digested with FseI, and 4.4 micrograms of digested DNA were transfected into C7 cells.

[0125] For co-transfection assays, 4.4. micrograms of helper viral DNA (either TP-DNA, Hirt DNA, or FseI-terminated DNA) were co-transfected with pD2076#2 DNA. For transfection/infection, helper virus particles were added immediately following transfection at an MOI of 10 transducing units per cell. For the TP-DNA complex co-transfection, terminal protein-DNA complex was isolated from (+)lox(+)pol helper virus (SEQ ID NO:1) was isolated and transfected into cells to provide helper activity (FIG. 13). For the Hirt DNA samples, .DELTA.FseI.4 DNA (SEQ ID NO:9) was isolated from infected cells and deproteinized (FIG. 13). For FseI-terminated samples, pD1940#3 or pD1940#6 (See FIG. 13) was digested with FseI and the released DNA was used to provide helper activity (SEQ ID NO:13, FIG. 14). Digestion with FseI releases what is essentially .DELTA.FseI.4 (SEQ ID NO:9), except with a couple of extra nucleotides at the end (as shown in FIG. 1).

[0126] Transfection/infection was found to be very inefficient (See FIG. 2), although it is the method most frequently reported in the literature. In co-transfections, an inverse correlation was observed between the specific activity of the helper virus DNA from and the yield of gutted virus produced. Co-transfection of gutted viral DNA with plasmid-derived helper viral DNA, carrying a physically identical origin of replication (constructed as described in Example 1), was by far the most efficient method for rescue of gutted adenovirus (See, FIG. 2). After co-transfection of plasmid-derived, FseI-terminated genomes, the average gutted viral titer observed was 5.6.times.10.sup.6 ml.sup.-1. This yield represents an improvement of approximately 30 fold over typical titers obtained by transfection/infection into C7 cells and 300 fold over typical titers obtained by transfection/infection into 293 cells.

Example 3

Conversion of Plasmid-Derived Viral Replication Origins to Natural, Terminal Protein-Linked Origins

[0127] This example describes the conversion of plasmid derived viral replication origins to natural, terminal protein-linked origins. This conversion employs "TP-primer", which is terminal protein DNA linked to single-stranded DNA from the non-template strand of an Ad ITR (FIG. 3A). TP Primer was prepared in the following manner. Terminal protein-DNA complex prepared from (+)lox(+)pol Ecd-AP virus was digested for at least 16 hours at 37.degree. C. with 2.5 U/.mu.g Bsh1236I, 1.33 U/.mu.g AluI, and 0.69 U/.mu.g HinfI. Bsh1236I cuts between base pairs 73 and 74 of the Ad5 ITR (CATCATCAATAATATACCTTATTTTGGATTGAAGCCAATATGATAATGAGGG GGTGGAGTTTGTGACGTGGCGCGGGGCGTGGGAACGGGGCGGGTGACGTAG, SEQ ID NO:10), so this digestion results in terminal protein linked to a 73-bp, double-stranded DNA molecule (one of the two strands is as follows, CATCATCAATAATATACCTTATTTTGGATTGAAGCCAATATGATAATGAGGG GGTGGAGTTTGTGACGTGGCG, SEQ ID NO:11). The products of restriction digestion were then treated with 2.5 U/.mu.g DNA of lambda exonuclease for 20 minutes at 37.degree. C. This enzyme catalyzes the removal of 5' mononucleotides from duplex DNA. Since the enzyme acts in a 5' to 3' direction, strands linked to terminal protein are not degraded; all other strands are degraded until a single-stranded region is reached.

[0128] The products of this digestion, therefore, include: 1) terminal protein linked to 73 unpaired bases (SEQ ID NO:11) of the non-template strand of the Ad5 ITR (TP-primer); 2) many random, small, single-stranded DNA molecules resulting from the degradation of approximately half of the restriction fragments present in the reaction; and 3) mononucleotides. The first of these is the desired and useful product; however, the other products do not interfere with subsequent steps. The enzymes in the reaction were then inactivated by incubation at 75.degree. C. for 20 minutes.

[0129] TP-primer was then used to convert plasmid-derived gutted viral genomes to natural Ad origins by the following method (FIG. 3B). First, a plasmid containing gutted viral genomic DNA (pD2076#2), flanked by FseI sites, was digested with FseI to release gutted viral DNA. The products were subjected to very limited digestion with T7 gene 6 exonuclease (0.76 U/.mu.g for 1 minute, 40 seconds) and the exonuclease was inactivated by incubation at 80.degree. C. for 15 minutes. T7 gene 6 exonuclease, like lambda exonuclease, is a 5' to 3' exonuclease, so limited digestion with this enzyme exposes single-stranded regions near the gutted vector genomic termini. These regions are complementary to the single-stranded DNA found in the TP-primer reagent. Due to the long (73 bp) stretch of complementary DNA sequence and the absence of competing binding partners, the TP-primer reagent can bind efficiently to T7 gene 6-digested gutted DNA even at low molar ratios.

[0130] We added TP-primer reagent, prepared as described above, to the digested gutted DNA, raised the temperature of the mixture to 75.degree. C., and allowed the temperature to fall slowly (over 2-3 hours) to room temperature. Hybridized TP-primer molecules were then extended using T4 DNA polymerase and nicks were repaired using T4 DNA ligase. This was accomplished by addition of 0.5 mM each dNTP, 1 mM ATP, 2.5 units T4 polymerase per .mu.g DNA, and 2 Weiss units T4 ligase per .mu.g DNA. A small amount of buffer (10 mM Tris-HCl, 10 mM MgCl.sub.2, 50 mM NaCl, and 1 mM DTT, pH 7.9 at 25 C) was also added such that the final concentration of gutted vector genomic DNA was 0.04 .mu.g/.mu.L when a 2:1 (TP-primer:gutted genome) ratio was used or 0.029 .mu.g/.mu.L when a 4:1 ratio was used. The reaction was then incubated for 5 minutes at 0.degree. C., 5 minutes at room temperature, and 2 hours at 37.degree. C. EDTA was added to a final concentration of 15 mM and the reaction was stored on ice.

[0131] An assay was performed to confirm the successful addition of terminal protein to the origin of replication of the gutted virus. Specifically, a restriction digest employing NotI was performed on circular pD2076#2, the TP-primer linked pD2076#2 (FseI digested), and FseI digested pD2076#2 (negative control). This digestion was followed by agarose gel electrophoresis (FIG. 4A). The results confirmed the successful addition of the TP-primer as approximately two-thirds of the gutted DNA terminal fragments were retained in the wells of the agarose gel, behavior that is typical of protein-linked DNA (FIG. 4A).

Example 4

TP-Primer Increases the Specific Activity of Plasmid-Derived Ad DNA

[0132] This example describes the ability of TP-primer to increase the specific activity of plasmid derived Ad DNA. In particular, replication-competent helper virus genomes were excised from plasmids pD1940#3 or pD1940#6 and the origins of DNA replication were modified as described above (See Example 3, adding TP-primer to Ad DNA). Reaction mixtures were then diluted into 0.1.times. TE such that transfection mixtures contained either one microgram or 0.1 micrograms of modified plasmid DNA. Parallel transfection mixtures were prepared using unmodified FseI-digested pD1940 plasmid (SEQ ID NO:13, FIG. 14). The DNA was co-precipitated with calcium phosphate, and added to plates of C7 cells. Plates were washed 16 hours after addition of precipitates and overlayed with noble agar (See, Graham, F. L. and Prevec, L. Manipulation of Adenovirus Vectors in Gene Transfer and Expression Protocols, Clifton: The Humana Press, Inc., 1991). Eight to ten days after overlay, the plates were stained with neutral red and plaques were counted. Specific activity was calculated as the number of plaques observed divided by the weight of transfected DNA.

[0133] It was found that the specific activity of treated genomes was increased by an average of 24 or 27 fold after treatment with a 2:1 or 4:1 molar ratio of TP-primer, respectively. We also examined the effect of TP-primer treatment on the rescue of gutted Ad vectors from their plasmid-derived precursors. For these experiments, since large amounts of DNA were transfected, reaction mixtures were dialyzed against 1.times. HBS to avoid dilution. Conversion of gutted vector origins to natural, TP-linked form resulted in improved competition with helper virus DNA (FIG. 4B). Strikingly, co-transfection of TP-gutted DNA and untreated, FseI-terminated helper virus DNA prevented lysis of the transfected cells, indicating that the specific activity of TP-gutted DNA is high enough to prevent robust helper replication.

[0134] Co-transfection of TP-gutted DNA with terminal protein-DNA complex from helper virus resulted in an average gutted viral titer of 1.5.times.10.sup.7 per ml. This titer represents an improvement of approximately 85 fold over typical titers obtained by transfection/infection into C7 cells, 850 fold over titers obtained by transfection/infection into 293 cells, and 2.7 fold over titers obtained by co-transfection of plasmid-derived, FseI-liberated gutted and helper genomes (See FIG. 4B).

Example 5

Terminal Transferase Template Strand Extension of Adenoviral DNA

[0135] This example describes terminal transferase (TdT) template strand extension of adenoviral DNA, and how limited extensions increase the specific activity in plaque assays and allow for more efficient recovery of gutted adenovirus.

[0136] pD1940#3 or pD1940#6 viral DNA was digested to completion with FseI. The restriction enzyme reaction was diluted 3.125-fold into 1.times. TdT reaction buffer (Promega, Madison, WI) and supplemented with 80 micromolar dNTPs and 10 units TdT per picomole DNA termini. The reaction was mixed well, incubated for a variable length of time at 37.degree. C., and the TdT was inactivated by incubation at 75.degree. C. for 10 minutes. The reaction mixture was extracted with 0.5 volumes of phenol-chloroform and DNA was precipitated. Samples were resuspended in 0.1.times. TE and transfected into C7 cells using the calcium phosphate co-precipitation method.

[0137] To determine whether TdT treatment had improved the ability of viral DNA to replicate in cells, the specific activity of treated and untreated DNA in transfected cells was measured ('specific activity' was defined as the number of viral plaques observed per microgram of DNA transfected; higher specific activity indicates that a lesser weight of viral DNA must be transfected to produce actively replicating virus). The results of the this assay indicate that the specific activity of pD1940 DNA was increased by approximately 5 fold after 30 minutes of treatment but less so after 6 minutes or 2.5 hours (FIG. 5C). Control reactions lacking the TdT enzyme showed no evidence of increased plaquing efficiency (FIG. 5C).

[0138] To test whether the identity of added nucleotides is important for the observed effect, we supplemented individual TdT reactions with various single and mixed nucleotides. The various reactions were precipitated individually, transfected into cells, and developing viral plaques were counted after 7-10 days. The effectiveness of TdT treatment was found to vary with the identity of the nucleotides included in the reaction (FIG. 5C). It was determined that the addition of single nucleotides was not effective; in fact, addition of thymidine or cytosine residues alone markedly reduced plaquing efficiency. It was also determined that the most effective combination was addition of guanine, adenine, and cytosine (dGAC), which increased plaquing efficiency by approximately 10 fold (FIG. 5C and data not shown).

[0139] An assay was also conducted involving TdT treatment of gutted Ad virus, and rescue from bacterial plasmids. In this example, gutted Ad genomes excised from pD2076#2 with the restriction enzyme FseI were employed. These excised genomes were treated with the combination of guanine, adenine, and cytosine as described above. 8.8 micrograms of treated DNA were transfected into approximately 2 million C7 cells in a 60-mm plate. 16 hours later the cells were washed and then infected with 20 million transducing units of .DELTA.FseI.4 helper virus (SEQ ID NO:9). Two to three days after this procedure, the plates displayed viral cytopathic effect and lysates were harvested. By measuring the titer of gutted virus in the recovered lysates, it was determined that TdT treatment of the gutted vector doubled the amount of gutted virus produced by the cells after rescue (FIG. 5D). By co-transfecting plasmid-derived helper and gutted DNAs, as described above, the baseline titer obtained without TdT treatment was increased (FIG. 5D). After treatment of gutted plasmid DNA with TdT, a further 2.5-fold increase in gutted virus titer was obtained (FIG. 5D).

Example 6

Regulated Expression of Site-Specific Recombinase Improves Gutted Virus Rescue

[0140] This example describes the use of regulated expression of Cre recombinase to improve gutted virus rescue when gutted and helper virus with identical ends are co-transfected. Initially, the effect of constitutive expression of Cre recombinase in packing cells co-transfected with gutted and helper viruses with identical ends was examined. .DELTA.FseI.4 helper virus (SEQ ID NO:9) is an E1-, E3-deleted virus that can be negatively selected using Cre recombinase and carries an alkaline phosphatase reporter gene in its E3 region. The packaging signal, which consists of packaging elements I-V, is flanked by loxP sites in direct repeat orientation, allowing removal of the packaging signal in the presence of Cre. The E1 region (map units 1-9.2) has been removed. The E3 region (map units 78.3-85.8) has also been removed and replaced with an expression cassette, oriented from left to right in the viral genome, that consists of the inducible ecdysone promoter, the coding region for human placental alkaline phosphatase, polyadenylation sequences from SV40, and approximately 2 kb of "stuffer" DNA derived from an intron of the human dystrophin gene. For these experiments, .DELTA.FseI.4 genomes were released from pD1940#3 or pD1940#6 by digestion with FseI.

[0141] Specifically, FseI-terminated gutted and helper viral genomes were co-transfected into either C7 cells or C7-Cre-8.2 cells, which constitutively express Cre recombinase. The plate of transfected C7-Cre-8.2 cells showed no signs of lysis even after 12 days of incubation and the resulting titer of gutted virus was approximately 100 times lower than that observed in C7 cells (FIG. 6). This result indicates that when gutted and helper viral genomes with identical origin structures are co-transfected, constitutive expression Cre recombinase in the packaging cells is not desirable.

[0142] Cre recombinase, however, may still be employed to improve gutted virus recovery. Instead of constitutive expression of Cre recombinase, the recombinase expression is regulated over time. This was accomplished by co-transfection of a Cre recombinase expression vector (the level of Cre recombinase will increase gradually over time). Specifically, C7 cells were transfected with FseI-terminated gutted virus, FseI-terminated helper virus, and varying amounts of a Cre recombinase expression vector (pOG231). The results of this experiment show very low amounts of pOG231 had minimal effects on gutted virus production, with increasing amounts of pOG231, gutted virus production was improved (FIG. 6). The results also indicate that using the highest amounts of pOG231, little viral replication was observed and gutted virus titers were reduced (indicating that Cre protein levels increased to a level beyond which lysis could not proceed). Maximal improvement in gutted virus titers was observed using 16-35 ng of Cre expression vector, at which level average gutted titers more than doubled, to 1.3.times.107 ml-1 (FIG. 6). High levels of gutted virus were also observed using 7.04 ng of the Cre expression vector.

[0143] This selection strategy was also shown to be effective for gutted virus rescue from TdT-modified and TP-primer-modified genomes. For TdT-modified genomes, co-transfection with 35.2 ng Cre increased gutted virus production by an average of 3 fold. For TP-primer-modified genomes, use of 0.88 .mu.g Cre approximately doubled gutted virus production, to 2.5.times.107 ml-1.

Example 7

Generating an Adenoviral Protein IX Expressing Cell Line

[0144] This example describes the generation of a cell line expressing adenoviral protein IX (pIX), in addition to E2B proteins (adenoviral DNA polymerase and preterminal protein). C7 cells (that already express adenoviral DNA polymerase and preterminal protein) were transfected with PvuI-linearized pD1962delBbsI-pIX (SEQ ID NO:14, FIG. 15), a plasmid that contains expression cassettes directing expression of adenoviral protein IX and puromycin N-acetyl transferase (See FIG. 16). Positive clones were selected in the presence of 2 micrograms puromycin per milliliter of medium. Clones were screened for expression of pIX by transfection with FseI-digested H.DELTA.IX#3 (SEQ ID NO:15, FIG. 17), a plasmid that contains an E1-, E3-, and pIX-negative Ad genome of approximately 35.6 kb in size. Clone pD2104#10 produced virus after transfection with H.DELTA.IX#3.

[0145] D2104#10 cells and C7 cells were then transfected with FseI-digested pD1940#6, which contains a pIX-positive Ad genome. The cells were then overlayed with agarose to allow for counting of plaques, each representing the successful conversion of a transfected genome to a replicating virus. It was determined that D2104#10 cells displayed three times as many plaques as C7 cells (FIG. 7). Additionally, plaques formed on D2104#10 cells were larger than those formed on C7 cells.

[0146] D2104#10 cells were then tested for the ability to rescue gutted virus from a plasmid-based precursor, either in the presence or absence of regulated Cre expression (FIG. 7). Plates of each cell type were transfected with FseI-terminated gutted and helper genomes at a 1:1 ratio, together with varying amounts (15.74 ng, 35.2 ng, and 78.71 ng) of the Cre expression plasmid pOG231. Plates of D2104#10 cells were found to lyse before plates of C7 cells that had been transfected under the same conditions, reflecting the higher proportion of transfected cells that initiated replication of the helper. The co-transfection of C7 cells in the presence of 79 ng of pOG231 failed to produce lysis even after 13 days, whereas D2104#10 cells lysed within 10 days. More gutted virus was produced in D2104#10 cells under all the conditions tested (FIG. 7). In the absence of Cre selection, D2104#10 cells produced twice as much virus as C7 cells. Examining the highest level of selection tested (79 ng), D2104#10 cells produced twice as much virus as C7 cells did under their highest selection conditions (16 ng).

[0147] All publications and patents mentioned in the above specification are herein incorporated by reference. Various modifications and variations of the described method and system of the invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the invention which are obvious to those skilled in material science, chemistry, and molecular biology or related fields are intended to be within the scope of the following claims.

Sequence CWU 1 SEQUENCE LISTING <160> NUMBER OF SEQ ID NOS: 34 <210> SEQ ID NO 1 <211> LENGTH: 36154 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 1 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tagtagtgtg gcggaagtgt 120 gatgttgcaa gtgtggcgga acacatgtat aacttcgtat aatgtatgct atacgaagtt 180 atacatgtaa gcgacggatg tggcaaaagt gacgtttttg gtgtgcgccg gtgtacacag 240 gaagtgacaa ttttcgcgcg gttttaggcg gatgttgtag taaatttggg cgtaaccgag 300 taagatttgg ccattttcgc gggaaaactg aataagagga agtgaaatct gaataatttt 360 gtgttactca tagcgcgtaa tatttgtcta gggagatcta taacttcgta taatgtatgc 420 tatacgaagt tattaccgaa gaaatggctc gagatctgga aggtgctgag gtacgatgag 480 acccgcacca ggtgcagacc ctgcgagtgt ggcggtaaac atattaggaa ccagcctgtg 540 atgctggatg tgaccgagga gctgaggccc gatcacttgg tgctggcctg cacccgcgct 600 gagtttggct ctagcgatga agatacagat tgaggtactg aaatgtgtgg gcgtggctta 660 agggtgggaa agaatatata aggtgggggt cttatgtagt tttgtatctg ttttgcagca 720 gccgccgccg ccatgagcac caactcgttt gatggaagca ttgtgagctc atatttgaca 780 acgcgcatgc ccccatgggc cggggtgcgt cagaatgtga tgggctccag cattgatggt 840 cgccccgtcc tgcccgcaaa ctctactacc ttgacctacg agaccgtgtc tggaacgccg 900 ttggagactg cagcctccgc cgccgcttca gccgctgcag ccaccgcccg cgggattgtg 960 actgactttg ctttcctgag cccgcttgca agcagtgcag cttcccgttc atccgcccgc 1020 gatgacaagt tgacggctct tttggcacaa ttggattctt tgacccggga acttaatgtc 1080 gtttctcagc agctgttgga tctgcgccag caggtttctg ccctgaaggc ttcctcccct 1140 cccaatgcgg tttaaaacat aaataaaaaa ccagactctg tttggatttg gatcaagcaa 1200 gtgtcttgct gtctttattt aggggttttg cgcgcgcggt aggcccggga ccagcggtct 1260 cggtcgttga gggtcctgtg tattttttcc aggacgtggt aaaggtgact ctggatgttc 1320 agatacatgg gcataagccc gtctctgggg tggaggtagc accactgcag agcttcatgc 1380 tgcggggtgg tgttgtagat gatccagtcg tagcaggagc gctgggcgtg gtgcctaaaa 1440 atgtctttca gtagcaagct gattgccagg ggcaggccct tggtgtaagt gtttacaaag 1500 cggttaagct gggatgggtg catacgtggg gatatgagat gcatcttgga ctgtattttt 1560 aggttggcta tgttcccagc catatccctc cggggattca tgttgtgcag aaccaccagc 1620 acagtgtatc cggtgcactt gggaaatttg tcatgtagct tagaaggaaa tgcgtggaag 1680 aacttggaga cgcccttgtg acctccaaga ttttccatgc attcgtccat aatgatggca 1740 atgggcccac gggcggcggc ctgggcgaag atatttctgg gatcactaac gtcatagttg 1800 tgttccagga tgagatcgtc ataggccatt tttacaaagc gcgggcggag ggtgccagac 1860 tgcggtataa tggttccatc cggcccaggg gcgtagttac cctcacagat ttgcatttcc 1920 cacgctttga gttcagatgg ggggatcatg tctacctgcg gggcgatgaa gaaaacggtt 1980 tccggggtag gggagatcag ctgggaagaa agcaggttcc tgagcagctg cgacttaccg 2040 cagccggtgg gcccgtaaat cacacctatt accgggtgca actggtagtt aagagagctg 2100 cagctgccgt catccctgag caggggggcc acttcgttaa gcatgtccct gactcgcatg 2160 ttttccctga ccaaatccgc cagaaggcgc tcgccgccca gcgatagcag ttcttgcaag 2220 gaagcaaagt ttttcaacgg tttgagaccg tccgccgtag gcatgctttt gagcgtttga 2280 ccaagcagtt ccaggcggtc ccacagctcg gtcacctgct ctacggcatc tcgatccagc 2340 atatctcctc gtttcgcggg ttggggcggc tttcgctgta cggcagtagt cggtgctcgt 2400 ccagacgggc cagggtcatg tctttccacg ggcgcagggt cctcgtcagc gtagtctggg 2460 tcacggtgaa ggggtgcgct ccgggctgcg cgctggccag ggtgcgcttg aggctggtcc 2520 tgctggtgct gaagcgctgc cggtcttcgc cctgcgcgtc ggccaggtag catttgacca 2580 tggtgtcata gtccagcccc tccgcggcgt ggcccttggc gcgcagcttg cccttggagg 2640 aggcgccgca cgaggggcag tgcagacttt tgagggcgta gagcttgggc gcgagaaata 2700 ccgattccgg ggagtaggca tccgcgccgc aggccccgca gacggtctcg cattccacga 2760 gccaggtgag ctctggccgt tcggggtcaa aaaccaggtt tcccccatgc tttttgatgc 2820 gtttcttacc tctggtttcc atgagccggt gtccacgctc ggtgacgaaa aggctgtccg 2880 tgtccccgta tacagacttg agaggcctgt cctcgagcgg tgttccgcgg tcctcctcgt 2940 atagaaactc ggaccactct gagacaaagg ctcgcgtcca ggccagcacg aaggaggcta 3000 agtgggaggg gtagcggtcg ttgtccacta gggggtccac tcgctccagg gtgtgaagac 3060 acatgtcgcc ctcttcggca tcaaggaagg tgattggttt gtaggtgtag gccacgtgac 3120 cgggtgttcc tgaagggggg ctataaaagg gggtgggggc gcgttcgtcc tcactctctt 3180 ccgcatcgct gtctgcgagg gccagctgtt ggggtgagta ctccctctga aaagcgggca 3240 tgacttctgc gctaagattg tcagtttcca aaaacgagga ggatttgata ttcacctggc 3300 ccgcggtgat gcctttgagg gtggccgcat ccatctggtc agaaaagaca atctttttgt 3360 tgtcaagctt ggtggcaaac gacccgtaga gggcgttgga cagcaacttg gcgatggagc 3420 gcagggtttg gtttttgtcg cgatcggcgc gctccttggc cgcgatgttt agctgcacgt 3480 attcgcgcgc aacgcaccgc cattcgggaa agacggtggt gcgctcgtcg ggcaccaggt 3540 gcacgcgcca accgcggttg tgcagggtga caaggtcaac gctggtggct acctctccgc 3600 gtaggcgctc gttggtccag cagaggcggc cgcccttgcg cgagcagaat ggcggtaggg 3660 ggtctagctg cgtctcgtcc ggggggtctg cgtccacggt aaagaccccg ggcagcaggc 3720 gcgcgtcgaa gtagtctatc ttgcatcctt gcaagtctag cgcctgctgc catgcgcggg 3780 cggcaagcgc gcgctcgtat gggttgagtg ggggacccca tggcatgggg tgggtgagcg 3840 cggaggcgta catgccgcaa atgtcgtaaa cgtagagggg ctctctgagt attccaagat 3900 atgtagggta gcatcttcca ccgcggatgc tggcgcgcac gtaatcgtat agttcgtgcg 3960 agggagcgag gaggtcggga ccgaggttgc tacgggcggg ctgctctgct cggaagacta 4020 tctgcctgaa gatggcatgt gagttggatg atatggttgg acgctggaag acgttgaagc 4080 tggcgtctgt gagacctacc gcgtcacgca cgaaggaggc gtaggagtcg cgcagcttgt 4140 tgaccagctc ggcggtgacc tgcacgtcta gggcgcagta gtccagggtt tccttgatga 4200 tgtcatactt atcctgtccc ttttttttcc acagctcgcg gttgaggaca aactcttcgc 4260 ggtctttcca gtactcttgg atcggaaacc cgtcggcctc cgaacggtaa gagcctagca 4320 tgtagaactg gttgacggcc tggtaggcgc agcatccctt ttctacgggt agcgcgtatg 4380 cctgcgcggc cttccggagc gaggtgtggg tgagcgcaaa ggtgtccctg accatgactt 4440 tgaggtactg gtatttgaag tcagtgtcgt cgcatccgcc ctgctcccag agcaaaaagt 4500 ccgtgcgctt tttggaacgc ggatttggca gggcgaaggt gacatcgttg aagagtatct 4560 ttcccgcgcg aggcataaag ttgcgtgtga tgcggaaggg tcccggcacc tcggaacggt 4620 tgttaattac ctgggcggcg agcacgatct cgtcaaagcc gttgatgttg tggcccacaa 4680 tgtaaagttc caagaagcgc gggatgccct tgatggaagg caatttttta agttcctcgt 4740 aggtgagctc ttcaggggag ctgagcccgt gctctgaaag ggcccagtct gcaagatgag 4800 ggttggaagc gacgaatgag ctccacaggt cacgggccat tagcatttgc aggtggtcgc 4860 gaaaggtcct aaactggcga cctatggcca ttttttctgg ggtgatgcag tagaaggtaa 4920 gcgggtcttg ttcccagcgg tcccatccaa ggttcgcggc taggtctcgc gcggcagtca 4980 ctagaggctc atctccgccg aacttcatga ccagcatgaa gggcacgagc tgcttcccaa 5040 aggcccccat ccaagtatag gtctctacat cgtaggtgac aaagagacgc tcggtgcgag 5100 gatgcgagcc gatcgggaag aactggatct cccgccacca attggaggag tggctattga 5160 tgtggtgaaa gtagaagtcc ctgcgacggg ccgaacactc gtgctggctt ttgtaaaaac 5220 gtgcgcagta ctggcagcgg tgcacgggct gtacatcctg cacgaggttg acctgacgac 5280 cgcgcacaag gaagcagagt gggaatttga gcccctcgcc tggcgggttt ggctggtggt 5340 cttctacttc ggctgcttgt ccttgaccgt ctggctgctc gaggggagtt acggtggatc 5400 ggaccaccac gccgcgcgag cccaaagtcc agatgtccgc gcgcggcggt cggagcttga 5460 tgacaacatc gcgcagatgg gagctgtcca tggtctggag ctcccgcggc gtcaggtcag 5520 gcgggagctc ctgcaggttt acctcgcata gacgggtcag ggcgcgggct agatccaggt 5580 gatacctaat ttccaggggc tggttggtgg cggcgtcgat ggcttgcaag aggccgcatc 5640 cccgcggcgc gactacggta ccgcgcggcg ggcggtgggc cgcgggggtg tccttggatg 5700 atgcatctaa aagcggtgac gcgggcgagc ccccggaggt agggggggct ccggacccgc 5760 cgggagaggg ggcaggggca cgtcggcgcc gcgcgcgggc aggagctggt gctgcgcgcg 5820 taggttgctg gcgaacgcga cgacgcggcg gttgatctcc tgaatctggc gcctctgcgt 5880 gaagacgacg ggcccggtga gcttgagcct gaaagagagt tcgacagaat caatttcggt 5940 gtcgttgacg gcggcctggc gcaaaatctc ctgcacgtct cctgagttgt cttgataggc 6000 gatctcggcc atgaactgct cgatctcttc ctcctggaga tctccgcgtc cggctcgctc 6060 cacggtggcg gcgaggtcgt tggaaatgcg ggccatgagc tgcgagaagg cgttgaggcc 6120 tccctcgttc cagacgcggc tgtagaccac gcccccttcg gcatcgcggg cgcgcatgac 6180 cacctgcgcg agattgagct ccacgtgccg ggcgaagacg gcgtagtttc gcaggcgctg 6240 aaagaggtag ttgagggtgg tggcggtgtg ttctgccacg aagaagtaca taacccagcg 6300 tcgcaacgtg gattcgttga tatcccccaa ggcctcaagg cgctccatgg cctcgtagaa 6360 gtccacggcg aagttgaaaa actgggagtt gcgcgccgac acggttaact cctcctccag 6420 aagacggatg agctcggcga cagtgtcgcg cacctcgcgc tcaaaggcta caggggcctc 6480 ttcttcttct tcaatctcct cttccataag ggcctcccct tcttcttctt ctggcggcgg 6540 tgggggaggg gggacacggc ggcgacgacg gcgcaccggg aggcggtcga caaagcgctc 6600 gatcatctcc ccgcggcgac ggcgcatggt ctcggtgacg gcgcggccgt tctcgcgggg 6660 gcgcagttgg aagacgccgc ccgtcatgtc ccggttatgg gttggcgggg ggctgccatg 6720 cggcagggat acggcgctaa cgatgcatct caacaattgt tgtgtaggta ctccgccgcc 6780 gagggacctg agcgagtccg catcgaccgg atcggaaaac ctctcgagaa aggcgtctaa 6840 ccagtcacag tcgcaaggta ggctgagcac cgtggcgggc ggcagcgggc ggcggtcggg 6900 gttgtttctg gcggaggtgc tgctgatgat gtaattaaag taggcggtct tgagacggcg 6960 gatggtcgac agaagcacca tgtccttggg tccggcctgc tgaatgcgca ggcggtcggc 7020 catgccccag gcttcgtttt gacatcggcg caggtctttg tagtagtctt gcatgagcct 7080 ttctaccggc acttcttctt ctccttcctc ttgtcctgca tctcttgcat ctatcgctgc 7140 ggcggcggcg gagtttggcc gtaggtggcg ccctcttcct cccatgcgtg tgaccccgaa 7200 gcccctcatc ggctgaagca gggctaggtc ggcgacaacg cgctcggcta atatggcctg 7260 ctgcacctgc gtgagggtag actggaagtc atccatgtcc acaaagcggt ggtatgcgcc 7320 cgtgttgatg gtgtaagtgc agttggccat aacggaccag ttaacggtct ggtgacccgg 7380 ctgcgagagc tcggtgtacc tgagacgcga gtaagccctc gagtcaaata cgtagtcgtt 7440 gcaagtccgc accaggtact ggtatcccac caaaaagtgc ggcggcggct ggcggtagag 7500 gggccagcgt agggtggccg gggctccggg ggcgagatct tccaacataa ggcgatgata 7560 tccgtagatg tacctggaca tccaggtgat gccggcggcg gtggtggagg cgcgcggaaa 7620 gtcgcggacg cggttccaga tgttgcgcag cggcaaaaag tgctccatgg tcgggacgct 7680 ctggccggtc aggcgcgcgc aatcgttgac gctctaccgt gcaaaaggag agcctgtaag 7740 cgggcactct tccgtggtct ggtggataaa ttcgcaaggg tatcatggcg gacgaccggg 7800 gttcgagccc cgtatccggc cgtccgccgt gatccatgcg gttaccgccc gcgtgtcgaa 7860 cccaggtgtg cgacgtcaga caacggggga gtgctccttt tggcttcctt ccaggcgcgg 7920 cggctgctgc gctagctttt ttggccactg gccgcgcgca gcgtaagcgg ttaggctgga 7980 aagcgaaagc attaagtggc tcgctccctg tagccggagg gttattttcc aagggttgag 8040 tcgcgggacc cccggttcga gtctcggacc ggccggactg cggcgaacgg gggtttgcct 8100 ccccgtcatg caagaccccg cttgcaaatt cctccggaaa cagggacgag cccctttttt 8160 gcttttccca gatgcatccg gtgctgcggc agatgcgccc ccctcctcag cagcggcaag 8220 agcaagagca gcggcagaca tgcagggcac cctcccctcc tcctaccgcg tcaggagggg 8280 cgacatccgc ggttgacgcg gcagcagatg gtgattacga acccccgcgg cgccgggccc 8340 ggcactacct ggacttggag gagggcgagg gcctggcgcg gctaggagcg ccctctcctg 8400 agcggtaccc aagggtgcag ctgaagcgtg atacgcgtga ggcgtacgtg ccgcggcaga 8460 acctgtttcg cgaccgcgag ggagaggagc ccgaggagat gcgggatcga aagttccacg 8520 cagggcgcga gctgcggcat ggcctgaatc gcgagcggtt gctgcgcgag gaggactttg 8580 agcccgacgc gcgaaccggg attagtcccg cgcgcgcaca cgtggcggcc gccgacctgg 8640 taaccgcata cgagcagacg gtgaaccagg agattaactt tcaaaaaagc tttaacaacc 8700 acgtgcgtac gcttgtggcg cgcgaggagg tggctatagg actgatgcat ctgtgggact 8760 ttgtaagcgc gctggagcaa aacccaaata gcaagccgct catggcgcag ctgttcctta 8820 tagtgcagca cagcagggac aacgaggcat tcagggatgc gctgctaaac atagtagagc 8880 ccgagggccg ctggctgctc gatttgataa acatcctgca gagcatagtg gtgcaggagc 8940 gcagcttgag cctggctgac aaggtggccg ccatcaacta ttccatgctt agcctgggca 9000 agttttacgc ccgcaagata taccataccc cttacgttcc catagacaag gaggtaaaga 9060 tcgaggggtt ctacatgcgc atggcgctga aggtgcttac cttgagcgac gacctgggcg 9120 tttatcgcaa cgagcgcatc cacaaggccg tgagcgtgag ccggcggcgc gagctcagcg 9180 accgcgagct gatgcacagc ctgcaaaggg ccctggctgg cacgggcagc ggcgatagag 9240 aggccgagtc ctactttgac gcgggcgctg acctgcgctg ggccccaagc cgacgcgccc 9300 tggaggcagc tggggccgga cctgggctgg cggtggcacc cgcgcgcgct ggcaacgtcg 9360 gcggcgtgga ggaatatgac gaggacgatg agtacgagcc agaggacggc gagtactaag 9420 cggtgatgtt tctgatcaga tgatgcaaga cgcaacggac ccggcggtgc gggcggcgct 9480 gcagagccag ccgtccggcc ttaactccac ggacgactgg cgccaggtca tggaccgcat 9540 catgtcgctg actgcgcgca atcctgacgc gttccggcag cagccgcagg ccaaccggct 9600 ctccgcaatt ctggaagcgg tggtcccggc gcgcgcaaac cccacgcacg agaaggtgct 9660 ggcgatcgta aacgcgctgg ccgaaaacag ggccatccgg cccgacgagg ccggcctggt 9720 ctacgacgcg ctgcttcagc gcgtggctcg ttacaacagc ggcaacgtgc agaccaacct 9780 ggaccggctg gtgggggatg tgcgcgaggc cgtggcgcag cgtgagcgcg cgcagcagca 9840 gggcaacctg ggctccatgg ttgcactaaa cgccttcctg agtacacagc ccgccaacgt 9900 gccgcgggga caggaggact acaccaactt tgtgagcgca ctgcggctaa tggtgactga 9960 gacaccgcaa agtgaggtgt accagtctgg gccagactat tttttccaga ccagtagaca 10020 aggcctgcag accgtaaacc tgagccaggc tttcaaaaac ttgcaggggc tgtggggggt 10080 gcgggctccc acaggcgacc gcgcgaccgt gtctagcttg ctgacgccca actcgcgcct 10140 gttgctgctg ctaatagcgc ccttcacgga cagtggcagc gtgtcccggg acacatacct 10200 aggtcacttg ctgacactgt accgcgaggc cataggtcag gcgcatgtgg acgagcatac 10260 tttccaggag attacaagtg tcagccgcgc gctggggcag gaggacacgg gcagcctgga 10320 ggcaacccta aactacctgc tgaccaaccg gcggcagaag atcccctcgt tgcacagttt 10380 aaacagcgag gaggagcgca ttttgcgcta cgtgcagcag agcgtgagcc ttaacctgat 10440 gcgcgacggg gtaacgccca gcgtggcgct ggacatgacc gcgcgcaaca tggaaccggg 10500 catgtatgcc tcaaaccggc cgtttatcaa ccgcctaatg gactacttgc atcgcgcggc 10560 cgccgtgaac cccgagtatt tcaccaatgc catcttgaac ccgcactggc taccgccccc 10620 tggtttctac accgggggat tcgaggtgcc cgagggtaac gatggattcc tctgggacga 10680 catagacgac agcgtgtttt ccccgcaacc gcagaccctg ctagagttgc aacagcgcga 10740 gcaggcagag gcggcgctgc gaaaggaaag cttccgcagg ccaagcagct tgtccgatct 10800 aggcgctgcg gccccgcggt cagatgctag tagcccattt ccaagcttga tagggtctct 10860 taccagcact cgcaccaccc gcccgcgcct gctgggcgag gaggagtacc taaacaactc 10920 gctgctgcag ccgcagcgcg aaaaaaacct gcctccggca tttcccaaca acgggataga 10980 gagcctagtg gacaagatga gtagatggaa gacgtacgcg caggagcaca gggacgtgcc 11040 aggcccgcgc ccgcccaccc gtcgtcaaag gcacgaccgt cagcggggtc tggtgtggga 11100 ggacgatgac tcggcagacg acagcagcgt cctggatttg ggagggagtg gcaacccgtt 11160 tgcgcacctt cgccccaggc tggggagaat gttttaaaaa aaaaaaagca tgatgcaaaa 11220 taaaaaactc accaaggcca tggcaccgag cgttggtttt cttgtattcc ccttagtatg 11280 cggcgcgcgg cgatgtatga ggaaggtcct cctccctcct acgagagtgt ggtgagcgcg 11340 gcgccagtgg cggcggcgct gggttctccc ttcgatgctc ccctggaccc gccgtttgtg 11400 cctccgcggt acctgcggcc taccgggggg agaaacagca tccgttactc tgagttggca 11460 cccctattcg acaccacccg tgtgtacctg gtggacaaca agtcaacgga tgtggcatcc 11520 ctgaactacc agaacgacca cagcaacttt ctgaccacgg tcattcaaaa caatgactac 11580 agcccggggg aggcaagcac acagaccatc aatcttgacg accggtcgca ctggggcggc 11640 gacctgaaaa ccatcctgca taccaacatg ccaaatgtga acgagttcat gtttaccaat 11700 aagtttaagg cgcgggtgat ggtgtcgcgc ttgcctacta aggacaatca ggtggagctg 11760 aaatacgagt gggtggagtt cacgctgccc gagggcaact actccgagac catgaccata 11820 gaccttatga acaacgcgat cgtggagcac tacttgaaag tgggcagaca gaacggggtt 11880 ctggaaagcg acatcggggt aaagtttgac acccgcaact tcagactggg gtttgacccc 11940 gtcactggtc ttgtcatgcc tggggtatat acaaacgaag ccttccatcc agacatcatt 12000 ttgctgccag gatgcggggt ggacttcacc cacagccgcc tgagcaactt gttgggcatc 12060 cgcaagcggc aacccttcca ggagggcttt aggatcacct acgatgatct ggagggtggt 12120 aacattcccg cactgttgga tgtggacgcc taccaggcga gcttgaaaga tgacaccgaa 12180 cagggcgggg gtggcgcagg cggcagcaac agcagtggca gcggcgcgga agagaactcc 12240 aacgcggcag ccgcggcaat gcagccggtg gaggacatga acgatcatgc cattcgcggc 12300 gacacctttg ccacacgggc tgaggagaag cgcgctgagg ccgaagcagc ggccgaagct 12360 gccgcccccg ctgcgcaacc cgaggtcgag aagcctcaga agaaaccggt gatcaaaccc 12420 ctgacagagg acagcaagaa acgcagttac aacctaataa gcaatgacag caccttcacc 12480 cagtaccgca gctggtacct tgcatacaac tacggcgacc ctcagaccgg aatccgctca 12540 tggaccctgc tttgcactcc tgacgtaacc tgcggctcgg agcaggtcta ctggtcgttg 12600 ccagacatga tgcaagaccc cgtgaccttc cgctccacgc gccagatcag caactttccg 12660 gtggtgggcg ccgagctgtt gcccgtgcac tccaagagct tctacaacga ccaggccgtc 12720 tactcccaac tcatccgcca gtttacctct ctgacccacg tgttcaatcg ctttcccgag 12780 aaccagattt tggcgcgccc gccagccccc accatcacca ccgtcagtga aaacgttcct 12840 gctctcacag atcacgggac gctaccgctg cgcaacagca tcggaggagt ccagcgagtg 12900 accattactg acgccagacg ccgcacctgc ccctacgttt acaaggccct gggcatagtc 12960 tcgccgcgcg tcctatcgag ccgcactttt tgagcaagca tgtccatcct tatatcgccc 13020 agcaataaca caggctgggg cctgcgcttc ccaagcaaga tgtttggcgg ggccaagaag 13080 cgctccgacc aacacccagt gcgcgtgcgc gggcactacc gcgcgccctg gggcgcgcac 13140 aaacgcggcc gcactgggcg caccaccgtc gatgacgcca tcgacgcggt ggtggaggag 13200 gcgcgcaact acacgcccac gccgccacca gtgtccacag tggacgcggc cattcagacc 13260 gtggtgcgcg gagcccggcg ctatgctaaa atgaagagac ggcggaggcg cgtagcacgt 13320 cgccaccgcc gccgacccgg cactgccgcc caacgcgcgg cggcggccct gcttaaccgc 13380 gcacgtcgca ccggccgacg ggcggccatg cgggccgctc gaaggctggc cgcgggtatt 13440 gtcactgtgc cccccaggtc caggcgacga gcggccgccg cagcagccgc ggccattagt 13500 gctatgactc agggtcgcag gggcaacgtg tattgggtgc gcgactcggt tagcggcctg 13560 cgcgtgcccg tgcgcacccg ccccccgcgc aactagattg caagaaaaaa ctacttagac 13620 tcgtactgtt gtatgtatcc agcggcggcg gcgcgcaacg aagctatgtc caagcgcaaa 13680 atcaaagaag agatgctcca ggtcatcgcg ccggagatct atggcccccc gaagaaggaa 13740 gagcaggatt acaagccccg aaagctaaag cgggtcaaaa agaaaaagaa agatgatgat 13800 gatgaacttg acgacgaggt ggaactgctg cacgctaccg cgcccaggcg acgggtacag 13860 tggaaaggtc gacgcgtaaa acgtgttttg cgacccggca ccaccgtagt ctttacgccc 13920 ggtgagcgct ccacccgcac ctacaagcgc gtgtatgatg aggtgtacgg cgacgaggac 13980 ctgcttgagc aggccaacga gcgcctcggg gagtttgcct acggaaagcg gcataaggac 14040 atgctggcgt tgccgctgga cgagggcaac ccaacaccta gcctaaagcc cgtaacactg 14100 cagcaggtgc tgcccgcgct tgcaccgtcc gaagaaaagc gcggcctaaa gcgcgagtct 14160 ggtgacttgg cacccaccgt gcagctgatg gtacccaagc gccagcgact ggaagatgtc 14220 ttggaaaaaa tgaccgtgga acctgggctg gagcccgagg tccgcgtgcg gccaatcaag 14280 caggtggcgc cgggactggg cgtgcagacc gtggacgttc agatacccac taccagtagc 14340 accagtattg ccaccgccac agagggcatg gagacacaaa cgtccccggt tgcctcagcg 14400 gtggcggatg ccgcggtgca ggcggtcgct gcggccgcgt ccaagacctc tacggaggtg 14460 caaacggacc cgtggatgtt tcgcgtttca gccccccggc gcccgcgcgg ttcgaggaag 14520 tacggcgccg ccagcgcgct actgcccgaa tatgccctac atccttccat tgcgcctacc 14580 cccggctatc gtggctacac ctaccgcccc agaagacgag caactacccg acgccgaacc 14640 accactggaa cccgccgccg ccgtcgccgt cgccagcccg tgctggcccc gatttccgtg 14700 cgcagggtgg ctcgcgaagg aggcaggacc ctggtgctgc caacagcgcg ctaccacccc 14760 agcatcgttt aaaagccggt ctttgtggtt cttgcagata tggccctcac ctgccgcctc 14820 cgtttcccgg tgccgggatt ccgaggaaga atgcaccgta ggaggggcat ggccggccac 14880 ggcctgacgg gcggcatgcg tcgtgcgcac caccggcggc ggcgcgcgtc gcaccgtcgc 14940 atgcgcggcg gtatcctgcc cctccttatt ccactgatcg ccgcggcgat tggcgccgtg 15000 cccggaattg catccgtggc cttgcaggcg cagagacact gattaaaaac aagttgcatg 15060 tggaaaaatc aaaataaaaa gtctggactc tcacgctcgc ttggtcctgt aactattttg 15120 tagaatggaa gacatcaact ttgcgtctct ggccccgcga cacggctcgc gcccgttcat 15180 gggaaactgg caagatatcg gcaccagcaa tatgagcggt ggcgccttca gctggggctc 15240 gctgtggagc ggcattaaaa atttcggttc caccgttaag aactatggca gcaaggcctg 15300 gaacagcagc acaggccaga tgctgaggga taagttgaaa gagcaaaatt tccaacaaaa 15360 ggtggtagat ggcctggcct ctggcattag cggggtggtg gacctggcca accaggcagt 15420 gcaaaataag attaacagta agcttgatcc ccgccctccc gtagaggagc ctccaccggc 15480 cgtggagaca gtgtctccag aggggcgtgg cgaaaagcgt ccgcgccccg acagggaaga 15540 aactctggtg acgcaaatag acgagcctcc ctcgtacgag gaggcactaa agcaaggcct 15600 gcccaccacc cgtcccatcg cgcccatggc taccggagtg ctgggccagc acacacccgt 15660 aacgctggac ctgcctcccc ccgccgacac ccagcagaaa cctgtgctgc caggcccgac 15720 cgccgttgtt gtaacccgtc ctagccgcgc gtccctgcgc cgcgccgcca gcggtccgcg 15780 atcgttgcgg cccgtagcca gtggcaactg gcaaagcaca ctgaacagca tcgtgggtct 15840 gggggtgcaa tccctgaagc gccgacgatg cttctgaata gctaacgtgt cgtatgtgtg 15900 tcatgtatgc gtccatgtcg ccgccagagg agctgctgag ccgccgcgcg cccgctttcc 15960 aagatggcta ccccttcgat gatgccgcag tggtcttaca tgcacatctc gggccaggac 16020 gcctcggagt acctgagccc cgggctggtg cagtttgccc gcgccaccga gacgtacttc 16080 agcctgaata acaagtttag aaaccccacg gtggcgccta cgcacgacgt gaccacagac 16140 cggtcccagc gtttgacgct gcggttcatc cctgtggacc gtgaggatac tgcgtactcg 16200 tacaaggcgc ggttcaccct agctgtgggt gataaccgtg tgctggacat ggcttccacg 16260 tactttgaca tccgcggcgt gctggacagg ggccctactt ttaagcccta ctctggcact 16320 gcctacaacg ccctggctcc caagggtgcc ccaaatcctt gcgaatggga tgaagctgct 16380 actgctcttg aaataaacct agaagaagag gacgatgaca acgaagacga agtagacgag 16440 caagctgagc agcaaaaaac tcacgtattt gggcaggcgc cttattctgg tataaatatt 16500 acaaaggagg gtattcaaat aggtgtcgaa ggtcaaacac ctaaatatgc cgataaaaca 16560 tttcaacctg aacctcaaat aggagaatct cagtggtacg aaactgaaat taatcatgca 16620 gctgggagag tccttaaaaa gactacccca atgaaaccat gttacggttc atatgcaaaa 16680 cccacaaatg aaaatggagg gcaaggcatt cttgtaaagc aacaaaatgg aaagctagaa 16740 agtcaagtgg aaatgcaatt tttctcaact actgaggcga ccgcaggcaa tggtgataac 16800 ttgactccta aagtggtatt gtacagtgaa gatgtagata tagaaacccc agacactcat 16860 atttcttaca tgcccactat taaggaaggt aactcacgag aactaatggg ccaacaatct 16920 atgcccaaca ggcctaatta cattgctttt agggacaatt ttattggtct aatgtattac 16980 aacagcacgg gtaatatggg tgttctggcg ggccaagcat cgcagttgaa tgctgttgta 17040 gatttgcaag acagaaacac agagctttca taccagcttt tgcttgattc cattggtgat 17100 agaaccaggt acttttctat gtggaatcag gctgttgaca gctatgatcc agatgttaga 17160 attattgaaa atcatggaac tgaagatgaa cttccaaatt actgctttcc actgggaggt 17220 gtgattaata cagagactct taccaaggta aaacctaaaa caggtcagga aaatggatgg 17280 gaaaaagatg ctacagaatt ttcagataaa aatgaaataa gagttggaaa taattttgcc 17340 atggaaatca atctaaatgc caacctgtgg agaaatttcc tgtactccaa catagcgctg 17400 tatttgcccg acaagctaaa gtacagtcct tccaacgtaa aaatttctga taacccaaac 17460 acctacgact acatgaacaa gcgagtggtg gctcccgggt tagtggactg ctacattaac 17520 cttggagcac gctggtccct tgactatatg gacaacgtca acccatttaa ccaccaccgc 17580 aatgctggcc tgcgctaccg ctcaatgttg ctgggcaatg gtcgctatgt gcccttccac 17640 atccaggtgc ctcagaagtt ctttgccatt aaaaacctcc ttctcctgcc gggctcatac 17700 acctacgagt ggaacttcag gaaggatgtt aacatggttc tgcagagctc cctaggaaat 17760 gacctaaggg ttgacggagc cagcattaag tttgatagca tttgccttta cgccaccttc 17820 ttccccatgg cccacaacac cgcctccacg cttgaggcca tgcttagaaa cgacaccaac 17880 gaccagtcct ttaacgacta tctctccgcc gccaacatgc tctaccctat acccgccaac 17940 gctaccaacg tgcccatatc catcccctcc cgcaactggg cggctttccg cggctgggcc 18000 ttcacgcgcc ttaagactaa ggaaacccca tcactgggct cgggctacga cccttattac 18060 acctactctg gctctatacc ctacctagat ggaacctttt acctcaacca cacctttaag 18120 aaggtggcca ttacctttga ctcttctgtc agctggcctg gcaatgaccg cctgcttacc 18180 cccaacgagt ttgaaattaa gcgctcagtt gacggggagg gttacaacgt tgcccagtgt 18240 aacatgacca aagactggtt cctggtacaa atgctagcta actacaacat tggctaccag 18300 ggcttctata tcccagagag ctacaaggac cgcatgtact ccttctttag aaacttccag 18360 cccatgagcc gtcaggtggt ggatgatact aaatacaagg actaccaaca ggtgggcatc 18420 ctacaccaac acaacaactc tggatttgtt ggctaccttg cccccaccat gcgcgaagga 18480 caggcctacc ctgctaactt cccctatccg cttataggca agaccgcagt tgacagcatt 18540 acccagaaaa agtttctttg cgatcgcacc ctttggcgca tcccattctc cagtaacttt 18600 atgtccatgg gcgcactcac agacctgggc caaaaccttc tctacgccaa ctccgcccac 18660 gcgctagaca tgacttttga ggtggatccc atggacgagc ccacccttct ttatgttttg 18720 tttgaagtct ttgacgtggt ccgtgtgcac cggccgcacc gcggcgtcat cgaaaccgtg 18780 tacctgcgca cgcccttctc ggccggcaac gccacaacat aaagaagcaa gcaacatcaa 18840 caacagctgc cgccatgggc tccagtgagc aggaactgaa agccattgtc aaagatcttg 18900 gttgtgggcc atattttttg ggcacctatg acaagcgctt tccaggcttt gtttctccac 18960 acaagctcgc ctgcgccata gtcaatacgg ccggtcgcga gactgggggc gtacactgga 19020 tggcctttgc ctggaacccg cactcaaaaa catgctacct ctttgagccc tttggctttt 19080 ctgaccagcg actcaagcag gtttaccagt ttgagtacga gtcactcctg cgccgtagcg 19140 ccattgcttc ttcccccgac cgctgtataa cgctggaaaa gtccacccaa agcgtacagg 19200 ggcccaactc ggccgcctgt ggactattct gctgcatgtt tctccacgcc tttgccaact 19260 ggccccaaac tcccatggat cacaacccca ccatgaacct tattaccggg gtacccaact 19320 ccatgctcaa cagtccccag gtacagccca ccctgcgtcg caaccaggaa cagctctaca 19380 gcttcctgga gcgccactcg ccctacttcc gcagccacag tgcgcagatt aggagcgcca 19440 cttctttttg tcacttgaaa aacatgtaaa aataatgtac tagagacact ttcaataaag 19500 gcaaatgctt ttatttgtac actctcgggt gattatttac ccccaccctt gccgtctgcg 19560 ccgtttaaaa atcaaagggg ttctgccgcg catcgctatg cgccactggc agggacacgt 19620 tgcgatactg gtgtttagtg ctccacttaa actcaggcac aaccatccgc ggcagctcgg 19680 tgaagttttc actccacagg ctgcgcacca tcaccaacgc gtttagcagg tcgggcgccg 19740 atatcttgaa gtcgcagttg gggcctccgc cctgcgcgcg cgagttgcga tacacagggt 19800 tgcagcactg gaacactatc agcgccgggt ggtgcacgct ggccagcacg ctcttgtcgg 19860 agatcagatc cgcgtccagg tcctccgcgt tgctcagggc gaacggagtc aactttggta 19920 gctgccttcc caaaaagggc gcgtgcccag gctttgagtt gcactcgcac cgtagtggca 19980 tcaaaaggtg accgtgcccg gtctgggcgt taggatacag cgcctgcata aaagccttga 20040 tctgcttaaa agccacctga gcctttgcgc cttcagagaa gaacatgccg caagacttgc 20100 cggaaaactg attggccgga caggccgcgt cgtgcacgca gcaccttgcg tcggtgttgg 20160 agatctgcac cacatttcgg ccccaccggt tcttcacgat cttggccttg ctagactgct 20220 ccttcagcgc gcgctgcccg ttttcgctcg tcacatccat ttcaatcacg tgctccttat 20280 ttatcataat gcttccgtgt agacacttaa gctcgccttc gatctcagcg cagcggtgca 20340 gccacaacgc gcagcccgtg ggctcgtgat gcttgtaggt cacctctgca aacgactgca 20400 ggtacgcctg caggaatcgc cccatcatcg tcacaaaggt cttgttgctg gtgaaggtca 20460 gctgcaaccc gcggtgctcc tcgttcagcc aggtcttgca tacggccgcc agagcttcca 20520 cttggtcagg cagtagtttg aagttcgcct ttagatcgtt atccacgtgg tacttgtcca 20580 tcagcgcgcg cgcagcctcc atgcccttct cccacgcaga cacgatcggc acactcagcg 20640 ggttcatcac cgtaatttca ctttccgctt cgctgggctc ttcctcttcc tcttgcgtcc 20700 gcataccacg cgccactggg tcgtcttcat tcagccgccg cactgtgcgc ttacctcctt 20760 tgccatgctt gattagcacc ggtgggttgc tgaaacccac catttgtagc gccacatctt 20820 ctctttcttc ctcgctgtcc acgattacct ctggtgatgg cgggcgctcg ggcttgggag 20880 aagggcgctt ctttttcttc ttgggcgcaa tggccaaatc cgccgccgag gtcgatggcc 20940 gcgggctggg tgtgcgcggc accagcgcgt cttgtgatga gtcttcctcg tcctcggact 21000 cgatacgccg cctcatccgc ttttttgggg gcgcccgggg aggcggcggc gacggggacg 21060 gggacgacac gtcctccatg gttgggggac gtcgcgccgc accgcgtccg cgctcggggg 21120 tggtttcgcg ctgctcctct tcccgactgg ccatttcctt ctcctatagg cagaaaaaga 21180 tcatggagtc agtcgagaag aaggacagcc taaccgcccc ctctgagttc gccaccaccg 21240 cctccaccga tgccgccaac gcgcctacca ccttccccgt cgaggcaccc ccgcttgagg 21300 aggaggaagt gattatcgag caggacccag gttttgtaag cgaagacgac gaggaccgct 21360 cagtaccaac agaggataaa aagcaagacc aggacaacgc agaggcaaac gaggaacaag 21420 tcgggcgggg ggacgaaagg catggcgact acctagatgt gggagacgac gtgctgttga 21480 agcatctgca gcgccagtgc gccattatct gcgacgcgtt gcaagagcgc agcgatgtgc 21540 ccctcgccat agcggatgtc agccttgcct acgaacgcca cctattctca ccgcgcgtac 21600 cccccaaacg ccaagaaaac ggcacatgcg agcccaaccc gcgcctcaac ttctaccccg 21660 tatttgccgt gccagaggtg cttgccacct atcacatctt tttccaaaac tgcaagatac 21720 ccctatcctg ccgtgccaac cgcagccgag cggacaagca gctggccttg cggcagggcg 21780 ctgtcatacc tgatatcgcc tcgctcaacg aagtgccaaa aatctttgag ggtcttggac 21840 gcgacgagaa gcgcgcggca aacgctctgc aacaggaaaa cagcgaaaat gaaagtcact 21900 ctggagtgtt ggtggaactc gagggtgaca acgcgcgcct agccgtacta aaacgcagca 21960 tcgaggtcac ccactttgcc tacccggcac ttaacctacc ccccaaggtc atgagcacag 22020 tcatgagtga gctgatcgtg cgccgtgcgc agcccctgga gagggatgca aatttgcaag 22080 aacaaacaga ggagggccta cccgcagttg gcgacgagca gctagcgcgc tggcttcaaa 22140 cgcgcgagcc tgccgacttg gaggagcgac gcaaactaat gatggccgca gtgctcgtta 22200 ccgtggagct tgagtgcatg cagcggttct ttgctgaccc ggagatgcag cgcaagctag 22260 aggaaacatt gcactacacc tttcgacagg gctacgtacg ccaggcctgc aagatctcca 22320 acgtggagct ctgcaacctg gtctcctacc ttggaatttt gcacgaaaac cgccttgggc 22380 aaaacgtgct tcattccacg ctcaagggcg aggcgcgccg cgactacgtc cgcgactgcg 22440 tttacttatt tctatgctac acctggcaga cggccatggg cgtttggcag cagtgcttgg 22500 aggagtgcaa cctcaaggag ctgcagaaac tgctaaagca aaacttgaag gacctatgga 22560 cggccttcaa cgagcgctcc gtggccgcgc acctggcgga catcattttc cccgaacgcc 22620 tgcttaaaac cctgcaacag ggtctgccag acttcaccag tcaaagcatg ttgcagaact 22680 ttaggaactt tatcctagag cgctcaggaa tcttgcccgc cacctgctgt gcacttccta 22740 gcgactttgt gcccattaag taccgcgaat gccctccgcc gctttggggc cactgctacc 22800 ttctgcagct agccaactac cttgcctacc actctgacat aatggaagac gtgagcggtg 22860 acggtctact ggagtgtcac tgtcgctgca acctatgcac cccgcaccgc tccctggttt 22920 gcaattcgca gctgcttaac gaaagtcaaa ttatcggtac ctttgagctg cagggtccct 22980 cgcctgacga aaagtccgcg gctccggggt tgaaactcac tccggggctg tggacgtcgg 23040 cttaccttcg caaatttgta cctgaggact accacgccca cgagattagg ttctacgaag 23100 accaatcccg cccgccaaat gcggagctta ccgcctgcgt cattacccag ggccacattc 23160 ttggccaatt gcaagccatc aacaaagccc gccaagagtt tctgctacga aagggacggg 23220 gggtttactt ggacccccag tccggcgagg agctcaaccc aatccccccg ccgccgcagc 23280 cctatcagca gcagccgcgg gcccttgctt cccaggatgg cacccaaaaa gaagctgcag 23340 ctgccgccgc cacccacgga cgaggaggaa tactgggaca gtcaggcaga ggaggttttg 23400 gacgaggagg aggaggacat gatggaagac tgggagagcc tagacgagga agcttccgag 23460 gtcgaagagg tgtcagacga aacaccgtca ccctcggtcg cattcccctc gccggcgccc 23520 cagaaatcgg caaccggttc cagcatggct acaacctccg ctcctcaggc gccgccggca 23580 ctgcccgttc gccgacccaa ccgtagatgg gacaccactg gaaccagggc cggtaagtcc 23640 aagcagccgc cgccgttagc ccaagagcaa caacagcgcc aaggctaccg ctcatggcgc 23700 gggcacaaga acgccatagt tgcttgcttg caagactgtg ggggcaacat ctccttcgcc 23760 cgccgctttc ttctctacca tcacggcgtg gccttccccc gtaacatcct gcattactac 23820 cgtcatctct acagcccata ctgcaccggc ggcagcggca gcggcagcaa cagcagcggc 23880 cacacagaag caaaggcgac cggatagcaa gactctgaca aagcccaaga aatccacagc 23940 ggcggcagca gcaggaggag gagcgctgcg tctggcgccc aacgaacccg tatcgacccg 24000 cgagcttaga aacaggattt ttcccactct gtatgctata tttcaacaga gcaggggcca 24060 agaacaagag ctgaaaataa aaaacaggtc tctgcgatcc ctcacccgca gctgcctgta 24120 tcacaaaagc gaagatcagc ttcggcgcac gctggaagac gcggaggctc tcttcagtaa 24180 atactgcgcg ctgactctta aggactagtt tcgcgccctt tctcaaattt aagcgcgaaa 24240 actacgtcat ctccagcggc cacacccggc gccagcacct gtcgtcagcg ccattatgag 24300 caaggaaatt cccacgccct acatgtggag ttaccagcca caaatgggac ttgcggctgg 24360 agctgcccaa gactactcaa cccgaataaa ctacatgagc gcgggacccc acatgatatc 24420 ccgggtcaac ggaatccgcg cccaccgaaa ccgaattctc ttggaacagg cggctattac 24480 caccacacct cgtaataacc ttaatccccg tagttggccc gctgccctgg tgtaccagga 24540 aagtcccgct cccaccactg tggtacttcc cagagacgcc caggccgaag ttcagatgac 24600 taactcaggg gcgcagcttg cgggcggctt tcgtcacagg gtgcggtcgc ccgggcaggg 24660 tataactcac ctgacaatca gagggcgagg tattcagctc aacgacgagt cggtgagctc 24720 ctcgcttggt ctccgtccgg acgggacatt tcagatcggc ggcgccggcc gtccttcatt 24780 cacgcctcgt caggcaatcc taactctgca gacctcgtcc tctgagccgc gctctggagg 24840 cattggaact ctgcaattta ttgaggagtt tgtgccatcg gtctacttta accccttctc 24900 gggacctccc ggccactatc cggatcaatt tattcctaac tttgacgcgg taaaggactc 24960 ggcggacggc tacgactgaa tgttaagtgg agaggcagag caactgcgcc tgaaacacct 25020 ggtccactgt cgccgccaca agtgctttgc ccgcgactcc ggtgagtttt gctactttga 25080 attgcccgag gatcatatcg agggcccggc gcacggcgtc cggcttaccg cccagggaga 25140 gcttgcccgt agcctgattc gggagtttac ccagcgcccc ctgctagttg agcgggacag 25200 gggaccctgt gttctcactg tgatttgcaa ctgtcctaac cttggattac atcaagatcc 25260 tctagttaat taacagcttg catgcctgca ggtcgacgga tcgggagatc tcggccgcat 25320 attaagtgca ttgttctcga taccgctaag tgcattgttc tcgttagctc gatggacaag 25380 tgcattgttc tcttgctgaa agctcgatgg acaagtgcat tgttctcttg ctgaaagctc 25440 gatggacaag tgcattgttc tcttgctgaa agctcagtac ccgggagtac cctcgaccgc 25500 cggagtataa atagaggcgc ttcgtctacg gagcgacaat tcaattcaaa caagcaaagt 25560 gaacacgtcg ctaagcgaaa gctaagcaaa taaacaagcg cagctgaaca agctaaacaa 25620 tctgcagtaa agtgcaagtt aaagtgaatc aattaaaagt aaccagcaac caagtaaatc 25680 aactgcaact actgaaatct gccaagaagt aattattgaa tacaagaaga gaactctgaa 25740 tactttcaac aagttaccga gaaagaagaa ctcacacaca gctagcgttt aaacttaagc 25800 ttcaccatgg tggggccctg catgctgctg ctgctgctgc tgctgggcct gaggctacag 25860 ctctccctgg gcatcatcct agttgaggag gagaacccgg acttctggaa ccgcgaggca 25920 gccgaggccc tgggtgccgc caagaagctg cagcctgcac agacagccgc caagaacctc 25980 atcatcttcc tgggcgatgg ggtgggggtg tctacggtga cagctgccag gatcctaaaa 26040 gggcagaaga aggacaaact ggggcctgag atacccctgg ccatggaccg cttcccatat 26100 gtggctctgt ccaagacata caatgtagac aaacatgtgc cagacagtgg agccacagcc 26160 acggcctacc tgtgcggggt caagggcaac ttccagacca ttggcttgag tgcagccgcc 26220 cgctttaacc agtgcaacac gacacgcggc aacgaggtca tctccgtgat gaatcgggcc 26280 aagaaagcag ggaagtcagt gggagtggta accaccacac gagtgcagca cgcctcgcca 26340 gccggcacct acgcccacac ggtgaaccgc aactggtact cggacgccga cgtgcctgcc 26400 tcggcccgcc aggaggggtg ccaggacatc gctacgcagc tcatctccaa catggacatt 26460 gacgtgatcc taggtggggg ccgaaagtac atgtttcgca tgggaacccc agaccctgag 26520 tacccagatg actacagcca aggtgggacc aggctggacg ggaagaatct ggtgcaggaa 26580 tggctggcga agcaccaggg tgcccggtac gtgtggaacc gcactgagct catgcgggct 26640 tccctggacc cgtctgtggc ccatctcatg ggtctctttg agcctggaga catgaaatac 26700 gagatccacc gagactccac actggacccc tccctgatgg agatgacaga ggctgccctg 26760 cgcctgctga gcaggaaccc ccgcggcttc ttcctcttcg tggagggtgg tcgcatcgac 26820 catggtcatc atgaaagcag ggcttaccgg gcactgactg agacgatcat gttcgacgac 26880 gccattgaga gggcgggcca gctcaccagc gaggaggaca cgctgagcct cgtcactgcc 26940 gaccactccc acgtcttctc cttcggaggc tgccccctgc gagggggctc catcttcggg 27000 ctggcccctg gcaaggcccg ggacaggaag gcctacacgg tcctcctata cggaaacggt 27060 ccaggctatg tgctcaagga cggcgcccgg ccggatgtta ccgagagcga gagcgggagc 27120 cccgagtatc ggcagcagtc agcagtgccc ctggacgaag agacccacgc aggcgaggac 27180 gtggcggtgt tcgcgcgcgg cccgcaggcg cacctggttc acggcgtgca ggagcagacc 27240 ttcatagcgc acgtcatggc cttcgccgcc tgcctggagc cctacaccgc ctgcgacctg 27300 gcgccccccg ccggcaccac cgacgccgcg cacccggggc ggtccgtggt ccccgcgttg 27360 cttcctctgc tggccgggac cctgctgctg ctggagacgg ccactgctcc ctgagtgtcc 27420 cgtccctggg gctcctgctt ccccatcccg gagttctcct gctccccgcc tcctgtcgtc 27480 ctgcctggcc tccagcccga gtcgtcatcc ccggagtccc tatacagagg tcctgccatg 27540 gaaccttccc ctccccgtgc gctctgggga ctgagcccat gacaccaaac ctgccccttg 27600 gctgctctcg gactccctac cccaacccca gggacagatc tggccagatt tgtaaaacaa 27660 atagatttta ggcccaaaga ttatttaaag cattgcctgg aacgcagtga gtttttgtta 27720 gaaaagagaa taattcaaag tggcattgct ttgcttctta tgttaatttg gtacagacct 27780 gtggctgagt ttgctcaaag tattcagagc agaattgtgg agtggaaaga gagattggac 27840 aaagagttta gtttgtcagt gtatcaaaaa atgaagttta atgtggctat gggaattgga 27900 gttttagatt ggctaagaaa cagtgatgat gatgatgaag acagccagga aaatgctgat 27960 aaaaatgaag atggtgggga gaagaacatg gaagactcag ggcatgaaac aggcattgat 28020 tcacagtccc aaggctcatt tcaggcccct cagtcctcac agtctgttca tgatcataat 28080 cagccatacc acatttgtag aggttttact tgctttaaaa aacctcccac acctccccct 28140 gaacctgaaa cataaaatga atgcaattgt tgttgttaac ttgtttattg cagcttataa 28200 tggttacaaa taaagcaata gcatcacaaa tttcacaaat aaagcatttt tttcactgca 28260 ttctagttgt ggtttgtcca aactcatcaa tgtatcttat catgtctgga tccccaggaa 28320 gctcctctgt gtcctcataa accctaacct cctctacttg agaggacatt ccaatcatag 28380 gctgcccatc caccctctgt gtcctcctgt taattaggtc acttaacaaa aaggaaattg 28440 ggtaggggtt tttcacagac cgctttctaa gggtaatttt aaaatatctg ggaagtccct 28500 tccactgctg tgttccagaa gtgttggtaa acagcccaca aatgtcaaca gcagaaacat 28560 acaagctgtc agctttgcac aagggcccaa caccctgctc atcaagaagc actgtggttg 28620 ctgtgttagt aatgtgcaaa acaggaggca cattttcccc acctgtgtag gttccaaaat 28680 atctagtgtt ttcattttta cttggatcag gaacccagca ctccactgga taagcattat 28740 ccttatccaa aacagccttg tggtcagtgt tcatctgctg actgtcaact gtagcatttt 28800 ttggggttac agtttgagca ggatatttgg tcctgtagtt tgctaacaca ccctgcagct 28860 ccaaaggttc cccaccaaca gcaaaaaaat gaaaatttga cccttgaatg ggttttccag 28920 caccattttc atgagttttt tgtgtccctg aatgcaagtt taacatagca gttaccccaa 28980 taacctcagt tttaacagta acagcttccc acatcaaaat atttccacag gttaagtcct 29040 catttaaatt aggcaaagga attccacttc ccactgcctt gcttccgtct cccattcaaa 29100 cttttatcaa ctgacattat tctaagtaaa atcctcttca ttatgttgtc agcaatccat 29160 tgcttgaagg cctggctccc cagaacccct cgactggtat gtcttctcct agaatactcc 29220 agaagaaaag gagtgtatga agatagtgac tgcacattaa aatgactgaa accatagtaa 29280 attaggatga gattctgggc agataaacag acagctggct aggatcattt ttttatgcct 29340 tggacttctt tggcaatctg ttgaagcctg acattcctca gaataatgtt ttaaagccca 29400 acaataagac cctgtagcac atataataag tactgcagtt ttgaagtagt gataagcata 29460 aatgatattt tgatatattt attataactg taatgagatg tgtacatatc tgtgacttca 29520 taggtactga ttgtactact gtgatttttt tgcctacttt caaaatgaaa aggaatgctt 29580 aatttcagtt agaggttagt aaagacaaat aggtaatttt cttctccagt gaagagcatg 29640 gcgccccttg ctattcatgg acgcttgctt aaagacttgt acacaggctt gctttgtatc 29700 aacctatgac ttccccttac agccgatgat aggtttttat ttgcacctcc ttcgtgtaca 29760 aagacagttt tggtggctac gccatcatta aactcattat tatcatgctt aagcctatag 29820 atgtatccag ttcttctgtt acataattga agctgtagtg aattgtctat cttaaactgc 29880 atcgctaact gactacattt cacacttcat ttgcttccaa catagactaa ccttcttgga 29940 tgtccactat tatttgaact tttgagattt tttttcctat ttctaatatc ttaaaatttc 30000 agaagactta aagttttgca actacagggc tccatataga catctagctt gaatttatac 30060 actttctttc attgatgtcc ctggactaaa aaatgttaaa tatttctaac cgctgtactt 30120 aaagtccatt acaaacgaag actactgttg ttaagttgaa taggcatctt atatattttt 30180 caccggtgca ataaataact tctattccct tctaacatct gcttgcgttg cactgagagt 30240 acactattga ttagcaatag gttcgtgatt acagcccttc tataattaat tgttaggtta 30300 acatattatt cataaaatat tattttatta atttttactt gatttgctac tggatgctta 30360 gaaatagcta tgagtatatt ggtagaacca gtacttatat tttattacat ttttacattt 30420 cataaaattt aagtgatata aaaatcctga ggaagtatgc cacaaaagtg gtctcagtgg 30480 aaatttaaat atgttaacat ttatttttaa aatgtagcgt gaaatagaca actttaaaag 30540 ctcagcttaa aaaaaaaact caaggaagct gaacttgact ttttaaagca ctgaagtgca 30600 atatttaatg taggtcaaca tgtttaaatg ggaaaatttt tttcctaatt acagccaaat 30660 ccctagctgt aattaactta aaatttgtat actatttcac aacagagtca gcatatacca 30720 ctttcttata aaattagaaa gatctaaaat tttagagctt atttggtgaa acaggcatat 30780 tgctacatct ttgtttataa attataatgt gcctttagag cccaataaca gataacaaga 30840 ttttgaaaat tcaggtgaat tagagttatc agagggaatg ttaatacact ctattcaaat 30900 actatatgag taagacattt aaaataggaa acaatacttt atatattaaa aaaaattaat 30960 cttccagtcg atttaatcca ctttatgaat tcatttaaat cgatttaaat tcgaattaat 31020 taactagagt acccggggat cttattccct ttaactaata aaaaaaaata ataaagcatc 31080 acttacttaa aatcagttag caaatttctg tccagtttat tcagcagcac ctccttgccc 31140 tcctcccagc tctggtattg cagcttcctc ctggctgcaa actttctcca caatctaaat 31200 ggaatgtcag tttcctcctg ttcctgtcca tccgcaccca ctatcttcat gttgttgcag 31260 atgaagcgcg caagaccgtc tgaagatacc ttcaaccccg tgtatccata tgacacggaa 31320 accggtcctc caactgtgcc ttttcttact cctccctttg tatcccccaa tgggtttcaa 31380 gagagtcccc ctggggtact ctctttgcgc ctatccgaac ctctagttac ctccaatggc 31440 atgcttgcgc tcaaaatggg caacggcctc tctctggacg aggccggcaa ccttacctcc 31500 caaaatgtaa ccactgtgag cccacctctc aaaaaaacca agtcaaacat aaacctggaa 31560 atatctgcac ccctcacagt tacctcagaa gccctaactg tggctgccgc cgcacctcta 31620 atggtcgcgg gcaacacact caccatgcaa tcacaggccc cgctaaccgt gcacgactcc 31680 aaacttagca ttgccaccca aggacccctc acagtgtcag aaggaaagct agccctgcaa 31740 acatcaggcc ccctcaccac caccgatagc agtaccctta ctatcactgc ctcaccccct 31800 ctaactactg ccactggtag cttgggcatt gacttgaaag agcccattta tacacaaaat 31860 ggaaaactag gactaaagta cggggctcct ttgcatgtaa cagacgacct aaacactttg 31920 accgtagcaa ctggtccagg tgtgactatt aataatactt ccttgcaaac taaagttact 31980 ggagccttgg gttttgattc acaaggcaat atgcaactta atgtagcagg aggactaagg 32040 attgattctc aaaacagacg ccttatactt gatgttagtt atccgtttga tgctcaaaac 32100 caactaaatc taagactagg acagggccct ctttttataa actcagccca caacttggat 32160 attaactaca acaaaggcct ttacttgttt acagcttcaa acaattccaa aaagcttgag 32220 gttaacctaa gcactgccaa ggggttgatg tttgacgcta cagccatagc cattaatgca 32280 ggagatgggc ttgaatttgg ttcacctaat gcaccaaaca caaatcccct caaaacaaaa 32340 attggccatg gcctagaatt tgattcaaac aaggctatgg ttcctaaact aggaactggc 32400 cttagttttg acagcacagg tgccattaca gtaggaaaca aaaataatga taagctaact 32460 ttgtggacca caccagctcc atctcctaac tgtagactaa atgcagagaa agatgctaaa 32520 ctcactttgg tcttaacaaa atgtggcagt caaatacttg ctacagtttc agttttggct 32580 gttaaaggca gtttggctcc aatatctgga acagttcaaa gtgctcatct tattataaga 32640 tttgacgaaa atggagtgct actaaacaat tccttcctgg acccagaata ttggaacttt 32700 agaaatggag atcttactga aggcacagcc tatacaaacg ctgttggatt tatgcctaac 32760 ctatcagctt atccaaaatc tcacggtaaa actgccaaaa gtaacattgt cagtcaagtt 32820 tacttaaacg gagacaaaac taaacctgta acactaacca ttacactaaa cggtacacag 32880 gaaacaggag acacaactcc aagtgcatac tctatgtcat tttcatggga ctggtctggc 32940 cacaactaca ttaatgaaat atttgccaca tcctcttaca ctttttcata cattgcccaa 33000 gaataaagaa tcgtttgtgt tatgtttcaa cgtgtttatt tttcaattgc agaaaatttc 33060 aagtcatttt tcattcagta gtatagcccc accaccacat agcttataca gatcaccgta 33120 ccttaatcaa actcacagaa ccctagtatt caacctgcca cctccctccc aacacacaga 33180 gtacacagtc ctttctcccc ggctggcctt aaaaagcatc atatcatggg taacagacat 33240 attcttaggt gttatattcc acacggtttc ctgtcgagcc aaacgctcat cagtgatatt 33300 aataaactcc ccgggcagct cacttaagtt catgtcgctg tccagctgct gagccacagg 33360 ctgctgtcca acttgcggtt gcttaacggg cggcgaagga gaagtccacg cctacatggg 33420 ggtagagtca taatcgtgca tcaggatagg gcggtggtgc tgcagcagcg cgcgaataaa 33480 ctgctgccgc cgccgctccg tcctgcagga atacaacatg gcagtggtct cctcagcgat 33540 gattcgcacc gcccgcagca taaggcgcct tgtcctccgg gcacagcagc gcaccctgat 33600 ctcacttaaa tcagcacagt aactgcagca cagcaccaca atattgttca aaatcccaca 33660 gtgcaaggcg ctgtatccaa agctcatggc ggggaccaca gaacccacgt ggccatcata 33720 ccacaagcgc aggtagatta agtggcgacc cctcataaac acgctggaca taaacattac 33780 ctcttttggc atgttgtaat tcaccacctc ccggtaccat ataaacctct gattaaacat 33840 ggcgccatcc accaccatcc taaaccagct ggccaaaacc tgcccgccgg ctatacactg 33900 cagggaaccg ggactggaac aatgacagtg gagagcccag gactcgtaac catggatcat 33960 catgctcgtc atgatatcaa tgttggcaca acacaggcac acgtgcatac acttcctcag 34020 gattacaagc tcctcccgcg ttagaaccat atcccaggga acaacccatt cctgaatcag 34080 cgtaaatccc acactgcagg gaagacctcg cacgtaactc acgttgtgca ttgtcaaagt 34140 gttacattcg ggcagcagcg gatgatcctc cagtatggta gcgcgggttt ctgtctcaaa 34200 aggaggtaga cgatccctac tgtacggagt gcgccgagac aaccgagatc gtgttggtcg 34260 tagtgtcatg ccaaatggaa cgccggacgt agtcatattt cctgaagcaa aaccaggtgc 34320 gggcgtgaca aacagatctg cgtctccggt ctcgccgctt agatcgctct gtgtagtagt 34380 tgtagtatat ccactctctc aaagcatcca ggcgccccct ggcttcgggt tctatgtaaa 34440 ctccttcatg cgccgctgcc ctgataacat ccaccaccgc agaataagcc acacccagcc 34500 aacctacaca ttcgttctgc gagtcacaca cgggaggagc gggaagagct ggaagaacca 34560 tgtttttttt tttattccaa aagattatcc aaaacctcaa aatgaagatc tattaagtga 34620 acgcgctccc ctccggtggc gtggtcaaac tctacagcca aagaacagat aatggcattt 34680 gtaagatgtt gcacaatggc ttccaaaagg caaacggccc tcacgtccaa gtggacgtaa 34740 aggctaaacc cttcagggtg aatctcctct ataaacattc cagcaccttc aaccatgccc 34800 aaataattct catctcgcca ccttctcaat atatctctaa gcaaatcccg aatattaagt 34860 ccggccattg taaaaatctg ctccagagcg ccctccacct tcagcctcaa gcagcgaatc 34920 atgattgcaa aaattcaggt tcctcacaga cctgtataag attcaaaagc ggaacattaa 34980 caaaaatacc gcgatcccgt aggtcccttc gcagggccag ctgaacataa tcgtgcaggt 35040 ctgcacggac cagcgcggcc acttccccgc caggaacctt gacaaaagaa cccacactga 35100 ttatgacacg catactcgga gctatgctaa ccagcgtagc cccgatgtaa gctttgttgc 35160 atgggcggcg atataaaatg caaggtgctg ctcaaaaaat caggcaaagc ctcgcgcaaa 35220 aaagaaagca catcgtagtc atgctcatgc agataaaggc aggtaagctc cggaaccacc 35280 acagaaaaag acaccatttt tctctcaaac atgtctgcgg gtttctgcat aaacacaaaa 35340 taaaataaca aaaaaacatt taaacattag aagcctgtct tacaacagga aaaacaaccc 35400 ttataagcat aagacggact acggccatgc cggcgtgacc gtaaaaaaac tggtcaccgt 35460 gattaaaaag caccaccgac agctcctcgg tcatgtccgg agtcataatg taagactcgg 35520 taaacacatc aggttgattc atcggtcagt gctaaaaagc gaccgaaata gcccggggga 35580 atacataccc gcaggcgtag agacaacatt acagccccca taggaggtat aacaaaatta 35640 ataggagaga aaaacacata aacacctgaa aaaccctcct gcctaggcaa aatagcaccc 35700 tcccgctcca gaacaacata cagcgcttca cagcggcagc ctaacagtca gccttaccag 35760 taaaaaagaa aacctattaa aaaaacacca ctcgacacgg caccagctca atcagtcaca 35820 gtgtaaaaaa gggccaagtg cagagcgagt atatatagga ctaaaaaatg acgtaacggt 35880 taaagtccac aaaaaacacc cagaaaaccg cacgcgaacc tacgcccaga aacgaaagcc 35940 aaaaaaccca caacttcctc aaatcgtcac ttccgttttc ccacgttacg tcacttccca 36000 ttttaagaaa actacaattc ccaacacata caagttactc cgccctaaaa cctacgtcac 36060 ccgccccgtt cccacgcccc gcgccacgtc acaaactcca ccccctcatt atcatattgg 36120 cttcaatcca aaataaggta tattattgat gatg 36154 <210> SEQ ID NO 2 <211> LENGTH: 31 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 2 cggaattcgg atccagcgac cgcgagctga t 31 <210> SEQ ID NO 3 <211> LENGTH: 33 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 3 cggaattcag ccggcttcgt cgggccggat ggc 33 <210> SEQ ID NO 4 <211> LENGTH: 32 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 4 cgcggatccg ccggctacgg cctgacgggc gg 32 <210> SEQ ID NO 5 <211> LENGTH: 28 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 5 cggaattcac acacatacga cacgttag 28 <210> SEQ ID NO 6 <211> LENGTH: 32 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 6 cggaattcgg ccggccatca tcaataatat ac 32 <210> SEQ ID NO 7 <211> LENGTH: 43 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 7 cggtcgattc aattgctggc aagcttcggc cctagacaaa tat 43 <210> SEQ ID NO 8 <211> LENGTH: 19 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 8 ctatgctaac cagcgtagc 19 <210> SEQ ID NO 9 <211> LENGTH: 36154 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 9 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tagtagtgtg gcggaagtgt 120 gatgttgcaa gtgtggcgga acacatgtat aacttcgtat aatgtatgct atacgaagtt 180 atacatgtaa gcgacggatg tggcaaaagt gacgtttttg gtgtgcgccg gtgtacacag 240 gaagtgacaa ttttcgcgcg gttttaggcg gatgttgtag taaatttggg cgtaaccgag 300 taagatttgg ccattttcgc gggaaaactg aataagagga agtgaaatct gaataatttt 360 gtgttactca tagcgcgtaa tatttgtcta gggagatcta taacttcgta taatgtatgc 420 tatacgaagt tattaccgaa gaaatggctc gagatctgga aggtgctgag gtacgatgag 480 acccgcacca ggtgcagacc ctgcgagtgt ggcggtaaac atattaggaa ccagcctgtg 540 atgctggatg tgaccgagga gctgaggccc gatcacttgg tgctggcctg cacccgcgct 600 gagtttggct ctagcgatga agatacagat tgaggtactg aaatgtgtgg gcgtggctta 660 agggtgggaa agaatatata aggtgggggt cttatgtagt tttgtatctg ttttgcagca 720 gccgccgccg ccatgagcac caactcgttt gatggaagca ttgtgagctc atatttgaca 780 acgcgcatgc ccccatgggc cggggtgcgt cagaatgtga tgggctccag cattgatggt 840 cgccccgtcc tgcccgcaaa ctctactacc ttgacctacg agaccgtgtc tggaacgccg 900 ttggagactg cagcctccgc cgccgcttca gccgctgcag ccaccgcccg cgggattgtg 960 actgactttg ctttcctgag cccgcttgca agcagtgcag cttcccgttc atccgcccgc 1020 gatgacaagt tgacggctct tttggcacaa ttggattctt tgacccggga acttaatgtc 1080 gtttctcagc agctgttgga tctgcgccag caggtttctg ccctgaaggc ttcctcccct 1140 cccaatgcgg tttaaaacat aaataaaaaa ccagactctg tttggatttg gatcaagcaa 1200 gtgtcttgct gtctttattt aggggttttg cgcgcgcggt aggcccggga ccagcggtct 1260 cggtcgttga gggtcctgtg tattttttcc aggacgtggt aaaggtgact ctggatgttc 1320 agatacatgg gcataagccc gtctctgggg tggaggtagc accactgcag agcttcatgc 1380 tgcggggtgg tgttgtagat gatccagtcg tagcaggagc gctgggcgtg gtgcctaaaa 1440 atgtctttca gtagcaagct gattgccagg ggcaggccct tggtgtaagt gtttacaaag 1500 cggttaagct gggatgggtg catacgtggg gatatgagat gcatcttgga ctgtattttt 1560 aggttggcta tgttcccagc catatccctc cggggattca tgttgtgcag aaccaccagc 1620 acagtgtatc cggtgcactt gggaaatttg tcatgtagct tagaaggaaa tgcgtggaag 1680 aacttggaga cgcccttgtg acctccaaga ttttccatgc attcgtccat aatgatggca 1740 atgggcccac gggcggcggc ctgggcgaag atatttctgg gatcactaac gtcatagttg 1800 tgttccagga tgagatcgtc ataggccatt tttacaaagc gcgggcggag ggtgccagac 1860 tgcggtataa tggttccatc cggcccaggg gcgtagttac cctcacagat ttgcatttcc 1920 cacgctttga gttcagatgg ggggatcatg tctacctgcg gggcgatgaa gaaaacggtt 1980 tccggggtag gggagatcag ctgggaagaa agcaggttcc tgagcagctg cgacttaccg 2040 cagccggtgg gcccgtaaat cacacctatt accgggtgca actggtagtt aagagagctg 2100 cagctgccgt catccctgag caggggggcc acttcgttaa gcatgtccct gactcgcatg 2160 ttttccctga ccaaatccgc cagaaggcgc tcgccgccca gcgatagcag ttcttgcaag 2220 gaagcaaagt ttttcaacgg tttgagaccg tccgccgtag gcatgctttt gagcgtttga 2280 ccaagcagtt ccaggcggtc ccacagctcg gtcacctgct ctacggcatc tcgatccagc 2340 atatctcctc gtttcgcggg ttggggcggc tttcgctgta cggcagtagt cggtgctcgt 2400 ccagacgggc cagggtcatg tctttccacg ggcgcagggt cctcgtcagc gtagtctggg 2460 tcacggtgaa ggggtgcgct ccgggctgcg cgctggccag ggtgcgcttg aggctggtcc 2520 tgctggtgct gaagcgctgc cggtcttcgc cctgcgcgtc ggccaggtag catttgacca 2580 tggtgtcata gtccagcccc tccgcggcgt ggcccttggc gcgcagcttg cccttggagg 2640 aggcgccgca cgaggggcag tgcagacttt tgagggcgta gagcttgggc gcgagaaata 2700 ccgattccgg ggagtaggca tccgcgccgc aggccccgca gacggtctcg cattccacga 2760 gccaggtgag ctctggccgt tcggggtcaa aaaccaggtt tcccccatgc tttttgatgc 2820 gtttcttacc tctggtttcc atgagccggt gtccacgctc ggtgacgaaa aggctgtccg 2880 tgtccccgta tacagacttg agaggcctgt cctcgagcgg tgttccgcgg tcctcctcgt 2940 atagaaactc ggaccactct gagacaaagg ctcgcgtcca ggccagcacg aaggaggcta 3000 agtgggaggg gtagcggtcg ttgtccacta gggggtccac tcgctccagg gtgtgaagac 3060 acatgtcgcc ctcttcggca tcaaggaagg tgattggttt gtaggtgtag gccacgtgac 3120 cgggtgttcc tgaagggggg ctataaaagg gggtgggggc gcgttcgtcc tcactctctt 3180 ccgcatcgct gtctgcgagg gccagctgtt ggggtgagta ctccctctga aaagcgggca 3240 tgacttctgc gctaagattg tcagtttcca aaaacgagga ggatttgata ttcacctggc 3300 ccgcggtgat gcctttgagg gtggccgcat ccatctggtc agaaaagaca atctttttgt 3360 tgtcaagctt ggtggcaaac gacccgtaga gggcgttgga cagcaacttg gcgatggagc 3420 gcagggtttg gtttttgtcg cgatcggcgc gctccttggc cgcgatgttt agctgcacgt 3480 attcgcgcgc aacgcaccgc cattcgggaa agacggtggt gcgctcgtcg ggcaccaggt 3540 gcacgcgcca accgcggttg tgcagggtga caaggtcaac gctggtggct acctctccgc 3600 gtaggcgctc gttggtccag cagaggcggc cgcccttgcg cgagcagaat ggcggtaggg 3660 ggtctagctg cgtctcgtcc ggggggtctg cgtccacggt aaagaccccg ggcagcaggc 3720 gcgcgtcgaa gtagtctatc ttgcatcctt gcaagtctag cgcctgctgc catgcgcggg 3780 cggcaagcgc gcgctcgtat gggttgagtg ggggacccca tggcatgggg tgggtgagcg 3840 cggaggcgta catgccgcaa atgtcgtaaa cgtagagggg ctctctgagt attccaagat 3900 atgtagggta gcatcttcca ccgcggatgc tggcgcgcac gtaatcgtat agttcgtgcg 3960 agggagcgag gaggtcggga ccgaggttgc tacgggcggg ctgctctgct cggaagacta 4020 tctgcctgaa gatggcatgt gagttggatg atatggttgg acgctggaag acgttgaagc 4080 tggcgtctgt gagacctacc gcgtcacgca cgaaggaggc gtaggagtcg cgcagcttgt 4140 tgaccagctc ggcggtgacc tgcacgtcta gggcgcagta gtccagggtt tccttgatga 4200 tgtcatactt atcctgtccc ttttttttcc acagctcgcg gttgaggaca aactcttcgc 4260 ggtctttcca gtactcttgg atcggaaacc cgtcggcctc cgaacggtaa gagcctagca 4320 tgtagaactg gttgacggcc tggtaggcgc agcatccctt ttctacgggt agcgcgtatg 4380 cctgcgcggc cttccggagc gaggtgtggg tgagcgcaaa ggtgtccctg accatgactt 4440 tgaggtactg gtatttgaag tcagtgtcgt cgcatccgcc ctgctcccag agcaaaaagt 4500 ccgtgcgctt tttggaacgc ggatttggca gggcgaaggt gacatcgttg aagagtatct 4560 ttcccgcgcg aggcataaag ttgcgtgtga tgcggaaggg tcccggcacc tcggaacggt 4620 tgttaattac ctgggcggcg agcacgatct cgtcaaagcc gttgatgttg tggcccacaa 4680 tgtaaagttc caagaagcgc gggatgccct tgatggaagg caatttttta agttcctcgt 4740 aggtgagctc ttcaggggag ctgagcccgt gctctgaaag ggcccagtct gcaagatgag 4800 ggttggaagc gacgaatgag ctccacaggt cacgggccat tagcatttgc aggtggtcgc 4860 gaaaggtcct aaactggcga cctatggcca ttttttctgg ggtgatgcag tagaaggtaa 4920 gcgggtcttg ttcccagcgg tcccatccaa ggttcgcggc taggtctcgc gcggcagtca 4980 ctagaggctc atctccgccg aacttcatga ccagcatgaa gggcacgagc tgcttcccaa 5040 aggcccccat ccaagtatag gtctctacat cgtaggtgac aaagagacgc tcggtgcgag 5100 gatgcgagcc gatcgggaag aactggatct cccgccacca attggaggag tggctattga 5160 tgtggtgaaa gtagaagtcc ctgcgacggg ccgaacactc gtgctggctt ttgtaaaaac 5220 gtgcgcagta ctggcagcgg tgcacgggct gtacatcctg cacgaggttg acctgacgac 5280 cgcgcacaag gaagcagagt gggaatttga gcccctcgcc tggcgggttt ggctggtggt 5340 cttctacttc ggctgcttgt ccttgaccgt ctggctgctc gaggggagtt acggtggatc 5400 ggaccaccac gccgcgcgag cccaaagtcc agatgtccgc gcgcggcggt cggagcttga 5460 tgacaacatc gcgcagatgg gagctgtcca tggtctggag ctcccgcggc gtcaggtcag 5520 gcgggagctc ctgcaggttt acctcgcata gacgggtcag ggcgcgggct agatccaggt 5580 gatacctaat ttccaggggc tggttggtgg cggcgtcgat ggcttgcaag aggccgcatc 5640 cccgcggcgc gactacggta ccgcgcggcg ggcggtgggc cgcgggggtg tccttggatg 5700 atgcatctaa aagcggtgac gcgggcgagc ccccggaggt agggggggct ccggacccgc 5760 cgggagaggg ggcaggggca cgtcggcgcc gcgcgcgggc aggagctggt gctgcgcgcg 5820 taggttgctg gcgaacgcga cgacgcggcg gttgatctcc tgaatctggc gcctctgcgt 5880 gaagacgacg ggcccggtga gcttgagcct gaaagagagt tcgacagaat caatttcggt 5940 gtcgttgacg gcggcctggc gcaaaatctc ctgcacgtct cctgagttgt cttgataggc 6000 gatctcggcc atgaactgct cgatctcttc ctcctggaga tctccgcgtc cggctcgctc 6060 cacggtggcg gcgaggtcgt tggaaatgcg ggccatgagc tgcgagaagg cgttgaggcc 6120 tccctcgttc cagacgcggc tgtagaccac gcccccttcg gcatcgcggg cgcgcatgac 6180 cacctgcgcg agattgagct ccacgtgccg ggcgaagacg gcgtagtttc gcaggcgctg 6240 aaagaggtag ttgagggtgg tggcggtgtg ttctgccacg aagaagtaca taacccagcg 6300 tcgcaacgtg gattcgttga tatcccccaa ggcctcaagg cgctccatgg cctcgtagaa 6360 gtccacggcg aagttgaaaa actgggagtt gcgcgccgac acggttaact cctcctccag 6420 aagacggatg agctcggcga cagtgtcgcg cacctcgcgc tcaaaggcta caggggcctc 6480 ttcttcttct tcaatctcct cttccataag ggcctcccct tcttcttctt ctggcggcgg 6540 tgggggaggg gggacacggc ggcgacgacg gcgcaccggg aggcggtcga caaagcgctc 6600 gatcatctcc ccgcggcgac ggcgcatggt ctcggtgacg gcgcggccgt tctcgcgggg 6660 gcgcagttgg aagacgccgc ccgtcatgtc ccggttatgg gttggcgggg ggctgccatg 6720 cggcagggat acggcgctaa cgatgcatct caacaattgt tgtgtaggta ctccgccgcc 6780 gagggacctg agcgagtccg catcgaccgg atcggaaaac ctctcgagaa aggcgtctaa 6840 ccagtcacag tcgcaaggta ggctgagcac cgtggcgggc ggcagcgggc ggcggtcggg 6900 gttgtttctg gcggaggtgc tgctgatgat gtaattaaag taggcggtct tgagacggcg 6960 gatggtcgac agaagcacca tgtccttggg tccggcctgc tgaatgcgca ggcggtcggc 7020 catgccccag gcttcgtttt gacatcggcg caggtctttg tagtagtctt gcatgagcct 7080 ttctaccggc acttcttctt ctccttcctc ttgtcctgca tctcttgcat ctatcgctgc 7140 ggcggcggcg gagtttggcc gtaggtggcg ccctcttcct cccatgcgtg tgaccccgaa 7200 gcccctcatc ggctgaagca gggctaggtc ggcgacaacg cgctcggcta atatggcctg 7260 ctgcacctgc gtgagggtag actggaagtc atccatgtcc acaaagcggt ggtatgcgcc 7320 cgtgttgatg gtgtaagtgc agttggccat aacggaccag ttaacggtct ggtgacccgg 7380 ctgcgagagc tcggtgtacc tgagacgcga gtaagccctc gagtcaaata cgtagtcgtt 7440 gcaagtccgc accaggtact ggtatcccac caaaaagtgc ggcggcggct ggcggtagag 7500 gggccagcgt agggtggccg gggctccggg ggcgagatct tccaacataa ggcgatgata 7560 tccgtagatg tacctggaca tccaggtgat gccggcggcg gtggtggagg cgcgcggaaa 7620 gtcgcggacg cggttccaga tgttgcgcag cggcaaaaag tgctccatgg tcgggacgct 7680 ctggccggtc aggcgcgcgc aatcgttgac gctctaccgt gcaaaaggag agcctgtaag 7740 cgggcactct tccgtggtct ggtggataaa ttcgcaaggg tatcatggcg gacgaccggg 7800 gttcgagccc cgtatccggc cgtccgccgt gatccatgcg gttaccgccc gcgtgtcgaa 7860 cccaggtgtg cgacgtcaga caacggggga gtgctccttt tggcttcctt ccaggcgcgg 7920 cggctgctgc gctagctttt ttggccactg gccgcgcgca gcgtaagcgg ttaggctgga 7980 aagcgaaagc attaagtggc tcgctccctg tagccggagg gttattttcc aagggttgag 8040 tcgcgggacc cccggttcga gtctcggacc ggccggactg cggcgaacgg gggtttgcct 8100 ccccgtcatg caagaccccg cttgcaaatt cctccggaaa cagggacgag cccctttttt 8160 gcttttccca gatgcatccg gtgctgcggc agatgcgccc ccctcctcag cagcggcaag 8220 agcaagagca gcggcagaca tgcagggcac cctcccctcc tcctaccgcg tcaggagggg 8280 cgacatccgc ggttgacgcg gcagcagatg gtgattacga acccccgcgg cgccgggccc 8340 ggcactacct ggacttggag gagggcgagg gcctggcgcg gctaggagcg ccctctcctg 8400 agcggtaccc aagggtgcag ctgaagcgtg atacgcgtga ggcgtacgtg ccgcggcaga 8460 acctgtttcg cgaccgcgag ggagaggagc ccgaggagat gcgggatcga aagttccacg 8520 cagggcgcga gctgcggcat ggcctgaatc gcgagcggtt gctgcgcgag gaggactttg 8580 agcccgacgc gcgaaccggg attagtcccg cgcgcgcaca cgtggcggcc gccgacctgg 8640 taaccgcata cgagcagacg gtgaaccagg agattaactt tcaaaaaagc tttaacaacc 8700 acgtgcgtac gcttgtggcg cgcgaggagg tggctatagg actgatgcat ctgtgggact 8760 ttgtaagcgc gctggagcaa aacccaaata gcaagccgct catggcgcag ctgttcctta 8820 tagtgcagca cagcagggac aacgaggcat tcagggatgc gctgctaaac atagtagagc 8880 ccgagggccg ctggctgctc gatttgataa acatcctgca gagcatagtg gtgcaggagc 8940 gcagcttgag cctggctgac aaggtggccg ccatcaacta ttccatgctt agcctgggca 9000 agttttacgc ccgcaagata taccataccc cttacgttcc catagacaag gaggtaaaga 9060 tcgaggggtt ctacatgcgc atggcgctga aggtgcttac cttgagcgac gacctgggcg 9120 tttatcgcaa cgagcgcatc cacaaggccg tgagcgtgag ccggcggcgc gagctcagcg 9180 accgcgagct gatgcacagc ctgcaaaggg ccctggctgg cacgggcagc ggcgatagag 9240 aggccgagtc ctactttgac gcgggcgctg acctgcgctg ggccccaagc cgacgcgccc 9300 tggaggcagc tggggccgga cctgggctgg cggtggcacc cgcgcgcgct ggcaacgtcg 9360 gcggcgtgga ggaatatgac gaggacgatg agtacgagcc agaggacggc gagtactaag 9420 cggtgatgtt tctgatcaga tgatgcaaga cgcaacggac ccggcggtgc gggcggcgct 9480 gcagagccag ccgtccggcc ttaactccac ggacgactgg cgccaggtca tggaccgcat 9540 catgtcgctg actgcgcgca atcctgacgc gttccggcag cagccgcagg ccaaccggct 9600 ctccgcaatt ctggaagcgg tggtcccggc gcgcgcaaac cccacgcacg agaaggtgct 9660 ggcgatcgta aacgcgctgg ccgaaaacag ggccatccgg cccgacgaag ccggcctggt 9720 ctacgacgcg ctgcttcagc gcgtggctcg ttacaacagc ggcaacgtgc agaccaacct 9780 ggaccggctg gtgggggatg tgcgcgaggc cgtggcgcag cgtgagcgcg cgcagcagca 9840 gggcaacctg ggctccatgg ttgcactaaa cgccttcctg agtacacagc ccgccaacgt 9900 gccgcgggga caggaggact acaccaactt tgtgagcgca ctgcggctaa tggtgactga 9960 gacaccgcaa agtgaggtgt accagtctgg gccagactat tttttccaga ccagtagaca 10020 aggcctgcag accgtaaacc tgagccaggc tttcaaaaac ttgcaggggc tgtggggggt 10080 gcgggctccc acaggcgacc gcgcgaccgt gtctagcttg ctgacgccca actcgcgcct 10140 gttgctgctg ctaatagcgc ccttcacgga cagtggcagc gtgtcccggg acacatacct 10200 aggtcacttg ctgacactgt accgcgaggc cataggtcag gcgcatgtgg acgagcatac 10260 tttccaggag attacaagtg tcagccgcgc gctggggcag gaggacacgg gcagcctgga 10320 ggcaacccta aactacctgc tgaccaaccg gcggcagaag atcccctcgt tgcacagttt 10380 aaacagcgag gaggagcgca ttttgcgcta cgtgcagcag agcgtgagcc ttaacctgat 10440 gcgcgacggg gtaacgccca gcgtggcgct ggacatgacc gcgcgcaaca tggaaccggg 10500 catgtatgcc tcaaaccggc cgtttatcaa ccgcctaatg gactacttgc atcgcgcggc 10560 cgccgtgaac cccgagtatt tcaccaatgc catcttgaac ccgcactggc taccgccccc 10620 tggtttctac accgggggat tcgaggtgcc cgagggtaac gatggattcc tctgggacga 10680 catagacgac agcgtgtttt ccccgcaacc gcagaccctg ctagagttgc aacagcgcga 10740 gcaggcagag gcggcgctgc gaaaggaaag cttccgcagg ccaagcagct tgtccgatct 10800 aggcgctgcg gccccgcggt cagatgctag tagcccattt ccaagcttga tagggtctct 10860 taccagcact cgcaccaccc gcccgcgcct gctgggcgag gaggagtacc taaacaactc 10920 gctgctgcag ccgcagcgcg aaaaaaacct gcctccggca tttcccaaca acgggataga 10980 gagcctagtg gacaagatga gtagatggaa gacgtacgcg caggagcaca gggacgtgcc 11040 aggcccgcgc ccgcccaccc gtcgtcaaag gcacgaccgt cagcggggtc tggtgtggga 11100 ggacgatgac tcggcagacg acagcagcgt cctggatttg ggagggagtg gcaacccgtt 11160 tgcgcacctt cgccccaggc tggggagaat gttttaaaaa aaaaaaagca tgatgcaaaa 11220 taaaaaactc accaaggcca tggcaccgag cgttggtttt cttgtattcc ccttagtatg 11280 cggcgcgcgg cgatgtatga ggaaggtcct cctccctcct acgagagtgt ggtgagcgcg 11340 gcgccagtgg cggcggcgct gggttctccc ttcgatgctc ccctggaccc gccgtttgtg 11400 cctccgcggt acctgcggcc taccgggggg agaaacagca tccgttactc tgagttggca 11460 cccctattcg acaccacccg tgtgtacctg gtggacaaca agtcaacgga tgtggcatcc 11520 ctgaactacc agaacgacca cagcaacttt ctgaccacgg tcattcaaaa caatgactac 11580 agcccggggg aggcaagcac acagaccatc aatcttgacg accggtcgca ctggggcggc 11640 gacctgaaaa ccatcctgca taccaacatg ccaaatgtga acgagttcat gtttaccaat 11700 aagtttaagg cgcgggtgat ggtgtcgcgc ttgcctacta aggacaatca ggtggagctg 11760 aaatacgagt gggtggagtt cacgctgccc gagggcaact actccgagac catgaccata 11820 gaccttatga acaacgcgat cgtggagcac tacttgaaag tgggcagaca gaacggggtt 11880 ctggaaagcg acatcggggt aaagtttgac acccgcaact tcagactggg gtttgacccc 11940 gtcactggtc ttgtcatgcc tggggtatat acaaacgaag ccttccatcc agacatcatt 12000 ttgctgccag gatgcggggt ggacttcacc cacagccgcc tgagcaactt gttgggcatc 12060 cgcaagcggc aacccttcca ggagggcttt aggatcacct acgatgatct ggagggtggt 12120 aacattcccg cactgttgga tgtggacgcc taccaggcga gcttgaaaga tgacaccgaa 12180 cagggcgggg gtggcgcagg cggcagcaac agcagtggca gcggcgcgga agagaactcc 12240 aacgcggcag ccgcggcaat gcagccggtg gaggacatga acgatcatgc cattcgcggc 12300 gacacctttg ccacacgggc tgaggagaag cgcgctgagg ccgaagcagc ggccgaagct 12360 gccgcccccg ctgcgcaacc cgaggtcgag aagcctcaga agaaaccggt gatcaaaccc 12420 ctgacagagg acagcaagaa acgcagttac aacctaataa gcaatgacag caccttcacc 12480 cagtaccgca gctggtacct tgcatacaac tacggcgacc ctcagaccgg aatccgctca 12540 tggaccctgc tttgcactcc tgacgtaacc tgcggctcgg agcaggtcta ctggtcgttg 12600 ccagacatga tgcaagaccc cgtgaccttc cgctccacgc gccagatcag caactttccg 12660 gtggtgggcg ccgagctgtt gcccgtgcac tccaagagct tctacaacga ccaggccgtc 12720 tactcccaac tcatccgcca gtttacctct ctgacccacg tgttcaatcg ctttcccgag 12780 aaccagattt tggcgcgccc gccagccccc accatcacca ccgtcagtga aaacgttcct 12840 gctctcacag atcacgggac gctaccgctg cgcaacagca tcggaggagt ccagcgagtg 12900 accattactg acgccagacg ccgcacctgc ccctacgttt acaaggccct gggcatagtc 12960 tcgccgcgcg tcctatcgag ccgcactttt tgagcaagca tgtccatcct tatatcgccc 13020 agcaataaca caggctgggg cctgcgcttc ccaagcaaga tgtttggcgg ggccaagaag 13080 cgctccgacc aacacccagt gcgcgtgcgc gggcactacc gcgcgccctg gggcgcgcac 13140 aaacgcggcc gcactgggcg caccaccgtc gatgacgcca tcgacgcggt ggtggaggag 13200 gcgcgcaact acacgcccac gccgccacca gtgtccacag tggacgcggc cattcagacc 13260 gtggtgcgcg gagcccggcg ctatgctaaa atgaagagac ggcggaggcg cgtagcacgt 13320 cgccaccgcc gccgacccgg cactgccgcc caacgcgcgg cggcggccct gcttaaccgc 13380 gcacgtcgca ccggccgacg ggcggccatg cgggccgctc gaaggctggc cgcgggtatt 13440 gtcactgtgc cccccaggtc caggcgacga gcggccgccg cagcagccgc ggccattagt 13500 gctatgactc agggtcgcag gggcaacgtg tattgggtgc gcgactcggt tagcggcctg 13560 cgcgtgcccg tgcgcacccg ccccccgcgc aactagattg caagaaaaaa ctacttagac 13620 tcgtactgtt gtatgtatcc agcggcggcg gcgcgcaacg aagctatgtc caagcgcaaa 13680 atcaaagaag agatgctcca ggtcatcgcg ccggagatct atggcccccc gaagaaggaa 13740 gagcaggatt acaagccccg aaagctaaag cgggtcaaaa agaaaaagaa agatgatgat 13800 gatgaacttg acgacgaggt ggaactgctg cacgctaccg cgcccaggcg acgggtacag 13860 tggaaaggtc gacgcgtaaa acgtgttttg cgacccggca ccaccgtagt ctttacgccc 13920 ggtgagcgct ccacccgcac ctacaagcgc gtgtatgatg aggtgtacgg cgacgaggac 13980 ctgcttgagc aggccaacga gcgcctcggg gagtttgcct acggaaagcg gcataaggac 14040 atgctggcgt tgccgctgga cgagggcaac ccaacaccta gcctaaagcc cgtaacactg 14100 cagcaggtgc tgcccgcgct tgcaccgtcc gaagaaaagc gcggcctaaa gcgcgagtct 14160 ggtgacttgg cacccaccgt gcagctgatg gtacccaagc gccagcgact ggaagatgtc 14220 ttggaaaaaa tgaccgtgga acctgggctg gagcccgagg tccgcgtgcg gccaatcaag 14280 caggtggcgc cgggactggg cgtgcagacc gtggacgttc agatacccac taccagtagc 14340 accagtattg ccaccgccac agagggcatg gagacacaaa cgtccccggt tgcctcagcg 14400 gtggcggatg ccgcggtgca ggcggtcgct gcggccgcgt ccaagacctc tacggaggtg 14460 caaacggacc cgtggatgtt tcgcgtttca gccccccggc gcccgcgcgg ttcgaggaag 14520 tacggcgccg ccagcgcgct actgcccgaa tatgccctac atccttccat tgcgcctacc 14580 cccggctatc gtggctacac ctaccgcccc agaagacgag caactacccg acgccgaacc 14640 accactggaa cccgccgccg ccgtcgccgt cgccagcccg tgctggcccc gatttccgtg 14700 cgcagggtgg ctcgcgaagg aggcaggacc ctggtgctgc caacagcgcg ctaccacccc 14760 agcatcgttt aaaagccggt ctttgtggtt cttgcagata tggccctcac ctgccgcctc 14820 cgtttcccgg tgccgggatt ccgaggaaga atgcaccgta ggaggggcat ggccggctac 14880 ggcctgacgg gcggcatgcg tcgtgcgcac caccggcggc ggcgcgcgtc gcaccgtcgc 14940 atgcgcggcg gtatcctgcc cctccttatt ccactgatcg ccgcggcgat tggcgccgtg 15000 cccggaattg catccgtggc cttgcaggcg cagagacact gattaaaaac aagttgcatg 15060 tggaaaaatc aaaataaaaa gtctggactc tcacgctcgc ttggtcctgt aactattttg 15120 tagaatggaa gacatcaact ttgcgtctct ggccccgcga cacggctcgc gcccgttcat 15180 gggaaactgg caagatatcg gcaccagcaa tatgagcggt ggcgccttca gctggggctc 15240 gctgtggagc ggcattaaaa atttcggttc caccgttaag aactatggca gcaaggcctg 15300 gaacagcagc acaggccaga tgctgaggga taagttgaaa gagcaaaatt tccaacaaaa 15360 ggtggtagat ggcctggcct ctggcattag cggggtggtg gacctggcca accaggcagt 15420 gcaaaataag attaacagta agcttgatcc ccgccctccc gtagaggagc ctccaccggc 15480 cgtggagaca gtgtctccag aggggcgtgg cgaaaagcgt ccgcgccccg acagggaaga 15540 aactctggtg acgcaaatag acgagcctcc ctcgtacgag gaggcactaa agcaaggcct 15600 gcccaccacc cgtcccatcg cgcccatggc taccggagtg ctgggccagc acacacccgt 15660 aacgctggac ctgcctcccc ccgccgacac ccagcagaaa cctgtgctgc caggcccgac 15720 cgccgttgtt gtaacccgtc ctagccgcgc gtccctgcgc cgcgccgcca gcggtccgcg 15780 atcgttgcgg cccgtagcca gtggcaactg gcaaagcaca ctgaacagca tcgtgggtct 15840 gggggtgcaa tccctgaagc gccgacgatg cttctgaata gctaacgtgt cgtatgtgtg 15900 tcatgtatgc gtccatgtcg ccgccagagg agctgctgag ccgccgcgcg cccgctttcc 15960 aagatggcta ccccttcgat gatgccgcag tggtcttaca tgcacatctc gggccaggac 16020 gcctcggagt acctgagccc cgggctggtg cagtttgccc gcgccaccga gacgtacttc 16080 agcctgaata acaagtttag aaaccccacg gtggcgccta cgcacgacgt gaccacagac 16140 cggtcccagc gtttgacgct gcggttcatc cctgtggacc gtgaggatac tgcgtactcg 16200 tacaaggcgc ggttcaccct agctgtgggt gataaccgtg tgctggacat ggcttccacg 16260 tactttgaca tccgcggcgt gctggacagg ggccctactt ttaagcccta ctctggcact 16320 gcctacaacg ccctggctcc caagggtgcc ccaaatcctt gcgaatggga tgaagctgct 16380 actgctcttg aaataaacct agaagaagag gacgatgaca acgaagacga agtagacgag 16440 caagctgagc agcaaaaaac tcacgtattt gggcaggcgc cttattctgg tataaatatt 16500 acaaaggagg gtattcaaat aggtgtcgaa ggtcaaacac ctaaatatgc cgataaaaca 16560 tttcaacctg aacctcaaat aggagaatct cagtggtacg aaactgaaat taatcatgca 16620 gctgggagag tccttaaaaa gactacccca atgaaaccat gttacggttc atatgcaaaa 16680 cccacaaatg aaaatggagg gcaaggcatt cttgtaaagc aacaaaatgg aaagctagaa 16740 agtcaagtgg aaatgcaatt tttctcaact actgaggcga ccgcaggcaa tggtgataac 16800 ttgactccta aagtggtatt gtacagtgaa gatgtagata tagaaacccc agacactcat 16860 atttcttaca tgcccactat taaggaaggt aactcacgag aactaatggg ccaacaatct 16920 atgcccaaca ggcctaatta cattgctttt agggacaatt ttattggtct aatgtattac 16980 aacagcacgg gtaatatggg tgttctggcg ggccaagcat cgcagttgaa tgctgttgta 17040 gatttgcaag acagaaacac agagctttca taccagcttt tgcttgattc cattggtgat 17100 agaaccaggt acttttctat gtggaatcag gctgttgaca gctatgatcc agatgttaga 17160 attattgaaa atcatggaac tgaagatgaa cttccaaatt actgctttcc actgggaggt 17220 gtgattaata cagagactct taccaaggta aaacctaaaa caggtcagga aaatggatgg 17280 gaaaaagatg ctacagaatt ttcagataaa aatgaaataa gagttggaaa taattttgcc 17340 atggaaatca atctaaatgc caacctgtgg agaaatttcc tgtactccaa catagcgctg 17400 tatttgcccg acaagctaaa gtacagtcct tccaacgtaa aaatttctga taacccaaac 17460 acctacgact acatgaacaa gcgagtggtg gctcccgggt tagtggactg ctacattaac 17520 cttggagcac gctggtccct tgactatatg gacaacgtca acccatttaa ccaccaccgc 17580 aatgctggcc tgcgctaccg ctcaatgttg ctgggcaatg gtcgctatgt gcccttccac 17640 atccaggtgc ctcagaagtt ctttgccatt aaaaacctcc ttctcctgcc gggctcatac 17700 acctacgagt ggaacttcag gaaggatgtt aacatggttc tgcagagctc cctaggaaat 17760 gacctaaggg ttgacggagc cagcattaag tttgatagca tttgccttta cgccaccttc 17820 ttccccatgg cccacaacac cgcctccacg cttgaggcca tgcttagaaa cgacaccaac 17880 gaccagtcct ttaacgacta tctctccgcc gccaacatgc tctaccctat acccgccaac 17940 gctaccaacg tgcccatatc catcccctcc cgcaactggg cggctttccg cggctgggcc 18000 ttcacgcgcc ttaagactaa ggaaacccca tcactgggct cgggctacga cccttattac 18060 acctactctg gctctatacc ctacctagat ggaacctttt acctcaacca cacctttaag 18120 aaggtggcca ttacctttga ctcttctgtc agctggcctg gcaatgaccg cctgcttacc 18180 cccaacgagt ttgaaattaa gcgctcagtt gacggggagg gttacaacgt tgcccagtgt 18240 aacatgacca aagactggtt cctggtacaa atgctagcta actacaacat tggctaccag 18300 ggcttctata tcccagagag ctacaaggac cgcatgtact ccttctttag aaacttccag 18360 cccatgagcc gtcaggtggt ggatgatact aaatacaagg actaccaaca ggtgggcatc 18420 ctacaccaac acaacaactc tggatttgtt ggctaccttg cccccaccat gcgcgaagga 18480 caggcctacc ctgctaactt cccctatccg cttataggca agaccgcagt tgacagcatt 18540 acccagaaaa agtttctttg cgatcgcacc ctttggcgca tcccattctc cagtaacttt 18600 atgtccatgg gcgcactcac agacctgggc caaaaccttc tctacgccaa ctccgcccac 18660 gcgctagaca tgacttttga ggtggatccc atggacgagc ccacccttct ttatgttttg 18720 tttgaagtct ttgacgtggt ccgtgtgcac cggccgcacc gcggcgtcat cgaaaccgtg 18780 tacctgcgca cgcccttctc ggccggcaac gccacaacat aaagaagcaa gcaacatcaa 18840 caacagctgc cgccatgggc tccagtgagc aggaactgaa agccattgtc aaagatcttg 18900 gttgtgggcc atattttttg ggcacctatg acaagcgctt tccaggcttt gtttctccac 18960 acaagctcgc ctgcgccata gtcaatacgg ccggtcgcga gactgggggc gtacactgga 19020 tggcctttgc ctggaacccg cactcaaaaa catgctacct ctttgagccc tttggctttt 19080 ctgaccagcg actcaagcag gtttaccagt ttgagtacga gtcactcctg cgccgtagcg 19140 ccattgcttc ttcccccgac cgctgtataa cgctggaaaa gtccacccaa agcgtacagg 19200 ggcccaactc ggccgcctgt ggactattct gctgcatgtt tctccacgcc tttgccaact 19260 ggccccaaac tcccatggat cacaacccca ccatgaacct tattaccggg gtacccaact 19320 ccatgctcaa cagtccccag gtacagccca ccctgcgtcg caaccaggaa cagctctaca 19380 gcttcctgga gcgccactcg ccctacttcc gcagccacag tgcgcagatt aggagcgcca 19440 cttctttttg tcacttgaaa aacatgtaaa aataatgtac tagagacact ttcaataaag 19500 gcaaatgctt ttatttgtac actctcgggt gattatttac ccccaccctt gccgtctgcg 19560 ccgtttaaaa atcaaagggg ttctgccgcg catcgctatg cgccactggc agggacacgt 19620 tgcgatactg gtgtttagtg ctccacttaa actcaggcac aaccatccgc ggcagctcgg 19680 tgaagttttc actccacagg ctgcgcacca tcaccaacgc gtttagcagg tcgggcgccg 19740 atatcttgaa gtcgcagttg gggcctccgc cctgcgcgcg cgagttgcga tacacagggt 19800 tgcagcactg gaacactatc agcgccgggt ggtgcacgct ggccagcacg ctcttgtcgg 19860 agatcagatc cgcgtccagg tcctccgcgt tgctcagggc gaacggagtc aactttggta 19920 gctgccttcc caaaaagggc gcgtgcccag gctttgagtt gcactcgcac cgtagtggca 19980 tcaaaaggtg accgtgcccg gtctgggcgt taggatacag cgcctgcata aaagccttga 20040 tctgcttaaa agccacctga gcctttgcgc cttcagagaa gaacatgccg caagacttgc 20100 cggaaaactg attggccgga caggccgcgt cgtgcacgca gcaccttgcg tcggtgttgg 20160 agatctgcac cacatttcgg ccccaccggt tcttcacgat cttggccttg ctagactgct 20220 ccttcagcgc gcgctgcccg ttttcgctcg tcacatccat ttcaatcacg tgctccttat 20280 ttatcataat gcttccgtgt agacacttaa gctcgccttc gatctcagcg cagcggtgca 20340 gccacaacgc gcagcccgtg ggctcgtgat gcttgtaggt cacctctgca aacgactgca 20400 ggtacgcctg caggaatcgc cccatcatcg tcacaaaggt cttgttgctg gtgaaggtca 20460 gctgcaaccc gcggtgctcc tcgttcagcc aggtcttgca tacggccgcc agagcttcca 20520 cttggtcagg cagtagtttg aagttcgcct ttagatcgtt atccacgtgg tacttgtcca 20580 tcagcgcgcg cgcagcctcc atgcccttct cccacgcaga cacgatcggc acactcagcg 20640 ggttcatcac cgtaatttca ctttccgctt cgctgggctc ttcctcttcc tcttgcgtcc 20700 gcataccacg cgccactggg tcgtcttcat tcagccgccg cactgtgcgc ttacctcctt 20760 tgccatgctt gattagcacc ggtgggttgc tgaaacccac catttgtagc gccacatctt 20820 ctctttcttc ctcgctgtcc acgattacct ctggtgatgg cgggcgctcg ggcttgggag 20880 aagggcgctt ctttttcttc ttgggcgcaa tggccaaatc cgccgccgag gtcgatggcc 20940 gcgggctggg tgtgcgcggc accagcgcgt cttgtgatga gtcttcctcg tcctcggact 21000 cgatacgccg cctcatccgc ttttttgggg gcgcccgggg aggcggcggc gacggggacg 21060 gggacgacac gtcctccatg gttgggggac gtcgcgccgc accgcgtccg cgctcggggg 21120 tggtttcgcg ctgctcctct tcccgactgg ccatttcctt ctcctatagg cagaaaaaga 21180 tcatggagtc agtcgagaag aaggacagcc taaccgcccc ctctgagttc gccaccaccg 21240 cctccaccga tgccgccaac gcgcctacca ccttccccgt cgaggcaccc ccgcttgagg 21300 aggaggaagt gattatcgag caggacccag gttttgtaag cgaagacgac gaggaccgct 21360 cagtaccaac agaggataaa aagcaagacc aggacaacgc agaggcaaac gaggaacaag 21420 tcgggcgggg ggacgaaagg catggcgact acctagatgt gggagacgac gtgctgttga 21480 agcatctgca gcgccagtgc gccattatct gcgacgcgtt gcaagagcgc agcgatgtgc 21540 ccctcgccat agcggatgtc agccttgcct acgaacgcca cctattctca ccgcgcgtac 21600 cccccaaacg ccaagaaaac ggcacatgcg agcccaaccc gcgcctcaac ttctaccccg 21660 tatttgccgt gccagaggtg cttgccacct atcacatctt tttccaaaac tgcaagatac 21720 ccctatcctg ccgtgccaac cgcagccgag cggacaagca gctggccttg cggcagggcg 21780 ctgtcatacc tgatatcgcc tcgctcaacg aagtgccaaa aatctttgag ggtcttggac 21840 gcgacgagaa gcgcgcggca aacgctctgc aacaggaaaa cagcgaaaat gaaagtcact 21900 ctggagtgtt ggtggaactc gagggtgaca acgcgcgcct agccgtacta aaacgcagca 21960 tcgaggtcac ccactttgcc tacccggcac ttaacctacc ccccaaggtc atgagcacag 22020 tcatgagtga gctgatcgtg cgccgtgcgc agcccctgga gagggatgca aatttgcaag 22080 aacaaacaga ggagggccta cccgcagttg gcgacgagca gctagcgcgc tggcttcaaa 22140 cgcgcgagcc tgccgacttg gaggagcgac gcaaactaat gatggccgca gtgctcgtta 22200 ccgtggagct tgagtgcatg cagcggttct ttgctgaccc ggagatgcag cgcaagctag 22260 aggaaacatt gcactacacc tttcgacagg gctacgtacg ccaggcctgc aagatctcca 22320 acgtggagct ctgcaacctg gtctcctacc ttggaatttt gcacgaaaac cgccttgggc 22380 aaaacgtgct tcattccacg ctcaagggcg aggcgcgccg cgactacgtc cgcgactgcg 22440 tttacttatt tctatgctac acctggcaga cggccatggg cgtttggcag cagtgcttgg 22500 aggagtgcaa cctcaaggag ctgcagaaac tgctaaagca aaacttgaag gacctatgga 22560 cggccttcaa cgagcgctcc gtggccgcgc acctggcgga catcattttc cccgaacgcc 22620 tgcttaaaac cctgcaacag ggtctgccag acttcaccag tcaaagcatg ttgcagaact 22680 ttaggaactt tatcctagag cgctcaggaa tcttgcccgc cacctgctgt gcacttccta 22740 gcgactttgt gcccattaag taccgcgaat gccctccgcc gctttggggc cactgctacc 22800 ttctgcagct agccaactac cttgcctacc actctgacat aatggaagac gtgagcggtg 22860 acggtctact ggagtgtcac tgtcgctgca acctatgcac cccgcaccgc tccctggttt 22920 gcaattcgca gctgcttaac gaaagtcaaa ttatcggtac ctttgagctg cagggtccct 22980 cgcctgacga aaagtccgcg gctccggggt tgaaactcac tccggggctg tggacgtcgg 23040 cttaccttcg caaatttgta cctgaggact accacgccca cgagattagg ttctacgaag 23100 accaatcccg cccgccaaat gcggagctta ccgcctgcgt cattacccag ggccacattc 23160 ttggccaatt gcaagccatc aacaaagccc gccaagagtt tctgctacga aagggacggg 23220 gggtttactt ggacccccag tccggcgagg agctcaaccc aatccccccg ccgccgcagc 23280 cctatcagca gcagccgcgg gcccttgctt cccaggatgg cacccaaaaa gaagctgcag 23340 ctgccgccgc cacccacgga cgaggaggaa tactgggaca gtcaggcaga ggaggttttg 23400 gacgaggagg aggaggacat gatggaagac tgggagagcc tagacgagga agcttccgag 23460 gtcgaagagg tgtcagacga aacaccgtca ccctcggtcg cattcccctc gccggcgccc 23520 cagaaatcgg caaccggttc cagcatggct acaacctccg ctcctcaggc gccgccggca 23580 ctgcccgttc gccgacccaa ccgtagatgg gacaccactg gaaccagggc cggtaagtcc 23640 aagcagccgc cgccgttagc ccaagagcaa caacagcgcc aaggctaccg ctcatggcgc 23700 gggcacaaga acgccatagt tgcttgcttg caagactgtg ggggcaacat ctccttcgcc 23760 cgccgctttc ttctctacca tcacggcgtg gccttccccc gtaacatcct gcattactac 23820 cgtcatctct acagcccata ctgcaccggc ggcagcggca gcggcagcaa cagcagcggc 23880 cacacagaag caaaggcgac cggatagcaa gactctgaca aagcccaaga aatccacagc 23940 ggcggcagca gcaggaggag gagcgctgcg tctggcgccc aacgaacccg tatcgacccg 24000 cgagcttaga aacaggattt ttcccactct gtatgctata tttcaacaga gcaggggcca 24060 agaacaagag ctgaaaataa aaaacaggtc tctgcgatcc ctcacccgca gctgcctgta 24120 tcacaaaagc gaagatcagc ttcggcgcac gctggaagac gcggaggctc tcttcagtaa 24180 atactgcgcg ctgactctta aggactagtt tcgcgccctt tctcaaattt aagcgcgaaa 24240 actacgtcat ctccagcggc cacacccggc gccagcacct gtcgtcagcg ccattatgag 24300 caaggaaatt cccacgccct acatgtggag ttaccagcca caaatgggac ttgcggctgg 24360 agctgcccaa gactactcaa cccgaataaa ctacatgagc gcgggacccc acatgatatc 24420 ccgggtcaac ggaatccgcg cccaccgaaa ccgaattctc ttggaacagg cggctattac 24480 caccacacct cgtaataacc ttaatccccg tagttggccc gctgccctgg tgtaccagga 24540 aagtcccgct cccaccactg tggtacttcc cagagacgcc caggccgaag ttcagatgac 24600 taactcaggg gcgcagcttg cgggcggctt tcgtcacagg gtgcggtcgc ccgggcaggg 24660 tataactcac ctgacaatca gagggcgagg tattcagctc aacgacgagt cggtgagctc 24720 ctcgcttggt ctccgtccgg acgggacatt tcagatcggc ggcgccggcc gtccttcatt 24780 cacgcctcgt caggcaatcc taactctgca gacctcgtcc tctgagccgc gctctggagg 24840 cattggaact ctgcaattta ttgaggagtt tgtgccatcg gtctacttta accccttctc 24900 gggacctccc ggccactatc cggatcaatt tattcctaac tttgacgcgg taaaggactc 24960 ggcggacggc tacgactgaa tgttaagtgg agaggcagag caactgcgcc tgaaacacct 25020 ggtccactgt cgccgccaca agtgctttgc ccgcgactcc ggtgagtttt gctactttga 25080 attgcccgag gatcatatcg agggcccggc gcacggcgtc cggcttaccg cccagggaga 25140 gcttgcccgt agcctgattc gggagtttac ccagcgcccc ctgctagttg agcgggacag 25200 gggaccctgt gttctcactg tgatttgcaa ctgtcctaac cttggattac atcaagatcc 25260 tctagttaat taacagcttg catgcctgca ggtcgacgga tcgggagatc tcggccgcat 25320 attaagtgca ttgttctcga taccgctaag tgcattgttc tcgttagctc gatggacaag 25380 tgcattgttc tcttgctgaa agctcgatgg acaagtgcat tgttctcttg ctgaaagctc 25440 gatggacaag tgcattgttc tcttgctgaa agctcagtac ccgggagtac cctcgaccgc 25500 cggagtataa atagaggcgc ttcgtctacg gagcgacaat tcaattcaaa caagcaaagt 25560 gaacacgtcg ctaagcgaaa gctaagcaaa taaacaagcg cagctgaaca agctaaacaa 25620 tctgcagtaa agtgcaagtt aaagtgaatc aattaaaagt aaccagcaac caagtaaatc 25680 aactgcaact actgaaatct gccaagaagt aattattgaa tacaagaaga gaactctgaa 25740 tactttcaac aagttaccga gaaagaagaa ctcacacaca gctagcgttt aaacttaagc 25800 ttcaccatgg tggggccctg catgctgctg ctgctgctgc tgctgggcct gaggctacag 25860 ctctccctgg gcatcatcct agttgaggag gagaacccgg acttctggaa ccgcgaggca 25920 gccgaggccc tgggtgccgc caagaagctg cagcctgcac agacagccgc caagaacctc 25980 atcatcttcc tgggcgatgg ggtgggggtg tctacggtga cagctgccag gatcctaaaa 26040 gggcagaaga aggacaaact ggggcctgag atacccctgg ccatggaccg cttcccatat 26100 gtggctctgt ccaagacata caatgtagac aaacatgtgc cagacagtgg agccacagcc 26160 acggcctacc tgtgcggggt caagggcaac ttccagacca ttggcttgag tgcagccgcc 26220 cgctttaacc agtgcaacac gacacgcggc aacgaggtca tctccgtgat gaatcgggcc 26280 aagaaagcag ggaagtcagt gggagtggta accaccacac gagtgcagca cgcctcgcca 26340 gccggcacct acgcccacac ggtgaaccgc aactggtact cggacgccga cgtgcctgcc 26400 tcggcccgcc aggaggggtg ccaggacatc gctacgcagc tcatctccaa catggacatt 26460 gacgtgatcc taggtggggg ccgaaagtac atgtttcgca tgggaacccc agaccctgag 26520 tacccagatg actacagcca aggtgggacc aggctggacg ggaagaatct ggtgcaggaa 26580 tggctggcga agcaccaggg tgcccggtac gtgtggaacc gcactgagct catgcgggct 26640 tccctggacc cgtctgtggc ccatctcatg ggtctctttg agcctggaga catgaaatac 26700 gagatccacc gagactccac actggacccc tccctgatgg agatgacaga ggctgccctg 26760 cgcctgctga gcaggaaccc ccgcggcttc ttcctcttcg tggagggtgg tcgcatcgac 26820 catggtcatc atgaaagcag ggcttaccgg gcactgactg agacgatcat gttcgacgac 26880 gccattgaga gggcgggcca gctcaccagc gaggaggaca cgctgagcct cgtcactgcc 26940 gaccactccc acgtcttctc cttcggaggc tgccccctgc gagggggctc catcttcggg 27000 ctggcccctg gcaaggcccg ggacaggaag gcctacacgg tcctcctata cggaaacggt 27060 ccaggctatg tgctcaagga cggcgcccgg ccggatgtta ccgagagcga gagcgggagc 27120 cccgagtatc ggcagcagtc agcagtgccc ctggacgaag agacccacgc aggcgaggac 27180 gtggcggtgt tcgcgcgcgg cccgcaggcg cacctggttc acggcgtgca ggagcagacc 27240 ttcatagcgc acgtcatggc cttcgccgcc tgcctggagc cctacaccgc ctgcgacctg 27300 gcgccccccg ccggcaccac cgacgccgcg cacccggggc ggtccgtggt ccccgcgttg 27360 cttcctctgc tggccgggac cctgctgctg ctggagacgg ccactgctcc ctgagtgtcc 27420 cgtccctggg gctcctgctt ccccatcccg gagttctcct gctccccgcc tcctgtcgtc 27480 ctgcctggcc tccagcccga gtcgtcatcc ccggagtccc tatacagagg tcctgccatg 27540 gaaccttccc ctccccgtgc gctctgggga ctgagcccat gacaccaaac ctgccccttg 27600 gctgctctcg gactccctac cccaacccca gggacagatc tggccagatt tgtaaaacaa 27660 atagatttta ggcccaaaga ttatttaaag cattgcctgg aacgcagtga gtttttgtta 27720 gaaaagagaa taattcaaag tggcattgct ttgcttctta tgttaatttg gtacagacct 27780 gtggctgagt ttgctcaaag tattcagagc agaattgtgg agtggaaaga gagattggac 27840 aaagagttta gtttgtcagt gtatcaaaaa atgaagttta atgtggctat gggaattgga 27900 gttttagatt ggctaagaaa cagtgatgat gatgatgaag acagccagga aaatgctgat 27960 aaaaatgaag atggtgggga gaagaacatg gaagactcag ggcatgaaac aggcattgat 28020 tcacagtccc aaggctcatt tcaggcccct cagtcctcac agtctgttca tgatcataat 28080 cagccatacc acatttgtag aggttttact tgctttaaaa aacctcccac acctccccct 28140 gaacctgaaa cataaaatga atgcaattgt tgttgttaac ttgtttattg cagcttataa 28200 tggttacaaa taaagcaata gcatcacaaa tttcacaaat aaagcatttt tttcactgca 28260 ttctagttgt ggtttgtcca aactcatcaa tgtatcttat catgtctgga tccccaggaa 28320 gctcctctgt gtcctcataa accctaacct cctctacttg agaggacatt ccaatcatag 28380 gctgcccatc caccctctgt gtcctcctgt taattaggtc acttaacaaa aaggaaattg 28440 ggtaggggtt tttcacagac cgctttctaa gggtaatttt aaaatatctg ggaagtccct 28500 tccactgctg tgttccagaa gtgttggtaa acagcccaca aatgtcaaca gcagaaacat 28560 acaagctgtc agctttgcac aagggcccaa caccctgctc atcaagaagc actgtggttg 28620 ctgtgttagt aatgtgcaaa acaggaggca cattttcccc acctgtgtag gttccaaaat 28680 atctagtgtt ttcattttta cttggatcag gaacccagca ctccactgga taagcattat 28740 ccttatccaa aacagccttg tggtcagtgt tcatctgctg actgtcaact gtagcatttt 28800 ttggggttac agtttgagca ggatatttgg tcctgtagtt tgctaacaca ccctgcagct 28860 ccaaaggttc cccaccaaca gcaaaaaaat gaaaatttga cccttgaatg ggttttccag 28920 caccattttc atgagttttt tgtgtccctg aatgcaagtt taacatagca gttaccccaa 28980 taacctcagt tttaacagta acagcttccc acatcaaaat atttccacag gttaagtcct 29040 catttaaatt aggcaaagga attccacttc ccactgcctt gcttccgtct cccattcaaa 29100 cttttatcaa ctgacattat tctaagtaaa atcctcttca ttatgttgtc agcaatccat 29160 tgcttgaagg cctggctccc cagaacccct cgactggtat gtcttctcct agaatactcc 29220 agaagaaaag gagtgtatga agatagtgac tgcacattaa aatgactgaa accatagtaa 29280 attaggatga gattctgggc agataaacag acagctggct aggatcattt ttttatgcct 29340 tggacttctt tggcaatctg ttgaagcctg acattcctca gaataatgtt ttaaagccca 29400 acaataagac cctgtagcac atataataag tactgcagtt ttgaagtagt gataagcata 29460 aatgatattt tgatatattt attataactg taatgagatg tgtacatatc tgtgacttca 29520 taggtactga ttgtactact gtgatttttt tgcctacttt caaaatgaaa aggaatgctt 29580 aatttcagtt agaggttagt aaagacaaat aggtaatttt cttctccagt gaagagcatg 29640 gcgccccttg ctattcatgg acgcttgctt aaagacttgt acacaggctt gctttgtatc 29700 aacctatgac ttccccttac agccgatgat aggtttttat ttgcacctcc ttcgtgtaca 29760 aagacagttt tggtggctac gccatcatta aactcattat tatcatgctt aagcctatag 29820 atgtatccag ttcttctgtt acataattga agctgtagtg aattgtctat cttaaactgc 29880 atcgctaact gactacattt cacacttcat ttgcttccaa catagactaa ccttcttgga 29940 tgtccactat tatttgaact tttgagattt tttttcctat ttctaatatc ttaaaatttc 30000 agaagactta aagttttgca actacagggc tccatataga catctagctt gaatttatac 30060 actttctttc attgatgtcc ctggactaaa aaatgttaaa tatttctaac cgctgtactt 30120 aaagtccatt acaaacgaag actactgttg ttaagttgaa taggcatctt atatattttt 30180 caccggtgca ataaataact tctattccct tctaacatct gcttgcgttg cactgagagt 30240 acactattga ttagcaatag gttcgtgatt acagcccttc tataattaat tgttaggtta 30300 acatattatt cataaaatat tattttatta atttttactt gatttgctac tggatgctta 30360 gaaatagcta tgagtatatt ggtagaacca gtacttatat tttattacat ttttacattt 30420 cataaaattt aagtgatata aaaatcctga ggaagtatgc cacaaaagtg gtctcagtgg 30480 aaatttaaat atgttaacat ttatttttaa aatgtagcgt gaaatagaca actttaaaag 30540 ctcagcttaa aaaaaaaact caaggaagct gaacttgact ttttaaagca ctgaagtgca 30600 atatttaatg taggtcaaca tgtttaaatg ggaaaatttt tttcctaatt acagccaaat 30660 ccctagctgt aattaactta aaatttgtat actatttcac aacagagtca gcatatacca 30720 ctttcttata aaattagaaa gatctaaaat tttagagctt atttggtgaa acaggcatat 30780 tgctacatct ttgtttataa attataatgt gcctttagag cccaataaca gataacaaga 30840 ttttgaaaat tcaggtgaat tagagttatc agagggaatg ttaatacact ctattcaaat 30900 actatatgag taagacattt aaaataggaa acaatacttt atatattaaa aaaaattaat 30960 cttccagtcg atttaatcca ctttatgaat tcatttaaat cgatttaaat tcgaattaat 31020 taactagagt acccggggat cttattccct ttaactaata aaaaaaaata ataaagcatc 31080 acttacttaa aatcagttag caaatttctg tccagtttat tcagcagcac ctccttgccc 31140 tcctcccagc tctggtattg cagcttcctc ctggctgcaa actttctcca caatctaaat 31200 ggaatgtcag tttcctcctg ttcctgtcca tccgcaccca ctatcttcat gttgttgcag 31260 atgaagcgcg caagaccgtc tgaagatacc ttcaaccccg tgtatccata tgacacggaa 31320 accggtcctc caactgtgcc ttttcttact cctccctttg tatcccccaa tgggtttcaa 31380 gagagtcccc ctggggtact ctctttgcgc ctatccgaac ctctagttac ctccaatggc 31440 atgcttgcgc tcaaaatggg caacggcctc tctctggacg aggccggcaa ccttacctcc 31500 caaaatgtaa ccactgtgag cccacctctc aaaaaaacca agtcaaacat aaacctggaa 31560 atatctgcac ccctcacagt tacctcagaa gccctaactg tggctgccgc cgcacctcta 31620 atggtcgcgg gcaacacact caccatgcaa tcacaggccc cgctaaccgt gcacgactcc 31680 aaacttagca ttgccaccca aggacccctc acagtgtcag aaggaaagct agccctgcaa 31740 acatcaggcc ccctcaccac caccgatagc agtaccctta ctatcactgc ctcaccccct 31800 ctaactactg ccactggtag cttgggcatt gacttgaaag agcccattta tacacaaaat 31860 ggaaaactag gactaaagta cggggctcct ttgcatgtaa cagacgacct aaacactttg 31920 accgtagcaa ctggtccagg tgtgactatt aataatactt ccttgcaaac taaagttact 31980 ggagccttgg gttttgattc acaaggcaat atgcaactta atgtagcagg aggactaagg 32040 attgattctc aaaacagacg ccttatactt gatgttagtt atccgtttga tgctcaaaac 32100 caactaaatc taagactagg acagggccct ctttttataa actcagccca caacttggat 32160 attaactaca acaaaggcct ttacttgttt acagcttcaa acaattccaa aaagcttgag 32220 gttaacctaa gcactgccaa ggggttgatg tttgacgcta cagccatagc cattaatgca 32280 ggagatgggc ttgaatttgg ttcacctaat gcaccaaaca caaatcccct caaaacaaaa 32340 attggccatg gcctagaatt tgattcaaac aaggctatgg ttcctaaact aggaactggc 32400 cttagttttg acagcacagg tgccattaca gtaggaaaca aaaataatga taagctaact 32460 ttgtggacca caccagctcc atctcctaac tgtagactaa atgcagagaa agatgctaaa 32520 ctcactttgg tcttaacaaa atgtggcagt caaatacttg ctacagtttc agttttggct 32580 gttaaaggca gtttggctcc aatatctgga acagttcaaa gtgctcatct tattataaga 32640 tttgacgaaa atggagtgct actaaacaat tccttcctgg acccagaata ttggaacttt 32700 agaaatggag atcttactga aggcacagcc tatacaaacg ctgttggatt tatgcctaac 32760 ctatcagctt atccaaaatc tcacggtaaa actgccaaaa gtaacattgt cagtcaagtt 32820 tacttaaacg gagacaaaac taaacctgta acactaacca ttacactaaa cggtacacag 32880 gaaacaggag acacaactcc aagtgcatac tctatgtcat tttcatggga ctggtctggc 32940 cacaactaca ttaatgaaat atttgccaca tcctcttaca ctttttcata cattgcccaa 33000 gaataaagaa tcgtttgtgt tatgtttcaa cgtgtttatt tttcaattgc agaaaatttc 33060 aagtcatttt tcattcagta gtatagcccc accaccacat agcttataca gatcaccgta 33120 ccttaatcaa actcacagaa ccctagtatt caacctgcca cctccctccc aacacacaga 33180 gtacacagtc ctttctcccc ggctggcctt aaaaagcatc atatcatggg taacagacat 33240 attcttaggt gttatattcc acacggtttc ctgtcgagcc aaacgctcat cagtgatatt 33300 aataaactcc ccgggcagct cacttaagtt catgtcgctg tccagctgct gagccacagg 33360 ctgctgtcca acttgcggtt gcttaacggg cggcgaagga gaagtccacg cctacatggg 33420 ggtagagtca taatcgtgca tcaggatagg gcggtggtgc tgcagcagcg cgcgaataaa 33480 ctgctgccgc cgccgctccg tcctgcagga atacaacatg gcagtggtct cctcagcgat 33540 gattcgcacc gcccgcagca taaggcgcct tgtcctccgg gcacagcagc gcaccctgat 33600 ctcacttaaa tcagcacagt aactgcagca cagcaccaca atattgttca aaatcccaca 33660 gtgcaaggcg ctgtatccaa agctcatggc ggggaccaca gaacccacgt ggccatcata 33720 ccacaagcgc aggtagatta agtggcgacc cctcataaac acgctggaca taaacattac 33780 ctcttttggc atgttgtaat tcaccacctc ccggtaccat ataaacctct gattaaacat 33840 ggcgccatcc accaccatcc taaaccagct ggccaaaacc tgcccgccgg ctatacactg 33900 cagggaaccg ggactggaac aatgacagtg gagagcccag gactcgtaac catggatcat 33960 catgctcgtc atgatatcaa tgttggcaca acacaggcac acgtgcatac acttcctcag 34020 gattacaagc tcctcccgcg ttagaaccat atcccaggga acaacccatt cctgaatcag 34080 cgtaaatccc acactgcagg gaagacctcg cacgtaactc acgttgtgca ttgtcaaagt 34140 gttacattcg ggcagcagcg gatgatcctc cagtatggta gcgcgggttt ctgtctcaaa 34200 aggaggtaga cgatccctac tgtacggagt gcgccgagac aaccgagatc gtgttggtcg 34260 tagtgtcatg ccaaatggaa cgccggacgt agtcatattt cctgaagcaa aaccaggtgc 34320 gggcgtgaca aacagatctg cgtctccggt ctcgccgctt agatcgctct gtgtagtagt 34380 tgtagtatat ccactctctc aaagcatcca ggcgccccct ggcttcgggt tctatgtaaa 34440 ctccttcatg cgccgctgcc ctgataacat ccaccaccgc agaataagcc acacccagcc 34500 aacctacaca ttcgttctgc gagtcacaca cgggaggagc gggaagagct ggaagaacca 34560 tgtttttttt tttattccaa aagattatcc aaaacctcaa aatgaagatc tattaagtga 34620 acgcgctccc ctccggtggc gtggtcaaac tctacagcca aagaacagat aatggcattt 34680 gtaagatgtt gcacaatggc ttccaaaagg caaacggccc tcacgtccaa gtggacgtaa 34740 aggctaaacc cttcagggtg aatctcctct ataaacattc cagcaccttc aaccatgccc 34800 aaataattct catctcgcca ccttctcaat atatctctaa gcaaatcccg aatattaagt 34860 ccggccattg taaaaatctg ctccagagcg ccctccacct tcagcctcaa gcagcgaatc 34920 atgattgcaa aaattcaggt tcctcacaga cctgtataag attcaaaagc ggaacattaa 34980 caaaaatacc gcgatcccgt aggtcccttc gcagggccag ctgaacataa tcgtgcaggt 35040 ctgcacggac cagcgcggcc acttccccgc caggaacctt gacaaaagaa cccacactga 35100 ttatgacacg catactcgga gctatgctaa ccagcgtagc cccgatgtaa gctttgttgc 35160 atgggcggcg atataaaatg caaggtgctg ctcaaaaaat caggcaaagc ctcgcgcaaa 35220 aaagaaagca catcgtagtc atgctcatgc agataaaggc aggtaagctc cggaaccacc 35280 acagaaaaag acaccatttt tctctcaaac atgtctgcgg gtttctgcat aaacacaaaa 35340 taaaataaca aaaaaacatt taaacattag aagcctgtct tacaacagga aaaacaaccc 35400 ttataagcat aagacggact acggccatgc cggcgtgacc gtaaaaaaac tggtcaccgt 35460 gattaaaaag caccaccgac agctcctcgg tcatgtccgg agtcataatg taagactcgg 35520 taaacacatc aggttgattc atcggtcagt gctaaaaagc gaccgaaata gcccggggga 35580 atacataccc gcaggcgtag agacaacatt acagccccca taggaggtat aacaaaatta 35640 ataggagaga aaaacacata aacacctgaa aaaccctcct gcctaggcaa aatagcaccc 35700 tcccgctcca gaacaacata cagcgcttca cagcggcagc ctaacagtca gccttaccag 35760 taaaaaagaa aacctattaa aaaaacacca ctcgacacgg caccagctca atcagtcaca 35820 gtgtaaaaaa gggccaagtg cagagcgagt atatatagga ctaaaaaatg acgtaacggt 35880 taaagtccac aaaaaacacc cagaaaaccg cacgcgaacc tacgcccaga aacgaaagcc 35940 aaaaaaccca caacttcctc aaatcgtcac ttccgttttc ccacgttacg taacttccca 36000 ttttaagaaa actacaattc ccaacacata caagttactc cgccctaaaa cctacgtcac 36060 ccgccccgtt cccacgcccc gcgccacgtc acaaactcca ccccctcatt atcatattgg 36120 cttcaatcca aaataaggta tattattgat gatg 36154 <210> SEQ ID NO 10 <211> LENGTH: 103 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 10 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tag 103 <210> SEQ ID NO 11 <211> LENGTH: 73 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 11 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcg 73 <210> SEQ ID NO 12 <211> LENGTH: 2989 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 12 ctaaattgta agcgttaata ttttgttaaa attcgcgtta aatttttgtt aaatcagctc 60 attttttaac caataggccg aaatcggcaa aatcccttat aaatcaaaag aatagaccga 120 gatagggttg agtgttgttc cagtttggaa caagagtcca ctattaaaga acgtggactc 180 caacgtcaaa gggcgaaaaa ccgtctatca gggcgatggc ccactacgtg aaccatcacc 240 ctaatcaagt tttttggggt cgaggtgccg taaagcacta aatcggaacc ctaaagggag 300 cccccgattt agagcttgac ggggaaagcc ggcgaacgtg gcgagaaagg aagggaagaa 360 agcgaaagga gcgggcgcta gggcgctggc aagtgtagcg gtcacgctgc gcgtaaccac 420 cacacccgcc gcgcttaatg cgccgctaca gggcgcgtcc cattcgccat tcaggctgcg 480 caactgttgg gaagggcgat cggtgcgggc ctcttcgcta ttacgccagc tggcgaaagg 540 gggatgtgct gcaaggcgat taagttgggt aacgccaggg ttttcccagt cacgacgttg 600 taaaacgacg gccagtgagc gcgcgtaata cgactcacta tagggcgaat tggagcttac 660 gtattaatta aggcgccgcg gtggcggccg ctctagaact agtggatccc ccgggctgca 720 ggaattcggc cgcctaggcc acgcgtaagc ttatcgatac cgtcgacctc gagggggggc 780 ccggtaccca gcttttgttc cctttagtga gggttaattg cgcgcttggc gtaatcatgg 840 tcatagctgt ttcctgtgtg aaattgttat ccgctcacaa ttccacacaa catacgagcc 900 ggaagcataa agtgtaaagc ctggggtgcc taatgagtga gctaactcac attaattgcg 960 ttgcgctcac tgcccgcttt ccagtcggga aacctgtcgt gccagctgca ttaatgaatc 1020 ggccaacgcg cggggagagg cggtttgcgt attgggcgct cttccgcttc ctcgctcact 1080 gactcgctgc gctcggtcgt tcggctgcgg cgagcggtat cagctcactc aaaggcggta 1140 atacggttat ccacagaatc aggggataac gcaggaaaga acatgtgagc aaaaggccag 1200 caaaaggcca ggaaccgtaa aaaggccgcg ttgctggcgt ttttccatag gctccgcccc 1260 cctgacgagc atcacaaaaa tcgacgctca agtcagaggt ggcgaaaccc gacaggacta 1320 taaagatacc aggcgtttcc ccctggaagc tccctcgtgc gctctcctgt tccgaccctg 1380 ccgcttaccg gatacctgtc cgcctttctc ccttcgggaa gcgtggcgct ttctcatagc 1440 tcacgctgta ggtatctcag ttcggtgtag gtcgttcgct ccaagctggg ctgtgtgcac 1500 gaaccccccg ttcagcccga ccgctgcgcc ttatccggta actatcgtct tgagtccaac 1560 ccggtaagac acgacttatc gccactggca gcagccactg gtaacaggat tagcagagcg 1620 aggtatgtag gcggtgctac agagttcttg aagtggtggc ctaactacgg ctacactaga 1680 aggacagtat ttggtatctg cgctctgctg aagccagtta ccttcggaaa aagagttggt 1740 agctcttgat ccggcaaaca aaccaccgct ggtagcggtg gtttttttgt ttgcaagcag 1800 cagattacgc gcagaaaaaa aggatctcaa gaagatcctt tgatcttttc tacggggtct 1860 gacgctcagt ggaacgaaaa ctcacgttaa gggattttgg tcatgagatt atcaaaaagg 1920 atcttcacct agatcctttt aaattaaaaa tgaagtttta aatcaatcta aagtatatat 1980 gagtaaactt ggtctgacag ttaccaatgc ttaatcagtg aggcacctat ctcagcgatc 2040 tgtctatttc gttcatccat agttgcctga ctccccgtcg tgtagataac tacgatacgg 2100 gagggcttac catctggccc cagtgctgca atgataccgc gagacccacg ctcaccggct 2160 ccagatttat cagcaataaa ccagccagcc ggaagggccg agcgcagaag tggtcctgca 2220 actttatccg cctccatcca gtctattaat tgttgccggg aagctagagt aagtagttcg 2280 ccagttaata gtttgcgcaa cgttgttgcc attgctacag gcatcgtggt gtcacgctcg 2340 tcgtttggta tggcttcatt cagctccggt tcccaacgat caaggcgagt tacatgatcc 2400 cccatgttgt gcaaaaaagc ggttagctcc ttcggtcctc cgatcgttgt cagaagtaag 2460 ttggccgcag tgttatcact catggttatg gcagcactgc ataattctct tactgtcatg 2520 ccatccgtaa gatgcttttc tgtgactggt gagtactcaa ccaagtcatt ctgagaatag 2580 tgtatgcggc gaccgagttg ctcttgcccg gcgtcaatac gggataatac cgcgccacat 2640 agcagaactt taaaagtgct catcattgga aaacgttctt cggggcgaaa actctcaagg 2700 atcttaccgc tgttgagatc cagttcgatg taacccactc gtgcacccaa ctgatcttca 2760 gcatctttta ctttcaccag cgtttctggg tgagcaaaaa caggaaggca aaatgccgca 2820 aaaaagggaa taagggcgac acggaaatgt tgaatactca tactcttcct ttttcaatat 2880 tattgaagca tttatcaggg ttattgtctc atgagcggat acatatttga atgtatttag 2940 aaaaataaac aaataggggt tccgcgcaca tttccccgaa aagtgccac 2989 <210> SEQ ID NO 13 <211> LENGTH: 38041 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 13 ctaaattgta agcgttaata ttttgttaaa attcggccgg ccatcatcaa taatatacct 60 tattttggat tgaagccaat atgataatga gggggtggag tttgtgacgt ggcgcggggc 120 gtgggaacgg ggcgggtgac gtagtagtgt ggcggaagtg tgatgttgca agtgtggcgg 180 aacacatgta taacttcgta taatgtatgc tatacgaagt tatacatgta agcgacggat 240 gtggcaaaag tgacgttttt ggtgtgcgcc ggtgtacaca ggaagtgaca attttcgcgc 300 ggttttaggc ggatgttgta gtaaatttgg gcgtaaccga gtaagatttg gccattttcg 360 cgggaaaact gaataagagg aagtgaaatc tgaataattt tgtgttactc atagcgcgta 420 atatttgtct agggagatct ataacttcgt ataatgtatg ctatacgaag ttattaccga 480 agaaatggct cgagatctgg aaggtgctga ggtacgatga gacccgcacc aggtgcagac 540 cctgcgagtg tggcggtaaa catattagga accagcctgt gatgctggat gtgaccgagg 600 agctgaggcc cgatcacttg gtgctggcct gcacccgcgc tgagtttggc tctagcgatg 660 aagatacaga ttgaggtact gaaatgtgtg ggcgtggctt aagggtggga aagaatatat 720 aaggtggggg tcttatgtag ttttgtatct gttttgcagc agccgccgcc gccatgagca 780 ccaactcgtt tgatggaagc attgtgagct catatttgac aacgcgcatg cccccatggg 840 ccggggtgcg tcagaatgtg atgggctcca gcattgatgg tcgccccgtc ctgcccgcaa 900 actctactac cttgacctac gagaccgtgt ctggaacgcc gttggagact gcagcctccg 960 ccgccgcttc agccgctgca gccaccgccc gcgggattgt gactgacttt gctttcctga 1020 gcccgcttgc aagcagtgca gcttcccgtt catccgcccg cgatgacaag ttgacggctc 1080 ttttggcaca attggattct ttgacccggg aacttaatgt cgtttctcag cagctgttgg 1140 atctgcgcca gcaggtttct gccctgaagg cttcctcccc tcccaatgcg gtttaaaaca 1200 taaataaaaa accagactct gtttggattt ggatcaagca agtgtcttgc tgtctttatt 1260 taggggtttt gcgcgcgcgg taggcccggg accagcggtc tcggtcgttg agggtcctgt 1320 gtattttttc caggacgtgg taaaggtgac tctggatgtt cagatacatg ggcataagcc 1380 cgtctctggg gtggaggtag caccactgca gagcttcatg ctgcggggtg gtgttgtaga 1440 tgatccagtc gtagcaggag cgctgggcgt ggtgcctaaa aatgtctttc agtagcaagc 1500 tgattgccag gggcaggccc ttggtgtaag tgtttacaaa gcggttaagc tgggatgggt 1560 gcatacgtgg ggatatgaga tgcatcttgg actgtatttt taggttggct atgttcccag 1620 ccatatccct ccggggattc atgttgtgca gaaccaccag cacagtgtat ccggtgcact 1680 tgggaaattt gtcatgtagc ttagaaggaa atgcgtggaa gaacttggag acgcccttgt 1740 gacctccaag attttccatg cattcgtcca taatgatggc aatgggccca cgggcggcgg 1800 cctgggcgaa gatatttctg ggatcactaa cgtcatagtt gtgttccagg atgagatcgt 1860 cataggccat ttttacaaag cgcgggcgga gggtgccaga ctgcggtata atggttccat 1920 ccggcccagg ggcgtagtta ccctcacaga tttgcatttc ccacgctttg agttcagatg 1980 gggggatcat gtctacctgc ggggcgatga agaaaacggt ttccggggta ggggagatca 2040 gctgggaaga aagcaggttc ctgagcagct gcgacttacc gcagccggtg ggcccgtaaa 2100 tcacacctat taccgggtgc aactggtagt taagagagct gcagctgccg tcatccctga 2160 gcaggggggc cacttcgtta agcatgtccc tgactcgcat gttttccctg accaaatccg 2220 ccagaaggcg ctcgccgccc agcgatagca gttcttgcaa ggaagcaaag tttttcaacg 2280 gtttgagacc gtccgccgta ggcatgcttt tgagcgtttg accaagcagt tccaggcggt 2340 cccacagctc ggtcacctgc tctacggcat ctcgatccag catatctcct cgtttcgcgg 2400 gttggggcgg ctttcgctgt acggcagtag tcggtgctcg tccagacggg ccagggtcat 2460 gtctttccac gggcgcaggg tcctcgtcag cgtagtctgg gtcacggtga aggggtgcgc 2520 tccgggctgc gcgctggcca gggtgcgctt gaggctggtc ctgctggtgc tgaagcgctg 2580 ccggtcttcg ccctgcgcgt cggccaggta gcatttgacc atggtgtcat agtccagccc 2640 ctccgcggcg tggcccttgg cgcgcagctt gcccttggag gaggcgccgc acgaggggca 2700 gtgcagactt ttgagggcgt agagcttggg cgcgagaaat accgattccg gggagtaggc 2760 atccgcgccg caggccccgc agacggtctc gcattccacg agccaggtga gctctggccg 2820 ttcggggtca aaaaccaggt ttcccccatg ctttttgatg cgtttcttac ctctggtttc 2880 catgagccgg tgtccacgct cggtgacgaa aaggctgtcc gtgtccccgt atacagactt 2940 gagaggcctg tcctcgagcg gtgttccgcg gtcctcctcg tatagaaact cggaccactc 3000 tgagacaaag gctcgcgtcc aggccagcac gaaggaggct aagtgggagg ggtagcggtc 3060 gttgtccact agggggtcca ctcgctccag ggtgtgaaga cacatgtcgc cctcttcggc 3120 atcaaggaag gtgattggtt tgtaggtgta ggccacgtga ccgggtgttc ctgaaggggg 3180 gctataaaag ggggtggggg cgcgttcgtc ctcactctct tccgcatcgc tgtctgcgag 3240 ggccagctgt tggggtgagt actccctctg aaaagcgggc atgacttctg cgctaagatt 3300 gtcagtttcc aaaaacgagg aggatttgat attcacctgg cccgcggtga tgcctttgag 3360 ggtggccgca tccatctggt cagaaaagac aatctttttg ttgtcaagct tggtggcaaa 3420 cgacccgtag agggcgttgg acagcaactt ggcgatggag cgcagggttt ggtttttgtc 3480 gcgatcggcg cgctccttgg ccgcgatgtt tagctgcacg tattcgcgcg caacgcaccg 3540 ccattcggga aagacggtgg tgcgctcgtc gggcaccagg tgcacgcgcc aaccgcggtt 3600 gtgcagggtg acaaggtcaa cgctggtggc tacctctccg cgtaggcgct cgttggtcca 3660 gcagaggcgg ccgcccttgc gcgagcagaa tggcggtagg gggtctagct gcgtctcgtc 3720 cggggggtct gcgtccacgg taaagacccc gggcagcagg cgcgcgtcga agtagtctat 3780 cttgcatcct tgcaagtcta gcgcctgctg ccatgcgcgg gcggcaagcg cgcgctcgta 3840 tgggttgagt gggggacccc atggcatggg gtgggtgagc gcggaggcgt acatgccgca 3900 aatgtcgtaa acgtagaggg gctctctgag tattccaaga tatgtagggt agcatcttcc 3960 accgcggatg ctggcgcgca cgtaatcgta tagttcgtgc gagggagcga ggaggtcggg 4020 accgaggttg ctacgggcgg gctgctctgc tcggaagact atctgcctga agatggcatg 4080 tgagttggat gatatggttg gacgctggaa gacgttgaag ctggcgtctg tgagacctac 4140 cgcgtcacgc acgaaggagg cgtaggagtc gcgcagcttg ttgaccagct cggcggtgac 4200 ctgcacgtct agggcgcagt agtccagggt ttccttgatg atgtcatact tatcctgtcc 4260 cttttttttc cacagctcgc ggttgaggac aaactcttcg cggtctttcc agtactcttg 4320 gatcggaaac ccgtcggcct ccgaacggta agagcctagc atgtagaact ggttgacggc 4380 ctggtaggcg cagcatccct tttctacggg tagcgcgtat gcctgcgcgg ccttccggag 4440 cgaggtgtgg gtgagcgcaa aggtgtccct gaccatgact ttgaggtact ggtatttgaa 4500 gtcagtgtcg tcgcatccgc cctgctccca gagcaaaaag tccgtgcgct ttttggaacg 4560 cggatttggc agggcgaagg tgacatcgtt gaagagtatc tttcccgcgc gaggcataaa 4620 gttgcgtgtg atgcggaagg gtcccggcac ctcggaacgg ttgttaatta cctgggcggc 4680 gagcacgatc tcgtcaaagc cgttgatgtt gtggcccaca atgtaaagtt ccaagaagcg 4740 cgggatgccc ttgatggaag gcaatttttt aagttcctcg taggtgagct cttcagggga 4800 gctgagcccg tgctctgaaa gggcccagtc tgcaagatga gggttggaag cgacgaatga 4860 gctccacagg tcacgggcca ttagcatttg caggtggtcg cgaaaggtcc taaactggcg 4920 acctatggcc attttttctg gggtgatgca gtagaaggta agcgggtctt gttcccagcg 4980 gtcccatcca aggttcgcgg ctaggtctcg cgcggcagtc actagaggct catctccgcc 5040 gaacttcatg accagcatga agggcacgag ctgcttccca aaggccccca tccaagtata 5100 ggtctctaca tcgtaggtga caaagagacg ctcggtgcga ggatgcgagc cgatcgggaa 5160 gaactggatc tcccgccacc aattggagga gtggctattg atgtggtgaa agtagaagtc 5220 cctgcgacgg gccgaacact cgtgctggct tttgtaaaaa cgtgcgcagt actggcagcg 5280 gtgcacgggc tgtacatcct gcacgaggtt gacctgacga ccgcgcacaa ggaagcagag 5340 tgggaatttg agcccctcgc ctggcgggtt tggctggtgg tcttctactt cggctgcttg 5400 tccttgaccg tctggctgct cgaggggagt tacggtggat cggaccacca cgccgcgcga 5460 gcccaaagtc cagatgtccg cgcgcggcgg tcggagcttg atgacaacat cgcgcagatg 5520 ggagctgtcc atggtctgga gctcccgcgg cgtcaggtca ggcgggagct cctgcaggtt 5580 tacctcgcat agacgggtca gggcgcgggc tagatccagg tgatacctaa tttccagggg 5640 ctggttggtg gcggcgtcga tggcttgcaa gaggccgcat ccccgcggcg cgactacggt 5700 accgcgcggc gggcggtggg ccgcgggggt gtccttggat gatgcatcta aaagcggtga 5760 cgcgggcgag cccccggagg tagggggggc tccggacccg ccgggagagg gggcaggggc 5820 acgtcggcgc cgcgcgcggg caggagctgg tgctgcgcgc gtaggttgct ggcgaacgcg 5880 acgacgcggc ggttgatctc ctgaatctgg cgcctctgcg tgaagacgac gggcccggtg 5940 agcttgagcc tgaaagagag ttcgacagaa tcaatttcgg tgtcgttgac ggcggcctgg 6000 cgcaaaatct cctgcacgtc tcctgagttg tcttgatagg cgatctcggc catgaactgc 6060 tcgatctctt cctcctggag atctccgcgt ccggctcgct ccacggtggc ggcgaggtcg 6120 ttggaaatgc gggccatgag ctgcgagaag gcgttgaggc ctccctcgtt ccagacgcgg 6180 ctgtagacca cgcccccttc ggcatcgcgg gcgcgcatga ccacctgcgc gagattgagc 6240 tccacgtgcc gggcgaagac ggcgtagttt cgcaggcgct gaaagaggta gttgagggtg 6300 gtggcggtgt gttctgccac gaagaagtac ataacccagc gtcgcaacgt ggattcgttg 6360 atatccccca aggcctcaag gcgctccatg gcctcgtaga agtccacggc gaagttgaaa 6420 aactgggagt tgcgcgccga cacggttaac tcctcctcca gaagacggat gagctcggcg 6480 acagtgtcgc gcacctcgcg ctcaaaggct acaggggcct cttcttcttc ttcaatctcc 6540 tcttccataa gggcctcccc ttcttcttct tctggcggcg gtgggggagg ggggacacgg 6600 cggcgacgac ggcgcaccgg gaggcggtcg acaaagcgct cgatcatctc cccgcggcga 6660 cggcgcatgg tctcggtgac ggcgcggccg ttctcgcggg ggcgcagttg gaagacgccg 6720 cccgtcatgt cccggttatg ggttggcggg gggctgccat gcggcaggga tacggcgcta 6780 acgatgcatc tcaacaattg ttgtgtaggt actccgccgc cgagggacct gagcgagtcc 6840 gcatcgaccg gatcggaaaa cctctcgaga aaggcgtcta accagtcaca gtcgcaaggt 6900 aggctgagca ccgtggcggg cggcagcggg cggcggtcgg ggttgtttct ggcggaggtg 6960 ctgctgatga tgtaattaaa gtaggcggtc ttgagacggc ggatggtcga cagaagcacc 7020 atgtccttgg gtccggcctg ctgaatgcgc aggcggtcgg ccatgcccca ggcttcgttt 7080 tgacatcggc gcaggtcttt gtagtagtct tgcatgagcc tttctaccgg cacttcttct 7140 tctccttcct cttgtcctgc atctcttgca tctatcgctg cggcggcggc ggagtttggc 7200 cgtaggtggc gccctcttcc tcccatgcgt gtgaccccga agcccctcat cggctgaagc 7260 agggctaggt cggcgacaac gcgctcggct aatatggcct gctgcacctg cgtgagggta 7320 gactggaagt catccatgtc cacaaagcgg tggtatgcgc ccgtgttgat ggtgtaagtg 7380 cagttggcca taacggacca gttaacggtc tggtgacccg gctgcgagag ctcggtgtac 7440 ctgagacgcg agtaagccct cgagtcaaat acgtagtcgt tgcaagtccg caccaggtac 7500 tggtatccca ccaaaaagtg cggcggcggc tggcggtaga ggggccagcg tagggtggcc 7560 ggggctccgg gggcgagatc ttccaacata aggcgatgat atccgtagat gtacctggac 7620 atccaggtga tgccggcggc ggtggtggag gcgcgcggaa agtcgcggac gcggttccag 7680 atgttgcgca gcggcaaaaa gtgctccatg gtcgggacgc tctggccggt caggcgcgcg 7740 caatcgttga cgctctaccg tgcaaaagga gagcctgtaa gcgggcactc ttccgtggtc 7800 tggtggataa attcgcaagg gtatcatggc ggacgaccgg ggttcgagcc ccgtatccgg 7860 ccgtccgccg tgatccatgc ggttaccgcc cgcgtgtcga acccaggtgt gcgacgtcag 7920 acaacggggg agtgctcctt ttggcttcct tccaggcgcg gcggctgctg cgctagcttt 7980 tttggccact ggccgcgcgc agcgtaagcg gttaggctgg aaagcgaaag cattaagtgg 8040 ctcgctccct gtagccggag ggttattttc caagggttga gtcgcgggac ccccggttcg 8100 agtctcggac cggccggact gcggcgaacg ggggtttgcc tccccgtcat gcaagacccc 8160 gcttgcaaat tcctccggaa acagggacga gccccttttt tgcttttccc agatgcatcc 8220 ggtgctgcgg cagatgcgcc cccctcctca gcagcggcaa gagcaagagc agcggcagac 8280 atgcagggca ccctcccctc ctcctaccgc gtcaggaggg gcgacatccg cggttgacgc 8340 ggcagcagat ggtgattacg aacccccgcg gcgccgggcc cggcactacc tggacttgga 8400 ggagggcgag ggcctggcgc ggctaggagc gccctctcct gagcggtacc caagggtgca 8460 gctgaagcgt gatacgcgtg aggcgtacgt gccgcggcag aacctgtttc gcgaccgcga 8520 gggagaggag cccgaggaga tgcgggatcg aaagttccac gcagggcgcg agctgcggca 8580 tggcctgaat cgcgagcggt tgctgcgcga ggaggacttt gagcccgacg cgcgaaccgg 8640 gattagtccc gcgcgcgcac acgtggcggc cgccgacctg gtaaccgcat acgagcagac 8700 ggtgaaccag gagattaact ttcaaaaaag ctttaacaac cacgtgcgta cgcttgtggc 8760 gcgcgaggag gtggctatag gactgatgca tctgtgggac tttgtaagcg cgctggagca 8820 aaacccaaat agcaagccgc tcatggcgca gctgttcctt atagtgcagc acagcaggga 8880 caacgaggca ttcagggatg cgctgctaaa catagtagag cccgagggcc gctggctgct 8940 cgatttgata aacatcctgc agagcatagt ggtgcaggag cgcagcttga gcctggctga 9000 caaggtggcc gccatcaact attccatgct tagcctgggc aagttttacg cccgcaagat 9060 ataccatacc ccttacgttc ccatagacaa ggaggtaaag atcgaggggt tctacatgcg 9120 catggcgctg aaggtgctta ccttgagcga cgacctgggc gtttatcgca acgagcgcat 9180 ccacaaggcc gtgagcgtga gccggcggcg cgagctcagc gaccgcgagc tgatgcacag 9240 cctgcaaagg gccctggctg gcacgggcag cggcgataga gaggccgagt cctactttga 9300 cgcgggcgct gacctgcgct gggccccaag ccgacgcgcc ctggaggcag ctggggccgg 9360 acctgggctg gcggtggcac ccgcgcgcgc tggcaacgtc ggcggcgtgg aggaatatga 9420 cgaggacgat gagtacgagc cagaggacgg cgagtactaa gcggtgatgt ttctgatcag 9480 atgatgcaag acgcaacgga cccggcggtg cgggcggcgc tgcagagcca gccgtccggc 9540 cttaactcca cggacgactg gcgccaggtc atggaccgca tcatgtcgct gactgcgcgc 9600 aatcctgacg cgttccggca gcagccgcag gccaaccggc tctccgcaat tctggaagcg 9660 gtggtcccgg cgcgcgcaaa ccccacgcac gagaaggtgc tggcgatcgt aaacgcgctg 9720 gccgaaaaca gggccatccg gcccgacgaa gccggcctgg tctacgacgc gctgcttcag 9780 cgcgtggctc gttacaacag cggcaacgtg cagaccaacc tggaccggct ggtgggggat 9840 gtgcgcgagg ccgtggcgca gcgtgagcgc gcgcagcagc agggcaacct gggctccatg 9900 gttgcactaa acgccttcct gagtacacag cccgccaacg tgccgcgggg acaggaggac 9960 tacaccaact ttgtgagcgc actgcggcta atggtgactg agacaccgca aagtgaggtg 10020 taccagtctg ggccagacta ttttttccag accagtagac aaggcctgca gaccgtaaac 10080 ctgagccagg ctttcaaaaa cttgcagggg ctgtgggggg tgcgggctcc cacaggcgac 10140 cgcgcgaccg tgtctagctt gctgacgccc aactcgcgcc tgttgctgct gctaatagcg 10200 cccttcacgg acagtggcag cgtgtcccgg gacacatacc taggtcactt gctgacactg 10260 taccgcgagg ccataggtca ggcgcatgtg gacgagcata ctttccagga gattacaagt 10320 gtcagccgcg cgctggggca ggaggacacg ggcagcctgg aggcaaccct aaactacctg 10380 ctgaccaacc ggcggcagaa gatcccctcg ttgcacagtt taaacagcga ggaggagcgc 10440 attttgcgct acgtgcagca gagcgtgagc cttaacctga tgcgcgacgg ggtaacgccc 10500 agcgtggcgc tggacatgac cgcgcgcaac atggaaccgg gcatgtatgc ctcaaaccgg 10560 ccgtttatca accgcctaat ggactacttg catcgcgcgg ccgccgtgaa ccccgagtat 10620 ttcaccaatg ccatcttgaa cccgcactgg ctaccgcccc ctggtttcta caccggggga 10680 ttcgaggtgc ccgagggtaa cgatggattc ctctgggacg acatagacga cagcgtgttt 10740 tccccgcaac cgcagaccct gctagagttg caacagcgcg agcaggcaga ggcggcgctg 10800 cgaaaggaaa gcttccgcag gccaagcagc ttgtccgatc taggcgctgc ggccccgcgg 10860 tcagatgcta gtagcccatt tccaagcttg atagggtctc ttaccagcac tcgcaccacc 10920 cgcccgcgcc tgctgggcga ggaggagtac ctaaacaact cgctgctgca gccgcagcgc 10980 gaaaaaaacc tgcctccggc atttcccaac aacgggatag agagcctagt ggacaagatg 11040 agtagatgga agacgtacgc gcaggagcac agggacgtgc caggcccgcg cccgcccacc 11100 cgtcgtcaaa ggcacgaccg tcagcggggt ctggtgtggg aggacgatga ctcggcagac 11160 gacagcagcg tcctggattt gggagggagt ggcaacccgt ttgcgcacct tcgccccagg 11220 ctggggagaa tgttttaaaa aaaaaaaagc atgatgcaaa ataaaaaact caccaaggcc 11280 atggcaccga gcgttggttt tcttgtattc cccttagtat gcggcgcgcg gcgatgtatg 11340 aggaaggtcc tcctccctcc tacgagagtg tggtgagcgc ggcgccagtg gcggcggcgc 11400 tgggttctcc cttcgatgct cccctggacc cgccgtttgt gcctccgcgg tacctgcggc 11460 ctaccggggg gagaaacagc atccgttact ctgagttggc acccctattc gacaccaccc 11520 gtgtgtacct ggtggacaac aagtcaacgg atgtggcatc cctgaactac cagaacgacc 11580 acagcaactt tctgaccacg gtcattcaaa acaatgacta cagcccgggg gaggcaagca 11640 cacagaccat caatcttgac gaccggtcgc actggggcgg cgacctgaaa accatcctgc 11700 ataccaacat gccaaatgtg aacgagttca tgtttaccaa taagtttaag gcgcgggtga 11760 tggtgtcgcg cttgcctact aaggacaatc aggtggagct gaaatacgag tgggtggagt 11820 tcacgctgcc cgagggcaac tactccgaga ccatgaccat agaccttatg aacaacgcga 11880 tcgtggagca ctacttgaaa gtgggcagac agaacggggt tctggaaagc gacatcgggg 11940 taaagtttga cacccgcaac ttcagactgg ggtttgaccc cgtcactggt cttgtcatgc 12000 ctggggtata tacaaacgaa gccttccatc cagacatcat tttgctgcca ggatgcgggg 12060 tggacttcac ccacagccgc ctgagcaact tgttgggcat ccgcaagcgg caacccttcc 12120 aggagggctt taggatcacc tacgatgatc tggagggtgg taacattccc gcactgttgg 12180 atgtggacgc ctaccaggcg agcttgaaag atgacaccga acagggcggg ggtggcgcag 12240 gcggcagcaa cagcagtggc agcggcgcgg aagagaactc caacgcggca gccgcggcaa 12300 tgcagccggt ggaggacatg aacgatcatg ccattcgcgg cgacaccttt gccacacggg 12360 ctgaggagaa gcgcgctgag gccgaagcag cggccgaagc tgccgccccc gctgcgcaac 12420 ccgaggtcga gaagcctcag aagaaaccgg tgatcaaacc cctgacagag gacagcaaga 12480 aacgcagtta caacctaata agcaatgaca gcaccttcac ccagtaccgc agctggtacc 12540 ttgcatacaa ctacggcgac cctcagaccg gaatccgctc atggaccctg ctttgcactc 12600 ctgacgtaac ctgcggctcg gagcaggtct actggtcgtt gccagacatg atgcaagacc 12660 ccgtgacctt ccgctccacg cgccagatca gcaactttcc ggtggtgggc gccgagctgt 12720 tgcccgtgca ctccaagagc ttctacaacg accaggccgt ctactcccaa ctcatccgcc 12780 agtttacctc tctgacccac gtgttcaatc gctttcccga gaaccagatt ttggcgcgcc 12840 cgccagcccc caccatcacc accgtcagtg aaaacgttcc tgctctcaca gatcacggga 12900 cgctaccgct gcgcaacagc atcggaggag tccagcgagt gaccattact gacgccagac 12960 gccgcacctg cccctacgtt tacaaggccc tgggcatagt ctcgccgcgc gtcctatcga 13020 gccgcacttt ttgagcaagc atgtccatcc ttatatcgcc cagcaataac acaggctggg 13080 gcctgcgctt cccaagcaag atgtttggcg gggccaagaa gcgctccgac caacacccag 13140 tgcgcgtgcg cgggcactac cgcgcgccct ggggcgcgca caaacgcggc cgcactgggc 13200 gcaccaccgt cgatgacgcc atcgacgcgg tggtggagga ggcgcgcaac tacacgccca 13260 cgccgccacc agtgtccaca gtggacgcgg ccattcagac cgtggtgcgc ggagcccggc 13320 gctatgctaa aatgaagaga cggcggaggc gcgtagcacg tcgccaccgc cgccgacccg 13380 gcactgccgc ccaacgcgcg gcggcggccc tgcttaaccg cgcacgtcgc accggccgac 13440 gggcggccat gcgggccgct cgaaggctgg ccgcgggtat tgtcactgtg ccccccaggt 13500 ccaggcgacg agcggccgcc gcagcagccg cggccattag tgctatgact cagggtcgca 13560 ggggcaacgt gtattgggtg cgcgactcgg ttagcggcct gcgcgtgccc gtgcgcaccc 13620 gccccccgcg caactagatt gcaagaaaaa actacttaga ctcgtactgt tgtatgtatc 13680 cagcggcggc ggcgcgcaac gaagctatgt ccaagcgcaa aatcaaagaa gagatgctcc 13740 aggtcatcgc gccggagatc tatggccccc cgaagaagga agagcaggat tacaagcccc 13800 gaaagctaaa gcgggtcaaa aagaaaaaga aagatgatga tgatgaactt gacgacgagg 13860 tggaactgct gcacgctacc gcgcccaggc gacgggtaca gtggaaaggt cgacgcgtaa 13920 aacgtgtttt gcgacccggc accaccgtag tctttacgcc cggtgagcgc tccacccgca 13980 cctacaagcg cgtgtatgat gaggtgtacg gcgacgagga cctgcttgag caggccaacg 14040 agcgcctcgg ggagtttgcc tacggaaagc ggcataagga catgctggcg ttgccgctgg 14100 acgagggcaa cccaacacct agcctaaagc ccgtaacact gcagcaggtg ctgcccgcgc 14160 ttgcaccgtc cgaagaaaag cgcggcctaa agcgcgagtc tggtgacttg gcacccaccg 14220 tgcagctgat ggtacccaag cgccagcgac tggaagatgt cttggaaaaa atgaccgtgg 14280 aacctgggct ggagcccgag gtccgcgtgc ggccaatcaa gcaggtggcg ccgggactgg 14340 gcgtgcagac cgtggacgtt cagataccca ctaccagtag caccagtatt gccaccgcca 14400 cagagggcat ggagacacaa acgtccccgg ttgcctcagc ggtggcggat gccgcggtgc 14460 aggcggtcgc tgcggccgcg tccaagacct ctacggaggt gcaaacggac ccgtggatgt 14520 ttcgcgtttc agccccccgg cgcccgcgcg gttcgaggaa gtacggcgcc gccagcgcgc 14580 tactgcccga atatgcccta catccttcca ttgcgcctac ccccggctat cgtggctaca 14640 cctaccgccc cagaagacga gcaactaccc gacgccgaac caccactgga acccgccgcc 14700 gccgtcgccg tcgccagccc gtgctggccc cgatttccgt gcgcagggtg gctcgcgaag 14760 gaggcaggac cctggtgctg ccaacagcgc gctaccaccc cagcatcgtt taaaagccgg 14820 tctttgtggt tcttgcagat atggccctca cctgccgcct ccgtttcccg gtgccgggat 14880 tccgaggaag aatgcaccgt aggaggggca tggccggcta cggcctgacg ggcggcatgc 14940 gtcgtgcgca ccaccggcgg cggcgcgcgt cgcaccgtcg catgcgcggc ggtatcctgc 15000 ccctccttat tccactgatc gccgcggcga ttggcgccgt gcccggaatt gcatccgtgg 15060 ccttgcaggc gcagagacac tgattaaaaa caagttgcat gtggaaaaat caaaataaaa 15120 agtctggact ctcacgctcg cttggtcctg taactatttt gtagaatgga agacatcaac 15180 tttgcgtctc tggccccgcg acacggctcg cgcccgttca tgggaaactg gcaagatatc 15240 ggcaccagca atatgagcgg tggcgccttc agctggggct cgctgtggag cggcattaaa 15300 aatttcggtt ccaccgttaa gaactatggc agcaaggcct ggaacagcag cacaggccag 15360 atgctgaggg ataagttgaa agagcaaaat ttccaacaaa aggtggtaga tggcctggcc 15420 tctggcatta gcggggtggt ggacctggcc aaccaggcag tgcaaaataa gattaacagt 15480 aagcttgatc cccgccctcc cgtagaggag cctccaccgg ccgtggagac agtgtctcca 15540 gaggggcgtg gcgaaaagcg tccgcgcccc gacagggaag aaactctggt gacgcaaata 15600 gacgagcctc cctcgtacga ggaggcacta aagcaaggcc tgcccaccac ccgtcccatc 15660 gcgcccatgg ctaccggagt gctgggccag cacacacccg taacgctgga cctgcctccc 15720 cccgccgaca cccagcagaa acctgtgctg ccaggcccga ccgccgttgt tgtaacccgt 15780 cctagccgcg cgtccctgcg ccgcgccgcc agcggtccgc gatcgttgcg gcccgtagcc 15840 agtggcaact ggcaaagcac actgaacagc atcgtgggtc tgggggtgca atccctgaag 15900 cgccgacgat gcttctgaat agctaacgtg tcgtatgtgt gtcatgtatg cgtccatgtc 15960 gccgccagag gagctgctga gccgccgcgc gcccgctttc caagatggct accccttcga 16020 tgatgccgca gtggtcttac atgcacatct cgggccagga cgcctcggag tacctgagcc 16080 ccgggctggt gcagtttgcc cgcgccaccg agacgtactt cagcctgaat aacaagttta 16140 gaaaccccac ggtggcgcct acgcacgacg tgaccacaga ccggtcccag cgtttgacgc 16200 tgcggttcat ccctgtggac cgtgaggata ctgcgtactc gtacaaggcg cggttcaccc 16260 tagctgtggg tgataaccgt gtgctggaca tggcttccac gtactttgac atccgcggcg 16320 tgctggacag gggccctact tttaagccct actctggcac tgcctacaac gccctggctc 16380 ccaagggtgc cccaaatcct tgcgaatggg atgaagctgc tactgctctt gaaataaacc 16440 tagaagaaga ggacgatgac aacgaagacg aagtagacga gcaagctgag cagcaaaaaa 16500 ctcacgtatt tgggcaggcg ccttattctg gtataaatat tacaaaggag ggtattcaaa 16560 taggtgtcga aggtcaaaca cctaaatatg ccgataaaac atttcaacct gaacctcaaa 16620 taggagaatc tcagtggtac gaaactgaaa ttaatcatgc agctgggaga gtccttaaaa 16680 agactacccc aatgaaacca tgttacggtt catatgcaaa acccacaaat gaaaatggag 16740 ggcaaggcat tcttgtaaag caacaaaatg gaaagctaga aagtcaagtg gaaatgcaat 16800 ttttctcaac tactgaggcg accgcaggca atggtgataa cttgactcct aaagtggtat 16860 tgtacagtga agatgtagat atagaaaccc cagacactca tatttcttac atgcccacta 16920 ttaaggaagg taactcacga gaactaatgg gccaacaatc tatgcccaac aggcctaatt 16980 acattgcttt tagggacaat tttattggtc taatgtatta caacagcacg ggtaatatgg 17040 gtgttctggc gggccaagca tcgcagttga atgctgttgt agatttgcaa gacagaaaca 17100 cagagctttc ataccagctt ttgcttgatt ccattggtga tagaaccagg tacttttcta 17160 tgtggaatca ggctgttgac agctatgatc cagatgttag aattattgaa aatcatggaa 17220 ctgaagatga acttccaaat tactgctttc cactgggagg tgtgattaat acagagactc 17280 ttaccaaggt aaaacctaaa acaggtcagg aaaatggatg ggaaaaagat gctacagaat 17340 tttcagataa aaatgaaata agagttggaa ataattttgc catggaaatc aatctaaatg 17400 ccaacctgtg gagaaatttc ctgtactcca acatagcgct gtatttgccc gacaagctaa 17460 agtacagtcc ttccaacgta aaaatttctg ataacccaaa cacctacgac tacatgaaca 17520 agcgagtggt ggctcccggg ttagtggact gctacattaa ccttggagca cgctggtccc 17580 ttgactatat ggacaacgtc aacccattta accaccaccg caatgctggc ctgcgctacc 17640 gctcaatgtt gctgggcaat ggtcgctatg tgcccttcca catccaggtg cctcagaagt 17700 tctttgccat taaaaacctc cttctcctgc cgggctcata cacctacgag tggaacttca 17760 ggaaggatgt taacatggtt ctgcagagct ccctaggaaa tgacctaagg gttgacggag 17820 ccagcattaa gtttgatagc atttgccttt acgccacctt cttccccatg gcccacaaca 17880 ccgcctccac gcttgaggcc atgcttagaa acgacaccaa cgaccagtcc tttaacgact 17940 atctctccgc cgccaacatg ctctacccta tacccgccaa cgctaccaac gtgcccatat 18000 ccatcccctc ccgcaactgg gcggctttcc gcggctgggc cttcacgcgc cttaagacta 18060 aggaaacccc atcactgggc tcgggctacg acccttatta cacctactct ggctctatac 18120 cctacctaga tggaaccttt tacctcaacc acacctttaa gaaggtggcc attacctttg 18180 actcttctgt cagctggcct ggcaatgacc gcctgcttac ccccaacgag tttgaaatta 18240 agcgctcagt tgacggggag ggttacaacg ttgcccagtg taacatgacc aaagactggt 18300 tcctggtaca aatgctagct aactacaaca ttggctacca gggcttctat atcccagaga 18360 gctacaagga ccgcatgtac tccttcttta gaaacttcca gcccatgagc cgtcaggtgg 18420 tggatgatac taaatacaag gactaccaac aggtgggcat cctacaccaa cacaacaact 18480 ctggatttgt tggctacctt gcccccacca tgcgcgaagg acaggcctac cctgctaact 18540 tcccctatcc gcttataggc aagaccgcag ttgacagcat tacccagaaa aagtttcttt 18600 gcgatcgcac cctttggcgc atcccattct ccagtaactt tatgtccatg ggcgcactca 18660 cagacctggg ccaaaacctt ctctacgcca actccgccca cgcgctagac atgacttttg 18720 aggtggatcc catggacgag cccacccttc tttatgtttt gtttgaagtc tttgacgtgg 18780 tccgtgtgca ccggccgcac cgcggcgtca tcgaaaccgt gtacctgcgc acgcccttct 18840 cggccggcaa cgccacaaca taaagaagca agcaacatca acaacagctg ccgccatggg 18900 ctccagtgag caggaactga aagccattgt caaagatctt ggttgtgggc catatttttt 18960 gggcacctat gacaagcgct ttccaggctt tgtttctcca cacaagctcg cctgcgccat 19020 agtcaatacg gccggtcgcg agactggggg cgtacactgg atggcctttg cctggaaccc 19080 gcactcaaaa acatgctacc tctttgagcc ctttggcttt tctgaccagc gactcaagca 19140 ggtttaccag tttgagtacg agtcactcct gcgccgtagc gccattgctt cttcccccga 19200 ccgctgtata acgctggaaa agtccaccca aagcgtacag gggcccaact cggccgcctg 19260 tggactattc tgctgcatgt ttctccacgc ctttgccaac tggccccaaa ctcccatgga 19320 tcacaacccc accatgaacc ttattaccgg ggtacccaac tccatgctca acagtcccca 19380 ggtacagccc accctgcgtc gcaaccagga acagctctac agcttcctgg agcgccactc 19440 gccctacttc cgcagccaca gtgcgcagat taggagcgcc acttcttttt gtcacttgaa 19500 aaacatgtaa aaataatgta ctagagacac tttcaataaa ggcaaatgct tttatttgta 19560 cactctcggg tgattattta cccccaccct tgccgtctgc gccgtttaaa aatcaaaggg 19620 gttctgccgc gcatcgctat gcgccactgg cagggacacg ttgcgatact ggtgtttagt 19680 gctccactta aactcaggca caaccatccg cggcagctcg gtgaagtttt cactccacag 19740 gctgcgcacc atcaccaacg cgtttagcag gtcgggcgcc gatatcttga agtcgcagtt 19800 ggggcctccg ccctgcgcgc gcgagttgcg atacacaggg ttgcagcact ggaacactat 19860 cagcgccggg tggtgcacgc tggccagcac gctcttgtcg gagatcagat ccgcgtccag 19920 gtcctccgcg ttgctcaggg cgaacggagt caactttggt agctgccttc ccaaaaaggg 19980 cgcgtgccca ggctttgagt tgcactcgca ccgtagtggc atcaaaaggt gaccgtgccc 20040 ggtctgggcg ttaggataca gcgcctgcat aaaagccttg atctgcttaa aagccacctg 20100 agcctttgcg ccttcagaga agaacatgcc gcaagacttg ccggaaaact gattggccgg 20160 acaggccgcg tcgtgcacgc agcaccttgc gtcggtgttg gagatctgca ccacatttcg 20220 gccccaccgg ttcttcacga tcttggcctt gctagactgc tccttcagcg cgcgctgccc 20280 gttttcgctc gtcacatcca tttcaatcac gtgctcctta tttatcataa tgcttccgtg 20340 tagacactta agctcgcctt cgatctcagc gcagcggtgc agccacaacg cgcagcccgt 20400 gggctcgtga tgcttgtagg tcacctctgc aaacgactgc aggtacgcct gcaggaatcg 20460 ccccatcatc gtcacaaagg tcttgttgct ggtgaaggtc agctgcaacc cgcggtgctc 20520 ctcgttcagc caggtcttgc atacggccgc cagagcttcc acttggtcag gcagtagttt 20580 gaagttcgcc tttagatcgt tatccacgtg gtacttgtcc atcagcgcgc gcgcagcctc 20640 catgcccttc tcccacgcag acacgatcgg cacactcagc gggttcatca ccgtaatttc 20700 actttccgct tcgctgggct cttcctcttc ctcttgcgtc cgcataccac gcgccactgg 20760 gtcgtcttca ttcagccgcc gcactgtgcg cttacctcct ttgccatgct tgattagcac 20820 cggtgggttg ctgaaaccca ccatttgtag cgccacatct tctctttctt cctcgctgtc 20880 cacgattacc tctggtgatg gcgggcgctc gggcttggga gaagggcgct tctttttctt 20940 cttgggcgca atggccaaat ccgccgccga ggtcgatggc cgcgggctgg gtgtgcgcgg 21000 caccagcgcg tcttgtgatg agtcttcctc gtcctcggac tcgatacgcc gcctcatccg 21060 cttttttggg ggcgcccggg gaggcggcgg cgacggggac ggggacgaca cgtcctccat 21120 ggttggggga cgtcgcgccg caccgcgtcc gcgctcgggg gtggtttcgc gctgctcctc 21180 ttcccgactg gccatttcct tctcctatag gcagaaaaag atcatggagt cagtcgagaa 21240 gaaggacagc ctaaccgccc cctctgagtt cgccaccacc gcctccaccg atgccgccaa 21300 cgcgcctacc accttccccg tcgaggcacc cccgcttgag gaggaggaag tgattatcga 21360 gcaggaccca ggttttgtaa gcgaagacga cgaggaccgc tcagtaccaa cagaggataa 21420 aaagcaagac caggacaacg cagaggcaaa cgaggaacaa gtcgggcggg gggacgaaag 21480 gcatggcgac tacctagatg tgggagacga cgtgctgttg aagcatctgc agcgccagtg 21540 cgccattatc tgcgacgcgt tgcaagagcg cagcgatgtg cccctcgcca tagcggatgt 21600 cagccttgcc tacgaacgcc acctattctc accgcgcgta ccccccaaac gccaagaaaa 21660 cggcacatgc gagcccaacc cgcgcctcaa cttctacccc gtatttgccg tgccagaggt 21720 gcttgccacc tatcacatct ttttccaaaa ctgcaagata cccctatcct gccgtgccaa 21780 ccgcagccga gcggacaagc agctggcctt gcggcagggc gctgtcatac ctgatatcgc 21840 ctcgctcaac gaagtgccaa aaatctttga gggtcttgga cgcgacgaga agcgcgcggc 21900 aaacgctctg caacaggaaa acagcgaaaa tgaaagtcac tctggagtgt tggtggaact 21960 cgagggtgac aacgcgcgcc tagccgtact aaaacgcagc atcgaggtca cccactttgc 22020 ctacccggca cttaacctac cccccaaggt catgagcaca gtcatgagtg agctgatcgt 22080 gcgccgtgcg cagcccctgg agagggatgc aaatttgcaa gaacaaacag aggagggcct 22140 acccgcagtt ggcgacgagc agctagcgcg ctggcttcaa acgcgcgagc ctgccgactt 22200 ggaggagcga cgcaaactaa tgatggccgc agtgctcgtt accgtggagc ttgagtgcat 22260 gcagcggttc tttgctgacc cggagatgca gcgcaagcta gaggaaacat tgcactacac 22320 ctttcgacag ggctacgtac gccaggcctg caagatctcc aacgtggagc tctgcaacct 22380 ggtctcctac cttggaattt tgcacgaaaa ccgccttggg caaaacgtgc ttcattccac 22440 gctcaagggc gaggcgcgcc gcgactacgt ccgcgactgc gtttacttat ttctatgcta 22500 cacctggcag acggccatgg gcgtttggca gcagtgcttg gaggagtgca acctcaagga 22560 gctgcagaaa ctgctaaagc aaaacttgaa ggacctatgg acggccttca acgagcgctc 22620 cgtggccgcg cacctggcgg acatcatttt ccccgaacgc ctgcttaaaa ccctgcaaca 22680 gggtctgcca gacttcacca gtcaaagcat gttgcagaac tttaggaact ttatcctaga 22740 gcgctcagga atcttgcccg ccacctgctg tgcacttcct agcgactttg tgcccattaa 22800 gtaccgcgaa tgccctccgc cgctttgggg ccactgctac cttctgcagc tagccaacta 22860 ccttgcctac cactctgaca taatggaaga cgtgagcggt gacggtctac tggagtgtca 22920 ctgtcgctgc aacctatgca ccccgcaccg ctccctggtt tgcaattcgc agctgcttaa 22980 cgaaagtcaa attatcggta cctttgagct gcagggtccc tcgcctgacg aaaagtccgc 23040 ggctccgggg ttgaaactca ctccggggct gtggacgtcg gcttaccttc gcaaatttgt 23100 acctgaggac taccacgccc acgagattag gttctacgaa gaccaatccc gcccgccaaa 23160 tgcggagctt accgcctgcg tcattaccca gggccacatt cttggccaat tgcaagccat 23220 caacaaagcc cgccaagagt ttctgctacg aaagggacgg ggggtttact tggaccccca 23280 gtccggcgag gagctcaacc caatcccccc gccgccgcag ccctatcagc agcagccgcg 23340 ggcccttgct tcccaggatg gcacccaaaa agaagctgca gctgccgccg ccacccacgg 23400 acgaggagga atactgggac agtcaggcag aggaggtttt ggacgaggag gaggaggaca 23460 tgatggaaga ctgggagagc ctagacgagg aagcttccga ggtcgaagag gtgtcagacg 23520 aaacaccgtc accctcggtc gcattcccct cgccggcgcc ccagaaatcg gcaaccggtt 23580 ccagcatggc tacaacctcc gctcctcagg cgccgccggc actgcccgtt cgccgaccca 23640 accgtagatg ggacaccact ggaaccaggg ccggtaagtc caagcagccg ccgccgttag 23700 cccaagagca acaacagcgc caaggctacc gctcatggcg cgggcacaag aacgccatag 23760 ttgcttgctt gcaagactgt gggggcaaca tctccttcgc ccgccgcttt cttctctacc 23820 atcacggcgt ggccttcccc cgtaacatcc tgcattacta ccgtcatctc tacagcccat 23880 actgcaccgg cggcagcggc agcggcagca acagcagcgg ccacacagaa gcaaaggcga 23940 ccggatagca agactctgac aaagcccaag aaatccacag cggcggcagc agcaggagga 24000 ggagcgctgc gtctggcgcc caacgaaccc gtatcgaccc gcgagcttag aaacaggatt 24060 tttcccactc tgtatgctat atttcaacag agcaggggcc aagaacaaga gctgaaaata 24120 aaaaacaggt ctctgcgatc cctcacccgc agctgcctgt atcacaaaag cgaagatcag 24180 cttcggcgca cgctggaaga cgcggaggct ctcttcagta aatactgcgc gctgactctt 24240 aaggactagt ttcgcgccct ttctcaaatt taagcgcgaa aactacgtca tctccagcgg 24300 ccacacccgg cgccagcacc tgtcgtcagc gccattatga gcaaggaaat tcccacgccc 24360 tacatgtgga gttaccagcc acaaatggga cttgcggctg gagctgccca agactactca 24420 acccgaataa actacatgag cgcgggaccc cacatgatat cccgggtcaa cggaatccgc 24480 gcccaccgaa accgaattct cttggaacag gcggctatta ccaccacacc tcgtaataac 24540 cttaatcccc gtagttggcc cgctgccctg gtgtaccagg aaagtcccgc tcccaccact 24600 gtggtacttc ccagagacgc ccaggccgaa gttcagatga ctaactcagg ggcgcagctt 24660 gcgggcggct ttcgtcacag ggtgcggtcg cccgggcagg gtataactca cctgacaatc 24720 agagggcgag gtattcagct caacgacgag tcggtgagct cctcgcttgg tctccgtccg 24780 gacgggacat ttcagatcgg cggcgccggc cgtccttcat tcacgcctcg tcaggcaatc 24840 ctaactctgc agacctcgtc ctctgagccg cgctctggag gcattggaac tctgcaattt 24900 attgaggagt ttgtgccatc ggtctacttt aaccccttct cgggacctcc cggccactat 24960 ccggatcaat ttattcctaa ctttgacgcg gtaaaggact cggcggacgg ctacgactga 25020 atgttaagtg gagaggcaga gcaactgcgc ctgaaacacc tggtccactg tcgccgccac 25080 aagtgctttg cccgcgactc cggtgagttt tgctactttg aattgcccga ggatcatatc 25140 gagggcccgg cgcacggcgt ccggcttacc gcccagggag agcttgcccg tagcctgatt 25200 cgggagttta cccagcgccc cctgctagtt gagcgggaca ggggaccctg tgttctcact 25260 gtgatttgca actgtcctaa ccttggatta catcaagatc ctctagttaa ttaacagctt 25320 gcatgcctgc aggtcgacgg atcgggagat ctcggccgca tattaagtgc attgttctcg 25380 ataccgctaa gtgcattgtt ctcgttagct cgatggacaa gtgcattgtt ctcttgctga 25440 aagctcgatg gacaagtgca ttgttctctt gctgaaagct cgatggacaa gtgcattgtt 25500 ctcttgctga aagctcagta cccgggagta ccctcgaccg ccggagtata aatagaggcg 25560 cttcgtctac ggagcgacaa ttcaattcaa acaagcaaag tgaacacgtc gctaagcgaa 25620 agctaagcaa ataaacaagc gcagctgaac aagctaaaca atctgcagta aagtgcaagt 25680 taaagtgaat caattaaaag taaccagcaa ccaagtaaat caactgcaac tactgaaatc 25740 tgccaagaag taattattga atacaagaag agaactctga atactttcaa caagttaccg 25800 agaaagaaga actcacacac agctagcgtt taaacttaag cttcaccatg gtggggccct 25860 gcatgctgct gctgctgctg ctgctgggcc tgaggctaca gctctccctg ggcatcatcc 25920 tagttgagga ggagaacccg gacttctgga accgcgaggc agccgaggcc ctgggtgccg 25980 ccaagaagct gcagcctgca cagacagccg ccaagaacct catcatcttc ctgggcgatg 26040 gggtgggggt gtctacggtg acagctgcca ggatcctaaa agggcagaag aaggacaaac 26100 tggggcctga gatacccctg gccatggacc gcttcccata tgtggctctg tccaagacat 26160 acaatgtaga caaacatgtg ccagacagtg gagccacagc cacggcctac ctgtgcgggg 26220 tcaagggcaa cttccagacc attggcttga gtgcagccgc ccgctttaac cagtgcaaca 26280 cgacacgcgg caacgaggtc atctccgtga tgaatcgggc caagaaagca gggaagtcag 26340 tgggagtggt aaccaccaca cgagtgcagc acgcctcgcc agccggcacc tacgcccaca 26400 cggtgaaccg caactggtac tcggacgccg acgtgcctgc ctcggcccgc caggaggggt 26460 gccaggacat cgctacgcag ctcatctcca acatggacat tgacgtgatc ctaggtgggg 26520 gccgaaagta catgtttcgc atgggaaccc cagaccctga gtacccagat gactacagcc 26580 aaggtgggac caggctggac gggaagaatc tggtgcagga atggctggcg aagcaccagg 26640 gtgcccggta cgtgtggaac cgcactgagc tcatgcgggc ttccctggac ccgtctgtgg 26700 cccatctcat gggtctcttt gagcctggag acatgaaata cgagatccac cgagactcca 26760 cactggaccc ctccctgatg gagatgacag aggctgccct gcgcctgctg agcaggaacc 26820 cccgcggctt cttcctcttc gtggagggtg gtcgcatcga ccatggtcat catgaaagca 26880 gggcttaccg ggcactgact gagacgatca tgttcgacga cgccattgag agggcgggcc 26940 agctcaccag cgaggaggac acgctgagcc tcgtcactgc cgaccactcc cacgtcttct 27000 ccttcggagg ctgccccctg cgagggggct ccatcttcgg gctggcccct ggcaaggccc 27060 gggacaggaa ggcctacacg gtcctcctat acggaaacgg tccaggctat gtgctcaagg 27120 acggcgcccg gccggatgtt accgagagcg agagcgggag ccccgagtat cggcagcagt 27180 cagcagtgcc cctggacgaa gagacccacg caggcgagga cgtggcggtg ttcgcgcgcg 27240 gcccgcaggc gcacctggtt cacggcgtgc aggagcagac cttcatagcg cacgtcatgg 27300 ccttcgccgc ctgcctggag ccctacaccg cctgcgacct ggcgcccccc gccggcacca 27360 ccgacgccgc gcacccgggg cggtccgtgg tccccgcgtt gcttcctctg ctggccggga 27420 ccctgctgct gctggagacg gccactgctc cctgagtgtc ccgtccctgg ggctcctgct 27480 tccccatccc ggagttctcc tgctccccgc ctcctgtcgt cctgcctggc ctccagcccg 27540 agtcgtcatc cccggagtcc ctatacagag gtcctgccat ggaaccttcc cctccccgtg 27600 cgctctgggg actgagccca tgacaccaaa cctgcccctt ggctgctctc ggactcccta 27660 ccccaacccc agggacagat ctggccagat ttgtaaaaca aatagatttt aggcccaaag 27720 attatttaaa gcattgcctg gaacgcagtg agtttttgtt agaaaagaga ataattcaaa 27780 gtggcattgc tttgcttctt atgttaattt ggtacagacc tgtggctgag tttgctcaaa 27840 gtattcagag cagaattgtg gagtggaaag agagattgga caaagagttt agtttgtcag 27900 tgtatcaaaa aatgaagttt aatgtggcta tgggaattgg agttttagat tggctaagaa 27960 acagtgatga tgatgatgaa gacagccagg aaaatgctga taaaaatgaa gatggtgggg 28020 agaagaacat ggaagactca gggcatgaaa caggcattga ttcacagtcc caaggctcat 28080 ttcaggcccc tcagtcctca cagtctgttc atgatcataa tcagccatac cacatttgta 28140 gaggttttac ttgctttaaa aaacctccca cacctccccc tgaacctgaa acataaaatg 28200 aatgcaattg ttgttgttaa cttgtttatt gcagcttata atggttacaa ataaagcaat 28260 agcatcacaa atttcacaaa taaagcattt ttttcactgc attctagttg tggtttgtcc 28320 aaactcatca atgtatctta tcatgtctgg atccccagga agctcctctg tgtcctcata 28380 aaccctaacc tcctctactt gagaggacat tccaatcata ggctgcccat ccaccctctg 28440 tgtcctcctg ttaattaggt cacttaacaa aaaggaaatt gggtaggggt ttttcacaga 28500 ccgctttcta agggtaattt taaaatatct gggaagtccc ttccactgct gtgttccaga 28560 agtgttggta aacagcccac aaatgtcaac agcagaaaca tacaagctgt cagctttgca 28620 caagggccca acaccctgct catcaagaag cactgtggtt gctgtgttag taatgtgcaa 28680 aacaggaggc acattttccc cacctgtgta ggttccaaaa tatctagtgt tttcattttt 28740 acttggatca ggaacccagc actccactgg ataagcatta tccttatcca aaacagcctt 28800 gtggtcagtg ttcatctgct gactgtcaac tgtagcattt tttggggtta cagtttgagc 28860 aggatatttg gtcctgtagt ttgctaacac accctgcagc tccaaaggtt ccccaccaac 28920 agcaaaaaaa tgaaaatttg acccttgaat gggttttcca gcaccatttt catgagtttt 28980 ttgtgtccct gaatgcaagt ttaacatagc agttacccca ataacctcag ttttaacagt 29040 aacagcttcc cacatcaaaa tatttccaca ggttaagtcc tcatttaaat taggcaaagg 29100 aattccactt cccactgcct tgcttccgtc tcccattcaa acttttatca actgacatta 29160 ttctaagtaa aatcctcttc attatgttgt cagcaatcca ttgcttgaag gcctggctcc 29220 ccagaacccc tcgactggta tgtcttctcc tagaatactc cagaagaaaa ggagtgtatg 29280 aagatagtga ctgcacatta aaatgactga aaccatagta aattaggatg agattctggg 29340 cagataaaca gacagctggc taggatcatt tttttatgcc ttggacttct ttggcaatct 29400 gttgaagcct gacattcctc agaataatgt tttaaagccc aacaataaga ccctgtagca 29460 catataataa gtactgcagt tttgaagtag tgataagcat aaatgatatt ttgatatatt 29520 tattataact gtaatgagat gtgtacatat ctgtgacttc ataggtactg attgtactac 29580 tgtgattttt ttgcctactt tcaaaatgaa aaggaatgct taatttcagt tagaggttag 29640 taaagacaaa taggtaattt tcttctccag tgaagagcat ggcgcccctt gctattcatg 29700 gacgcttgct taaagacttg tacacaggct tgctttgtat caacctatga cttcccctta 29760 cagccgatga taggttttta tttgcacctc cttcgtgtac aaagacagtt ttggtggcta 29820 cgccatcatt aaactcatta ttatcatgct taagcctata gatgtatcca gttcttctgt 29880 tacataattg aagctgtagt gaattgtcta tcttaaactg catcgctaac tgactacatt 29940 tcacacttca tttgcttcca acatagacta accttcttgg atgtccacta ttatttgaac 30000 ttttgagatt ttttttccta tttctaatat cttaaaattt cagaagactt aaagttttgc 30060 aactacaggg ctccatatag acatctagct tgaatttata cactttcttt cattgatgtc 30120 cctggactaa aaaatgttaa atatttctaa ccgctgtact taaagtccat tacaaacgaa 30180 gactactgtt gttaagttga ataggcatct tatatatttt tcaccggtgc aataaataac 30240 ttctattccc ttctaacatc tgcttgcgtt gcactgagag tacactattg attagcaata 30300 ggttcgtgat tacagccctt ctataattaa ttgttaggtt aacatattat tcataaaata 30360 ttattttatt aatttttact tgatttgcta ctggatgctt agaaatagct atgagtatat 30420 tggtagaacc agtacttata ttttattaca tttttacatt tcataaaatt taagtgatat 30480 aaaaatcctg aggaagtatg ccacaaaagt ggtctcagtg gaaatttaaa tatgttaaca 30540 tttattttta aaatgtagcg tgaaatagac aactttaaaa gctcagctta aaaaaaaaac 30600 tcaaggaagc tgaacttgac tttttaaagc actgaagtgc aatatttaat gtaggtcaac 30660 atgtttaaat gggaaaattt ttttcctaat tacagccaaa tccctagctg taattaactt 30720 aaaatttgta tactatttca caacagagtc agcatatacc actttcttat aaaattagaa 30780 agatctaaaa ttttagagct tatttggtga aacaggcata ttgctacatc tttgtttata 30840 aattataatg tgcctttaga gcccaataac agataacaag attttgaaaa ttcaggtgaa 30900 ttagagttat cagagggaat gttaatacac tctattcaaa tactatatga gtaagacatt 30960 taaaatagga aacaatactt tatatattaa aaaaaattaa tcttccagtc gatttaatcc 31020 actttatgaa ttcatttaaa tcgatttaaa ttcgaattaa ttaactagag tacccgggga 31080 tcttattccc tttaactaat aaaaaaaaat aataaagcat cacttactta aaatcagtta 31140 gcaaatttct gtccagttta ttcagcagca cctccttgcc ctcctcccag ctctggtatt 31200 gcagcttcct cctggctgca aactttctcc acaatctaaa tggaatgtca gtttcctcct 31260 gttcctgtcc atccgcaccc actatcttca tgttgttgca gatgaagcgc gcaagaccgt 31320 ctgaagatac cttcaacccc gtgtatccat atgacacgga aaccggtcct ccaactgtgc 31380 cttttcttac tcctcccttt gtatccccca atgggtttca agagagtccc cctggggtac 31440 tctctttgcg cctatccgaa cctctagtta cctccaatgg catgcttgcg ctcaaaatgg 31500 gcaacggcct ctctctggac gaggccggca accttacctc ccaaaatgta accactgtga 31560 gcccacctct caaaaaaacc aagtcaaaca taaacctgga aatatctgca cccctcacag 31620 ttacctcaga agccctaact gtggctgccg ccgcacctct aatggtcgcg ggcaacacac 31680 tcaccatgca atcacaggcc ccgctaaccg tgcacgactc caaacttagc attgccaccc 31740 aaggacccct cacagtgtca gaaggaaagc tagccctgca aacatcaggc cccctcacca 31800 ccaccgatag cagtaccctt actatcactg cctcaccccc tctaactact gccactggta 31860 gcttgggcat tgacttgaaa gagcccattt atacacaaaa tggaaaacta ggactaaagt 31920 acggggctcc tttgcatgta acagacgacc taaacacttt gaccgtagca actggtccag 31980 gtgtgactat taataatact tccttgcaaa ctaaagttac tggagccttg ggttttgatt 32040 cacaaggcaa tatgcaactt aatgtagcag gaggactaag gattgattct caaaacagac 32100 gccttatact tgatgttagt tatccgtttg atgctcaaaa ccaactaaat ctaagactag 32160 gacagggccc tctttttata aactcagccc acaacttgga tattaactac aacaaaggcc 32220 tttacttgtt tacagcttca aacaattcca aaaagcttga ggttaaccta agcactgcca 32280 aggggttgat gtttgacgct acagccatag ccattaatgc aggagatggg cttgaatttg 32340 gttcacctaa tgcaccaaac acaaatcccc tcaaaacaaa aattggccat ggcctagaat 32400 ttgattcaaa caaggctatg gttcctaaac taggaactgg ccttagtttt gacagcacag 32460 gtgccattac agtaggaaac aaaaataatg ataagctaac tttgtggacc acaccagctc 32520 catctcctaa ctgtagacta aatgcagaga aagatgctaa actcactttg gtcttaacaa 32580 aatgtggcag tcaaatactt gctacagttt cagttttggc tgttaaaggc agtttggctc 32640 caatatctgg aacagttcaa agtgctcatc ttattataag atttgacgaa aatggagtgc 32700 tactaaacaa ttccttcctg gacccagaat attggaactt tagaaatgga gatcttactg 32760 aaggcacagc ctatacaaac gctgttggat ttatgcctaa cctatcagct tatccaaaat 32820 ctcacggtaa aactgccaaa agtaacattg tcagtcaagt ttacttaaac ggagacaaaa 32880 ctaaacctgt aacactaacc attacactaa acggtacaca ggaaacagga gacacaactc 32940 caagtgcata ctctatgtca ttttcatggg actggtctgg ccacaactac attaatgaaa 33000 tatttgccac atcctcttac actttttcat acattgccca agaataaaga atcgtttgtg 33060 ttatgtttca acgtgtttat ttttcaattg cagaaaattt caagtcattt ttcattcagt 33120 agtatagccc caccaccaca tagcttatac agatcaccgt accttaatca aactcacaga 33180 accctagtat tcaacctgcc acctccctcc caacacacag agtacacagt cctttctccc 33240 cggctggcct taaaaagcat catatcatgg gtaacagaca tattcttagg tgttatattc 33300 cacacggttt cctgtcgagc caaacgctca tcagtgatat taataaactc cccgggcagc 33360 tcacttaagt tcatgtcgct gtccagctgc tgagccacag gctgctgtcc aacttgcggt 33420 tgcttaacgg gcggcgaagg agaagtccac gcctacatgg gggtagagtc ataatcgtgc 33480 atcaggatag ggcggtggtg ctgcagcagc gcgcgaataa actgctgccg ccgccgctcc 33540 gtcctgcagg aatacaacat ggcagtggtc tcctcagcga tgattcgcac cgcccgcagc 33600 ataaggcgcc ttgtcctccg ggcacagcag cgcaccctga tctcacttaa atcagcacag 33660 taactgcagc acagcaccac aatattgttc aaaatcccac agtgcaaggc gctgtatcca 33720 aagctcatgg cggggaccac agaacccacg tggccatcat accacaagcg caggtagatt 33780 aagtggcgac ccctcataaa cacgctggac ataaacatta cctcttttgg catgttgtaa 33840 ttcaccacct cccggtacca tataaacctc tgattaaaca tggcgccatc caccaccatc 33900 ctaaaccagc tggccaaaac ctgcccgccg gctatacact gcagggaacc gggactggaa 33960 caatgacagt ggagagccca ggactcgtaa ccatggatca tcatgctcgt catgatatca 34020 atgttggcac aacacaggca cacgtgcata cacttcctca ggattacaag ctcctcccgc 34080 gttagaacca tatcccaggg aacaacccat tcctgaatca gcgtaaatcc cacactgcag 34140 ggaagacctc gcacgtaact cacgttgtgc attgtcaaag tgttacattc gggcagcagc 34200 ggatgatcct ccagtatggt agcgcgggtt tctgtctcaa aaggaggtag acgatcccta 34260 ctgtacggag tgcgccgaga caaccgagat cgtgttggtc gtagtgtcat gccaaatgga 34320 acgccggacg tagtcatatt tcctgaagca aaaccaggtg cgggcgtgac aaacagatct 34380 gcgtctccgg tctcgccgct tagatcgctc tgtgtagtag ttgtagtata tccactctct 34440 caaagcatcc aggcgccccc tggcttcggg ttctatgtaa actccttcat gcgccgctgc 34500 cctgataaca tccaccaccg cagaataagc cacacccagc caacctacac attcgttctg 34560 cgagtcacac acgggaggag cgggaagagc tggaagaacc atgttttttt ttttattcca 34620 aaagattatc caaaacctca aaatgaagat ctattaagtg aacgcgctcc cctccggtgg 34680 cgtggtcaaa ctctacagcc aaagaacaga taatggcatt tgtaagatgt tgcacaatgg 34740 cttccaaaag gcaaacggcc ctcacgtcca agtggacgta aaggctaaac ccttcagggt 34800 gaatctcctc tataaacatt ccagcacctt caaccatgcc caaataattc tcatctcgcc 34860 accttctcaa tatatctcta agcaaatccc gaatattaag tccggccatt gtaaaaatct 34920 gctccagagc gccctccacc ttcagcctca agcagcgaat catgattgca aaaattcagg 34980 ttcctcacag acctgtataa gattcaaaag cggaacatta acaaaaatac cgcgatcccg 35040 taggtccctt cgcagggcca gctgaacata atcgtgcagg tctgcacgga ccagcgcggc 35100 cacttccccg ccaggaacct tgacaaaaga acccacactg attatgacac gcatactcgg 35160 agctatgcta accagcgtag ccccgatgta agctttgttg catgggcggc gatataaaat 35220 gcaaggtgct gctcaaaaaa tcaggcaaag cctcgcgcaa aaaagaaagc acatcgtagt 35280 catgctcatg cagataaagg caggtaagct ccggaaccac cacagaaaaa gacaccattt 35340 ttctctcaaa catgtctgcg ggtttctgca taaacacaaa ataaaataac aaaaaaacat 35400 ttaaacatta gaagcctgtc ttacaacagg aaaaacaacc cttataagca taagacggac 35460 tacggccatg ccggcgtgac cgtaaaaaaa ctggtcaccg tgattaaaaa gcaccaccga 35520 cagctcctcg gtcatgtccg gagtcataat gtaagactcg gtaaacacat caggttgatt 35580 catcggtcag tgctaaaaag cgaccgaaat agcccggggg aatacatacc cgcaggcgta 35640 gagacaacat tacagccccc ataggaggta taacaaaatt aataggagag aaaaacacat 35700 aaacacctga aaaaccctcc tgcctaggca aaatagcacc ctcccgctcc agaacaacat 35760 acagcgcttc acagcggcag cctaacagtc agccttacca gtaaaaaaga aaacctatta 35820 aaaaaacacc actcgacacg gcaccagctc aatcagtcac agtgtaaaaa agggccaagt 35880 gcagagcgag tatatatagg actaaaaaat gacgtaacgg ttaaagtcca caaaaaacac 35940 ccagaaaacc gcacgcgaac ctacgcccag aaacgaaagc caaaaaaccc acaacttcct 36000 caaatcgtca cttccgtttt cccacgttac gtaacttccc attttaagaa aactacaatt 36060 cccaacacat acaagttact ccgccctaaa acctacgtca cccgccccgt tcccacgccc 36120 cgcgccacgt cacaaactcc accccctcat tatcatattg gcttcaatcc aaaataaggt 36180 atattattga tgatggccgg ccgaattgaa tcaggggata acgcaggaaa gaacatgtga 36240 gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc gtttttccat 36300 aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag gtggcgaaac 36360 ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt gcgctctcct 36420 gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg aagcgtggcg 36480 ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg ctccaagctg 36540 ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg taactatcgt 36600 cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac tggtaacagg 36660 attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg gcctaactac 36720 ggctacacta gaaggacagt atttggtatc tgcgctctgc tgaagccagt taccttcgga 36780 aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg tggttttttt 36840 gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc tttgatcttt 36900 tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt ggtcatgaga 36960 ttatcaaaaa ggatcttcac ctagatcctt ttaaattaaa aatgaagttt taaatcaatc 37020 taaagtatat atgagtaaac ttggtctgac agttaccaat gcttaatcag tgaggcacct 37080 atctcagcga tctgtctatt tcgttcatcc atagttgcct gactccccgt cgtgtagata 37140 actacgatac gggagggctt accatctggc cccagtgctg caatgatacc gcgagaccca 37200 cgctcaccgg ctccagattt atcagcaata aaccagccag ccggaagggc cgagcgcaga 37260 agtggtcctg caactttatc cgcctccatc cagtctatta attgttgccg ggaagctaga 37320 gtaagtagtt cgccagttaa tagtttgcgc aacgttgttg ccattgctac aggcatcgtg 37380 gtgtcacgct cgtcgtttgg tatggcttca ttcagctccg gttcccaacg atcaaggcga 37440 gttacatgat cccccatgtt gtgcaaaaaa gcggttagct ccttcggtcc tccgatcgtt 37500 gtcagaagta agttggccgc agtgttatca ctcatggtta tggcagcact gcataattct 37560 cttactgtca tgccatccgt aagatgcttt tctgtgactg gtgagtactc aaccaagtca 37620 ttctgagaat agtgtatgcg gcgaccgagt tgctcttgcc cggcgtcaat acgggataat 37680 accgcgccac atagcagaac tttaaaagtg ctcatcattg gaaaacgttc ttcggggcga 37740 aaactctcaa ggatcttacc gctgttgaga tccagttcga tgtaacccac tcgtgcaccc 37800 aactgatctt cagcatcttt tactttcacc agcgtttctg ggtgagcaaa aacaggaagg 37860 caaaatgccg caaaaaaggg aataagggcg acacggaaat gttgaatact catactcttc 37920 ctttttcaat attattgaag catttatcag ggttattgtc tcatgagcgg atacatattt 37980 gaatgtattt agaaaaataa acaaataggg gttccgcgca catttccccg aaaagtgcca 38040 c 38041 <210> SEQ ID NO 14 <211> LENGTH: 7180 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 14 tctagagtcg accggtcatg gctgcgcccc gacacccgcc aacacccgct gacgcgccct 60 gacgggcttg tctgctcccg gcatccgctt acagacaagc tgtgaccgtc tccgggagct 120 gcatgtgtca gaggttttca ccgtcatcac cgaaacgcgc gaggcagccg gatcataatc 180 agccatacca catttgtaga ggttttactt gctttaaaaa acctccccac ctccccctga 240 acctgaaaca taaaatgaat gcaattgttg ttgttaactt gtttattgca gcttataatg 300 gttacaaata aagcaatagc atcacaaatt tcacaaataa agcatttttt tcactgcatt 360 ctagttgtgg tttgtccaaa ctcatcaatg tatcttatca tgtctggatc cagttcgatg 420 taacccactc gtgcacccaa ctgatcttca gcatctttta ctttcaccag cgtttctggg 480 tgagcaaaaa caggaaggca aaatgccgca aaaaagggaa taagggcgac acggaaatgt 540 tgaatactca tactcttcct ttttcaatat tattgaagca tttatcaggg ttattgtctc 600 atgagcggat acatatttga atgtatttag aaaaataaac aaataggggt tccgcgcaca 660 tttccccgaa aagtgccacc tgacgtccat tgttcattcc acggacaaaa acagagaaag 720 gaaacgacag aggccaaaaa gcctcgcttt cagcacctgt cgtttccttt cttttcagag 780 ggtattttaa ataaaaacat taagttatga cgaagaagaa cggaaacgcc ttaaaccgga 840 aaattttcat aaatagcgaa aacccgcgag gtcgccgccc cgtaacctgt cggatcaccg 900 gaaaggaccc gtaaagtgat aatgattatc atctagacta catcgatggg tcgtgcgctc 960 ctttcggtcg ggcgctgcgg gtcgtggggc gggcgtcagg caccgggctt gcgggtcatg 1020 caccaggtcg cgcggtcctt cgggcactcg acgtcggcgg tgacggtgaa gccgagccgc 1080 tcgtagaagg ggaggttgcg gggcgcggag gtctccagga aggcgggcac cccggcgcgc 1140 tcggccgcct ccactccggg gagcacgacg gcgctgccca gacccttgcc ctggtggtcg 1200 ggcgagacgc cgacggtggc caggaaccac gcgggctcct tgggccggtg cggcgccagg 1260 aggccttcca tctgttgctg cgcggccagc cgggaaccgc tcaactcggc catgcgcggg 1320 ccgatctcgg cgaacaccgc ccccgcttcg acgctctccg gcgtggtcca gaccgccacc 1380 gcggcgccgt cgtccgcgac ccacaccttg ccgatgtcga gcccgacgcg cgtgaggaag 1440 agttcttgca gctcggtgac ccgctcgatg tggcggtccg gatcgacggt gtggcgcgtg 1500 gcggggtagt cggcgaacgc ggcggcgagg gtgcgtacgg ccctggggac gtcgtcgcgg 1560 gtggcgaggc gcaccgtggg cttgtactcg gtcatggtaa gcttgctagc agctggtacc 1620 cagcttctag agatctgacg gttcactaaa cgagctctgc ttatatagac ctcccaccgt 1680 acacgcctac cgcccatttg cgtcaacggg gcggggttat tacgacattt tggaaagtcc 1740 cgttgatttt ggtgccaaaa caaactccca ttgacgtcaa tggggtggag acttggaaat 1800 ccccgtgagt caaaccgcta tccacgccca ttggtgtact gccaaaaccg catcaccatg 1860 gtaatagcga tgactaatac gtagatgtac tgccaagtag gaaagtcccg taaggtcatg 1920 tactgggcat aatgccaggc gggccattta ccgtcattga cgtcaatagg gggcggactt 1980 ggcatatgat acacttgatg tactgccaag tgggcagttt accgtaaata ctccacccat 2040 tgacgtcaat ggaaagtccc tattggcgtt actatgggaa catacgtcat tattgacgtc 2100 aatgggcggg ggtcgttggg cggtcagcca ggcgggccat ttaccgtaag ttatgtaacg 2160 cggaactcca tatatgggct atgaactaat gaccccgtaa ttgattacta ttaataacta 2220 gtcaataatc aatgtcaaca tggcggtcat attggacatg agccaatata aatgtacata 2280 ttatgatata gatacaacgt atgcaatggc caatagccaa tattgattta tgctatataa 2340 ccaatgacta atatggctaa ttgccaatat tgattcaatg tatagatctt ccatacctac 2400 cagttctgcg cctgcagcaa tgcaacaacg ttgcccggat ctgcgatgat aagctgtcaa 2460 acatgagaat tggtcgacta gcttggcacg ccagaaatcc gcgcggtggt ttttgggggt 2520 cgggggtgtt tggcagccac agacgcccgg tgttcgtgtc gcgccagtac atgcggtcca 2580 tgcccaggcc atccaaaaac catgggtctg tctgctcagt ccagtcgtgg accagacccc 2640 acgcaacgcc caaaataata acccccacga accataaacc attccccatg ggggaccccg 2700 tccctaaccc acggggccag tggctatggc agggcctgcc gccccgacgt tggctgcgag 2760 ccctgggcct tcacccgaac ttggggggtg gggtggggaa aaggaagaaa cgcgggcgta 2820 ttggccccaa tggggtctcg gtggggtatc gacagagtgc cagccctggg accgaacccc 2880 gcgtttatga acaaacgacc caacacccgt gcgttttatt ctgtcttttt attgccgtca 2940 tagcgcgggt tccttccggt attgtctcct tccgtgtttc agttagcctc ccccatctcc 3000 cctattcctt tgccctcgga cgagtgctgg ggcgtcggtt tccactatcg gcgagtactt 3060 ctacacagcc atcggtccag acggccgcgc ttctgcgggc gatttgtgta cgcccgacag 3120 tcccggctcc ggatcggacg attgcgtcgc atcgaccctg cgcccaagct gcatcatcga 3180 aattgccgtc aaccaagctc tgatagagtt ggtcaagacc aatgcggagc atatacgccc 3240 ggagccgcgg cgatcctgca agctccggat gcctccgctc gaagtagcgc gtctgctgct 3300 ccatacaagc caaccacggc ctccagaaga agatgttggc gacctcgtat tgggaatccc 3360 cgaacatcgc ctcgctccag tcaatgaccg ctgttatgcg gccattgtcc gtcaggacat 3420 tgttggagcc gaaatccgcg tgcacgaggt gccggacttc ggggcagtcc tcggcccaaa 3480 gcatcagctc atcgagagcc tgcgcgacgg acgcactgac ggtgtcgtcc atcacagttt 3540 gccagtgata cacatgggga tcagcaatcg cgcatatgaa atcacgccat gtagtgtatt 3600 gaccgattcc ttgcggtccg aatgggccga acccgctcgt ctggctaaga tcggccgcag 3660 cgcgcgcaaa acccctaaat aaagacagca agacacttgc ttgatccaaa tccaaacaga 3720 gtctggtttt ttatttatgt tttaaaccgc attgggaggg gaggaagcct tcagggcaga 3780 aacctgctgg cgcagatcca acagctgctg agaaacgaca ttaagttccc gggtcaaaga 3840 atccaattgt gccaaaagag ccgtcaactt gtcatcgcgg gcggatgaac gggaagctgc 3900 actgcttgca agcgggctca ggaaagcaaa gtcagtcaca atcccgcggg cggtggctgc 3960 agcggctgaa gcggcggcgg aggctgcagt ctccaacggc gttccagaca cggtctcgta 4020 ggtcaaggta gtagagtttg cgggcaggac ggggcgacca tcaatgctgg agcccatcac 4080 attctgacgc accccggccc atgggggcat gcgcgttgtc aaatatgagc tcacaatgct 4140 tccatcaaac gagttggtgc tcatggcggc ggcggctgct gcaaaacaga tacaaaacta 4200 cataagaccc ccaccttata tattctttcc cacccgggat ctgcggcacg ctgttgacgc 4260 tgttaagcgg gtcgctgcag ggtcgctcgg tgttcgaggc cacacgcgtc accttaatat 4320 gcgaagtgga cctgggaccg cgccgccccg actgcatctg cgtgttcgaa ttcgccaatg 4380 acaagacgct gggcggggtt tgtgtcatca tagaactaaa gacatgcaaa tatatttctt 4440 ccggggacac cgccagcaaa cgcgagcaac gggccacggg gatgaagcag ggcatggcgg 4500 ccgacgcgct gggctacgtc ttgctggcgt tcgcgacgcg aggctggatg gccttcccca 4560 ttatgattct tctcgcttcc ggcggcatcg ggatgcccgc gttgcaggcc atgctgtcca 4620 ggcaggtaga tgacgaccat cagggacagc ttcaaggatc gctcgcggct cttaccagcc 4680 taacttcgat cactggaccg ctgatcgtca cggcgattta tgccgcctcg gcgagcacat 4740 ggaacgggtt ggcatggatt gtaggcgccg ccctatacct tgtctgcctc cccgcgttgc 4800 gtcgcggtgc atggagccgg gccacctcga cctgaatgga agccggcggc acctcgctaa 4860 cggattcacc actccaagaa ttggagccaa tcaattcttg cggagaactg tgaatgcgca 4920 aaccaaccct tggcagaaca tatccatcgc gtccgccatc tccagcagcc gcacgcggcg 4980 cagcaaaagg ccaggaaccg taaaaaggcc gcgttgctgg cgtttttcca taggctccgc 5040 ccccctgacg agcatcacaa aaatcgacgc tcaagtcaga ggtggcgaaa cccgacagga 5100 ctataaagat accaggcgtt tccccctgga agctccctcg tgcgctctcc tgttccgacc 5160 ctgccgctta ccggatacct gtccgccttt ctcccttcgg gaagcgtggc gctttctcat 5220 agctcacgct gtaggtatct cagttcggtg taggtcgttc gctccaagct gggctgtgtg 5280 cacgaacccc ccgttcagcc cgaccgctgc gccttatccg gtaactatcg tcttgagtcc 5340 aacccggtaa gacacgactt atcgccactg gcagcagcca ctggtaacag gattagcaga 5400 gcgaggtatg taggcggtgc tacagagttc ttgaagtggt ggcctaacta cggctacact 5460 agaaggacag tatttggtat ctgcgctctg ctgaagccag ttaccttcgg aaaaagagtt 5520 ggtagctctt gatccggcaa acaaaccacc gctggtagcg gtggtttttt tgtttgcaag 5580 cagcagatta cgcgcagaaa aaaaggatct caagaagatc ctttgatctt ttctacgggg 5640 tctgacgctc agtggaacga aaactcacgt taagggattt tggtcatgag attatcaaaa 5700 aggatcttca cctagatcct tttaaattaa aaatgaagtt ttaaatcaat ctaaagtata 5760 tatgagtaaa cttggtctga cagttaccaa tgcttaatca gtgaggcacc tatctcagcg 5820 atctgtctat ttcgttcatc catagttgcc tgactccccg tcgtgtagat aactacgata 5880 cgggagggct taccatctgg ccccagtgct gcaatgatac cgcgagaccc acgctcaccg 5940 gctccagatt tatcagcaat aaaccagcca gccggaaggg ccgagcgcag aagtggtcct 6000 gcaactttat ccgcctccat ccagtctatt aattgttgcc gggaagctag agtaagtagt 6060 tcgccagtta atagtttgcg caacgttgtt gccattgctg caggcatcgt ggtgtcacgc 6120 tcgtcgtttg gtatggcttc attcagctcc ggttcccaac gatcaaggcg agttacatga 6180 tcccccatgt tgtgcaaaaa agcggttagc tccttcggtc ctccgatcgt tgtcagaagt 6240 aagttggccg cagtgttatc actcatggtt atggcagcac tgcataattc tcttactgtc 6300 atgccatccg taagatgctt ttctgtgact ggtgagtact caaccaagtc attctgagaa 6360 tagtgtatgc ggcgaccgag ttgctcttgc ccggcgtcaa cacgggataa taccgcgcca 6420 catagcagaa ctttaaaagt gctcatcatt ggaaaacgtt cttcggggcg aaaactctca 6480 aggatcttac cgctgttgag atccagttcg atgtaaccca ctcgtgcacc caactgatct 6540 tcagcatctt ttactttcac cagcgtttct gggtgagcaa aaacaggaag gcaaaatgcc 6600 gcaaaaaagg gaataagggc gacacggaaa tgttgaatac tcatactctt cctttttcaa 6660 tattattgaa gcatttatca gggttattgt ctcatgagcg gatacatatt tgaatgtatt 6720 tagaaaaata aacaaatagg ggttccgcgc acatttcccc gaaaagtgcc acctgacgtc 6780 taagaaacca ttattatcat gacattaacc tataaaaata ggcgtatcac gaggcccttc 6840 ccgtagtctt cctgggcccc tgggaggtac atgtccccca gcattggtgt aagagcttca 6900 gccaagagtt acacataaag gcaatgttgt gttgcagtcc acagactgca aagtctgctc 6960 caggatgaaa gccactcagt gttggcaaat gtgcacatcc atttataagg atgtcaacta 7020 cagtcagaga acccctttgt gtttggtccc cccccgtgtc acatgtggaa cagggcccag 7080 ttggcaagtt gtaccaacca actgaaggga ttacatgcac tgccccgcga agaaggggca 7140 gagatgccgt agtcaggttt agttcgtccg gcggcggggc 7180 <210> SEQ ID NO 15 <211> LENGTH: 37391 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 15 ctaaattgta agcgttaata ttttgttaaa attcggccgg ccatcatcaa taatatacct 60 tattttggat tgaagccaat atgataatga gggggtggag tttgtgacgt ggcgcggggc 120 gtgggaacgg ggcgggtgac gtagtagtgt ggcggaagtg tgatgttgca agtgtggcgg 180 aacacatgta taacttcgta taatgtatgc tatacgaagt tatacatgta agcgacggat 240 gtggcaaaag tgacgttttt ggtgtgcgcc ggtgtacaca ggaagtgaca attttcgcgc 300 ggttttaggc ggatgttgta gtaaatttgg gcgtaaccga gtaagatttg gccattttcg 360 cgggaaaact gaataagagg aagtgaaatc tgaataattt tgtgttactc atagcgcgta 420 atatttgtct agggagatca attggattct ttgacccggg aacttaatgt cgtttctcag 480 cagctgttgg atctgcgcca gcaggtttct gccctgaagg cttcctcccc tcccaatgcg 540 gtttaaaaca taaataaaaa accagactct gtttggattt ggatcaagca agtgtcttgc 600 tgtctttatt taggggtttt gcgcgcgcgg taggcccggg accagcggtc tcggtcgttg 660 agggtcctgt gtattttttc caggacgtgg taaaggtgac tctggatgtt cagatacatg 720 ggcataagcc cgtctctggg gtggaggtag caccactgca gagcttcatg ctgcggggtg 780 gtgttgtaga tgatccagtc gtagcaggag cgctgggcgt ggtgcctaaa aatgtctttc 840 agtagcaagc tgattgccag gggcaggccc ttggtgtaag tgtttacaaa gcggttaagc 900 tgggatgggt gcatacgtgg ggatatgaga tgcatcttgg actgtatttt taggttggct 960 atgttcccag ccatatccct ccggggattc atgttgtgca gaaccaccag cacagtgtat 1020 ccggtgcact tgggaaattt gtcatgtagc ttagaaggaa atgcgtggaa gaacttggag 1080 acgcccttgt gacctccaag attttccatg cattcgtcca taatgatggc aatgggccca 1140 cgggcggcgg cctgggcgaa gatatttctg ggatcactaa cgtcatagtt gtgttccagg 1200 atgagatcgt cataggccat ttttacaaag cgcgggcgga gggtgccaga ctgcggtata 1260 atggttccat ccggcccagg ggcgtagtta ccctcacaga tttgcatttc ccacgctttg 1320 agttcagatg gggggatcat gtctacctgc ggggcgatga agaaaacggt ttccggggta 1380 ggggagatca gctgggaaga aagcaggttc ctgagcagct gcgacttacc gcagccggtg 1440 ggcccgtaaa tcacacctat taccgggtgc aactggtagt taagagagct gcagctgccg 1500 tcatccctga gcaggggggc cacttcgtta agcatgtccc tgactcgcat gttttccctg 1560 accaaatccg ccagaaggcg ctcgccgccc agcgatagca gttcttgcaa ggaagcaaag 1620 tttttcaacg gtttgagacc gtccgccgta ggcatgcttt tgagcgtttg accaagcagt 1680 tccaggcggt cccacagctc ggtcacctgc tctacggcat ctcgatccag catatctcct 1740 cgtttcgcgg gttggggcgg ctttcgctgt acggcagtag tcggtgctcg tccagacggg 1800 ccagggtcat gtctttccac gggcgcaggg tcctcgtcag cgtagtctgg gtcacggtga 1860 aggggtgcgc tccgggctgc gcgctggcca gggtgcgctt gaggctggtc ctgctggtgc 1920 tgaagcgctg ccggtcttcg ccctgcgcgt cggccaggta gcatttgacc atggtgtcat 1980 agtccagccc ctccgcggcg tggcccttgg cgcgcagctt gcccttggag gaggcgccgc 2040 acgaggggca gtgcagactt ttgagggcgt agagcttggg cgcgagaaat accgattccg 2100 gggagtaggc atccgcgccg caggccccgc agacggtctc gcattccacg agccaggtga 2160 gctctggccg ttcggggtca aaaaccaggt ttcccccatg ctttttgatg cgtttcttac 2220 ctctggtttc catgagccgg tgtccacgct cggtgacgaa aaggctgtcc gtgtccccgt 2280 atacagactt gagaggcctg tcctcgagcg gtgttccgcg gtcctcctcg tatagaaact 2340 cggaccactc tgagacaaag gctcgcgtcc aggccagcac gaaggaggct aagtgggagg 2400 ggtagcggtc gttgtccact agggggtcca ctcgctccag ggtgtgaaga cacatgtcgc 2460 cctcttcggc atcaaggaag gtgattggtt tgtaggtgta ggccacgtga ccgggtgttc 2520 ctgaaggggg gctataaaag ggggtggggg cgcgttcgtc ctcactctct tccgcatcgc 2580 tgtctgcgag ggccagctgt tggggtgagt actccctctg aaaagcgggc atgacttctg 2640 cgctaagatt gtcagtttcc aaaaacgagg aggatttgat attcacctgg cccgcggtga 2700 tgcctttgag ggtggccgca tccatctggt cagaaaagac aatctttttg ttgtcaagct 2760 tggtggcaaa cgacccgtag agggcgttgg acagcaactt ggcgatggag cgcagggttt 2820 ggtttttgtc gcgatcggcg cgctccttgg ccgcgatgtt tagctgcacg tattcgcgcg 2880 caacgcaccg ccattcggga aagacggtgg tgcgctcgtc gggcaccagg tgcacgcgcc 2940 aaccgcggtt gtgcagggtg acaaggtcaa cgctggtggc tacctctccg cgtaggcgct 3000 cgttggtcca gcagaggcgg ccgcccttgc gcgagcagaa tggcggtagg gggtctagct 3060 gcgtctcgtc cggggggtct gcgtccacgg taaagacccc gggcagcagg cgcgcgtcga 3120 agtagtctat cttgcatcct tgcaagtcta gcgcctgctg ccatgcgcgg gcggcaagcg 3180 cgcgctcgta tgggttgagt gggggacccc atggcatggg gtgggtgagc gcggaggcgt 3240 acatgccgca aatgtcgtaa acgtagaggg gctctctgag tattccaaga tatgtagggt 3300 agcatcttcc accgcggatg ctggcgcgca cgtaatcgta tagttcgtgc gagggagcga 3360 ggaggtcggg accgaggttg ctacgggcgg gctgctctgc tcggaagact atctgcctga 3420 agatggcatg tgagttggat gatatggttg gacgctggaa gacgttgaag ctggcgtctg 3480 tgagacctac cgcgtcacgc acgaaggagg cgtaggagtc gcgcagcttg ttgaccagct 3540 cggcggtgac ctgcacgtct agggcgcagt agtccagggt ttccttgatg atgtcatact 3600 tatcctgtcc cttttttttc cacagctcgc ggttgaggac aaactcttcg cggtctttcc 3660 agtactcttg gatcggaaac ccgtcggcct ccgaacggta agagcctagc atgtagaact 3720 ggttgacggc ctggtaggcg cagcatccct tttctacggg tagcgcgtat gcctgcgcgg 3780 ccttccggag cgaggtgtgg gtgagcgcaa aggtgtccct gaccatgact ttgaggtact 3840 ggtatttgaa gtcagtgtcg tcgcatccgc cctgctccca gagcaaaaag tccgtgcgct 3900 ttttggaacg cggatttggc agggcgaagg tgacatcgtt gaagagtatc tttcccgcgc 3960 gaggcataaa gttgcgtgtg atgcggaagg gtcccggcac ctcggaacgg ttgttaatta 4020 cctgggcggc gagcacgatc tcgtcaaagc cgttgatgtt gtggcccaca atgtaaagtt 4080 ccaagaagcg cgggatgccc ttgatggaag gcaatttttt aagttcctcg taggtgagct 4140 cttcagggga gctgagcccg tgctctgaaa gggcccagtc tgcaagatga gggttggaag 4200 cgacgaatga gctccacagg tcacgggcca ttagcatttg caggtggtcg cgaaaggtcc 4260 taaactggcg acctatggcc attttttctg gggtgatgca gtagaaggta agcgggtctt 4320 gttcccagcg gtcccatcca aggttcgcgg ctaggtctcg cgcggcagtc actagaggct 4380 catctccgcc gaacttcatg accagcatga agggcacgag ctgcttccca aaggccccca 4440 tccaagtata ggtctctaca tcgtaggtga caaagagacg ctcggtgcga ggatgcgagc 4500 cgatcgggaa gaactggatc tcccgccacc aattggagga gtggctattg atgtggtgaa 4560 agtagaagtc cctgcgacgg gccgaacact cgtgctggct tttgtaaaaa cgtgcgcagt 4620 actggcagcg gtgcacgggc tgtacatcct gcacgaggtt gacctgacga ccgcgcacaa 4680 ggaagcagag tgggaatttg agcccctcgc ctggcgggtt tggctggtgg tcttctactt 4740 cggctgcttg tccttgaccg tctggctgct cgaggggagt tacggtggat cggaccacca 4800 cgccgcgcga gcccaaagtc cagatgtccg cgcgcggcgg tcggagcttg atgacaacat 4860 cgcgcagatg ggagctgtcc atggtctgga gctcccgcgg cgtcaggtca ggcgggagct 4920 cctgcaggtt tacctcgcat agacgggtca gggcgcgggc tagatccagg tgatacctaa 4980 tttccagggg ctggttggtg gcggcgtcga tggcttgcaa gaggccgcat ccccgcggcg 5040 cgactacggt accgcgcggc gggcggtggg ccgcgggggt gtccttggat gatgcatcta 5100 aaagcggtga cgcgggcgag cccccggagg tagggggggc tccggacccg ccgggagagg 5160 gggcaggggc acgtcggcgc cgcgcgcggg caggagctgg tgctgcgcgc gtaggttgct 5220 ggcgaacgcg acgacgcggc ggttgatctc ctgaatctgg cgcctctgcg tgaagacgac 5280 gggcccggtg agcttgagcc tgaaagagag ttcgacagaa tcaatttcgg tgtcgttgac 5340 ggcggcctgg cgcaaaatct cctgcacgtc tcctgagttg tcttgatagg cgatctcggc 5400 catgaactgc tcgatctctt cctcctggag atctccgcgt ccggctcgct ccacggtggc 5460 ggcgaggtcg ttggaaatgc gggccatgag ctgcgagaag gcgttgaggc ctccctcgtt 5520 ccagacgcgg ctgtagacca cgcccccttc ggcatcgcgg gcgcgcatga ccacctgcgc 5580 gagattgagc tccacgtgcc gggcgaagac ggcgtagttt cgcaggcgct gaaagaggta 5640 gttgagggtg gtggcggtgt gttctgccac gaagaagtac ataacccagc gtcgcaacgt 5700 ggattcgttg atatccccca aggcctcaag gcgctccatg gcctcgtaga agtccacggc 5760 gaagttgaaa aactgggagt tgcgcgccga cacggttaac tcctcctcca gaagacggat 5820 gagctcggcg acagtgtcgc gcacctcgcg ctcaaaggct acaggggcct cttcttcttc 5880 ttcaatctcc tcttccataa gggcctcccc ttcttcttct tctggcggcg gtgggggagg 5940 ggggacacgg cggcgacgac ggcgcaccgg gaggcggtcg acaaagcgct cgatcatctc 6000 cccgcggcga cggcgcatgg tctcggtgac ggcgcggccg ttctcgcggg ggcgcagttg 6060 gaagacgccg cccgtcatgt cccggttatg ggttggcggg gggctgccat gcggcaggga 6120 tacggcgcta acgatgcatc tcaacaattg ttgtgtaggt actccgccgc cgagggacct 6180 gagcgagtcc gcatcgaccg gatcggaaaa cctctcgaga aaggcgtcta accagtcaca 6240 gtcgcaaggt aggctgagca ccgtggcggg cggcagcggg cggcggtcgg ggttgtttct 6300 ggcggaggtg ctgctgatga tgtaattaaa gtaggcggtc ttgagacggc ggatggtcga 6360 cagaagcacc atgtccttgg gtccggcctg ctgaatgcgc aggcggtcgg ccatgcccca 6420 ggcttcgttt tgacatcggc gcaggtcttt gtagtagtct tgcatgagcc tttctaccgg 6480 cacttcttct tctccttcct cttgtcctgc atctcttgca tctatcgctg cggcggcggc 6540 ggagtttggc cgtaggtggc gccctcttcc tcccatgcgt gtgaccccga agcccctcat 6600 cggctgaagc agggctaggt cggcgacaac gcgctcggct aatatggcct gctgcacctg 6660 cgtgagggta gactggaagt catccatgtc cacaaagcgg tggtatgcgc ccgtgttgat 6720 ggtgtaagtg cagttggcca taacggacca gttaacggtc tggtgacccg gctgcgagag 6780 ctcggtgtac ctgagacgcg agtaagccct cgagtcaaat acgtagtcgt tgcaagtccg 6840 caccaggtac tggtatccca ccaaaaagtg cggcggcggc tggcggtaga ggggccagcg 6900 tagggtggcc ggggctccgg gggcgagatc ttccaacata aggcgatgat atccgtagat 6960 gtacctggac atccaggtga tgccggcggc ggtggtggag gcgcgcggaa agtcgcggac 7020 gcggttccag atgttgcgca gcggcaaaaa gtgctccatg gtcgggacgc tctggccggt 7080 caggcgcgcg caatcgttga cgctctaccg tgcaaaagga gagcctgtaa gcgggcactc 7140 ttccgtggtc tggtggataa attcgcaagg gtatcatggc ggacgaccgg ggttcgagcc 7200 ccgtatccgg ccgtccgccg tgatccatgc ggttaccgcc cgcgtgtcga acccaggtgt 7260 gcgacgtcag acaacggggg agtgctcctt ttggcttcct tccaggcgcg gcggctgctg 7320 cgctagcttt tttggccact ggccgcgcgc agcgtaagcg gttaggctgg aaagcgaaag 7380 cattaagtgg ctcgctccct gtagccggag ggttattttc caagggttga gtcgcgggac 7440 ccccggttcg agtctcggac cggccggact gcggcgaacg ggggtttgcc tccccgtcat 7500 gcaagacccc gcttgcaaat tcctccggaa acagggacga gccccttttt tgcttttccc 7560 agatgcatcc ggtgctgcgg cagatgcgcc cccctcctca gcagcggcaa gagcaagagc 7620 agcggcagac atgcagggca ccctcccctc ctcctaccgc gtcaggaggg gcgacatccg 7680 cggttgacgc ggcagcagat ggtgattacg aacccccgcg gcgccgggcc cggcactacc 7740 tggacttgga ggagggcgag ggcctggcgc ggctaggagc gccctctcct gagcggtacc 7800 caagggtgca gctgaagcgt gatacgcgtg aggcgtacgt gccgcggcag aacctgtttc 7860 gcgaccgcga gggagaggag cccgaggaga tgcgggatcg aaagttccac gcagggcgcg 7920 agctgcggca tggcctgaat cgcgagcggt tgctgcgcga ggaggacttt gagcccgacg 7980 cgcgaaccgg gattagtccc gcgcgcgcac acgtggcggc cgccgacctg gtaaccgcat 8040 acgagcagac ggtgaaccag gagattaact ttcaaaaaag ctttaacaac cacgtgcgta 8100 cgcttgtggc gcgcgaggag gtggctatag gactgatgca tctgtgggac tttgtaagcg 8160 cgctggagca aaacccaaat agcaagccgc tcatggcgca gctgttcctt atagtgcagc 8220 acagcaggga caacgaggca ttcagggatg cgctgctaaa catagtagag cccgagggcc 8280 gctggctgct cgatttgata aacatcctgc agagcatagt ggtgcaggag cgcagcttga 8340 gcctggctga caaggtggcc gccatcaact attccatgct tagcctgggc aagttttacg 8400 cccgcaagat ataccatacc ccttacgttc ccatagacaa ggaggtaaag atcgaggggt 8460 tctacatgcg catggcgctg aaggtgctta ccttgagcga cgacctgggc gtttatcgca 8520 acgagcgcat ccacaaggcc gtgagcgtga gccggcggcg cgagctcagc gaccgcgagc 8580 tgatgcacag cctgcaaagg gccctggctg gcacgggcag cggcgataga gaggccgagt 8640 cctactttga cgcgggcgct gacctgcgct gggccccaag ccgacgcgcc ctggaggcag 8700 ctggggccgg acctgggctg gcggtggcac ccgcgcgcgc tggcaacgtc ggcggcgtgg 8760 aggaatatga cgaggacgat gagtacgagc cagaggacgg cgagtactaa gcggtgatgt 8820 ttctgatcag atgatgcaag acgcaacgga cccggcggtg cgggcggcgc tgcagagcca 8880 gccgtccggc cttaactcca cggacgactg gcgccaggtc atggaccgca tcatgtcgct 8940 gactgcgcgc aatcctgacg cgttccggca gcagccgcag gccaaccggc tctccgcaat 9000 tctggaagcg gtggtcccgg cgcgcgcaaa ccccacgcac gagaaggtgc tggcgatcgt 9060 aaacgcgctg gccgaaaaca gggccatccg gcccgacgaa gccggcctgg tctacgacgc 9120 gctgcttcag cgcgtggctc gttacaacag cggcaacgtg cagaccaacc tggaccggct 9180 ggtgggggat gtgcgcgagg ccgtggcgca gcgtgagcgc gcgcagcagc agggcaacct 9240 gggctccatg gttgcactaa acgccttcct gagtacacag cccgccaacg tgccgcgggg 9300 acaggaggac tacaccaact ttgtgagcgc actgcggcta atggtgactg agacaccgca 9360 aagtgaggtg taccagtctg ggccagacta ttttttccag accagtagac aaggcctgca 9420 gaccgtaaac ctgagccagg ctttcaaaaa cttgcagggg ctgtgggggg tgcgggctcc 9480 cacaggcgac cgcgcgaccg tgtctagctt gctgacgccc aactcgcgcc tgttgctgct 9540 gctaatagcg cccttcacgg acagtggcag cgtgtcccgg gacacatacc taggtcactt 9600 gctgacactg taccgcgagg ccataggtca ggcgcatgtg gacgagcata ctttccagga 9660 gattacaagt gtcagccgcg cgctggggca ggaggacacg ggcagcctgg aggcaaccct 9720 aaactacctg ctgaccaacc ggcggcagaa gatcccctcg ttgcacagtt taaacagcga 9780 ggaggagcgc attttgcgct acgtgcagca gagcgtgagc cttaacctga tgcgcgacgg 9840 ggtaacgccc agcgtggcgc tggacatgac cgcgcgcaac atggaaccgg gcatgtatgc 9900 ctcaaaccgg ccgtttatca accgcctaat ggactacttg catcgcgcgg ccgccgtgaa 9960 ccccgagtat ttcaccaatg ccatcttgaa cccgcactgg ctaccgcccc ctggtttcta 10020 caccggggga ttcgaggtgc ccgagggtaa cgatggattc ctctgggacg acatagacga 10080 cagcgtgttt tccccgcaac cgcagaccct gctagagttg caacagcgcg agcaggcaga 10140 ggcggcgctg cgaaaggaaa gcttccgcag gccaagcagc ttgtccgatc taggcgctgc 10200 ggccccgcgg tcagatgcta gtagcccatt tccaagcttg atagggtctc ttaccagcac 10260 tcgcaccacc cgcccgcgcc tgctgggcga ggaggagtac ctaaacaact cgctgctgca 10320 gccgcagcgc gaaaaaaacc tgcctccggc atttcccaac aacgggatag agagcctagt 10380 ggacaagatg agtagatgga agacgtacgc gcaggagcac agggacgtgc caggcccgcg 10440 cccgcccacc cgtcgtcaaa ggcacgaccg tcagcggggt ctggtgtggg aggacgatga 10500 ctcggcagac gacagcagcg tcctggattt gggagggagt ggcaacccgt ttgcgcacct 10560 tcgccccagg ctggggagaa tgttttaaaa aaaaaaaagc atgatgcaaa ataaaaaact 10620 caccaaggcc atggcaccga gcgttggttt tcttgtattc cccttagtat gcggcgcgcg 10680 gcgatgtatg aggaaggtcc tcctccctcc tacgagagtg tggtgagcgc ggcgccagtg 10740 gcggcggcgc tgggttctcc cttcgatgct cccctggacc cgccgtttgt gcctccgcgg 10800 tacctgcggc ctaccggggg gagaaacagc atccgttact ctgagttggc acccctattc 10860 gacaccaccc gtgtgtacct ggtggacaac aagtcaacgg atgtggcatc cctgaactac 10920 cagaacgacc acagcaactt tctgaccacg gtcattcaaa acaatgacta cagcccgggg 10980 gaggcaagca cacagaccat caatcttgac gaccggtcgc actggggcgg cgacctgaaa 11040 accatcctgc ataccaacat gccaaatgtg aacgagttca tgtttaccaa taagtttaag 11100 gcgcgggtga tggtgtcgcg cttgcctact aaggacaatc aggtggagct gaaatacgag 11160 tgggtggagt tcacgctgcc cgagggcaac tactccgaga ccatgaccat agaccttatg 11220 aacaacgcga tcgtggagca ctacttgaaa gtgggcagac agaacggggt tctggaaagc 11280 gacatcgggg taaagtttga cacccgcaac ttcagactgg ggtttgaccc cgtcactggt 11340 cttgtcatgc ctggggtata tacaaacgaa gccttccatc cagacatcat tttgctgcca 11400 ggatgcgggg tggacttcac ccacagccgc ctgagcaact tgttgggcat ccgcaagcgg 11460 caacccttcc aggagggctt taggatcacc tacgatgatc tggagggtgg taacattccc 11520 gcactgttgg atgtggacgc ctaccaggcg agcttgaaag atgacaccga acagggcggg 11580 ggtggcgcag gcggcagcaa cagcagtggc agcggcgcgg aagagaactc caacgcggca 11640 gccgcggcaa tgcagccggt ggaggacatg aacgatcatg ccattcgcgg cgacaccttt 11700 gccacacggg ctgaggagaa gcgcgctgag gccgaagcag cggccgaagc tgccgccccc 11760 gctgcgcaac ccgaggtcga gaagcctcag aagaaaccgg tgatcaaacc cctgacagag 11820 gacagcaaga aacgcagtta caacctaata agcaatgaca gcaccttcac ccagtaccgc 11880 agctggtacc ttgcatacaa ctacggcgac cctcagaccg gaatccgctc atggaccctg 11940 ctttgcactc ctgacgtaac ctgcggctcg gagcaggtct actggtcgtt gccagacatg 12000 atgcaagacc ccgtgacctt ccgctccacg cgccagatca gcaactttcc ggtggtgggc 12060 gccgagctgt tgcccgtgca ctccaagagc ttctacaacg accaggccgt ctactcccaa 12120 ctcatccgcc agtttacctc tctgacccac gtgttcaatc gctttcccga gaaccagatt 12180 ttggcgcgcc cgccagcccc caccatcacc accgtcagtg aaaacgttcc tgctctcaca 12240 gatcacggga cgctaccgct gcgcaacagc atcggaggag tccagcgagt gaccattact 12300 gacgccagac gccgcacctg cccctacgtt tacaaggccc tgggcatagt ctcgccgcgc 12360 gtcctatcga gccgcacttt ttgagcaagc atgtccatcc ttatatcgcc cagcaataac 12420 acaggctggg gcctgcgctt cccaagcaag atgtttggcg gggccaagaa gcgctccgac 12480 caacacccag tgcgcgtgcg cgggcactac cgcgcgccct ggggcgcgca caaacgcggc 12540 cgcactgggc gcaccaccgt cgatgacgcc atcgacgcgg tggtggagga ggcgcgcaac 12600 tacacgccca cgccgccacc agtgtccaca gtggacgcgg ccattcagac cgtggtgcgc 12660 ggagcccggc gctatgctaa aatgaagaga cggcggaggc gcgtagcacg tcgccaccgc 12720 cgccgacccg gcactgccgc ccaacgcgcg gcggcggccc tgcttaaccg cgcacgtcgc 12780 accggccgac gggcggccat gcgggccgct cgaaggctgg ccgcgggtat tgtcactgtg 12840 ccccccaggt ccaggcgacg agcggccgcc gcagcagccg cggccattag tgctatgact 12900 cagggtcgca ggggcaacgt gtattgggtg cgcgactcgg ttagcggcct gcgcgtgccc 12960 gtgcgcaccc gccccccgcg caactagatt gcaagaaaaa actacttaga ctcgtactgt 13020 tgtatgtatc cagcggcggc ggcgcgcaac gaagctatgt ccaagcgcaa aatcaaagaa 13080 gagatgctcc aggtcatcgc gccggagatc tatggccccc cgaagaagga agagcaggat 13140 tacaagcccc gaaagctaaa gcgggtcaaa aagaaaaaga aagatgatga tgatgaactt 13200 gacgacgagg tggaactgct gcacgctacc gcgcccaggc gacgggtaca gtggaaaggt 13260 cgacgcgtaa aacgtgtttt gcgacccggc accaccgtag tctttacgcc cggtgagcgc 13320 tccacccgca cctacaagcg cgtgtatgat gaggtgtacg gcgacgagga cctgcttgag 13380 caggccaacg agcgcctcgg ggagtttgcc tacggaaagc ggcataagga catgctggcg 13440 ttgccgctgg acgagggcaa cccaacacct agcctaaagc ccgtaacact gcagcaggtg 13500 ctgcccgcgc ttgcaccgtc cgaagaaaag cgcggcctaa agcgcgagtc tggtgacttg 13560 gcacccaccg tgcagctgat ggtacccaag cgccagcgac tggaagatgt cttggaaaaa 13620 atgaccgtgg aacctgggct ggagcccgag gtccgcgtgc ggccaatcaa gcaggtggcg 13680 ccgggactgg gcgtgcagac cgtggacgtt cagataccca ctaccagtag caccagtatt 13740 gccaccgcca cagagggcat ggagacacaa acgtccccgg ttgcctcagc ggtggcggat 13800 gccgcggtgc aggcggtcgc tgcggccgcg tccaagacct ctacggaggt gcaaacggac 13860 ccgtggatgt ttcgcgtttc agccccccgg cgcccgcgcg gttcgaggaa gtacggcgcc 13920 gccagcgcgc tactgcccga atatgcccta catccttcca ttgcgcctac ccccggctat 13980 cgtggctaca cctaccgccc cagaagacga gcaactaccc gacgccgaac caccactgga 14040 acccgccgcc gccgtcgccg tcgccagccc gtgctggccc cgatttccgt gcgcagggtg 14100 gctcgcgaag gaggcaggac cctggtgctg ccaacagcgc gctaccaccc cagcatcgtt 14160 taaaagccgg tctttgtggt tcttgcagat atggccctca cctgccgcct ccgtttcccg 14220 gtgccgggat tccgaggaag aatgcaccgt aggaggggca tggccggcta cggcctgacg 14280 ggcggcatgc gtcgtgcgca ccaccggcgg cggcgcgcgt cgcaccgtcg catgcgcggc 14340 ggtatcctgc ccctccttat tccactgatc gccgcggcga ttggcgccgt gcccggaatt 14400 gcatccgtgg ccttgcaggc gcagagacac tgattaaaaa caagttgcat gtggaaaaat 14460 caaaataaaa agtctggact ctcacgctcg cttggtcctg taactatttt gtagaatgga 14520 agacatcaac tttgcgtctc tggccccgcg acacggctcg cgcccgttca tgggaaactg 14580 gcaagatatc ggcaccagca atatgagcgg tggcgccttc agctggggct cgctgtggag 14640 cggcattaaa aatttcggtt ccaccgttaa gaactatggc agcaaggcct ggaacagcag 14700 cacaggccag atgctgaggg ataagttgaa agagcaaaat ttccaacaaa aggtggtaga 14760 tggcctggcc tctggcatta gcggggtggt ggacctggcc aaccaggcag tgcaaaataa 14820 gattaacagt aagcttgatc cccgccctcc cgtagaggag cctccaccgg ccgtggagac 14880 agtgtctcca gaggggcgtg gcgaaaagcg tccgcgcccc gacagggaag aaactctggt 14940 gacgcaaata gacgagcctc cctcgtacga ggaggcacta aagcaaggcc tgcccaccac 15000 ccgtcccatc gcgcccatgg ctaccggagt gctgggccag cacacacccg taacgctgga 15060 cctgcctccc cccgccgaca cccagcagaa acctgtgctg ccaggcccga ccgccgttgt 15120 tgtaacccgt cctagccgcg cgtccctgcg ccgcgccgcc agcggtccgc gatcgttgcg 15180 gcccgtagcc agtggcaact ggcaaagcac actgaacagc atcgtgggtc tgggggtgca 15240 atccctgaag cgccgacgat gcttctgaat agctaacgtg tcgtatgtgt gtcatgtatg 15300 cgtccatgtc gccgccagag gagctgctga gccgccgcgc gcccgctttc caagatggct 15360 accccttcga tgatgccgca gtggtcttac atgcacatct cgggccagga cgcctcggag 15420 tacctgagcc ccgggctggt gcagtttgcc cgcgccaccg agacgtactt cagcctgaat 15480 aacaagttta gaaaccccac ggtggcgcct acgcacgacg tgaccacaga ccggtcccag 15540 cgtttgacgc tgcggttcat ccctgtggac cgtgaggata ctgcgtactc gtacaaggcg 15600 cggttcaccc tagctgtggg tgataaccgt gtgctggaca tggcttccac gtactttgac 15660 atccgcggcg tgctggacag gggccctact tttaagccct actctggcac tgcctacaac 15720 gccctggctc ccaagggtgc cccaaatcct tgcgaatggg atgaagctgc tactgctctt 15780 gaaataaacc tagaagaaga ggacgatgac aacgaagacg aagtagacga gcaagctgag 15840 cagcaaaaaa ctcacgtatt tgggcaggcg ccttattctg gtataaatat tacaaaggag 15900 ggtattcaaa taggtgtcga aggtcaaaca cctaaatatg ccgataaaac atttcaacct 15960 gaacctcaaa taggagaatc tcagtggtac gaaactgaaa ttaatcatgc agctgggaga 16020 gtccttaaaa agactacccc aatgaaacca tgttacggtt catatgcaaa acccacaaat 16080 gaaaatggag ggcaaggcat tcttgtaaag caacaaaatg gaaagctaga aagtcaagtg 16140 gaaatgcaat ttttctcaac tactgaggcg accgcaggca atggtgataa cttgactcct 16200 aaagtggtat tgtacagtga agatgtagat atagaaaccc cagacactca tatttcttac 16260 atgcccacta ttaaggaagg taactcacga gaactaatgg gccaacaatc tatgcccaac 16320 aggcctaatt acattgcttt tagggacaat tttattggtc taatgtatta caacagcacg 16380 ggtaatatgg gtgttctggc gggccaagca tcgcagttga atgctgttgt agatttgcaa 16440 gacagaaaca cagagctttc ataccagctt ttgcttgatt ccattggtga tagaaccagg 16500 tacttttcta tgtggaatca ggctgttgac agctatgatc cagatgttag aattattgaa 16560 aatcatggaa ctgaagatga acttccaaat tactgctttc cactgggagg tgtgattaat 16620 acagagactc ttaccaaggt aaaacctaaa acaggtcagg aaaatggatg ggaaaaagat 16680 gctacagaat tttcagataa aaatgaaata agagttggaa ataattttgc catggaaatc 16740 aatctaaatg ccaacctgtg gagaaatttc ctgtactcca acatagcgct gtatttgccc 16800 gacaagctaa agtacagtcc ttccaacgta aaaatttctg ataacccaaa cacctacgac 16860 tacatgaaca agcgagtggt ggctcccggg ttagtggact gctacattaa ccttggagca 16920 cgctggtccc ttgactatat ggacaacgtc aacccattta accaccaccg caatgctggc 16980 ctgcgctacc gctcaatgtt gctgggcaat ggtcgctatg tgcccttcca catccaggtg 17040 cctcagaagt tctttgccat taaaaacctc cttctcctgc cgggctcata cacctacgag 17100 tggaacttca ggaaggatgt taacatggtt ctgcagagct ccctaggaaa tgacctaagg 17160 gttgacggag ccagcattaa gtttgatagc atttgccttt acgccacctt cttccccatg 17220 gcccacaaca ccgcctccac gcttgaggcc atgcttagaa acgacaccaa cgaccagtcc 17280 tttaacgact atctctccgc cgccaacatg ctctacccta tacccgccaa cgctaccaac 17340 gtgcccatat ccatcccctc ccgcaactgg gcggctttcc gcggctgggc cttcacgcgc 17400 cttaagacta aggaaacccc atcactgggc tcgggctacg acccttatta cacctactct 17460 ggctctatac cctacctaga tggaaccttt tacctcaacc acacctttaa gaaggtggcc 17520 attacctttg actcttctgt cagctggcct ggcaatgacc gcctgcttac ccccaacgag 17580 tttgaaatta agcgctcagt tgacggggag ggttacaacg ttgcccagtg taacatgacc 17640 aaagactggt tcctggtaca aatgctagct aactacaaca ttggctacca gggcttctat 17700 atcccagaga gctacaagga ccgcatgtac tccttcttta gaaacttcca gcccatgagc 17760 cgtcaggtgg tggatgatac taaatacaag gactaccaac aggtgggcat cctacaccaa 17820 cacaacaact ctggatttgt tggctacctt gcccccacca tgcgcgaagg acaggcctac 17880 cctgctaact tcccctatcc gcttataggc aagaccgcag ttgacagcat tacccagaaa 17940 aagtttcttt gcgatcgcac cctttggcgc atcccattct ccagtaactt tatgtccatg 18000 ggcgcactca cagacctggg ccaaaacctt ctctacgcca actccgccca cgcgctagac 18060 atgacttttg aggtggatcc catggacgag cccacccttc tttatgtttt gtttgaagtc 18120 tttgacgtgg tccgtgtgca ccggccgcac cgcggcgtca tcgaaaccgt gtacctgcgc 18180 acgcccttct cggccggcaa cgccacaaca taaagaagca agcaacatca acaacagctg 18240 ccgccatggg ctccagtgag caggaactga aagccattgt caaagatctt ggttgtgggc 18300 catatttttt gggcacctat gacaagcgct ttccaggctt tgtttctcca cacaagctcg 18360 cctgcgccat agtcaatacg gccggtcgcg agactggggg cgtacactgg atggcctttg 18420 cctggaaccc gcactcaaaa acatgctacc tctttgagcc ctttggcttt tctgaccagc 18480 gactcaagca ggtttaccag tttgagtacg agtcactcct gcgccgtagc gccattgctt 18540 cttcccccga ccgctgtata acgctggaaa agtccaccca aagcgtacag gggcccaact 18600 cggccgcctg tggactattc tgctgcatgt ttctccacgc ctttgccaac tggccccaaa 18660 ctcccatgga tcacaacccc accatgaacc ttattaccgg ggtacccaac tccatgctca 18720 acagtcccca ggtacagccc accctgcgtc gcaaccagga acagctctac agcttcctgg 18780 agcgccactc gccctacttc cgcagccaca gtgcgcagat taggagcgcc acttcttttt 18840 gtcacttgaa aaacatgtaa aaataatgta ctagagacac tttcaataaa ggcaaatgct 18900 tttatttgta cactctcggg tgattattta cccccaccct tgccgtctgc gccgtttaaa 18960 aatcaaaggg gttctgccgc gcatcgctat gcgccactgg cagggacacg ttgcgatact 19020 ggtgtttagt gctccactta aactcaggca caaccatccg cggcagctcg gtgaagtttt 19080 cactccacag gctgcgcacc atcaccaacg cgtttagcag gtcgggcgcc gatatcttga 19140 agtcgcagtt ggggcctccg ccctgcgcgc gcgagttgcg atacacaggg ttgcagcact 19200 ggaacactat cagcgccggg tggtgcacgc tggccagcac gctcttgtcg gagatcagat 19260 ccgcgtccag gtcctccgcg ttgctcaggg cgaacggagt caactttggt agctgccttc 19320 ccaaaaaggg cgcgtgccca ggctttgagt tgcactcgca ccgtagtggc atcaaaaggt 19380 gaccgtgccc ggtctgggcg ttaggataca gcgcctgcat aaaagccttg atctgcttaa 19440 aagccacctg agcctttgcg ccttcagaga agaacatgcc gcaagacttg ccggaaaact 19500 gattggccgg acaggccgcg tcgtgcacgc agcaccttgc gtcggtgttg gagatctgca 19560 ccacatttcg gccccaccgg ttcttcacga tcttggcctt gctagactgc tccttcagcg 19620 cgcgctgccc gttttcgctc gtcacatcca tttcaatcac gtgctcctta tttatcataa 19680 tgcttccgtg tagacactta agctcgcctt cgatctcagc gcagcggtgc agccacaacg 19740 cgcagcccgt gggctcgtga tgcttgtagg tcacctctgc aaacgactgc aggtacgcct 19800 gcaggaatcg ccccatcatc gtcacaaagg tcttgttgct ggtgaaggtc agctgcaacc 19860 cgcggtgctc ctcgttcagc caggtcttgc atacggccgc cagagcttcc acttggtcag 19920 gcagtagttt gaagttcgcc tttagatcgt tatccacgtg gtacttgtcc atcagcgcgc 19980 gcgcagcctc catgcccttc tcccacgcag acacgatcgg cacactcagc gggttcatca 20040 ccgtaatttc actttccgct tcgctgggct cttcctcttc ctcttgcgtc cgcataccac 20100 gcgccactgg gtcgtcttca ttcagccgcc gcactgtgcg cttacctcct ttgccatgct 20160 tgattagcac cggtgggttg ctgaaaccca ccatttgtag cgccacatct tctctttctt 20220 cctcgctgtc cacgattacc tctggtgatg gcgggcgctc gggcttggga gaagggcgct 20280 tctttttctt cttgggcgca atggccaaat ccgccgccga ggtcgatggc cgcgggctgg 20340 gtgtgcgcgg caccagcgcg tcttgtgatg agtcttcctc gtcctcggac tcgatacgcc 20400 gcctcatccg cttttttggg ggcgcccggg gaggcggcgg cgacggggac ggggacgaca 20460 cgtcctccat ggttggggga cgtcgcgccg caccgcgtcc gcgctcgggg gtggtttcgc 20520 gctgctcctc ttcccgactg gccatttcct tctcctatag gcagaaaaag atcatggagt 20580 cagtcgagaa gaaggacagc ctaaccgccc cctctgagtt cgccaccacc gcctccaccg 20640 atgccgccaa cgcgcctacc accttccccg tcgaggcacc cccgcttgag gaggaggaag 20700 tgattatcga gcaggaccca ggttttgtaa gcgaagacga cgaggaccgc tcagtaccaa 20760 cagaggataa aaagcaagac caggacaacg cagaggcaaa cgaggaacaa gtcgggcggg 20820 gggacgaaag gcatggcgac tacctagatg tgggagacga cgtgctgttg aagcatctgc 20880 agcgccagtg cgccattatc tgcgacgcgt tgcaagagcg cagcgatgtg cccctcgcca 20940 tagcggatgt cagccttgcc tacgaacgcc acctattctc accgcgcgta ccccccaaac 21000 gccaagaaaa cggcacatgc gagcccaacc cgcgcctcaa cttctacccc gtatttgccg 21060 tgccagaggt gcttgccacc tatcacatct ttttccaaaa ctgcaagata cccctatcct 21120 gccgtgccaa ccgcagccga gcggacaagc agctggcctt gcggcagggc gctgtcatac 21180 ctgatatcgc ctcgctcaac gaagtgccaa aaatctttga gggtcttgga cgcgacgaga 21240 agcgcgcggc aaacgctctg caacaggaaa acagcgaaaa tgaaagtcac tctggagtgt 21300 tggtggaact cgagggtgac aacgcgcgcc tagccgtact aaaacgcagc atcgaggtca 21360 cccactttgc ctacccggca cttaacctac cccccaaggt catgagcaca gtcatgagtg 21420 agctgatcgt gcgccgtgcg cagcccctgg agagggatgc aaatttgcaa gaacaaacag 21480 aggagggcct acccgcagtt ggcgacgagc agctagcgcg ctggcttcaa acgcgcgagc 21540 ctgccgactt ggaggagcga cgcaaactaa tgatggccgc agtgctcgtt accgtggagc 21600 ttgagtgcat gcagcggttc tttgctgacc cggagatgca gcgcaagcta gaggaaacat 21660 tgcactacac ctttcgacag ggctacgtac gccaggcctg caagatctcc aacgtggagc 21720 tctgcaacct ggtctcctac cttggaattt tgcacgaaaa ccgccttggg caaaacgtgc 21780 ttcattccac gctcaagggc gaggcgcgcc gcgactacgt ccgcgactgc gtttacttat 21840 ttctatgcta cacctggcag acggccatgg gcgtttggca gcagtgcttg gaggagtgca 21900 acctcaagga gctgcagaaa ctgctaaagc aaaacttgaa ggacctatgg acggccttca 21960 acgagcgctc cgtggccgcg cacctggcgg acatcatttt ccccgaacgc ctgcttaaaa 22020 ccctgcaaca gggtctgcca gacttcacca gtcaaagcat gttgcagaac tttaggaact 22080 ttatcctaga gcgctcagga atcttgcccg ccacctgctg tgcacttcct agcgactttg 22140 tgcccattaa gtaccgcgaa tgccctccgc cgctttgggg ccactgctac cttctgcagc 22200 tagccaacta ccttgcctac cactctgaca taatggaaga cgtgagcggt gacggtctac 22260 tggagtgtca ctgtcgctgc aacctatgca ccccgcaccg ctccctggtt tgcaattcgc 22320 agctgcttaa cgaaagtcaa attatcggta cctttgagct gcagggtccc tcgcctgacg 22380 aaaagtccgc ggctccgggg ttgaaactca ctccggggct gtggacgtcg gcttaccttc 22440 gcaaatttgt acctgaggac taccacgccc acgagattag gttctacgaa gaccaatccc 22500 gcccgccaaa tgcggagctt accgcctgcg tcattaccca gggccacatt cttggccaat 22560 tgcaagccat caacaaagcc cgccaagagt ttctgctacg aaagggacgg ggggtttact 22620 tggaccccca gtccggcgag gagctcaacc caatcccccc gccgccgcag ccctatcagc 22680 agcagccgcg ggcccttgct tcccaggatg gcacccaaaa agaagctgca gctgccgccg 22740 ccacccacgg acgaggagga atactgggac agtcaggcag aggaggtttt ggacgaggag 22800 gaggaggaca tgatggaaga ctgggagagc ctagacgagg aagcttccga ggtcgaagag 22860 gtgtcagacg aaacaccgtc accctcggtc gcattcccct cgccggcgcc ccagaaatcg 22920 gcaaccggtt ccagcatggc tacaacctcc gctcctcagg cgccgccggc actgcccgtt 22980 cgccgaccca accgtagatg ggacaccact ggaaccaggg ccggtaagtc caagcagccg 23040 ccgccgttag cccaagagca acaacagcgc caaggctacc gctcatggcg cgggcacaag 23100 aacgccatag ttgcttgctt gcaagactgt gggggcaaca tctccttcgc ccgccgcttt 23160 cttctctacc atcacggcgt ggccttcccc cgtaacatcc tgcattacta ccgtcatctc 23220 tacagcccat actgcaccgg cggcagcggc agcggcagca acagcagcgg ccacacagaa 23280 gcaaaggcga ccggatagca agactctgac aaagcccaag aaatccacag cggcggcagc 23340 agcaggagga ggagcgctgc gtctggcgcc caacgaaccc gtatcgaccc gcgagcttag 23400 aaacaggatt tttcccactc tgtatgctat atttcaacag agcaggggcc aagaacaaga 23460 gctgaaaata aaaaacaggt ctctgcgatc cctcacccgc agctgcctgt atcacaaaag 23520 cgaagatcag cttcggcgca cgctggaaga cgcggaggct ctcttcagta aatactgcgc 23580 gctgactctt aaggactagt ttcgcgccct ttctcaaatt taagcgcgaa aactacgtca 23640 tctccagcgg ccacacccgg cgccagcacc tgtcgtcagc gccattatga gcaaggaaat 23700 tcccacgccc tacatgtgga gttaccagcc acaaatggga cttgcggctg gagctgccca 23760 agactactca acccgaataa actacatgag cgcgggaccc cacatgatat cccgggtcaa 23820 cggaatccgc gcccaccgaa accgaattct cttggaacag gcggctatta ccaccacacc 23880 tcgtaataac cttaatcccc gtagttggcc cgctgccctg gtgtaccagg aaagtcccgc 23940 tcccaccact gtggtacttc ccagagacgc ccaggccgaa gttcagatga ctaactcagg 24000 ggcgcagctt gcgggcggct ttcgtcacag ggtgcggtcg cccgggcagg gtataactca 24060 cctgacaatc agagggcgag gtattcagct caacgacgag tcggtgagct cctcgcttgg 24120 tctccgtccg gacgggacat ttcagatcgg cggcgccggc cgtccttcat tcacgcctcg 24180 tcaggcaatc ctaactctgc agacctcgtc ctctgagccg cgctctggag gcattggaac 24240 tctgcaattt attgaggagt ttgtgccatc ggtctacttt aaccccttct cgggacctcc 24300 cggccactat ccggatcaat ttattcctaa ctttgacgcg gtaaaggact cggcggacgg 24360 ctacgactga atgttaagtg gagaggcaga gcaactgcgc ctgaaacacc tggtccactg 24420 tcgccgccac aagtgctttg cccgcgactc cggtgagttt tgctactttg aattgcccga 24480 ggatcatatc gagggcccgg cgcacggcgt ccggcttacc gcccagggag agcttgcccg 24540 tagcctgatt cgggagttta cccagcgccc cctgctagtt gagcgggaca ggggaccctg 24600 tgttctcact gtgatttgca actgtcctaa ccttggatta catcaagatc ctctagttaa 24660 ttaacagctt gcatgcctgc aggtcgacgg atcgggagat ctcggccgca tattaagtgc 24720 attgttctcg ataccgctaa gtgcattgtt ctcgttagct cgatggacaa gtgcattgtt 24780 ctcttgctga aagctcgatg gacaagtgca ttgttctctt gctgaaagct cgatggacaa 24840 gtgcattgtt ctcttgctga aagctcagta cccgggagta ccctcgaccg ccggagtata 24900 aatagaggcg cttcgtctac ggagcgacaa ttcaattcaa acaagcaaag tgaacacgtc 24960 gctaagcgaa agctaagcaa ataaacaagc gcagctgaac aagctaaaca atctgcagta 25020 aagtgcaagt taaagtgaat caattaaaag taaccagcaa ccaagtaaat caactgcaac 25080 tactgaaatc tgccaagaag taattattga atacaagaag agaactctga atactttcaa 25140 caagttaccg agaaagaaga actcacacac agctagcgtt taaacttaag cttcaccatg 25200 gtggggccct gcatgctgct gctgctgctg ctgctgggcc tgaggctaca gctctccctg 25260 ggcatcatcc tagttgagga ggagaacccg gacttctgga accgcgaggc agccgaggcc 25320 ctgggtgccg ccaagaagct gcagcctgca cagacagccg ccaagaacct catcatcttc 25380 ctgggcgatg gggtgggggt gtctacggtg acagctgcca ggatcctaaa agggcagaag 25440 aaggacaaac tggggcctga gatacccctg gccatggacc gcttcccata tgtggctctg 25500 tccaagacat acaatgtaga caaacatgtg ccagacagtg gagccacagc cacggcctac 25560 ctgtgcgggg tcaagggcaa cttccagacc attggcttga gtgcagccgc ccgctttaac 25620 cagtgcaaca cgacacgcgg caacgaggtc atctccgtga tgaatcgggc caagaaagca 25680 gggaagtcag tgggagtggt aaccaccaca cgagtgcagc acgcctcgcc agccggcacc 25740 tacgcccaca cggtgaaccg caactggtac tcggacgccg acgtgcctgc ctcggcccgc 25800 caggaggggt gccaggacat cgctacgcag ctcatctcca acatggacat tgacgtgatc 25860 ctaggtgggg gccgaaagta catgtttcgc atgggaaccc cagaccctga gtacccagat 25920 gactacagcc aaggtgggac caggctggac gggaagaatc tggtgcagga atggctggcg 25980 aagcaccagg gtgcccggta cgtgtggaac cgcactgagc tcatgcgggc ttccctggac 26040 ccgtctgtgg cccatctcat gggtctcttt gagcctggag acatgaaata cgagatccac 26100 cgagactcca cactggaccc ctccctgatg gagatgacag aggctgccct gcgcctgctg 26160 agcaggaacc cccgcggctt cttcctcttc gtggagggtg gtcgcatcga ccatggtcat 26220 catgaaagca gggcttaccg ggcactgact gagacgatca tgttcgacga cgccattgag 26280 agggcgggcc agctcaccag cgaggaggac acgctgagcc tcgtcactgc cgaccactcc 26340 cacgtcttct ccttcggagg ctgccccctg cgagggggct ccatcttcgg gctggcccct 26400 ggcaaggccc gggacaggaa ggcctacacg gtcctcctat acggaaacgg tccaggctat 26460 gtgctcaagg acggcgcccg gccggatgtt accgagagcg agagcgggag ccccgagtat 26520 cggcagcagt cagcagtgcc cctggacgaa gagacccacg caggcgagga cgtggcggtg 26580 ttcgcgcgcg gcccgcaggc gcacctggtt cacggcgtgc aggagcagac cttcatagcg 26640 cacgtcatgg ccttcgccgc ctgcctggag ccctacaccg cctgcgacct ggcgcccccc 26700 gccggcacca ccgacgccgc gcacccgggg cggtccgtgg tccccgcgtt gcttcctctg 26760 ctggccggga ccctgctgct gctggagacg gccactgctc cctgagtgtc ccgtccctgg 26820 ggctcctgct tccccatccc ggagttctcc tgctccccgc ctcctgtcgt cctgcctggc 26880 ctccagcccg agtcgtcatc cccggagtcc ctatacagag gtcctgccat ggaaccttcc 26940 cctccccgtg cgctctgggg actgagccca tgacaccaaa cctgcccctt ggctgctctc 27000 ggactcccta ccccaacccc agggacagat ctggccagat ttgtaaaaca aatagatttt 27060 aggcccaaag attatttaaa gcattgcctg gaacgcagtg agtttttgtt agaaaagaga 27120 ataattcaaa gtggcattgc tttgcttctt atgttaattt ggtacagacc tgtggctgag 27180 tttgctcaaa gtattcagag cagaattgtg gagtggaaag agagattgga caaagagttt 27240 agtttgtcag tgtatcaaaa aatgaagttt aatgtggcta tgggaattgg agttttagat 27300 tggctaagaa acagtgatga tgatgatgaa gacagccagg aaaatgctga taaaaatgaa 27360 gatggtgggg agaagaacat ggaagactca gggcatgaaa caggcattga ttcacagtcc 27420 caaggctcat ttcaggcccc tcagtcctca cagtctgttc atgatcataa tcagccatac 27480 cacatttgta gaggttttac ttgctttaaa aaacctccca cacctccccc tgaacctgaa 27540 acataaaatg aatgcaattg ttgttgttaa cttgtttatt gcagcttata atggttacaa 27600 ataaagcaat agcatcacaa atttcacaaa taaagcattt ttttcactgc attctagttg 27660 tggtttgtcc aaactcatca atgtatctta tcatgtctgg atccccagga agctcctctg 27720 tgtcctcata aaccctaacc tcctctactt gagaggacat tccaatcata ggctgcccat 27780 ccaccctctg tgtcctcctg ttaattaggt cacttaacaa aaaggaaatt gggtaggggt 27840 ttttcacaga ccgctttcta agggtaattt taaaatatct gggaagtccc ttccactgct 27900 gtgttccaga agtgttggta aacagcccac aaatgtcaac agcagaaaca tacaagctgt 27960 cagctttgca caagggccca acaccctgct catcaagaag cactgtggtt gctgtgttag 28020 taatgtgcaa aacaggaggc acattttccc cacctgtgta ggttccaaaa tatctagtgt 28080 tttcattttt acttggatca ggaacccagc actccactgg ataagcatta tccttatcca 28140 aaacagcctt gtggtcagtg ttcatctgct gactgtcaac tgtagcattt tttggggtta 28200 cagtttgagc aggatatttg gtcctgtagt ttgctaacac accctgcagc tccaaaggtt 28260 ccccaccaac agcaaaaaaa tgaaaatttg acccttgaat gggttttcca gcaccatttt 28320 catgagtttt ttgtgtccct gaatgcaagt ttaacatagc agttacccca ataacctcag 28380 ttttaacagt aacagcttcc cacatcaaaa tatttccaca ggttaagtcc tcatttaaat 28440 taggcaaagg aattccactt cccactgcct tgcttccgtc tcccattcaa acttttatca 28500 actgacatta ttctaagtaa aatcctcttc attatgttgt cagcaatcca ttgcttgaag 28560 gcctggctcc ccagaacccc tcgactggta tgtcttctcc tagaatactc cagaagaaaa 28620 ggagtgtatg aagatagtga ctgcacatta aaatgactga aaccatagta aattaggatg 28680 agattctggg cagataaaca gacagctggc taggatcatt tttttatgcc ttggacttct 28740 ttggcaatct gttgaagcct gacattcctc agaataatgt tttaaagccc aacaataaga 28800 ccctgtagca catataataa gtactgcagt tttgaagtag tgataagcat aaatgatatt 28860 ttgatatatt tattataact gtaatgagat gtgtacatat ctgtgacttc ataggtactg 28920 attgtactac tgtgattttt ttgcctactt tcaaaatgaa aaggaatgct taatttcagt 28980 tagaggttag taaagacaaa taggtaattt tcttctccag tgaagagcat ggcgcccctt 29040 gctattcatg gacgcttgct taaagacttg tacacaggct tgctttgtat caacctatga 29100 cttcccctta cagccgatga taggttttta tttgcacctc cttcgtgtac aaagacagtt 29160 ttggtggcta cgccatcatt aaactcatta ttatcatgct taagcctata gatgtatcca 29220 gttcttctgt tacataattg aagctgtagt gaattgtcta tcttaaactg catcgctaac 29280 tgactacatt tcacacttca tttgcttcca acatagacta accttcttgg atgtccacta 29340 ttatttgaac ttttgagatt ttttttccta tttctaatat cttaaaattt cagaagactt 29400 aaagttttgc aactacaggg ctccatatag acatctagct tgaatttata cactttcttt 29460 cattgatgtc cctggactaa aaaatgttaa atatttctaa ccgctgtact taaagtccat 29520 tacaaacgaa gactactgtt gttaagttga ataggcatct tatatatttt tcaccggtgc 29580 aataaataac ttctattccc ttctaacatc tgcttgcgtt gcactgagag tacactattg 29640 attagcaata ggttcgtgat tacagccctt ctataattaa ttgttaggtt aacatattat 29700 tcataaaata ttattttatt aatttttact tgatttgcta ctggatgctt agaaatagct 29760 atgagtatat tggtagaacc agtacttata ttttattaca tttttacatt tcataaaatt 29820 taagtgatat aaaaatcctg aggaagtatg ccacaaaagt ggtctcagtg gaaatttaaa 29880 tatgttaaca tttattttta aaatgtagcg tgaaatagac aactttaaaa gctcagctta 29940 aaaaaaaaac tcaaggaagc tgaacttgac tttttaaagc actgaagtgc aatatttaat 30000 gtaggtcaac atgtttaaat gggaaaattt ttttcctaat tacagccaaa tccctagctg 30060 taattaactt aaaatttgta tactatttca caacagagtc agcatatacc actttcttat 30120 aaaattagaa agatctaaaa ttttagagct tatttggtga aacaggcata ttgctacatc 30180 tttgtttata aattataatg tgcctttaga gcccaataac agataacaag attttgaaaa 30240 ttcaggtgaa ttagagttat cagagggaat gttaatacac tctattcaaa tactatatga 30300 gtaagacatt taaaatagga aacaatactt tatatattaa aaaaaattaa tcttccagtc 30360 gatttaatcc actttatgaa ttcatttaaa tcgatttaaa ttcgaattaa ttaactagag 30420 tacccgggga tcttattccc tttaactaat aaaaaaaaat aataaagcat cacttactta 30480 aaatcagtta gcaaatttct gtccagttta ttcagcagca cctccttgcc ctcctcccag 30540 ctctggtatt gcagcttcct cctggctgca aactttctcc acaatctaaa tggaatgtca 30600 gtttcctcct gttcctgtcc atccgcaccc actatcttca tgttgttgca gatgaagcgc 30660 gcaagaccgt ctgaagatac cttcaacccc gtgtatccat atgacacgga aaccggtcct 30720 ccaactgtgc cttttcttac tcctcccttt gtatccccca atgggtttca agagagtccc 30780 cctggggtac tctctttgcg cctatccgaa cctctagtta cctccaatgg catgcttgcg 30840 ctcaaaatgg gcaacggcct ctctctggac gaggccggca accttacctc ccaaaatgta 30900 accactgtga gcccacctct caaaaaaacc aagtcaaaca taaacctgga aatatctgca 30960 cccctcacag ttacctcaga agccctaact gtggctgccg ccgcacctct aatggtcgcg 31020 ggcaacacac tcaccatgca atcacaggcc ccgctaaccg tgcacgactc caaacttagc 31080 attgccaccc aaggacccct cacagtgtca gaaggaaagc tagccctgca aacatcaggc 31140 cccctcacca ccaccgatag cagtaccctt actatcactg cctcaccccc tctaactact 31200 gccactggta gcttgggcat tgacttgaaa gagcccattt atacacaaaa tggaaaacta 31260 ggactaaagt acggggctcc tttgcatgta acagacgacc taaacacttt gaccgtagca 31320 actggtccag gtgtgactat taataatact tccttgcaaa ctaaagttac tggagccttg 31380 ggttttgatt cacaaggcaa tatgcaactt aatgtagcag gaggactaag gattgattct 31440 caaaacagac gccttatact tgatgttagt tatccgtttg atgctcaaaa ccaactaaat 31500 ctaagactag gacagggccc tctttttata aactcagccc acaacttgga tattaactac 31560 aacaaaggcc tttacttgtt tacagcttca aacaattcca aaaagcttga ggttaaccta 31620 agcactgcca aggggttgat gtttgacgct acagccatag ccattaatgc aggagatggg 31680 cttgaatttg gttcacctaa tgcaccaaac acaaatcccc tcaaaacaaa aattggccat 31740 ggcctagaat ttgattcaaa caaggctatg gttcctaaac taggaactgg ccttagtttt 31800 gacagcacag gtgccattac agtaggaaac aaaaataatg ataagctaac tttgtggacc 31860 acaccagctc catctcctaa ctgtagacta aatgcagaga aagatgctaa actcactttg 31920 gtcttaacaa aatgtggcag tcaaatactt gctacagttt cagttttggc tgttaaaggc 31980 agtttggctc caatatctgg aacagttcaa agtgctcatc ttattataag atttgacgaa 32040 aatggagtgc tactaaacaa ttccttcctg gacccagaat attggaactt tagaaatgga 32100 gatcttactg aaggcacagc ctatacaaac gctgttggat ttatgcctaa cctatcagct 32160 tatccaaaat ctcacggtaa aactgccaaa agtaacattg tcagtcaagt ttacttaaac 32220 ggagacaaaa ctaaacctgt aacactaacc attacactaa acggtacaca ggaaacagga 32280 gacacaactc caagtgcata ctctatgtca ttttcatggg actggtctgg ccacaactac 32340 attaatgaaa tatttgccac atcctcttac actttttcat acattgccca agaataaaga 32400 atcgtttgtg ttatgtttca acgtgtttat ttttcaattg cagaaaattt caagtcattt 32460 ttcattcagt agtatagccc caccaccaca tagcttatac agatcaccgt accttaatca 32520 aactcacaga accctagtat tcaacctgcc acctccctcc caacacacag agtacacagt 32580 cctttctccc cggctggcct taaaaagcat catatcatgg gtaacagaca tattcttagg 32640 tgttatattc cacacggttt cctgtcgagc caaacgctca tcagtgatat taataaactc 32700 cccgggcagc tcacttaagt tcatgtcgct gtccagctgc tgagccacag gctgctgtcc 32760 aacttgcggt tgcttaacgg gcggcgaagg agaagtccac gcctacatgg gggtagagtc 32820 ataatcgtgc atcaggatag ggcggtggtg ctgcagcagc gcgcgaataa actgctgccg 32880 ccgccgctcc gtcctgcagg aatacaacat ggcagtggtc tcctcagcga tgattcgcac 32940 cgcccgcagc ataaggcgcc ttgtcctccg ggcacagcag cgcaccctga tctcacttaa 33000 atcagcacag taactgcagc acagcaccac aatattgttc aaaatcccac agtgcaaggc 33060 gctgtatcca aagctcatgg cggggaccac agaacccacg tggccatcat accacaagcg 33120 caggtagatt aagtggcgac ccctcataaa cacgctggac ataaacatta cctcttttgg 33180 catgttgtaa ttcaccacct cccggtacca tataaacctc tgattaaaca tggcgccatc 33240 caccaccatc ctaaaccagc tggccaaaac ctgcccgccg gctatacact gcagggaacc 33300 gggactggaa caatgacagt ggagagccca ggactcgtaa ccatggatca tcatgctcgt 33360 catgatatca atgttggcac aacacaggca cacgtgcata cacttcctca ggattacaag 33420 ctcctcccgc gttagaacca tatcccaggg aacaacccat tcctgaatca gcgtaaatcc 33480 cacactgcag ggaagacctc gcacgtaact cacgttgtgc attgtcaaag tgttacattc 33540 gggcagcagc ggatgatcct ccagtatggt agcgcgggtt tctgtctcaa aaggaggtag 33600 acgatcccta ctgtacggag tgcgccgaga caaccgagat cgtgttggtc gtagtgtcat 33660 gccaaatgga acgccggacg tagtcatatt tcctgaagca aaaccaggtg cgggcgtgac 33720 aaacagatct gcgtctccgg tctcgccgct tagatcgctc tgtgtagtag ttgtagtata 33780 tccactctct caaagcatcc aggcgccccc tggcttcggg ttctatgtaa actccttcat 33840 gcgccgctgc cctgataaca tccaccaccg cagaataagc cacacccagc caacctacac 33900 attcgttctg cgagtcacac acgggaggag cgggaagagc tggaagaacc atgttttttt 33960 ttttattcca aaagattatc caaaacctca aaatgaagat ctattaagtg aacgcgctcc 34020 cctccggtgg cgtggtcaaa ctctacagcc aaagaacaga taatggcatt tgtaagatgt 34080 tgcacaatgg cttccaaaag gcaaacggcc ctcacgtcca agtggacgta aaggctaaac 34140 ccttcagggt gaatctcctc tataaacatt ccagcacctt caaccatgcc caaataattc 34200 tcatctcgcc accttctcaa tatatctcta agcaaatccc gaatattaag tccggccatt 34260 gtaaaaatct gctccagagc gccctccacc ttcagcctca agcagcgaat catgattgca 34320 aaaattcagg ttcctcacag acctgtataa gattcaaaag cggaacatta acaaaaatac 34380 cgcgatcccg taggtccctt cgcagggcca gctgaacata atcgtgcagg tctgcacgga 34440 ccagcgcggc cacttccccg ccaggaacct tgacaaaaga acccacactg attatgacac 34500 gcatactcgg agctatgcta accagcgtag ccccgatgta agctttgttg catgggcggc 34560 gatataaaat gcaaggtgct gctcaaaaaa tcaggcaaag cctcgcgcaa aaaagaaagc 34620 acatcgtagt catgctcatg cagataaagg caggtaagct ccggaaccac cacagaaaaa 34680 gacaccattt ttctctcaaa catgtctgcg ggtttctgca taaacacaaa ataaaataac 34740 aaaaaaacat ttaaacatta gaagcctgtc ttacaacagg aaaaacaacc cttataagca 34800 taagacggac tacggccatg ccggcgtgac cgtaaaaaaa ctggtcaccg tgattaaaaa 34860 gcaccaccga cagctcctcg gtcatgtccg gagtcataat gtaagactcg gtaaacacat 34920 caggttgatt catcggtcag tgctaaaaag cgaccgaaat agcccggggg aatacatacc 34980 cgcaggcgta gagacaacat tacagccccc ataggaggta taacaaaatt aataggagag 35040 aaaaacacat aaacacctga aaaaccctcc tgcctaggca aaatagcacc ctcccgctcc 35100 agaacaacat acagcgcttc acagcggcag cctaacagtc agccttacca gtaaaaaaga 35160 aaacctatta aaaaaacacc actcgacacg gcaccagctc aatcagtcac agtgtaaaaa 35220 agggccaagt gcagagcgag tatatatagg actaaaaaat gacgtaacgg ttaaagtcca 35280 caaaaaacac ccagaaaacc gcacgcgaac ctacgcccag aaacgaaagc caaaaaaccc 35340 acaacttcct caaatcgtca cttccgtttt cccacgttac gtaacttccc attttaagaa 35400 aactacaatt cccaacacat acaagttact ccgccctaaa acctacgtca cccgccccgt 35460 tcccacgccc cgcgccacgt cacaaactcc accccctcat tatcatattg gcttcaatcc 35520 aaaataaggt atattattga tgatggccgg ccgaattgaa tcaggggata acgcaggaaa 35580 gaacatgtga gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc 35640 gtttttccat aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag 35700 gtggcgaaac ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt 35760 gcgctctcct gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg 35820 aagcgtggcg ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg 35880 ctccaagctg ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg 35940 taactatcgt cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac 36000 tggtaacagg attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg 36060 gcctaactac ggctacacta gaaggacagt atttggtatc tgcgctctgc tgaagccagt 36120 taccttcgga aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg 36180 tggttttttt gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc 36240 tttgatcttt tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt 36300 ggtcatgaga ttatcaaaaa ggatcttcac ctagatcctt ttaaattaaa aatgaagttt 36360 taaatcaatc taaagtatat atgagtaaac ttggtctgac agttaccaat gcttaatcag 36420 tgaggcacct atctcagcga tctgtctatt tcgttcatcc atagttgcct gactccccgt 36480 cgtgtagata actacgatac gggagggctt accatctggc cccagtgctg caatgatacc 36540 gcgagaccca cgctcaccgg ctccagattt atcagcaata aaccagccag ccggaagggc 36600 cgagcgcaga agtggtcctg caactttatc cgcctccatc cagtctatta attgttgccg 36660 ggaagctaga gtaagtagtt cgccagttaa tagtttgcgc aacgttgttg ccattgctac 36720 aggcatcgtg gtgtcacgct cgtcgtttgg tatggcttca ttcagctccg gttcccaacg 36780 atcaaggcga gttacatgat cccccatgtt gtgcaaaaaa gcggttagct ccttcggtcc 36840 tccgatcgtt gtcagaagta agttggccgc agtgttatca ctcatggtta tggcagcact 36900 gcataattct cttactgtca tgccatccgt aagatgcttt tctgtgactg gtgagtactc 36960 aaccaagtca ttctgagaat agtgtatgcg gcgaccgagt tgctcttgcc cggcgtcaat 37020 acgggataat accgcgccac atagcagaac tttaaaagtg ctcatcattg gaaaacgttc 37080 ttcggggcga aaactctcaa ggatcttacc gctgttgaga tccagttcga tgtaacccac 37140 tcgtgcaccc aactgatctt cagcatcttt tactttcacc agcgtttctg ggtgagcaaa 37200 aacaggaagg caaaatgccg caaaaaaggg aataagggcg acacggaaat gttgaatact 37260 catactcttc ctttttcaat attattgaag catttatcag ggttattgtc tcatgagcgg 37320 atacatattt gaatgtattt agaaaaataa acaaataggg gttccgcgca catttccccg 37380 aaaagtgcca c 37391 <210> SEQ ID NO 16 <400> SEQUENCE: 16 000 <210> SEQ ID NO 17 <211> LENGTH: 671 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 17 Met Ala Leu Ser Val Asn Asp Cys Ala Arg Leu Thr Gly Gln Ser Val 1 5 10 15 Pro Thr Met Glu His Phe Leu Pro Leu Arg Asn Ile Trp Asn Arg Val 20 25 30 Arg Asp Phe Pro Arg Ala Ser Thr Thr Ala Ala Gly Ile Thr Trp Met 35 40 45 Ser Arg Tyr Ile Tyr Gly Tyr His Arg Leu Met Leu Glu Asp Leu Ala 50 55 60 Pro Gly Ala Pro Ala Thr Leu Arg Trp Pro Leu Tyr Arg Gln Pro Pro 65 70 75 80 Pro His Phe Leu Val Gly Tyr Gln Tyr Leu Val Arg Thr Cys Asn Asp 85 90 95 Tyr Val Phe Asp Ser Arg Ala Tyr Ser Arg Leu Arg Tyr Thr Glu Leu 100 105 110 Ser Gln Pro Gly His Gln Thr Val Asn Trp Ser Val Met Ala Asn Cys 115 120 125 Thr Tyr Thr Ile Asn Thr Gly Ala Tyr His Arg Phe Val Asp Met Asp 130 135 140 Asp Phe Gln Ser Thr Leu Thr Gln Val Gln Gln Ala Ile Leu Ala Glu 145 150 155 160 Arg Val Val Ala Asp Leu Ala Leu Leu Gln Pro Met Arg Gly Phe Gly 165 170 175 Val Thr Arg Met Gly Gly Arg Gly Arg His Leu Arg Pro Asn Ser Ala 180 185 190 Ala Ala Val Ala Ile Asp Ala Arg Asp Ala Gly Gln Glu Glu Gly Glu 195 200 205 Glu Glu Val Pro Val Glu Arg Leu Met Gln Asp Tyr Tyr Lys Asp Leu 210 215 220 Arg Arg Cys Gln Asn Glu Ala Trp Gly Met Ala Asp Arg Leu Arg Ile 225 230 235 240 Gln Gln Ala Gly Pro Lys Asp Met Val Leu Leu Ser Thr Ile Arg Arg 245 250 255 Leu Lys Thr Ala Tyr Phe Asn Tyr Ile Ile Ser Ser Thr Ser Ala Arg 260 265 270 Asn Asn Pro Asp Arg His Pro Leu Pro Pro Ala Thr Val Leu Ser Leu 275 280 285 Pro Cys Asp Cys Asp Trp Leu Asp Ala Phe Leu Glu Arg Phe Ser Asp 290 295 300 Pro Val Asp Ala Asp Ser Leu Arg Ser Leu Gly Gly Gly Val Pro Thr 305 310 315 320 Gln Gln Leu Leu Arg Cys Ile Val Ser Ala Val Ser Leu Pro His Gly 325 330 335 Ser Pro Pro Pro Thr His Asn Arg Asp Met Thr Gly Gly Val Phe Gln 340 345 350 Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr Met Arg Arg 355 360 365 Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu Pro Val Arg 370 375 380 Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro Glu Glu Glu 385 390 395 400 Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu Glu Ala 405 410 415 Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala Glu Leu Ile 420 425 430 Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn Ser Gln Phe 435 440 445 Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg Leu Glu Ala 450 455 460 Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val Met Tyr Phe 465 470 475 480 Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu Phe Gln Arg 485 490 495 Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu Asn Leu Ala 500 505 510 Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val Val Tyr Ser 515 520 525 Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln Leu Met Ala 530 535 540 Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala Gly Arg Gly 545 550 555 560 Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu Ile Ala Tyr 565 570 575 Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln Ala Ala Val 580 585 590 Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg Phe Lys Leu 595 600 605 Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln Glu Ile Asn 610 615 620 Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln His Gln Leu 625 630 635 640 Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu Pro Ala Gly 645 650 655 Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His Arg Phe 660 665 670 <210> SEQ ID NO 18 <211> LENGTH: 322 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 18 Val Phe Gln Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr 1 5 10 15 Met Arg Arg Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu 20 25 30 Pro Val Arg Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro 35 40 45 Glu Glu Glu Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu 50 55 60 Glu Glu Ala Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala 65 70 75 80 Glu Leu Ile Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn 85 90 95 Ser Gln Phe Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg 100 105 110 Leu Glu Ala Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val 115 120 125 Met Tyr Phe Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu 130 135 140 Phe Gln Arg Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu 145 150 155 160 Asn Leu Ala Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val 165 170 175 Val Tyr Ser Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln 180 185 190 Leu Met Ala Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala 195 200 205 Gly Arg Gly Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu 210 215 220 Ile Ala Tyr Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln 225 230 235 240 Ala Ala Val Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg 245 250 255 Phe Lys Leu Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln 260 265 270 Glu Ile Asn Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln 275 280 285 His Gln Leu Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu 290 295 300 Pro Ala Gly Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His 305 310 315 320 Arg Phe <210> SEQ ID NO 19 <211> LENGTH: 671 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 19 Met Ala Leu Ser Val Asn Asp Cys Ala Arg Leu Thr Gly Gln Ser Val 1 5 10 15 Pro Thr Met Glu His Phe Leu Pro Leu Arg Asn Ile Trp Asn Arg Val 20 25 30 Arg Asp Phe Pro Arg Ala Ser Thr Thr Ala Ala Gly Ile Thr Trp Met 35 40 45 Ser Arg Tyr Ile Tyr Gly Tyr His Arg Leu Met Leu Glu Asp Leu Ala 50 55 60 Pro Gly Ala Pro Ala Thr Leu Arg Trp Pro Leu Tyr Arg Gln Pro Pro 65 70 75 80 Pro His Phe Leu Val Gly Tyr Gln Tyr Leu Val Arg Thr Cys Asn Asp 85 90 95 Tyr Val Phe Asp Ser Arg Ala Tyr Ser Arg Leu Arg Tyr Thr Glu Leu 100 105 110 Ser Gln Pro Gly His Gln Thr Val Asn Trp Ser Val Met Ala Asn Cys 115 120 125 Thr Tyr Thr Ile Asn Thr Gly Ala Tyr His Arg Phe Val Asp Met Asp 130 135 140 Asp Phe Gln Ser Thr Leu Thr Gln Val Gln Gln Ala Ile Leu Ala Glu 145 150 155 160 Arg Val Val Ala Asp Leu Ala Leu Leu Gln Pro Met Arg Gly Phe Gly 165 170 175 Val Thr Arg Met Gly Gly Arg Gly Arg His Leu Arg Pro Asn Ser Ala 180 185 190 Ala Ala Ala Ala Ile Asp Ala Arg Asp Ala Gly Gln Glu Glu Gly Glu 195 200 205 Glu Glu Val Pro Val Glu Arg Leu Met Gln Asp Tyr Tyr Lys Asp Leu 210 215 220 Arg Arg Cys Gln Asn Glu Ala Trp Gly Met Ala Asp Arg Leu Arg Ile 225 230 235 240 Gln Gln Ala Gly Pro Lys Asp Met Val Leu Leu Ser Thr Ile Arg Arg 245 250 255 Leu Lys Thr Ala Tyr Phe Asn Tyr Ile Ile Ser Ser Thr Ser Ala Arg 260 265 270 Asn Asn Pro Asp Arg Arg Pro Leu Pro Pro Ala Thr Val Leu Ser Leu 275 280 285 Pro Cys Asp Cys Asp Trp Leu Asp Ala Phe Leu Glu Arg Phe Ser Asp 290 295 300 Pro Val Asp Ala Asp Ser Leu Arg Ser Leu Gly Gly Gly Val Pro Thr 305 310 315 320 Gln Gln Leu Leu Arg Cys Ile Val Ser Ala Val Ser Leu Pro His Gly 325 330 335 Ser Pro Pro Pro Thr His Asn Arg Asp Met Thr Gly Gly Val Phe Gln 340 345 350 Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr Met Arg Arg 355 360 365 Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu Pro Val Arg 370 375 380 Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro Glu Glu Glu 385 390 395 400 Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu Glu Glu Ala 405 410 415 Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala Glu Leu Ile 420 425 430 Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn Ser Gln Phe 435 440 445 Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg Leu Glu Ala 450 455 460 Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val Met Tyr Phe 465 470 475 480 Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu Phe Gln Arg 485 490 495 Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu Asn Leu Ala 500 505 510 Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val Val Tyr Ser 515 520 525 Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln Leu Met Ala 530 535 540 Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala Gly Arg Gly 545 550 555 560 Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu Ile Ala Tyr 565 570 575 Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln Ala Ala Val 580 585 590 Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg Leu Lys Leu 595 600 605 Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln Glu Ile Asn 610 615 620 Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln His Gln Leu 625 630 635 640 Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu Pro Ala Gly 645 650 655 Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His Arg Phe 660 665 670 <210> SEQ ID NO 20 <211> LENGTH: 322 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 20 Val Phe Gln Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr 1 5 10 15 Met Arg Arg Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu 20 25 30 Pro Val Arg Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro 35 40 45 Glu Glu Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu 50 55 60 Glu Glu Ala Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala 65 70 75 80 Glu Leu Ile Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn 85 90 95 Ser Gln Phe Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg 100 105 110 Leu Glu Ala Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val 115 120 125 Met Tyr Phe Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu 130 135 140 Phe Gln Arg Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu 145 150 155 160 Asn Leu Ala Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val 165 170 175 Val Tyr Ser Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln 180 185 190 Leu Met Ala Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala 195 200 205 Gly Arg Gly Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu 210 215 220 Ile Ala Tyr Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln 225 230 235 240 Ala Ala Val Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg 245 250 255 Leu Lys Leu Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln 260 265 270 Glu Ile Asn Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln 275 280 285 His Gln Leu Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu 290 295 300 Pro Ala Gly Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His 305 310 315 320 Arg Phe <210> SEQ ID NO 21 <211> LENGTH: 12 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 21 catcatcaat aa 12 <210> SEQ ID NO 22 <211> LENGTH: 12 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 22 gtagtagtta tt 12 <210> SEQ ID NO 23 <211> LENGTH: 15 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 23 taacatcatc aataa 15 <210> SEQ ID NO 24 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 24 taattgtagt agttatt 17 <210> SEQ ID NO 25 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 25 ccatcatcaa taa 13 <210> SEQ ID NO 26 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 26 ggccggtagt agttatt 17 <210> SEQ ID NO 27 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 27 gacgaggccg gcctggtc 18 <210> SEQ ID NO 28 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 28 ggcatggccg gccacggc 18 <210> SEQ ID NO 29 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 29 gacgaagccg gcctggtc 18 <210> SEQ ID NO 30 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 30 ggcatggccg gctacggc 18 <210> SEQ ID NO 31 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 31 ccatcatcaa taa 13 <210> SEQ ID NO 32 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 32 ggccggtagt agttatt 17 <210> SEQ ID NO 33 <211> LENGTH: 22 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <220> FEATURE: <221> NAME/KEY: misc_feature <222> LOCATION: (1)..(5) <223> OTHER INFORMATION: n is a, c, g, or t <400> SEQUENCE: 33 nnnnnggccg gtagtagtta tt 22 <210> SEQ ID NO 34 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 34 ggtagtagtt att 13

1 SEQUENCE LISTING <160> NUMBER OF SEQ ID NOS: 34 <210> SEQ ID NO 1 <211> LENGTH: 36154 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 1 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tagtagtgtg gcggaagtgt 120 gatgttgcaa gtgtggcgga acacatgtat aacttcgtat aatgtatgct atacgaagtt 180 atacatgtaa gcgacggatg tggcaaaagt gacgtttttg gtgtgcgccg gtgtacacag 240 gaagtgacaa ttttcgcgcg gttttaggcg gatgttgtag taaatttggg cgtaaccgag 300 taagatttgg ccattttcgc gggaaaactg aataagagga agtgaaatct gaataatttt 360 gtgttactca tagcgcgtaa tatttgtcta gggagatcta taacttcgta taatgtatgc 420 tatacgaagt tattaccgaa gaaatggctc gagatctgga aggtgctgag gtacgatgag 480 acccgcacca ggtgcagacc ctgcgagtgt ggcggtaaac atattaggaa ccagcctgtg 540 atgctggatg tgaccgagga gctgaggccc gatcacttgg tgctggcctg cacccgcgct 600 gagtttggct ctagcgatga agatacagat tgaggtactg aaatgtgtgg gcgtggctta 660 agggtgggaa agaatatata aggtgggggt cttatgtagt tttgtatctg ttttgcagca 720 gccgccgccg ccatgagcac caactcgttt gatggaagca ttgtgagctc atatttgaca 780 acgcgcatgc ccccatgggc cggggtgcgt cagaatgtga tgggctccag cattgatggt 840 cgccccgtcc tgcccgcaaa ctctactacc ttgacctacg agaccgtgtc tggaacgccg 900 ttggagactg cagcctccgc cgccgcttca gccgctgcag ccaccgcccg cgggattgtg 960 actgactttg ctttcctgag cccgcttgca agcagtgcag cttcccgttc atccgcccgc 1020 gatgacaagt tgacggctct tttggcacaa ttggattctt tgacccggga acttaatgtc 1080 gtttctcagc agctgttgga tctgcgccag caggtttctg ccctgaaggc ttcctcccct 1140 cccaatgcgg tttaaaacat aaataaaaaa ccagactctg tttggatttg gatcaagcaa 1200 gtgtcttgct gtctttattt aggggttttg cgcgcgcggt aggcccggga ccagcggtct 1260 cggtcgttga gggtcctgtg tattttttcc aggacgtggt aaaggtgact ctggatgttc 1320 agatacatgg gcataagccc gtctctgggg tggaggtagc accactgcag agcttcatgc 1380 tgcggggtgg tgttgtagat gatccagtcg tagcaggagc gctgggcgtg gtgcctaaaa 1440 atgtctttca gtagcaagct gattgccagg ggcaggccct tggtgtaagt gtttacaaag 1500 cggttaagct gggatgggtg catacgtggg gatatgagat gcatcttgga ctgtattttt 1560 aggttggcta tgttcccagc catatccctc cggggattca tgttgtgcag aaccaccagc 1620 acagtgtatc cggtgcactt gggaaatttg tcatgtagct tagaaggaaa tgcgtggaag 1680 aacttggaga cgcccttgtg acctccaaga ttttccatgc attcgtccat aatgatggca 1740 atgggcccac gggcggcggc ctgggcgaag atatttctgg gatcactaac gtcatagttg 1800 tgttccagga tgagatcgtc ataggccatt tttacaaagc gcgggcggag ggtgccagac 1860 tgcggtataa tggttccatc cggcccaggg gcgtagttac cctcacagat ttgcatttcc 1920 cacgctttga gttcagatgg ggggatcatg tctacctgcg gggcgatgaa gaaaacggtt 1980 tccggggtag gggagatcag ctgggaagaa agcaggttcc tgagcagctg cgacttaccg 2040 cagccggtgg gcccgtaaat cacacctatt accgggtgca actggtagtt aagagagctg 2100 cagctgccgt catccctgag caggggggcc acttcgttaa gcatgtccct gactcgcatg 2160 ttttccctga ccaaatccgc cagaaggcgc tcgccgccca gcgatagcag ttcttgcaag 2220 gaagcaaagt ttttcaacgg tttgagaccg tccgccgtag gcatgctttt gagcgtttga 2280 ccaagcagtt ccaggcggtc ccacagctcg gtcacctgct ctacggcatc tcgatccagc 2340 atatctcctc gtttcgcggg ttggggcggc tttcgctgta cggcagtagt cggtgctcgt 2400 ccagacgggc cagggtcatg tctttccacg ggcgcagggt cctcgtcagc gtagtctggg 2460 tcacggtgaa ggggtgcgct ccgggctgcg cgctggccag ggtgcgcttg aggctggtcc 2520 tgctggtgct gaagcgctgc cggtcttcgc cctgcgcgtc ggccaggtag catttgacca 2580 tggtgtcata gtccagcccc tccgcggcgt ggcccttggc gcgcagcttg cccttggagg 2640 aggcgccgca cgaggggcag tgcagacttt tgagggcgta gagcttgggc gcgagaaata 2700 ccgattccgg ggagtaggca tccgcgccgc aggccccgca gacggtctcg cattccacga 2760 gccaggtgag ctctggccgt tcggggtcaa aaaccaggtt tcccccatgc tttttgatgc 2820 gtttcttacc tctggtttcc atgagccggt gtccacgctc ggtgacgaaa aggctgtccg 2880 tgtccccgta tacagacttg agaggcctgt cctcgagcgg tgttccgcgg tcctcctcgt 2940 atagaaactc ggaccactct gagacaaagg ctcgcgtcca ggccagcacg aaggaggcta 3000 agtgggaggg gtagcggtcg ttgtccacta gggggtccac tcgctccagg gtgtgaagac 3060 acatgtcgcc ctcttcggca tcaaggaagg tgattggttt gtaggtgtag gccacgtgac 3120 cgggtgttcc tgaagggggg ctataaaagg gggtgggggc gcgttcgtcc tcactctctt 3180 ccgcatcgct gtctgcgagg gccagctgtt ggggtgagta ctccctctga aaagcgggca 3240 tgacttctgc gctaagattg tcagtttcca aaaacgagga ggatttgata ttcacctggc 3300 ccgcggtgat gcctttgagg gtggccgcat ccatctggtc agaaaagaca atctttttgt 3360 tgtcaagctt ggtggcaaac gacccgtaga gggcgttgga cagcaacttg gcgatggagc 3420 gcagggtttg gtttttgtcg cgatcggcgc gctccttggc cgcgatgttt agctgcacgt 3480 attcgcgcgc aacgcaccgc cattcgggaa agacggtggt gcgctcgtcg ggcaccaggt 3540 gcacgcgcca accgcggttg tgcagggtga caaggtcaac gctggtggct acctctccgc 3600 gtaggcgctc gttggtccag cagaggcggc cgcccttgcg cgagcagaat ggcggtaggg 3660 ggtctagctg cgtctcgtcc ggggggtctg cgtccacggt aaagaccccg ggcagcaggc 3720 gcgcgtcgaa gtagtctatc ttgcatcctt gcaagtctag cgcctgctgc catgcgcggg 3780 cggcaagcgc gcgctcgtat gggttgagtg ggggacccca tggcatgggg tgggtgagcg 3840 cggaggcgta catgccgcaa atgtcgtaaa cgtagagggg ctctctgagt attccaagat 3900 atgtagggta gcatcttcca ccgcggatgc tggcgcgcac gtaatcgtat agttcgtgcg 3960 agggagcgag gaggtcggga ccgaggttgc tacgggcggg ctgctctgct cggaagacta 4020 tctgcctgaa gatggcatgt gagttggatg atatggttgg acgctggaag acgttgaagc 4080 tggcgtctgt gagacctacc gcgtcacgca cgaaggaggc gtaggagtcg cgcagcttgt 4140 tgaccagctc ggcggtgacc tgcacgtcta gggcgcagta gtccagggtt tccttgatga 4200 tgtcatactt atcctgtccc ttttttttcc acagctcgcg gttgaggaca aactcttcgc 4260 ggtctttcca gtactcttgg atcggaaacc cgtcggcctc cgaacggtaa gagcctagca 4320 tgtagaactg gttgacggcc tggtaggcgc agcatccctt ttctacgggt agcgcgtatg 4380 cctgcgcggc cttccggagc gaggtgtggg tgagcgcaaa ggtgtccctg accatgactt 4440 tgaggtactg gtatttgaag tcagtgtcgt cgcatccgcc ctgctcccag agcaaaaagt 4500 ccgtgcgctt tttggaacgc ggatttggca gggcgaaggt gacatcgttg aagagtatct 4560 ttcccgcgcg aggcataaag ttgcgtgtga tgcggaaggg tcccggcacc tcggaacggt 4620 tgttaattac ctgggcggcg agcacgatct cgtcaaagcc gttgatgttg tggcccacaa 4680 tgtaaagttc caagaagcgc gggatgccct tgatggaagg caatttttta agttcctcgt 4740 aggtgagctc ttcaggggag ctgagcccgt gctctgaaag ggcccagtct gcaagatgag 4800 ggttggaagc gacgaatgag ctccacaggt cacgggccat tagcatttgc aggtggtcgc 4860 gaaaggtcct aaactggcga cctatggcca ttttttctgg ggtgatgcag tagaaggtaa 4920 gcgggtcttg ttcccagcgg tcccatccaa ggttcgcggc taggtctcgc gcggcagtca 4980 ctagaggctc atctccgccg aacttcatga ccagcatgaa gggcacgagc tgcttcccaa 5040 aggcccccat ccaagtatag gtctctacat cgtaggtgac aaagagacgc tcggtgcgag 5100 gatgcgagcc gatcgggaag aactggatct cccgccacca attggaggag tggctattga 5160 tgtggtgaaa gtagaagtcc ctgcgacggg ccgaacactc gtgctggctt ttgtaaaaac 5220 gtgcgcagta ctggcagcgg tgcacgggct gtacatcctg cacgaggttg acctgacgac 5280 cgcgcacaag gaagcagagt gggaatttga gcccctcgcc tggcgggttt ggctggtggt 5340 cttctacttc ggctgcttgt ccttgaccgt ctggctgctc gaggggagtt acggtggatc 5400 ggaccaccac gccgcgcgag cccaaagtcc agatgtccgc gcgcggcggt cggagcttga 5460 tgacaacatc gcgcagatgg gagctgtcca tggtctggag ctcccgcggc gtcaggtcag 5520 gcgggagctc ctgcaggttt acctcgcata gacgggtcag ggcgcgggct agatccaggt 5580 gatacctaat ttccaggggc tggttggtgg cggcgtcgat ggcttgcaag aggccgcatc 5640 cccgcggcgc gactacggta ccgcgcggcg ggcggtgggc cgcgggggtg tccttggatg 5700 atgcatctaa aagcggtgac gcgggcgagc ccccggaggt agggggggct ccggacccgc 5760 cgggagaggg ggcaggggca cgtcggcgcc gcgcgcgggc aggagctggt gctgcgcgcg 5820 taggttgctg gcgaacgcga cgacgcggcg gttgatctcc tgaatctggc gcctctgcgt 5880 gaagacgacg ggcccggtga gcttgagcct gaaagagagt tcgacagaat caatttcggt 5940 gtcgttgacg gcggcctggc gcaaaatctc ctgcacgtct cctgagttgt cttgataggc 6000 gatctcggcc atgaactgct cgatctcttc ctcctggaga tctccgcgtc cggctcgctc 6060 cacggtggcg gcgaggtcgt tggaaatgcg ggccatgagc tgcgagaagg cgttgaggcc 6120 tccctcgttc cagacgcggc tgtagaccac gcccccttcg gcatcgcggg cgcgcatgac 6180 cacctgcgcg agattgagct ccacgtgccg ggcgaagacg gcgtagtttc gcaggcgctg 6240 aaagaggtag ttgagggtgg tggcggtgtg ttctgccacg aagaagtaca taacccagcg 6300 tcgcaacgtg gattcgttga tatcccccaa ggcctcaagg cgctccatgg cctcgtagaa 6360 gtccacggcg aagttgaaaa actgggagtt gcgcgccgac acggttaact cctcctccag 6420 aagacggatg agctcggcga cagtgtcgcg cacctcgcgc tcaaaggcta caggggcctc 6480 ttcttcttct tcaatctcct cttccataag ggcctcccct tcttcttctt ctggcggcgg 6540 tgggggaggg gggacacggc ggcgacgacg gcgcaccggg aggcggtcga caaagcgctc 6600 gatcatctcc ccgcggcgac ggcgcatggt ctcggtgacg gcgcggccgt tctcgcgggg 6660 gcgcagttgg aagacgccgc ccgtcatgtc ccggttatgg gttggcgggg ggctgccatg 6720 cggcagggat acggcgctaa cgatgcatct caacaattgt tgtgtaggta ctccgccgcc 6780 gagggacctg agcgagtccg catcgaccgg atcggaaaac ctctcgagaa aggcgtctaa 6840 ccagtcacag tcgcaaggta ggctgagcac cgtggcgggc ggcagcgggc ggcggtcggg 6900 gttgtttctg gcggaggtgc tgctgatgat gtaattaaag taggcggtct tgagacggcg 6960 gatggtcgac agaagcacca tgtccttggg tccggcctgc tgaatgcgca ggcggtcggc 7020 catgccccag gcttcgtttt gacatcggcg caggtctttg tagtagtctt gcatgagcct 7080

ttctaccggc acttcttctt ctccttcctc ttgtcctgca tctcttgcat ctatcgctgc 7140 ggcggcggcg gagtttggcc gtaggtggcg ccctcttcct cccatgcgtg tgaccccgaa 7200 gcccctcatc ggctgaagca gggctaggtc ggcgacaacg cgctcggcta atatggcctg 7260 ctgcacctgc gtgagggtag actggaagtc atccatgtcc acaaagcggt ggtatgcgcc 7320 cgtgttgatg gtgtaagtgc agttggccat aacggaccag ttaacggtct ggtgacccgg 7380 ctgcgagagc tcggtgtacc tgagacgcga gtaagccctc gagtcaaata cgtagtcgtt 7440 gcaagtccgc accaggtact ggtatcccac caaaaagtgc ggcggcggct ggcggtagag 7500 gggccagcgt agggtggccg gggctccggg ggcgagatct tccaacataa ggcgatgata 7560 tccgtagatg tacctggaca tccaggtgat gccggcggcg gtggtggagg cgcgcggaaa 7620 gtcgcggacg cggttccaga tgttgcgcag cggcaaaaag tgctccatgg tcgggacgct 7680 ctggccggtc aggcgcgcgc aatcgttgac gctctaccgt gcaaaaggag agcctgtaag 7740 cgggcactct tccgtggtct ggtggataaa ttcgcaaggg tatcatggcg gacgaccggg 7800 gttcgagccc cgtatccggc cgtccgccgt gatccatgcg gttaccgccc gcgtgtcgaa 7860 cccaggtgtg cgacgtcaga caacggggga gtgctccttt tggcttcctt ccaggcgcgg 7920 cggctgctgc gctagctttt ttggccactg gccgcgcgca gcgtaagcgg ttaggctgga 7980 aagcgaaagc attaagtggc tcgctccctg tagccggagg gttattttcc aagggttgag 8040 tcgcgggacc cccggttcga gtctcggacc ggccggactg cggcgaacgg gggtttgcct 8100 ccccgtcatg caagaccccg cttgcaaatt cctccggaaa cagggacgag cccctttttt 8160 gcttttccca gatgcatccg gtgctgcggc agatgcgccc ccctcctcag cagcggcaag 8220 agcaagagca gcggcagaca tgcagggcac cctcccctcc tcctaccgcg tcaggagggg 8280 cgacatccgc ggttgacgcg gcagcagatg gtgattacga acccccgcgg cgccgggccc 8340 ggcactacct ggacttggag gagggcgagg gcctggcgcg gctaggagcg ccctctcctg 8400 agcggtaccc aagggtgcag ctgaagcgtg atacgcgtga ggcgtacgtg ccgcggcaga 8460 acctgtttcg cgaccgcgag ggagaggagc ccgaggagat gcgggatcga aagttccacg 8520 cagggcgcga gctgcggcat ggcctgaatc gcgagcggtt gctgcgcgag gaggactttg 8580 agcccgacgc gcgaaccggg attagtcccg cgcgcgcaca cgtggcggcc gccgacctgg 8640 taaccgcata cgagcagacg gtgaaccagg agattaactt tcaaaaaagc tttaacaacc 8700 acgtgcgtac gcttgtggcg cgcgaggagg tggctatagg actgatgcat ctgtgggact 8760 ttgtaagcgc gctggagcaa aacccaaata gcaagccgct catggcgcag ctgttcctta 8820 tagtgcagca cagcagggac aacgaggcat tcagggatgc gctgctaaac atagtagagc 8880 ccgagggccg ctggctgctc gatttgataa acatcctgca gagcatagtg gtgcaggagc 8940 gcagcttgag cctggctgac aaggtggccg ccatcaacta ttccatgctt agcctgggca 9000 agttttacgc ccgcaagata taccataccc cttacgttcc catagacaag gaggtaaaga 9060 tcgaggggtt ctacatgcgc atggcgctga aggtgcttac cttgagcgac gacctgggcg 9120 tttatcgcaa cgagcgcatc cacaaggccg tgagcgtgag ccggcggcgc gagctcagcg 9180 accgcgagct gatgcacagc ctgcaaaggg ccctggctgg cacgggcagc ggcgatagag 9240 aggccgagtc ctactttgac gcgggcgctg acctgcgctg ggccccaagc cgacgcgccc 9300 tggaggcagc tggggccgga cctgggctgg cggtggcacc cgcgcgcgct ggcaacgtcg 9360 gcggcgtgga ggaatatgac gaggacgatg agtacgagcc agaggacggc gagtactaag 9420 cggtgatgtt tctgatcaga tgatgcaaga cgcaacggac ccggcggtgc gggcggcgct 9480 gcagagccag ccgtccggcc ttaactccac ggacgactgg cgccaggtca tggaccgcat 9540 catgtcgctg actgcgcgca atcctgacgc gttccggcag cagccgcagg ccaaccggct 9600 ctccgcaatt ctggaagcgg tggtcccggc gcgcgcaaac cccacgcacg agaaggtgct 9660 ggcgatcgta aacgcgctgg ccgaaaacag ggccatccgg cccgacgagg ccggcctggt 9720 ctacgacgcg ctgcttcagc gcgtggctcg ttacaacagc ggcaacgtgc agaccaacct 9780 ggaccggctg gtgggggatg tgcgcgaggc cgtggcgcag cgtgagcgcg cgcagcagca 9840 gggcaacctg ggctccatgg ttgcactaaa cgccttcctg agtacacagc ccgccaacgt 9900 gccgcgggga caggaggact acaccaactt tgtgagcgca ctgcggctaa tggtgactga 9960 gacaccgcaa agtgaggtgt accagtctgg gccagactat tttttccaga ccagtagaca 10020 aggcctgcag accgtaaacc tgagccaggc tttcaaaaac ttgcaggggc tgtggggggt 10080 gcgggctccc acaggcgacc gcgcgaccgt gtctagcttg ctgacgccca actcgcgcct 10140 gttgctgctg ctaatagcgc ccttcacgga cagtggcagc gtgtcccggg acacatacct 10200 aggtcacttg ctgacactgt accgcgaggc cataggtcag gcgcatgtgg acgagcatac 10260 tttccaggag attacaagtg tcagccgcgc gctggggcag gaggacacgg gcagcctgga 10320 ggcaacccta aactacctgc tgaccaaccg gcggcagaag atcccctcgt tgcacagttt 10380 aaacagcgag gaggagcgca ttttgcgcta cgtgcagcag agcgtgagcc ttaacctgat 10440 gcgcgacggg gtaacgccca gcgtggcgct ggacatgacc gcgcgcaaca tggaaccggg 10500 catgtatgcc tcaaaccggc cgtttatcaa ccgcctaatg gactacttgc atcgcgcggc 10560 cgccgtgaac cccgagtatt tcaccaatgc catcttgaac ccgcactggc taccgccccc 10620 tggtttctac accgggggat tcgaggtgcc cgagggtaac gatggattcc tctgggacga 10680 catagacgac agcgtgtttt ccccgcaacc gcagaccctg ctagagttgc aacagcgcga 10740 gcaggcagag gcggcgctgc gaaaggaaag cttccgcagg ccaagcagct tgtccgatct 10800 aggcgctgcg gccccgcggt cagatgctag tagcccattt ccaagcttga tagggtctct 10860 taccagcact cgcaccaccc gcccgcgcct gctgggcgag gaggagtacc taaacaactc 10920 gctgctgcag ccgcagcgcg aaaaaaacct gcctccggca tttcccaaca acgggataga 10980 gagcctagtg gacaagatga gtagatggaa gacgtacgcg caggagcaca gggacgtgcc 11040 aggcccgcgc ccgcccaccc gtcgtcaaag gcacgaccgt cagcggggtc tggtgtggga 11100 ggacgatgac tcggcagacg acagcagcgt cctggatttg ggagggagtg gcaacccgtt 11160 tgcgcacctt cgccccaggc tggggagaat gttttaaaaa aaaaaaagca tgatgcaaaa 11220 taaaaaactc accaaggcca tggcaccgag cgttggtttt cttgtattcc ccttagtatg 11280 cggcgcgcgg cgatgtatga ggaaggtcct cctccctcct acgagagtgt ggtgagcgcg 11340 gcgccagtgg cggcggcgct gggttctccc ttcgatgctc ccctggaccc gccgtttgtg 11400 cctccgcggt acctgcggcc taccgggggg agaaacagca tccgttactc tgagttggca 11460 cccctattcg acaccacccg tgtgtacctg gtggacaaca agtcaacgga tgtggcatcc 11520 ctgaactacc agaacgacca cagcaacttt ctgaccacgg tcattcaaaa caatgactac 11580 agcccggggg aggcaagcac acagaccatc aatcttgacg accggtcgca ctggggcggc 11640 gacctgaaaa ccatcctgca taccaacatg ccaaatgtga acgagttcat gtttaccaat 11700 aagtttaagg cgcgggtgat ggtgtcgcgc ttgcctacta aggacaatca ggtggagctg 11760 aaatacgagt gggtggagtt cacgctgccc gagggcaact actccgagac catgaccata 11820 gaccttatga acaacgcgat cgtggagcac tacttgaaag tgggcagaca gaacggggtt 11880 ctggaaagcg acatcggggt aaagtttgac acccgcaact tcagactggg gtttgacccc 11940 gtcactggtc ttgtcatgcc tggggtatat acaaacgaag ccttccatcc agacatcatt 12000 ttgctgccag gatgcggggt ggacttcacc cacagccgcc tgagcaactt gttgggcatc 12060 cgcaagcggc aacccttcca ggagggcttt aggatcacct acgatgatct ggagggtggt 12120 aacattcccg cactgttgga tgtggacgcc taccaggcga gcttgaaaga tgacaccgaa 12180 cagggcgggg gtggcgcagg cggcagcaac agcagtggca gcggcgcgga agagaactcc 12240 aacgcggcag ccgcggcaat gcagccggtg gaggacatga acgatcatgc cattcgcggc 12300 gacacctttg ccacacgggc tgaggagaag cgcgctgagg ccgaagcagc ggccgaagct 12360 gccgcccccg ctgcgcaacc cgaggtcgag aagcctcaga agaaaccggt gatcaaaccc 12420 ctgacagagg acagcaagaa acgcagttac aacctaataa gcaatgacag caccttcacc 12480 cagtaccgca gctggtacct tgcatacaac tacggcgacc ctcagaccgg aatccgctca 12540 tggaccctgc tttgcactcc tgacgtaacc tgcggctcgg agcaggtcta ctggtcgttg 12600 ccagacatga tgcaagaccc cgtgaccttc cgctccacgc gccagatcag caactttccg 12660 gtggtgggcg ccgagctgtt gcccgtgcac tccaagagct tctacaacga ccaggccgtc 12720 tactcccaac tcatccgcca gtttacctct ctgacccacg tgttcaatcg ctttcccgag 12780 aaccagattt tggcgcgccc gccagccccc accatcacca ccgtcagtga aaacgttcct 12840 gctctcacag atcacgggac gctaccgctg cgcaacagca tcggaggagt ccagcgagtg 12900 accattactg acgccagacg ccgcacctgc ccctacgttt acaaggccct gggcatagtc 12960 tcgccgcgcg tcctatcgag ccgcactttt tgagcaagca tgtccatcct tatatcgccc 13020 agcaataaca caggctgggg cctgcgcttc ccaagcaaga tgtttggcgg ggccaagaag 13080 cgctccgacc aacacccagt gcgcgtgcgc gggcactacc gcgcgccctg gggcgcgcac 13140 aaacgcggcc gcactgggcg caccaccgtc gatgacgcca tcgacgcggt ggtggaggag 13200 gcgcgcaact acacgcccac gccgccacca gtgtccacag tggacgcggc cattcagacc 13260 gtggtgcgcg gagcccggcg ctatgctaaa atgaagagac ggcggaggcg cgtagcacgt 13320 cgccaccgcc gccgacccgg cactgccgcc caacgcgcgg cggcggccct gcttaaccgc 13380 gcacgtcgca ccggccgacg ggcggccatg cgggccgctc gaaggctggc cgcgggtatt 13440 gtcactgtgc cccccaggtc caggcgacga gcggccgccg cagcagccgc ggccattagt 13500 gctatgactc agggtcgcag gggcaacgtg tattgggtgc gcgactcggt tagcggcctg 13560 cgcgtgcccg tgcgcacccg ccccccgcgc aactagattg caagaaaaaa ctacttagac 13620 tcgtactgtt gtatgtatcc agcggcggcg gcgcgcaacg aagctatgtc caagcgcaaa 13680 atcaaagaag agatgctcca ggtcatcgcg ccggagatct atggcccccc gaagaaggaa 13740 gagcaggatt acaagccccg aaagctaaag cgggtcaaaa agaaaaagaa agatgatgat 13800 gatgaacttg acgacgaggt ggaactgctg cacgctaccg cgcccaggcg acgggtacag 13860 tggaaaggtc gacgcgtaaa acgtgttttg cgacccggca ccaccgtagt ctttacgccc 13920 ggtgagcgct ccacccgcac ctacaagcgc gtgtatgatg aggtgtacgg cgacgaggac 13980 ctgcttgagc aggccaacga gcgcctcggg gagtttgcct acggaaagcg gcataaggac 14040 atgctggcgt tgccgctgga cgagggcaac ccaacaccta gcctaaagcc cgtaacactg 14100 cagcaggtgc tgcccgcgct tgcaccgtcc gaagaaaagc gcggcctaaa gcgcgagtct 14160 ggtgacttgg cacccaccgt gcagctgatg gtacccaagc gccagcgact ggaagatgtc 14220 ttggaaaaaa tgaccgtgga acctgggctg gagcccgagg tccgcgtgcg gccaatcaag 14280 caggtggcgc cgggactggg cgtgcagacc gtggacgttc agatacccac taccagtagc 14340 accagtattg ccaccgccac agagggcatg gagacacaaa cgtccccggt tgcctcagcg 14400 gtggcggatg ccgcggtgca ggcggtcgct gcggccgcgt ccaagacctc tacggaggtg 14460 caaacggacc cgtggatgtt tcgcgtttca gccccccggc gcccgcgcgg ttcgaggaag 14520 tacggcgccg ccagcgcgct actgcccgaa tatgccctac atccttccat tgcgcctacc 14580

cccggctatc gtggctacac ctaccgcccc agaagacgag caactacccg acgccgaacc 14640 accactggaa cccgccgccg ccgtcgccgt cgccagcccg tgctggcccc gatttccgtg 14700 cgcagggtgg ctcgcgaagg aggcaggacc ctggtgctgc caacagcgcg ctaccacccc 14760 agcatcgttt aaaagccggt ctttgtggtt cttgcagata tggccctcac ctgccgcctc 14820 cgtttcccgg tgccgggatt ccgaggaaga atgcaccgta ggaggggcat ggccggccac 14880 ggcctgacgg gcggcatgcg tcgtgcgcac caccggcggc ggcgcgcgtc gcaccgtcgc 14940 atgcgcggcg gtatcctgcc cctccttatt ccactgatcg ccgcggcgat tggcgccgtg 15000 cccggaattg catccgtggc cttgcaggcg cagagacact gattaaaaac aagttgcatg 15060 tggaaaaatc aaaataaaaa gtctggactc tcacgctcgc ttggtcctgt aactattttg 15120 tagaatggaa gacatcaact ttgcgtctct ggccccgcga cacggctcgc gcccgttcat 15180 gggaaactgg caagatatcg gcaccagcaa tatgagcggt ggcgccttca gctggggctc 15240 gctgtggagc ggcattaaaa atttcggttc caccgttaag aactatggca gcaaggcctg 15300 gaacagcagc acaggccaga tgctgaggga taagttgaaa gagcaaaatt tccaacaaaa 15360 ggtggtagat ggcctggcct ctggcattag cggggtggtg gacctggcca accaggcagt 15420 gcaaaataag attaacagta agcttgatcc ccgccctccc gtagaggagc ctccaccggc 15480 cgtggagaca gtgtctccag aggggcgtgg cgaaaagcgt ccgcgccccg acagggaaga 15540 aactctggtg acgcaaatag acgagcctcc ctcgtacgag gaggcactaa agcaaggcct 15600 gcccaccacc cgtcccatcg cgcccatggc taccggagtg ctgggccagc acacacccgt 15660 aacgctggac ctgcctcccc ccgccgacac ccagcagaaa cctgtgctgc caggcccgac 15720 cgccgttgtt gtaacccgtc ctagccgcgc gtccctgcgc cgcgccgcca gcggtccgcg 15780 atcgttgcgg cccgtagcca gtggcaactg gcaaagcaca ctgaacagca tcgtgggtct 15840 gggggtgcaa tccctgaagc gccgacgatg cttctgaata gctaacgtgt cgtatgtgtg 15900 tcatgtatgc gtccatgtcg ccgccagagg agctgctgag ccgccgcgcg cccgctttcc 15960 aagatggcta ccccttcgat gatgccgcag tggtcttaca tgcacatctc gggccaggac 16020 gcctcggagt acctgagccc cgggctggtg cagtttgccc gcgccaccga gacgtacttc 16080 agcctgaata acaagtttag aaaccccacg gtggcgccta cgcacgacgt gaccacagac 16140 cggtcccagc gtttgacgct gcggttcatc cctgtggacc gtgaggatac tgcgtactcg 16200 tacaaggcgc ggttcaccct agctgtgggt gataaccgtg tgctggacat ggcttccacg 16260 tactttgaca tccgcggcgt gctggacagg ggccctactt ttaagcccta ctctggcact 16320 gcctacaacg ccctggctcc caagggtgcc ccaaatcctt gcgaatggga tgaagctgct 16380 actgctcttg aaataaacct agaagaagag gacgatgaca acgaagacga agtagacgag 16440 caagctgagc agcaaaaaac tcacgtattt gggcaggcgc cttattctgg tataaatatt 16500 acaaaggagg gtattcaaat aggtgtcgaa ggtcaaacac ctaaatatgc cgataaaaca 16560 tttcaacctg aacctcaaat aggagaatct cagtggtacg aaactgaaat taatcatgca 16620 gctgggagag tccttaaaaa gactacccca atgaaaccat gttacggttc atatgcaaaa 16680 cccacaaatg aaaatggagg gcaaggcatt cttgtaaagc aacaaaatgg aaagctagaa 16740 agtcaagtgg aaatgcaatt tttctcaact actgaggcga ccgcaggcaa tggtgataac 16800 ttgactccta aagtggtatt gtacagtgaa gatgtagata tagaaacccc agacactcat 16860 atttcttaca tgcccactat taaggaaggt aactcacgag aactaatggg ccaacaatct 16920 atgcccaaca ggcctaatta cattgctttt agggacaatt ttattggtct aatgtattac 16980 aacagcacgg gtaatatggg tgttctggcg ggccaagcat cgcagttgaa tgctgttgta 17040 gatttgcaag acagaaacac agagctttca taccagcttt tgcttgattc cattggtgat 17100 agaaccaggt acttttctat gtggaatcag gctgttgaca gctatgatcc agatgttaga 17160 attattgaaa atcatggaac tgaagatgaa cttccaaatt actgctttcc actgggaggt 17220 gtgattaata cagagactct taccaaggta aaacctaaaa caggtcagga aaatggatgg 17280 gaaaaagatg ctacagaatt ttcagataaa aatgaaataa gagttggaaa taattttgcc 17340 atggaaatca atctaaatgc caacctgtgg agaaatttcc tgtactccaa catagcgctg 17400 tatttgcccg acaagctaaa gtacagtcct tccaacgtaa aaatttctga taacccaaac 17460 acctacgact acatgaacaa gcgagtggtg gctcccgggt tagtggactg ctacattaac 17520 cttggagcac gctggtccct tgactatatg gacaacgtca acccatttaa ccaccaccgc 17580 aatgctggcc tgcgctaccg ctcaatgttg ctgggcaatg gtcgctatgt gcccttccac 17640 atccaggtgc ctcagaagtt ctttgccatt aaaaacctcc ttctcctgcc gggctcatac 17700 acctacgagt ggaacttcag gaaggatgtt aacatggttc tgcagagctc cctaggaaat 17760 gacctaaggg ttgacggagc cagcattaag tttgatagca tttgccttta cgccaccttc 17820 ttccccatgg cccacaacac cgcctccacg cttgaggcca tgcttagaaa cgacaccaac 17880 gaccagtcct ttaacgacta tctctccgcc gccaacatgc tctaccctat acccgccaac 17940 gctaccaacg tgcccatatc catcccctcc cgcaactggg cggctttccg cggctgggcc 18000 ttcacgcgcc ttaagactaa ggaaacccca tcactgggct cgggctacga cccttattac 18060 acctactctg gctctatacc ctacctagat ggaacctttt acctcaacca cacctttaag 18120 aaggtggcca ttacctttga ctcttctgtc agctggcctg gcaatgaccg cctgcttacc 18180 cccaacgagt ttgaaattaa gcgctcagtt gacggggagg gttacaacgt tgcccagtgt 18240 aacatgacca aagactggtt cctggtacaa atgctagcta actacaacat tggctaccag 18300 ggcttctata tcccagagag ctacaaggac cgcatgtact ccttctttag aaacttccag 18360 cccatgagcc gtcaggtggt ggatgatact aaatacaagg actaccaaca ggtgggcatc 18420 ctacaccaac acaacaactc tggatttgtt ggctaccttg cccccaccat gcgcgaagga 18480 caggcctacc ctgctaactt cccctatccg cttataggca agaccgcagt tgacagcatt 18540 acccagaaaa agtttctttg cgatcgcacc ctttggcgca tcccattctc cagtaacttt 18600 atgtccatgg gcgcactcac agacctgggc caaaaccttc tctacgccaa ctccgcccac 18660 gcgctagaca tgacttttga ggtggatccc atggacgagc ccacccttct ttatgttttg 18720 tttgaagtct ttgacgtggt ccgtgtgcac cggccgcacc gcggcgtcat cgaaaccgtg 18780 tacctgcgca cgcccttctc ggccggcaac gccacaacat aaagaagcaa gcaacatcaa 18840 caacagctgc cgccatgggc tccagtgagc aggaactgaa agccattgtc aaagatcttg 18900 gttgtgggcc atattttttg ggcacctatg acaagcgctt tccaggcttt gtttctccac 18960 acaagctcgc ctgcgccata gtcaatacgg ccggtcgcga gactgggggc gtacactgga 19020 tggcctttgc ctggaacccg cactcaaaaa catgctacct ctttgagccc tttggctttt 19080 ctgaccagcg actcaagcag gtttaccagt ttgagtacga gtcactcctg cgccgtagcg 19140 ccattgcttc ttcccccgac cgctgtataa cgctggaaaa gtccacccaa agcgtacagg 19200 ggcccaactc ggccgcctgt ggactattct gctgcatgtt tctccacgcc tttgccaact 19260 ggccccaaac tcccatggat cacaacccca ccatgaacct tattaccggg gtacccaact 19320 ccatgctcaa cagtccccag gtacagccca ccctgcgtcg caaccaggaa cagctctaca 19380 gcttcctgga gcgccactcg ccctacttcc gcagccacag tgcgcagatt aggagcgcca 19440 cttctttttg tcacttgaaa aacatgtaaa aataatgtac tagagacact ttcaataaag 19500 gcaaatgctt ttatttgtac actctcgggt gattatttac ccccaccctt gccgtctgcg 19560 ccgtttaaaa atcaaagggg ttctgccgcg catcgctatg cgccactggc agggacacgt 19620 tgcgatactg gtgtttagtg ctccacttaa actcaggcac aaccatccgc ggcagctcgg 19680 tgaagttttc actccacagg ctgcgcacca tcaccaacgc gtttagcagg tcgggcgccg 19740 atatcttgaa gtcgcagttg gggcctccgc cctgcgcgcg cgagttgcga tacacagggt 19800 tgcagcactg gaacactatc agcgccgggt ggtgcacgct ggccagcacg ctcttgtcgg 19860 agatcagatc cgcgtccagg tcctccgcgt tgctcagggc gaacggagtc aactttggta 19920 gctgccttcc caaaaagggc gcgtgcccag gctttgagtt gcactcgcac cgtagtggca 19980 tcaaaaggtg accgtgcccg gtctgggcgt taggatacag cgcctgcata aaagccttga 20040 tctgcttaaa agccacctga gcctttgcgc cttcagagaa gaacatgccg caagacttgc 20100 cggaaaactg attggccgga caggccgcgt cgtgcacgca gcaccttgcg tcggtgttgg 20160 agatctgcac cacatttcgg ccccaccggt tcttcacgat cttggccttg ctagactgct 20220 ccttcagcgc gcgctgcccg ttttcgctcg tcacatccat ttcaatcacg tgctccttat 20280 ttatcataat gcttccgtgt agacacttaa gctcgccttc gatctcagcg cagcggtgca 20340 gccacaacgc gcagcccgtg ggctcgtgat gcttgtaggt cacctctgca aacgactgca 20400 ggtacgcctg caggaatcgc cccatcatcg tcacaaaggt cttgttgctg gtgaaggtca 20460 gctgcaaccc gcggtgctcc tcgttcagcc aggtcttgca tacggccgcc agagcttcca 20520 cttggtcagg cagtagtttg aagttcgcct ttagatcgtt atccacgtgg tacttgtcca 20580 tcagcgcgcg cgcagcctcc atgcccttct cccacgcaga cacgatcggc acactcagcg 20640 ggttcatcac cgtaatttca ctttccgctt cgctgggctc ttcctcttcc tcttgcgtcc 20700 gcataccacg cgccactggg tcgtcttcat tcagccgccg cactgtgcgc ttacctcctt 20760 tgccatgctt gattagcacc ggtgggttgc tgaaacccac catttgtagc gccacatctt 20820 ctctttcttc ctcgctgtcc acgattacct ctggtgatgg cgggcgctcg ggcttgggag 20880 aagggcgctt ctttttcttc ttgggcgcaa tggccaaatc cgccgccgag gtcgatggcc 20940 gcgggctggg tgtgcgcggc accagcgcgt cttgtgatga gtcttcctcg tcctcggact 21000 cgatacgccg cctcatccgc ttttttgggg gcgcccgggg aggcggcggc gacggggacg 21060 gggacgacac gtcctccatg gttgggggac gtcgcgccgc accgcgtccg cgctcggggg 21120 tggtttcgcg ctgctcctct tcccgactgg ccatttcctt ctcctatagg cagaaaaaga 21180 tcatggagtc agtcgagaag aaggacagcc taaccgcccc ctctgagttc gccaccaccg 21240 cctccaccga tgccgccaac gcgcctacca ccttccccgt cgaggcaccc ccgcttgagg 21300 aggaggaagt gattatcgag caggacccag gttttgtaag cgaagacgac gaggaccgct 21360 cagtaccaac agaggataaa aagcaagacc aggacaacgc agaggcaaac gaggaacaag 21420 tcgggcgggg ggacgaaagg catggcgact acctagatgt gggagacgac gtgctgttga 21480 agcatctgca gcgccagtgc gccattatct gcgacgcgtt gcaagagcgc agcgatgtgc 21540 ccctcgccat agcggatgtc agccttgcct acgaacgcca cctattctca ccgcgcgtac 21600 cccccaaacg ccaagaaaac ggcacatgcg agcccaaccc gcgcctcaac ttctaccccg 21660 tatttgccgt gccagaggtg cttgccacct atcacatctt tttccaaaac tgcaagatac 21720 ccctatcctg ccgtgccaac cgcagccgag cggacaagca gctggccttg cggcagggcg 21780 ctgtcatacc tgatatcgcc tcgctcaacg aagtgccaaa aatctttgag ggtcttggac 21840 gcgacgagaa gcgcgcggca aacgctctgc aacaggaaaa cagcgaaaat gaaagtcact 21900 ctggagtgtt ggtggaactc gagggtgaca acgcgcgcct agccgtacta aaacgcagca 21960 tcgaggtcac ccactttgcc tacccggcac ttaacctacc ccccaaggtc atgagcacag 22020 tcatgagtga gctgatcgtg cgccgtgcgc agcccctgga gagggatgca aatttgcaag 22080 aacaaacaga ggagggccta cccgcagttg gcgacgagca gctagcgcgc tggcttcaaa 22140

cgcgcgagcc tgccgacttg gaggagcgac gcaaactaat gatggccgca gtgctcgtta 22200 ccgtggagct tgagtgcatg cagcggttct ttgctgaccc ggagatgcag cgcaagctag 22260 aggaaacatt gcactacacc tttcgacagg gctacgtacg ccaggcctgc aagatctcca 22320 acgtggagct ctgcaacctg gtctcctacc ttggaatttt gcacgaaaac cgccttgggc 22380 aaaacgtgct tcattccacg ctcaagggcg aggcgcgccg cgactacgtc cgcgactgcg 22440 tttacttatt tctatgctac acctggcaga cggccatggg cgtttggcag cagtgcttgg 22500 aggagtgcaa cctcaaggag ctgcagaaac tgctaaagca aaacttgaag gacctatgga 22560 cggccttcaa cgagcgctcc gtggccgcgc acctggcgga catcattttc cccgaacgcc 22620 tgcttaaaac cctgcaacag ggtctgccag acttcaccag tcaaagcatg ttgcagaact 22680 ttaggaactt tatcctagag cgctcaggaa tcttgcccgc cacctgctgt gcacttccta 22740 gcgactttgt gcccattaag taccgcgaat gccctccgcc gctttggggc cactgctacc 22800 ttctgcagct agccaactac cttgcctacc actctgacat aatggaagac gtgagcggtg 22860 acggtctact ggagtgtcac tgtcgctgca acctatgcac cccgcaccgc tccctggttt 22920 gcaattcgca gctgcttaac gaaagtcaaa ttatcggtac ctttgagctg cagggtccct 22980 cgcctgacga aaagtccgcg gctccggggt tgaaactcac tccggggctg tggacgtcgg 23040 cttaccttcg caaatttgta cctgaggact accacgccca cgagattagg ttctacgaag 23100 accaatcccg cccgccaaat gcggagctta ccgcctgcgt cattacccag ggccacattc 23160 ttggccaatt gcaagccatc aacaaagccc gccaagagtt tctgctacga aagggacggg 23220 gggtttactt ggacccccag tccggcgagg agctcaaccc aatccccccg ccgccgcagc 23280 cctatcagca gcagccgcgg gcccttgctt cccaggatgg cacccaaaaa gaagctgcag 23340 ctgccgccgc cacccacgga cgaggaggaa tactgggaca gtcaggcaga ggaggttttg 23400 gacgaggagg aggaggacat gatggaagac tgggagagcc tagacgagga agcttccgag 23460 gtcgaagagg tgtcagacga aacaccgtca ccctcggtcg cattcccctc gccggcgccc 23520 cagaaatcgg caaccggttc cagcatggct acaacctccg ctcctcaggc gccgccggca 23580 ctgcccgttc gccgacccaa ccgtagatgg gacaccactg gaaccagggc cggtaagtcc 23640 aagcagccgc cgccgttagc ccaagagcaa caacagcgcc aaggctaccg ctcatggcgc 23700 gggcacaaga acgccatagt tgcttgcttg caagactgtg ggggcaacat ctccttcgcc 23760 cgccgctttc ttctctacca tcacggcgtg gccttccccc gtaacatcct gcattactac 23820 cgtcatctct acagcccata ctgcaccggc ggcagcggca gcggcagcaa cagcagcggc 23880 cacacagaag caaaggcgac cggatagcaa gactctgaca aagcccaaga aatccacagc 23940 ggcggcagca gcaggaggag gagcgctgcg tctggcgccc aacgaacccg tatcgacccg 24000 cgagcttaga aacaggattt ttcccactct gtatgctata tttcaacaga gcaggggcca 24060 agaacaagag ctgaaaataa aaaacaggtc tctgcgatcc ctcacccgca gctgcctgta 24120 tcacaaaagc gaagatcagc ttcggcgcac gctggaagac gcggaggctc tcttcagtaa 24180 atactgcgcg ctgactctta aggactagtt tcgcgccctt tctcaaattt aagcgcgaaa 24240 actacgtcat ctccagcggc cacacccggc gccagcacct gtcgtcagcg ccattatgag 24300 caaggaaatt cccacgccct acatgtggag ttaccagcca caaatgggac ttgcggctgg 24360 agctgcccaa gactactcaa cccgaataaa ctacatgagc gcgggacccc acatgatatc 24420 ccgggtcaac ggaatccgcg cccaccgaaa ccgaattctc ttggaacagg cggctattac 24480 caccacacct cgtaataacc ttaatccccg tagttggccc gctgccctgg tgtaccagga 24540 aagtcccgct cccaccactg tggtacttcc cagagacgcc caggccgaag ttcagatgac 24600 taactcaggg gcgcagcttg cgggcggctt tcgtcacagg gtgcggtcgc ccgggcaggg 24660 tataactcac ctgacaatca gagggcgagg tattcagctc aacgacgagt cggtgagctc 24720 ctcgcttggt ctccgtccgg acgggacatt tcagatcggc ggcgccggcc gtccttcatt 24780 cacgcctcgt caggcaatcc taactctgca gacctcgtcc tctgagccgc gctctggagg 24840 cattggaact ctgcaattta ttgaggagtt tgtgccatcg gtctacttta accccttctc 24900 gggacctccc ggccactatc cggatcaatt tattcctaac tttgacgcgg taaaggactc 24960 ggcggacggc tacgactgaa tgttaagtgg agaggcagag caactgcgcc tgaaacacct 25020 ggtccactgt cgccgccaca agtgctttgc ccgcgactcc ggtgagtttt gctactttga 25080 attgcccgag gatcatatcg agggcccggc gcacggcgtc cggcttaccg cccagggaga 25140 gcttgcccgt agcctgattc gggagtttac ccagcgcccc ctgctagttg agcgggacag 25200 gggaccctgt gttctcactg tgatttgcaa ctgtcctaac cttggattac atcaagatcc 25260 tctagttaat taacagcttg catgcctgca ggtcgacgga tcgggagatc tcggccgcat 25320 attaagtgca ttgttctcga taccgctaag tgcattgttc tcgttagctc gatggacaag 25380 tgcattgttc tcttgctgaa agctcgatgg acaagtgcat tgttctcttg ctgaaagctc 25440 gatggacaag tgcattgttc tcttgctgaa agctcagtac ccgggagtac cctcgaccgc 25500 cggagtataa atagaggcgc ttcgtctacg gagcgacaat tcaattcaaa caagcaaagt 25560 gaacacgtcg ctaagcgaaa gctaagcaaa taaacaagcg cagctgaaca agctaaacaa 25620 tctgcagtaa agtgcaagtt aaagtgaatc aattaaaagt aaccagcaac caagtaaatc 25680 aactgcaact actgaaatct gccaagaagt aattattgaa tacaagaaga gaactctgaa 25740 tactttcaac aagttaccga gaaagaagaa ctcacacaca gctagcgttt aaacttaagc 25800 ttcaccatgg tggggccctg catgctgctg ctgctgctgc tgctgggcct gaggctacag 25860 ctctccctgg gcatcatcct agttgaggag gagaacccgg acttctggaa ccgcgaggca 25920 gccgaggccc tgggtgccgc caagaagctg cagcctgcac agacagccgc caagaacctc 25980 atcatcttcc tgggcgatgg ggtgggggtg tctacggtga cagctgccag gatcctaaaa 26040 gggcagaaga aggacaaact ggggcctgag atacccctgg ccatggaccg cttcccatat 26100 gtggctctgt ccaagacata caatgtagac aaacatgtgc cagacagtgg agccacagcc 26160 acggcctacc tgtgcggggt caagggcaac ttccagacca ttggcttgag tgcagccgcc 26220 cgctttaacc agtgcaacac gacacgcggc aacgaggtca tctccgtgat gaatcgggcc 26280 aagaaagcag ggaagtcagt gggagtggta accaccacac gagtgcagca cgcctcgcca 26340 gccggcacct acgcccacac ggtgaaccgc aactggtact cggacgccga cgtgcctgcc 26400 tcggcccgcc aggaggggtg ccaggacatc gctacgcagc tcatctccaa catggacatt 26460 gacgtgatcc taggtggggg ccgaaagtac atgtttcgca tgggaacccc agaccctgag 26520 tacccagatg actacagcca aggtgggacc aggctggacg ggaagaatct ggtgcaggaa 26580 tggctggcga agcaccaggg tgcccggtac gtgtggaacc gcactgagct catgcgggct 26640 tccctggacc cgtctgtggc ccatctcatg ggtctctttg agcctggaga catgaaatac 26700 gagatccacc gagactccac actggacccc tccctgatgg agatgacaga ggctgccctg 26760 cgcctgctga gcaggaaccc ccgcggcttc ttcctcttcg tggagggtgg tcgcatcgac 26820 catggtcatc atgaaagcag ggcttaccgg gcactgactg agacgatcat gttcgacgac 26880 gccattgaga gggcgggcca gctcaccagc gaggaggaca cgctgagcct cgtcactgcc 26940 gaccactccc acgtcttctc cttcggaggc tgccccctgc gagggggctc catcttcggg 27000 ctggcccctg gcaaggcccg ggacaggaag gcctacacgg tcctcctata cggaaacggt 27060 ccaggctatg tgctcaagga cggcgcccgg ccggatgtta ccgagagcga gagcgggagc 27120 cccgagtatc ggcagcagtc agcagtgccc ctggacgaag agacccacgc aggcgaggac 27180 gtggcggtgt tcgcgcgcgg cccgcaggcg cacctggttc acggcgtgca ggagcagacc 27240 ttcatagcgc acgtcatggc cttcgccgcc tgcctggagc cctacaccgc ctgcgacctg 27300 gcgccccccg ccggcaccac cgacgccgcg cacccggggc ggtccgtggt ccccgcgttg 27360 cttcctctgc tggccgggac cctgctgctg ctggagacgg ccactgctcc ctgagtgtcc 27420 cgtccctggg gctcctgctt ccccatcccg gagttctcct gctccccgcc tcctgtcgtc 27480 ctgcctggcc tccagcccga gtcgtcatcc ccggagtccc tatacagagg tcctgccatg 27540 gaaccttccc ctccccgtgc gctctgggga ctgagcccat gacaccaaac ctgccccttg 27600 gctgctctcg gactccctac cccaacccca gggacagatc tggccagatt tgtaaaacaa 27660 atagatttta ggcccaaaga ttatttaaag cattgcctgg aacgcagtga gtttttgtta 27720 gaaaagagaa taattcaaag tggcattgct ttgcttctta tgttaatttg gtacagacct 27780 gtggctgagt ttgctcaaag tattcagagc agaattgtgg agtggaaaga gagattggac 27840 aaagagttta gtttgtcagt gtatcaaaaa atgaagttta atgtggctat gggaattgga 27900 gttttagatt ggctaagaaa cagtgatgat gatgatgaag acagccagga aaatgctgat 27960 aaaaatgaag atggtgggga gaagaacatg gaagactcag ggcatgaaac aggcattgat 28020 tcacagtccc aaggctcatt tcaggcccct cagtcctcac agtctgttca tgatcataat 28080 cagccatacc acatttgtag aggttttact tgctttaaaa aacctcccac acctccccct 28140 gaacctgaaa cataaaatga atgcaattgt tgttgttaac ttgtttattg cagcttataa 28200 tggttacaaa taaagcaata gcatcacaaa tttcacaaat aaagcatttt tttcactgca 28260 ttctagttgt ggtttgtcca aactcatcaa tgtatcttat catgtctgga tccccaggaa 28320 gctcctctgt gtcctcataa accctaacct cctctacttg agaggacatt ccaatcatag 28380 gctgcccatc caccctctgt gtcctcctgt taattaggtc acttaacaaa aaggaaattg 28440 ggtaggggtt tttcacagac cgctttctaa gggtaatttt aaaatatctg ggaagtccct 28500 tccactgctg tgttccagaa gtgttggtaa acagcccaca aatgtcaaca gcagaaacat 28560 acaagctgtc agctttgcac aagggcccaa caccctgctc atcaagaagc actgtggttg 28620 ctgtgttagt aatgtgcaaa acaggaggca cattttcccc acctgtgtag gttccaaaat 28680 atctagtgtt ttcattttta cttggatcag gaacccagca ctccactgga taagcattat 28740 ccttatccaa aacagccttg tggtcagtgt tcatctgctg actgtcaact gtagcatttt 28800 ttggggttac agtttgagca ggatatttgg tcctgtagtt tgctaacaca ccctgcagct 28860 ccaaaggttc cccaccaaca gcaaaaaaat gaaaatttga cccttgaatg ggttttccag 28920 caccattttc atgagttttt tgtgtccctg aatgcaagtt taacatagca gttaccccaa 28980 taacctcagt tttaacagta acagcttccc acatcaaaat atttccacag gttaagtcct 29040 catttaaatt aggcaaagga attccacttc ccactgcctt gcttccgtct cccattcaaa 29100 cttttatcaa ctgacattat tctaagtaaa atcctcttca ttatgttgtc agcaatccat 29160 tgcttgaagg cctggctccc cagaacccct cgactggtat gtcttctcct agaatactcc 29220 agaagaaaag gagtgtatga agatagtgac tgcacattaa aatgactgaa accatagtaa 29280 attaggatga gattctgggc agataaacag acagctggct aggatcattt ttttatgcct 29340 tggacttctt tggcaatctg ttgaagcctg acattcctca gaataatgtt ttaaagccca 29400 acaataagac cctgtagcac atataataag tactgcagtt ttgaagtagt gataagcata 29460 aatgatattt tgatatattt attataactg taatgagatg tgtacatatc tgtgacttca 29520 taggtactga ttgtactact gtgatttttt tgcctacttt caaaatgaaa aggaatgctt 29580 aatttcagtt agaggttagt aaagacaaat aggtaatttt cttctccagt gaagagcatg 29640

gcgccccttg ctattcatgg acgcttgctt aaagacttgt acacaggctt gctttgtatc 29700 aacctatgac ttccccttac agccgatgat aggtttttat ttgcacctcc ttcgtgtaca 29760 aagacagttt tggtggctac gccatcatta aactcattat tatcatgctt aagcctatag 29820 atgtatccag ttcttctgtt acataattga agctgtagtg aattgtctat cttaaactgc 29880 atcgctaact gactacattt cacacttcat ttgcttccaa catagactaa ccttcttgga 29940 tgtccactat tatttgaact tttgagattt tttttcctat ttctaatatc ttaaaatttc 30000 agaagactta aagttttgca actacagggc tccatataga catctagctt gaatttatac 30060 actttctttc attgatgtcc ctggactaaa aaatgttaaa tatttctaac cgctgtactt 30120 aaagtccatt acaaacgaag actactgttg ttaagttgaa taggcatctt atatattttt 30180 caccggtgca ataaataact tctattccct tctaacatct gcttgcgttg cactgagagt 30240 acactattga ttagcaatag gttcgtgatt acagcccttc tataattaat tgttaggtta 30300 acatattatt cataaaatat tattttatta atttttactt gatttgctac tggatgctta 30360 gaaatagcta tgagtatatt ggtagaacca gtacttatat tttattacat ttttacattt 30420 cataaaattt aagtgatata aaaatcctga ggaagtatgc cacaaaagtg gtctcagtgg 30480 aaatttaaat atgttaacat ttatttttaa aatgtagcgt gaaatagaca actttaaaag 30540 ctcagcttaa aaaaaaaact caaggaagct gaacttgact ttttaaagca ctgaagtgca 30600 atatttaatg taggtcaaca tgtttaaatg ggaaaatttt tttcctaatt acagccaaat 30660 ccctagctgt aattaactta aaatttgtat actatttcac aacagagtca gcatatacca 30720 ctttcttata aaattagaaa gatctaaaat tttagagctt atttggtgaa acaggcatat 30780 tgctacatct ttgtttataa attataatgt gcctttagag cccaataaca gataacaaga 30840 ttttgaaaat tcaggtgaat tagagttatc agagggaatg ttaatacact ctattcaaat 30900 actatatgag taagacattt aaaataggaa acaatacttt atatattaaa aaaaattaat 30960 cttccagtcg atttaatcca ctttatgaat tcatttaaat cgatttaaat tcgaattaat 31020 taactagagt acccggggat cttattccct ttaactaata aaaaaaaata ataaagcatc 31080 acttacttaa aatcagttag caaatttctg tccagtttat tcagcagcac ctccttgccc 31140 tcctcccagc tctggtattg cagcttcctc ctggctgcaa actttctcca caatctaaat 31200 ggaatgtcag tttcctcctg ttcctgtcca tccgcaccca ctatcttcat gttgttgcag 31260 atgaagcgcg caagaccgtc tgaagatacc ttcaaccccg tgtatccata tgacacggaa 31320 accggtcctc caactgtgcc ttttcttact cctccctttg tatcccccaa tgggtttcaa 31380 gagagtcccc ctggggtact ctctttgcgc ctatccgaac ctctagttac ctccaatggc 31440 atgcttgcgc tcaaaatggg caacggcctc tctctggacg aggccggcaa ccttacctcc 31500 caaaatgtaa ccactgtgag cccacctctc aaaaaaacca agtcaaacat aaacctggaa 31560 atatctgcac ccctcacagt tacctcagaa gccctaactg tggctgccgc cgcacctcta 31620 atggtcgcgg gcaacacact caccatgcaa tcacaggccc cgctaaccgt gcacgactcc 31680 aaacttagca ttgccaccca aggacccctc acagtgtcag aaggaaagct agccctgcaa 31740 acatcaggcc ccctcaccac caccgatagc agtaccctta ctatcactgc ctcaccccct 31800 ctaactactg ccactggtag cttgggcatt gacttgaaag agcccattta tacacaaaat 31860 ggaaaactag gactaaagta cggggctcct ttgcatgtaa cagacgacct aaacactttg 31920 accgtagcaa ctggtccagg tgtgactatt aataatactt ccttgcaaac taaagttact 31980 ggagccttgg gttttgattc acaaggcaat atgcaactta atgtagcagg aggactaagg 32040 attgattctc aaaacagacg ccttatactt gatgttagtt atccgtttga tgctcaaaac 32100 caactaaatc taagactagg acagggccct ctttttataa actcagccca caacttggat 32160 attaactaca acaaaggcct ttacttgttt acagcttcaa acaattccaa aaagcttgag 32220 gttaacctaa gcactgccaa ggggttgatg tttgacgcta cagccatagc cattaatgca 32280 ggagatgggc ttgaatttgg ttcacctaat gcaccaaaca caaatcccct caaaacaaaa 32340 attggccatg gcctagaatt tgattcaaac aaggctatgg ttcctaaact aggaactggc 32400 cttagttttg acagcacagg tgccattaca gtaggaaaca aaaataatga taagctaact 32460 ttgtggacca caccagctcc atctcctaac tgtagactaa atgcagagaa agatgctaaa 32520 ctcactttgg tcttaacaaa atgtggcagt caaatacttg ctacagtttc agttttggct 32580 gttaaaggca gtttggctcc aatatctgga acagttcaaa gtgctcatct tattataaga 32640 tttgacgaaa atggagtgct actaaacaat tccttcctgg acccagaata ttggaacttt 32700 agaaatggag atcttactga aggcacagcc tatacaaacg ctgttggatt tatgcctaac 32760 ctatcagctt atccaaaatc tcacggtaaa actgccaaaa gtaacattgt cagtcaagtt 32820 tacttaaacg gagacaaaac taaacctgta acactaacca ttacactaaa cggtacacag 32880 gaaacaggag acacaactcc aagtgcatac tctatgtcat tttcatggga ctggtctggc 32940 cacaactaca ttaatgaaat atttgccaca tcctcttaca ctttttcata cattgcccaa 33000 gaataaagaa tcgtttgtgt tatgtttcaa cgtgtttatt tttcaattgc agaaaatttc 33060 aagtcatttt tcattcagta gtatagcccc accaccacat agcttataca gatcaccgta 33120 ccttaatcaa actcacagaa ccctagtatt caacctgcca cctccctccc aacacacaga 33180 gtacacagtc ctttctcccc ggctggcctt aaaaagcatc atatcatggg taacagacat 33240 attcttaggt gttatattcc acacggtttc ctgtcgagcc aaacgctcat cagtgatatt 33300 aataaactcc ccgggcagct cacttaagtt catgtcgctg tccagctgct gagccacagg 33360 ctgctgtcca acttgcggtt gcttaacggg cggcgaagga gaagtccacg cctacatggg 33420 ggtagagtca taatcgtgca tcaggatagg gcggtggtgc tgcagcagcg cgcgaataaa 33480 ctgctgccgc cgccgctccg tcctgcagga atacaacatg gcagtggtct cctcagcgat 33540 gattcgcacc gcccgcagca taaggcgcct tgtcctccgg gcacagcagc gcaccctgat 33600 ctcacttaaa tcagcacagt aactgcagca cagcaccaca atattgttca aaatcccaca 33660 gtgcaaggcg ctgtatccaa agctcatggc ggggaccaca gaacccacgt ggccatcata 33720 ccacaagcgc aggtagatta agtggcgacc cctcataaac acgctggaca taaacattac 33780 ctcttttggc atgttgtaat tcaccacctc ccggtaccat ataaacctct gattaaacat 33840 ggcgccatcc accaccatcc taaaccagct ggccaaaacc tgcccgccgg ctatacactg 33900 cagggaaccg ggactggaac aatgacagtg gagagcccag gactcgtaac catggatcat 33960 catgctcgtc atgatatcaa tgttggcaca acacaggcac acgtgcatac acttcctcag 34020 gattacaagc tcctcccgcg ttagaaccat atcccaggga acaacccatt cctgaatcag 34080 cgtaaatccc acactgcagg gaagacctcg cacgtaactc acgttgtgca ttgtcaaagt 34140 gttacattcg ggcagcagcg gatgatcctc cagtatggta gcgcgggttt ctgtctcaaa 34200 aggaggtaga cgatccctac tgtacggagt gcgccgagac aaccgagatc gtgttggtcg 34260 tagtgtcatg ccaaatggaa cgccggacgt agtcatattt cctgaagcaa aaccaggtgc 34320 gggcgtgaca aacagatctg cgtctccggt ctcgccgctt agatcgctct gtgtagtagt 34380 tgtagtatat ccactctctc aaagcatcca ggcgccccct ggcttcgggt tctatgtaaa 34440 ctccttcatg cgccgctgcc ctgataacat ccaccaccgc agaataagcc acacccagcc 34500 aacctacaca ttcgttctgc gagtcacaca cgggaggagc gggaagagct ggaagaacca 34560 tgtttttttt tttattccaa aagattatcc aaaacctcaa aatgaagatc tattaagtga 34620 acgcgctccc ctccggtggc gtggtcaaac tctacagcca aagaacagat aatggcattt 34680 gtaagatgtt gcacaatggc ttccaaaagg caaacggccc tcacgtccaa gtggacgtaa 34740 aggctaaacc cttcagggtg aatctcctct ataaacattc cagcaccttc aaccatgccc 34800 aaataattct catctcgcca ccttctcaat atatctctaa gcaaatcccg aatattaagt 34860 ccggccattg taaaaatctg ctccagagcg ccctccacct tcagcctcaa gcagcgaatc 34920 atgattgcaa aaattcaggt tcctcacaga cctgtataag attcaaaagc ggaacattaa 34980 caaaaatacc gcgatcccgt aggtcccttc gcagggccag ctgaacataa tcgtgcaggt 35040 ctgcacggac cagcgcggcc acttccccgc caggaacctt gacaaaagaa cccacactga 35100 ttatgacacg catactcgga gctatgctaa ccagcgtagc cccgatgtaa gctttgttgc 35160 atgggcggcg atataaaatg caaggtgctg ctcaaaaaat caggcaaagc ctcgcgcaaa 35220 aaagaaagca catcgtagtc atgctcatgc agataaaggc aggtaagctc cggaaccacc 35280 acagaaaaag acaccatttt tctctcaaac atgtctgcgg gtttctgcat aaacacaaaa 35340 taaaataaca aaaaaacatt taaacattag aagcctgtct tacaacagga aaaacaaccc 35400 ttataagcat aagacggact acggccatgc cggcgtgacc gtaaaaaaac tggtcaccgt 35460 gattaaaaag caccaccgac agctcctcgg tcatgtccgg agtcataatg taagactcgg 35520 taaacacatc aggttgattc atcggtcagt gctaaaaagc gaccgaaata gcccggggga 35580 atacataccc gcaggcgtag agacaacatt acagccccca taggaggtat aacaaaatta 35640 ataggagaga aaaacacata aacacctgaa aaaccctcct gcctaggcaa aatagcaccc 35700 tcccgctcca gaacaacata cagcgcttca cagcggcagc ctaacagtca gccttaccag 35760 taaaaaagaa aacctattaa aaaaacacca ctcgacacgg caccagctca atcagtcaca 35820 gtgtaaaaaa gggccaagtg cagagcgagt atatatagga ctaaaaaatg acgtaacggt 35880 taaagtccac aaaaaacacc cagaaaaccg cacgcgaacc tacgcccaga aacgaaagcc 35940 aaaaaaccca caacttcctc aaatcgtcac ttccgttttc ccacgttacg tcacttccca 36000 ttttaagaaa actacaattc ccaacacata caagttactc cgccctaaaa cctacgtcac 36060 ccgccccgtt cccacgcccc gcgccacgtc acaaactcca ccccctcatt atcatattgg 36120 cttcaatcca aaataaggta tattattgat gatg 36154 <210> SEQ ID NO 2 <211> LENGTH: 31 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 2 cggaattcgg atccagcgac cgcgagctga t 31 <210> SEQ ID NO 3 <211> LENGTH: 33 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 3 cggaattcag ccggcttcgt cgggccggat ggc 33 <210> SEQ ID NO 4 <211> LENGTH: 32 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 4

cgcggatccg ccggctacgg cctgacgggc gg 32 <210> SEQ ID NO 5 <211> LENGTH: 28 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 5 cggaattcac acacatacga cacgttag 28 <210> SEQ ID NO 6 <211> LENGTH: 32 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 6 cggaattcgg ccggccatca tcaataatat ac 32 <210> SEQ ID NO 7 <211> LENGTH: 43 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 7 cggtcgattc aattgctggc aagcttcggc cctagacaaa tat 43 <210> SEQ ID NO 8 <211> LENGTH: 19 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 8 ctatgctaac cagcgtagc 19 <210> SEQ ID NO 9 <211> LENGTH: 36154 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 9 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tagtagtgtg gcggaagtgt 120 gatgttgcaa gtgtggcgga acacatgtat aacttcgtat aatgtatgct atacgaagtt 180 atacatgtaa gcgacggatg tggcaaaagt gacgtttttg gtgtgcgccg gtgtacacag 240 gaagtgacaa ttttcgcgcg gttttaggcg gatgttgtag taaatttggg cgtaaccgag 300 taagatttgg ccattttcgc gggaaaactg aataagagga agtgaaatct gaataatttt 360 gtgttactca tagcgcgtaa tatttgtcta gggagatcta taacttcgta taatgtatgc 420 tatacgaagt tattaccgaa gaaatggctc gagatctgga aggtgctgag gtacgatgag 480 acccgcacca ggtgcagacc ctgcgagtgt ggcggtaaac atattaggaa ccagcctgtg 540 atgctggatg tgaccgagga gctgaggccc gatcacttgg tgctggcctg cacccgcgct 600 gagtttggct ctagcgatga agatacagat tgaggtactg aaatgtgtgg gcgtggctta 660 agggtgggaa agaatatata aggtgggggt cttatgtagt tttgtatctg ttttgcagca 720 gccgccgccg ccatgagcac caactcgttt gatggaagca ttgtgagctc atatttgaca 780 acgcgcatgc ccccatgggc cggggtgcgt cagaatgtga tgggctccag cattgatggt 840 cgccccgtcc tgcccgcaaa ctctactacc ttgacctacg agaccgtgtc tggaacgccg 900 ttggagactg cagcctccgc cgccgcttca gccgctgcag ccaccgcccg cgggattgtg 960 actgactttg ctttcctgag cccgcttgca agcagtgcag cttcccgttc atccgcccgc 1020 gatgacaagt tgacggctct tttggcacaa ttggattctt tgacccggga acttaatgtc 1080 gtttctcagc agctgttgga tctgcgccag caggtttctg ccctgaaggc ttcctcccct 1140 cccaatgcgg tttaaaacat aaataaaaaa ccagactctg tttggatttg gatcaagcaa 1200 gtgtcttgct gtctttattt aggggttttg cgcgcgcggt aggcccggga ccagcggtct 1260 cggtcgttga gggtcctgtg tattttttcc aggacgtggt aaaggtgact ctggatgttc 1320 agatacatgg gcataagccc gtctctgggg tggaggtagc accactgcag agcttcatgc 1380 tgcggggtgg tgttgtagat gatccagtcg tagcaggagc gctgggcgtg gtgcctaaaa 1440 atgtctttca gtagcaagct gattgccagg ggcaggccct tggtgtaagt gtttacaaag 1500 cggttaagct gggatgggtg catacgtggg gatatgagat gcatcttgga ctgtattttt 1560 aggttggcta tgttcccagc catatccctc cggggattca tgttgtgcag aaccaccagc 1620 acagtgtatc cggtgcactt gggaaatttg tcatgtagct tagaaggaaa tgcgtggaag 1680 aacttggaga cgcccttgtg acctccaaga ttttccatgc attcgtccat aatgatggca 1740 atgggcccac gggcggcggc ctgggcgaag atatttctgg gatcactaac gtcatagttg 1800 tgttccagga tgagatcgtc ataggccatt tttacaaagc gcgggcggag ggtgccagac 1860 tgcggtataa tggttccatc cggcccaggg gcgtagttac cctcacagat ttgcatttcc 1920 cacgctttga gttcagatgg ggggatcatg tctacctgcg gggcgatgaa gaaaacggtt 1980 tccggggtag gggagatcag ctgggaagaa agcaggttcc tgagcagctg cgacttaccg 2040 cagccggtgg gcccgtaaat cacacctatt accgggtgca actggtagtt aagagagctg 2100 cagctgccgt catccctgag caggggggcc acttcgttaa gcatgtccct gactcgcatg 2160 ttttccctga ccaaatccgc cagaaggcgc tcgccgccca gcgatagcag ttcttgcaag 2220 gaagcaaagt ttttcaacgg tttgagaccg tccgccgtag gcatgctttt gagcgtttga 2280 ccaagcagtt ccaggcggtc ccacagctcg gtcacctgct ctacggcatc tcgatccagc 2340 atatctcctc gtttcgcggg ttggggcggc tttcgctgta cggcagtagt cggtgctcgt 2400 ccagacgggc cagggtcatg tctttccacg ggcgcagggt cctcgtcagc gtagtctggg 2460 tcacggtgaa ggggtgcgct ccgggctgcg cgctggccag ggtgcgcttg aggctggtcc 2520 tgctggtgct gaagcgctgc cggtcttcgc cctgcgcgtc ggccaggtag catttgacca 2580 tggtgtcata gtccagcccc tccgcggcgt ggcccttggc gcgcagcttg cccttggagg 2640 aggcgccgca cgaggggcag tgcagacttt tgagggcgta gagcttgggc gcgagaaata 2700 ccgattccgg ggagtaggca tccgcgccgc aggccccgca gacggtctcg cattccacga 2760 gccaggtgag ctctggccgt tcggggtcaa aaaccaggtt tcccccatgc tttttgatgc 2820 gtttcttacc tctggtttcc atgagccggt gtccacgctc ggtgacgaaa aggctgtccg 2880 tgtccccgta tacagacttg agaggcctgt cctcgagcgg tgttccgcgg tcctcctcgt 2940 atagaaactc ggaccactct gagacaaagg ctcgcgtcca ggccagcacg aaggaggcta 3000 agtgggaggg gtagcggtcg ttgtccacta gggggtccac tcgctccagg gtgtgaagac 3060 acatgtcgcc ctcttcggca tcaaggaagg tgattggttt gtaggtgtag gccacgtgac 3120 cgggtgttcc tgaagggggg ctataaaagg gggtgggggc gcgttcgtcc tcactctctt 3180 ccgcatcgct gtctgcgagg gccagctgtt ggggtgagta ctccctctga aaagcgggca 3240 tgacttctgc gctaagattg tcagtttcca aaaacgagga ggatttgata ttcacctggc 3300 ccgcggtgat gcctttgagg gtggccgcat ccatctggtc agaaaagaca atctttttgt 3360 tgtcaagctt ggtggcaaac gacccgtaga gggcgttgga cagcaacttg gcgatggagc 3420 gcagggtttg gtttttgtcg cgatcggcgc gctccttggc cgcgatgttt agctgcacgt 3480 attcgcgcgc aacgcaccgc cattcgggaa agacggtggt gcgctcgtcg ggcaccaggt 3540 gcacgcgcca accgcggttg tgcagggtga caaggtcaac gctggtggct acctctccgc 3600 gtaggcgctc gttggtccag cagaggcggc cgcccttgcg cgagcagaat ggcggtaggg 3660 ggtctagctg cgtctcgtcc ggggggtctg cgtccacggt aaagaccccg ggcagcaggc 3720 gcgcgtcgaa gtagtctatc ttgcatcctt gcaagtctag cgcctgctgc catgcgcggg 3780 cggcaagcgc gcgctcgtat gggttgagtg ggggacccca tggcatgggg tgggtgagcg 3840 cggaggcgta catgccgcaa atgtcgtaaa cgtagagggg ctctctgagt attccaagat 3900 atgtagggta gcatcttcca ccgcggatgc tggcgcgcac gtaatcgtat agttcgtgcg 3960 agggagcgag gaggtcggga ccgaggttgc tacgggcggg ctgctctgct cggaagacta 4020 tctgcctgaa gatggcatgt gagttggatg atatggttgg acgctggaag acgttgaagc 4080 tggcgtctgt gagacctacc gcgtcacgca cgaaggaggc gtaggagtcg cgcagcttgt 4140 tgaccagctc ggcggtgacc tgcacgtcta gggcgcagta gtccagggtt tccttgatga 4200 tgtcatactt atcctgtccc ttttttttcc acagctcgcg gttgaggaca aactcttcgc 4260 ggtctttcca gtactcttgg atcggaaacc cgtcggcctc cgaacggtaa gagcctagca 4320 tgtagaactg gttgacggcc tggtaggcgc agcatccctt ttctacgggt agcgcgtatg 4380 cctgcgcggc cttccggagc gaggtgtggg tgagcgcaaa ggtgtccctg accatgactt 4440 tgaggtactg gtatttgaag tcagtgtcgt cgcatccgcc ctgctcccag agcaaaaagt 4500 ccgtgcgctt tttggaacgc ggatttggca gggcgaaggt gacatcgttg aagagtatct 4560 ttcccgcgcg aggcataaag ttgcgtgtga tgcggaaggg tcccggcacc tcggaacggt 4620 tgttaattac ctgggcggcg agcacgatct cgtcaaagcc gttgatgttg tggcccacaa 4680 tgtaaagttc caagaagcgc gggatgccct tgatggaagg caatttttta agttcctcgt 4740 aggtgagctc ttcaggggag ctgagcccgt gctctgaaag ggcccagtct gcaagatgag 4800 ggttggaagc gacgaatgag ctccacaggt cacgggccat tagcatttgc aggtggtcgc 4860 gaaaggtcct aaactggcga cctatggcca ttttttctgg ggtgatgcag tagaaggtaa 4920 gcgggtcttg ttcccagcgg tcccatccaa ggttcgcggc taggtctcgc gcggcagtca 4980 ctagaggctc atctccgccg aacttcatga ccagcatgaa gggcacgagc tgcttcccaa 5040 aggcccccat ccaagtatag gtctctacat cgtaggtgac aaagagacgc tcggtgcgag 5100 gatgcgagcc gatcgggaag aactggatct cccgccacca attggaggag tggctattga 5160 tgtggtgaaa gtagaagtcc ctgcgacggg ccgaacactc gtgctggctt ttgtaaaaac 5220 gtgcgcagta ctggcagcgg tgcacgggct gtacatcctg cacgaggttg acctgacgac 5280 cgcgcacaag gaagcagagt gggaatttga gcccctcgcc tggcgggttt ggctggtggt 5340 cttctacttc ggctgcttgt ccttgaccgt ctggctgctc gaggggagtt acggtggatc 5400 ggaccaccac gccgcgcgag cccaaagtcc agatgtccgc gcgcggcggt cggagcttga 5460 tgacaacatc gcgcagatgg gagctgtcca tggtctggag ctcccgcggc gtcaggtcag 5520 gcgggagctc ctgcaggttt acctcgcata gacgggtcag ggcgcgggct agatccaggt 5580 gatacctaat ttccaggggc tggttggtgg cggcgtcgat ggcttgcaag aggccgcatc 5640 cccgcggcgc gactacggta ccgcgcggcg ggcggtgggc cgcgggggtg tccttggatg 5700

atgcatctaa aagcggtgac gcgggcgagc ccccggaggt agggggggct ccggacccgc 5760 cgggagaggg ggcaggggca cgtcggcgcc gcgcgcgggc aggagctggt gctgcgcgcg 5820 taggttgctg gcgaacgcga cgacgcggcg gttgatctcc tgaatctggc gcctctgcgt 5880 gaagacgacg ggcccggtga gcttgagcct gaaagagagt tcgacagaat caatttcggt 5940 gtcgttgacg gcggcctggc gcaaaatctc ctgcacgtct cctgagttgt cttgataggc 6000 gatctcggcc atgaactgct cgatctcttc ctcctggaga tctccgcgtc cggctcgctc 6060 cacggtggcg gcgaggtcgt tggaaatgcg ggccatgagc tgcgagaagg cgttgaggcc 6120 tccctcgttc cagacgcggc tgtagaccac gcccccttcg gcatcgcggg cgcgcatgac 6180 cacctgcgcg agattgagct ccacgtgccg ggcgaagacg gcgtagtttc gcaggcgctg 6240 aaagaggtag ttgagggtgg tggcggtgtg ttctgccacg aagaagtaca taacccagcg 6300 tcgcaacgtg gattcgttga tatcccccaa ggcctcaagg cgctccatgg cctcgtagaa 6360 gtccacggcg aagttgaaaa actgggagtt gcgcgccgac acggttaact cctcctccag 6420 aagacggatg agctcggcga cagtgtcgcg cacctcgcgc tcaaaggcta caggggcctc 6480 ttcttcttct tcaatctcct cttccataag ggcctcccct tcttcttctt ctggcggcgg 6540 tgggggaggg gggacacggc ggcgacgacg gcgcaccggg aggcggtcga caaagcgctc 6600 gatcatctcc ccgcggcgac ggcgcatggt ctcggtgacg gcgcggccgt tctcgcgggg 6660 gcgcagttgg aagacgccgc ccgtcatgtc ccggttatgg gttggcgggg ggctgccatg 6720 cggcagggat acggcgctaa cgatgcatct caacaattgt tgtgtaggta ctccgccgcc 6780 gagggacctg agcgagtccg catcgaccgg atcggaaaac ctctcgagaa aggcgtctaa 6840 ccagtcacag tcgcaaggta ggctgagcac cgtggcgggc ggcagcgggc ggcggtcggg 6900 gttgtttctg gcggaggtgc tgctgatgat gtaattaaag taggcggtct tgagacggcg 6960 gatggtcgac agaagcacca tgtccttggg tccggcctgc tgaatgcgca ggcggtcggc 7020 catgccccag gcttcgtttt gacatcggcg caggtctttg tagtagtctt gcatgagcct 7080 ttctaccggc acttcttctt ctccttcctc ttgtcctgca tctcttgcat ctatcgctgc 7140 ggcggcggcg gagtttggcc gtaggtggcg ccctcttcct cccatgcgtg tgaccccgaa 7200 gcccctcatc ggctgaagca gggctaggtc ggcgacaacg cgctcggcta atatggcctg 7260 ctgcacctgc gtgagggtag actggaagtc atccatgtcc acaaagcggt ggtatgcgcc 7320 cgtgttgatg gtgtaagtgc agttggccat aacggaccag ttaacggtct ggtgacccgg 7380 ctgcgagagc tcggtgtacc tgagacgcga gtaagccctc gagtcaaata cgtagtcgtt 7440 gcaagtccgc accaggtact ggtatcccac caaaaagtgc ggcggcggct ggcggtagag 7500 gggccagcgt agggtggccg gggctccggg ggcgagatct tccaacataa ggcgatgata 7560 tccgtagatg tacctggaca tccaggtgat gccggcggcg gtggtggagg cgcgcggaaa 7620 gtcgcggacg cggttccaga tgttgcgcag cggcaaaaag tgctccatgg tcgggacgct 7680 ctggccggtc aggcgcgcgc aatcgttgac gctctaccgt gcaaaaggag agcctgtaag 7740 cgggcactct tccgtggtct ggtggataaa ttcgcaaggg tatcatggcg gacgaccggg 7800 gttcgagccc cgtatccggc cgtccgccgt gatccatgcg gttaccgccc gcgtgtcgaa 7860 cccaggtgtg cgacgtcaga caacggggga gtgctccttt tggcttcctt ccaggcgcgg 7920 cggctgctgc gctagctttt ttggccactg gccgcgcgca gcgtaagcgg ttaggctgga 7980 aagcgaaagc attaagtggc tcgctccctg tagccggagg gttattttcc aagggttgag 8040 tcgcgggacc cccggttcga gtctcggacc ggccggactg cggcgaacgg gggtttgcct 8100 ccccgtcatg caagaccccg cttgcaaatt cctccggaaa cagggacgag cccctttttt 8160 gcttttccca gatgcatccg gtgctgcggc agatgcgccc ccctcctcag cagcggcaag 8220 agcaagagca gcggcagaca tgcagggcac cctcccctcc tcctaccgcg tcaggagggg 8280 cgacatccgc ggttgacgcg gcagcagatg gtgattacga acccccgcgg cgccgggccc 8340 ggcactacct ggacttggag gagggcgagg gcctggcgcg gctaggagcg ccctctcctg 8400 agcggtaccc aagggtgcag ctgaagcgtg atacgcgtga ggcgtacgtg ccgcggcaga 8460 acctgtttcg cgaccgcgag ggagaggagc ccgaggagat gcgggatcga aagttccacg 8520 cagggcgcga gctgcggcat ggcctgaatc gcgagcggtt gctgcgcgag gaggactttg 8580 agcccgacgc gcgaaccggg attagtcccg cgcgcgcaca cgtggcggcc gccgacctgg 8640 taaccgcata cgagcagacg gtgaaccagg agattaactt tcaaaaaagc tttaacaacc 8700 acgtgcgtac gcttgtggcg cgcgaggagg tggctatagg actgatgcat ctgtgggact 8760 ttgtaagcgc gctggagcaa aacccaaata gcaagccgct catggcgcag ctgttcctta 8820 tagtgcagca cagcagggac aacgaggcat tcagggatgc gctgctaaac atagtagagc 8880 ccgagggccg ctggctgctc gatttgataa acatcctgca gagcatagtg gtgcaggagc 8940 gcagcttgag cctggctgac aaggtggccg ccatcaacta ttccatgctt agcctgggca 9000 agttttacgc ccgcaagata taccataccc cttacgttcc catagacaag gaggtaaaga 9060 tcgaggggtt ctacatgcgc atggcgctga aggtgcttac cttgagcgac gacctgggcg 9120 tttatcgcaa cgagcgcatc cacaaggccg tgagcgtgag ccggcggcgc gagctcagcg 9180 accgcgagct gatgcacagc ctgcaaaggg ccctggctgg cacgggcagc ggcgatagag 9240 aggccgagtc ctactttgac gcgggcgctg acctgcgctg ggccccaagc cgacgcgccc 9300 tggaggcagc tggggccgga cctgggctgg cggtggcacc cgcgcgcgct ggcaacgtcg 9360 gcggcgtgga ggaatatgac gaggacgatg agtacgagcc agaggacggc gagtactaag 9420 cggtgatgtt tctgatcaga tgatgcaaga cgcaacggac ccggcggtgc gggcggcgct 9480 gcagagccag ccgtccggcc ttaactccac ggacgactgg cgccaggtca tggaccgcat 9540 catgtcgctg actgcgcgca atcctgacgc gttccggcag cagccgcagg ccaaccggct 9600 ctccgcaatt ctggaagcgg tggtcccggc gcgcgcaaac cccacgcacg agaaggtgct 9660 ggcgatcgta aacgcgctgg ccgaaaacag ggccatccgg cccgacgaag ccggcctggt 9720 ctacgacgcg ctgcttcagc gcgtggctcg ttacaacagc ggcaacgtgc agaccaacct 9780 ggaccggctg gtgggggatg tgcgcgaggc cgtggcgcag cgtgagcgcg cgcagcagca 9840 gggcaacctg ggctccatgg ttgcactaaa cgccttcctg agtacacagc ccgccaacgt 9900 gccgcgggga caggaggact acaccaactt tgtgagcgca ctgcggctaa tggtgactga 9960 gacaccgcaa agtgaggtgt accagtctgg gccagactat tttttccaga ccagtagaca 10020 aggcctgcag accgtaaacc tgagccaggc tttcaaaaac ttgcaggggc tgtggggggt 10080 gcgggctccc acaggcgacc gcgcgaccgt gtctagcttg ctgacgccca actcgcgcct 10140 gttgctgctg ctaatagcgc ccttcacgga cagtggcagc gtgtcccggg acacatacct 10200 aggtcacttg ctgacactgt accgcgaggc cataggtcag gcgcatgtgg acgagcatac 10260 tttccaggag attacaagtg tcagccgcgc gctggggcag gaggacacgg gcagcctgga 10320 ggcaacccta aactacctgc tgaccaaccg gcggcagaag atcccctcgt tgcacagttt 10380 aaacagcgag gaggagcgca ttttgcgcta cgtgcagcag agcgtgagcc ttaacctgat 10440 gcgcgacggg gtaacgccca gcgtggcgct ggacatgacc gcgcgcaaca tggaaccggg 10500 catgtatgcc tcaaaccggc cgtttatcaa ccgcctaatg gactacttgc atcgcgcggc 10560 cgccgtgaac cccgagtatt tcaccaatgc catcttgaac ccgcactggc taccgccccc 10620 tggtttctac accgggggat tcgaggtgcc cgagggtaac gatggattcc tctgggacga 10680 catagacgac agcgtgtttt ccccgcaacc gcagaccctg ctagagttgc aacagcgcga 10740 gcaggcagag gcggcgctgc gaaaggaaag cttccgcagg ccaagcagct tgtccgatct 10800 aggcgctgcg gccccgcggt cagatgctag tagcccattt ccaagcttga tagggtctct 10860 taccagcact cgcaccaccc gcccgcgcct gctgggcgag gaggagtacc taaacaactc 10920 gctgctgcag ccgcagcgcg aaaaaaacct gcctccggca tttcccaaca acgggataga 10980 gagcctagtg gacaagatga gtagatggaa gacgtacgcg caggagcaca gggacgtgcc 11040 aggcccgcgc ccgcccaccc gtcgtcaaag gcacgaccgt cagcggggtc tggtgtggga 11100 ggacgatgac tcggcagacg acagcagcgt cctggatttg ggagggagtg gcaacccgtt 11160 tgcgcacctt cgccccaggc tggggagaat gttttaaaaa aaaaaaagca tgatgcaaaa 11220 taaaaaactc accaaggcca tggcaccgag cgttggtttt cttgtattcc ccttagtatg 11280 cggcgcgcgg cgatgtatga ggaaggtcct cctccctcct acgagagtgt ggtgagcgcg 11340 gcgccagtgg cggcggcgct gggttctccc ttcgatgctc ccctggaccc gccgtttgtg 11400 cctccgcggt acctgcggcc taccgggggg agaaacagca tccgttactc tgagttggca 11460 cccctattcg acaccacccg tgtgtacctg gtggacaaca agtcaacgga tgtggcatcc 11520 ctgaactacc agaacgacca cagcaacttt ctgaccacgg tcattcaaaa caatgactac 11580 agcccggggg aggcaagcac acagaccatc aatcttgacg accggtcgca ctggggcggc 11640 gacctgaaaa ccatcctgca taccaacatg ccaaatgtga acgagttcat gtttaccaat 11700 aagtttaagg cgcgggtgat ggtgtcgcgc ttgcctacta aggacaatca ggtggagctg 11760 aaatacgagt gggtggagtt cacgctgccc gagggcaact actccgagac catgaccata 11820 gaccttatga acaacgcgat cgtggagcac tacttgaaag tgggcagaca gaacggggtt 11880 ctggaaagcg acatcggggt aaagtttgac acccgcaact tcagactggg gtttgacccc 11940 gtcactggtc ttgtcatgcc tggggtatat acaaacgaag ccttccatcc agacatcatt 12000 ttgctgccag gatgcggggt ggacttcacc cacagccgcc tgagcaactt gttgggcatc 12060 cgcaagcggc aacccttcca ggagggcttt aggatcacct acgatgatct ggagggtggt 12120 aacattcccg cactgttgga tgtggacgcc taccaggcga gcttgaaaga tgacaccgaa 12180 cagggcgggg gtggcgcagg cggcagcaac agcagtggca gcggcgcgga agagaactcc 12240 aacgcggcag ccgcggcaat gcagccggtg gaggacatga acgatcatgc cattcgcggc 12300 gacacctttg ccacacgggc tgaggagaag cgcgctgagg ccgaagcagc ggccgaagct 12360 gccgcccccg ctgcgcaacc cgaggtcgag aagcctcaga agaaaccggt gatcaaaccc 12420 ctgacagagg acagcaagaa acgcagttac aacctaataa gcaatgacag caccttcacc 12480 cagtaccgca gctggtacct tgcatacaac tacggcgacc ctcagaccgg aatccgctca 12540 tggaccctgc tttgcactcc tgacgtaacc tgcggctcgg agcaggtcta ctggtcgttg 12600 ccagacatga tgcaagaccc cgtgaccttc cgctccacgc gccagatcag caactttccg 12660 gtggtgggcg ccgagctgtt gcccgtgcac tccaagagct tctacaacga ccaggccgtc 12720 tactcccaac tcatccgcca gtttacctct ctgacccacg tgttcaatcg ctttcccgag 12780 aaccagattt tggcgcgccc gccagccccc accatcacca ccgtcagtga aaacgttcct 12840 gctctcacag atcacgggac gctaccgctg cgcaacagca tcggaggagt ccagcgagtg 12900 accattactg acgccagacg ccgcacctgc ccctacgttt acaaggccct gggcatagtc 12960 tcgccgcgcg tcctatcgag ccgcactttt tgagcaagca tgtccatcct tatatcgccc 13020 agcaataaca caggctgggg cctgcgcttc ccaagcaaga tgtttggcgg ggccaagaag 13080 cgctccgacc aacacccagt gcgcgtgcgc gggcactacc gcgcgccctg gggcgcgcac 13140 aaacgcggcc gcactgggcg caccaccgtc gatgacgcca tcgacgcggt ggtggaggag 13200 gcgcgcaact acacgcccac gccgccacca gtgtccacag tggacgcggc cattcagacc 13260

gtggtgcgcg gagcccggcg ctatgctaaa atgaagagac ggcggaggcg cgtagcacgt 13320 cgccaccgcc gccgacccgg cactgccgcc caacgcgcgg cggcggccct gcttaaccgc 13380 gcacgtcgca ccggccgacg ggcggccatg cgggccgctc gaaggctggc cgcgggtatt 13440 gtcactgtgc cccccaggtc caggcgacga gcggccgccg cagcagccgc ggccattagt 13500 gctatgactc agggtcgcag gggcaacgtg tattgggtgc gcgactcggt tagcggcctg 13560 cgcgtgcccg tgcgcacccg ccccccgcgc aactagattg caagaaaaaa ctacttagac 13620 tcgtactgtt gtatgtatcc agcggcggcg gcgcgcaacg aagctatgtc caagcgcaaa 13680 atcaaagaag agatgctcca ggtcatcgcg ccggagatct atggcccccc gaagaaggaa 13740 gagcaggatt acaagccccg aaagctaaag cgggtcaaaa agaaaaagaa agatgatgat 13800 gatgaacttg acgacgaggt ggaactgctg cacgctaccg cgcccaggcg acgggtacag 13860 tggaaaggtc gacgcgtaaa acgtgttttg cgacccggca ccaccgtagt ctttacgccc 13920 ggtgagcgct ccacccgcac ctacaagcgc gtgtatgatg aggtgtacgg cgacgaggac 13980 ctgcttgagc aggccaacga gcgcctcggg gagtttgcct acggaaagcg gcataaggac 14040 atgctggcgt tgccgctgga cgagggcaac ccaacaccta gcctaaagcc cgtaacactg 14100 cagcaggtgc tgcccgcgct tgcaccgtcc gaagaaaagc gcggcctaaa gcgcgagtct 14160 ggtgacttgg cacccaccgt gcagctgatg gtacccaagc gccagcgact ggaagatgtc 14220 ttggaaaaaa tgaccgtgga acctgggctg gagcccgagg tccgcgtgcg gccaatcaag 14280 caggtggcgc cgggactggg cgtgcagacc gtggacgttc agatacccac taccagtagc 14340 accagtattg ccaccgccac agagggcatg gagacacaaa cgtccccggt tgcctcagcg 14400 gtggcggatg ccgcggtgca ggcggtcgct gcggccgcgt ccaagacctc tacggaggtg 14460 caaacggacc cgtggatgtt tcgcgtttca gccccccggc gcccgcgcgg ttcgaggaag 14520 tacggcgccg ccagcgcgct actgcccgaa tatgccctac atccttccat tgcgcctacc 14580 cccggctatc gtggctacac ctaccgcccc agaagacgag caactacccg acgccgaacc 14640 accactggaa cccgccgccg ccgtcgccgt cgccagcccg tgctggcccc gatttccgtg 14700 cgcagggtgg ctcgcgaagg aggcaggacc ctggtgctgc caacagcgcg ctaccacccc 14760 agcatcgttt aaaagccggt ctttgtggtt cttgcagata tggccctcac ctgccgcctc 14820 cgtttcccgg tgccgggatt ccgaggaaga atgcaccgta ggaggggcat ggccggctac 14880 ggcctgacgg gcggcatgcg tcgtgcgcac caccggcggc ggcgcgcgtc gcaccgtcgc 14940 atgcgcggcg gtatcctgcc cctccttatt ccactgatcg ccgcggcgat tggcgccgtg 15000 cccggaattg catccgtggc cttgcaggcg cagagacact gattaaaaac aagttgcatg 15060 tggaaaaatc aaaataaaaa gtctggactc tcacgctcgc ttggtcctgt aactattttg 15120 tagaatggaa gacatcaact ttgcgtctct ggccccgcga cacggctcgc gcccgttcat 15180 gggaaactgg caagatatcg gcaccagcaa tatgagcggt ggcgccttca gctggggctc 15240 gctgtggagc ggcattaaaa atttcggttc caccgttaag aactatggca gcaaggcctg 15300 gaacagcagc acaggccaga tgctgaggga taagttgaaa gagcaaaatt tccaacaaaa 15360 ggtggtagat ggcctggcct ctggcattag cggggtggtg gacctggcca accaggcagt 15420 gcaaaataag attaacagta agcttgatcc ccgccctccc gtagaggagc ctccaccggc 15480 cgtggagaca gtgtctccag aggggcgtgg cgaaaagcgt ccgcgccccg acagggaaga 15540 aactctggtg acgcaaatag acgagcctcc ctcgtacgag gaggcactaa agcaaggcct 15600 gcccaccacc cgtcccatcg cgcccatggc taccggagtg ctgggccagc acacacccgt 15660 aacgctggac ctgcctcccc ccgccgacac ccagcagaaa cctgtgctgc caggcccgac 15720 cgccgttgtt gtaacccgtc ctagccgcgc gtccctgcgc cgcgccgcca gcggtccgcg 15780 atcgttgcgg cccgtagcca gtggcaactg gcaaagcaca ctgaacagca tcgtgggtct 15840 gggggtgcaa tccctgaagc gccgacgatg cttctgaata gctaacgtgt cgtatgtgtg 15900 tcatgtatgc gtccatgtcg ccgccagagg agctgctgag ccgccgcgcg cccgctttcc 15960 aagatggcta ccccttcgat gatgccgcag tggtcttaca tgcacatctc gggccaggac 16020 gcctcggagt acctgagccc cgggctggtg cagtttgccc gcgccaccga gacgtacttc 16080 agcctgaata acaagtttag aaaccccacg gtggcgccta cgcacgacgt gaccacagac 16140 cggtcccagc gtttgacgct gcggttcatc cctgtggacc gtgaggatac tgcgtactcg 16200 tacaaggcgc ggttcaccct agctgtgggt gataaccgtg tgctggacat ggcttccacg 16260 tactttgaca tccgcggcgt gctggacagg ggccctactt ttaagcccta ctctggcact 16320 gcctacaacg ccctggctcc caagggtgcc ccaaatcctt gcgaatggga tgaagctgct 16380 actgctcttg aaataaacct agaagaagag gacgatgaca acgaagacga agtagacgag 16440 caagctgagc agcaaaaaac tcacgtattt gggcaggcgc cttattctgg tataaatatt 16500 acaaaggagg gtattcaaat aggtgtcgaa ggtcaaacac ctaaatatgc cgataaaaca 16560 tttcaacctg aacctcaaat aggagaatct cagtggtacg aaactgaaat taatcatgca 16620 gctgggagag tccttaaaaa gactacccca atgaaaccat gttacggttc atatgcaaaa 16680 cccacaaatg aaaatggagg gcaaggcatt cttgtaaagc aacaaaatgg aaagctagaa 16740 agtcaagtgg aaatgcaatt tttctcaact actgaggcga ccgcaggcaa tggtgataac 16800 ttgactccta aagtggtatt gtacagtgaa gatgtagata tagaaacccc agacactcat 16860 atttcttaca tgcccactat taaggaaggt aactcacgag aactaatggg ccaacaatct 16920 atgcccaaca ggcctaatta cattgctttt agggacaatt ttattggtct aatgtattac 16980 aacagcacgg gtaatatggg tgttctggcg ggccaagcat cgcagttgaa tgctgttgta 17040 gatttgcaag acagaaacac agagctttca taccagcttt tgcttgattc cattggtgat 17100 agaaccaggt acttttctat gtggaatcag gctgttgaca gctatgatcc agatgttaga 17160 attattgaaa atcatggaac tgaagatgaa cttccaaatt actgctttcc actgggaggt 17220 gtgattaata cagagactct taccaaggta aaacctaaaa caggtcagga aaatggatgg 17280 gaaaaagatg ctacagaatt ttcagataaa aatgaaataa gagttggaaa taattttgcc 17340 atggaaatca atctaaatgc caacctgtgg agaaatttcc tgtactccaa catagcgctg 17400 tatttgcccg acaagctaaa gtacagtcct tccaacgtaa aaatttctga taacccaaac 17460 acctacgact acatgaacaa gcgagtggtg gctcccgggt tagtggactg ctacattaac 17520 cttggagcac gctggtccct tgactatatg gacaacgtca acccatttaa ccaccaccgc 17580 aatgctggcc tgcgctaccg ctcaatgttg ctgggcaatg gtcgctatgt gcccttccac 17640 atccaggtgc ctcagaagtt ctttgccatt aaaaacctcc ttctcctgcc gggctcatac 17700 acctacgagt ggaacttcag gaaggatgtt aacatggttc tgcagagctc cctaggaaat 17760 gacctaaggg ttgacggagc cagcattaag tttgatagca tttgccttta cgccaccttc 17820 ttccccatgg cccacaacac cgcctccacg cttgaggcca tgcttagaaa cgacaccaac 17880 gaccagtcct ttaacgacta tctctccgcc gccaacatgc tctaccctat acccgccaac 17940 gctaccaacg tgcccatatc catcccctcc cgcaactggg cggctttccg cggctgggcc 18000 ttcacgcgcc ttaagactaa ggaaacccca tcactgggct cgggctacga cccttattac 18060 acctactctg gctctatacc ctacctagat ggaacctttt acctcaacca cacctttaag 18120 aaggtggcca ttacctttga ctcttctgtc agctggcctg gcaatgaccg cctgcttacc 18180 cccaacgagt ttgaaattaa gcgctcagtt gacggggagg gttacaacgt tgcccagtgt 18240 aacatgacca aagactggtt cctggtacaa atgctagcta actacaacat tggctaccag 18300 ggcttctata tcccagagag ctacaaggac cgcatgtact ccttctttag aaacttccag 18360 cccatgagcc gtcaggtggt ggatgatact aaatacaagg actaccaaca ggtgggcatc 18420 ctacaccaac acaacaactc tggatttgtt ggctaccttg cccccaccat gcgcgaagga 18480 caggcctacc ctgctaactt cccctatccg cttataggca agaccgcagt tgacagcatt 18540 acccagaaaa agtttctttg cgatcgcacc ctttggcgca tcccattctc cagtaacttt 18600 atgtccatgg gcgcactcac agacctgggc caaaaccttc tctacgccaa ctccgcccac 18660 gcgctagaca tgacttttga ggtggatccc atggacgagc ccacccttct ttatgttttg 18720 tttgaagtct ttgacgtggt ccgtgtgcac cggccgcacc gcggcgtcat cgaaaccgtg 18780 tacctgcgca cgcccttctc ggccggcaac gccacaacat aaagaagcaa gcaacatcaa 18840 caacagctgc cgccatgggc tccagtgagc aggaactgaa agccattgtc aaagatcttg 18900 gttgtgggcc atattttttg ggcacctatg acaagcgctt tccaggcttt gtttctccac 18960 acaagctcgc ctgcgccata gtcaatacgg ccggtcgcga gactgggggc gtacactgga 19020 tggcctttgc ctggaacccg cactcaaaaa catgctacct ctttgagccc tttggctttt 19080 ctgaccagcg actcaagcag gtttaccagt ttgagtacga gtcactcctg cgccgtagcg 19140 ccattgcttc ttcccccgac cgctgtataa cgctggaaaa gtccacccaa agcgtacagg 19200 ggcccaactc ggccgcctgt ggactattct gctgcatgtt tctccacgcc tttgccaact 19260 ggccccaaac tcccatggat cacaacccca ccatgaacct tattaccggg gtacccaact 19320 ccatgctcaa cagtccccag gtacagccca ccctgcgtcg caaccaggaa cagctctaca 19380 gcttcctgga gcgccactcg ccctacttcc gcagccacag tgcgcagatt aggagcgcca 19440 cttctttttg tcacttgaaa aacatgtaaa aataatgtac tagagacact ttcaataaag 19500 gcaaatgctt ttatttgtac actctcgggt gattatttac ccccaccctt gccgtctgcg 19560 ccgtttaaaa atcaaagggg ttctgccgcg catcgctatg cgccactggc agggacacgt 19620 tgcgatactg gtgtttagtg ctccacttaa actcaggcac aaccatccgc ggcagctcgg 19680 tgaagttttc actccacagg ctgcgcacca tcaccaacgc gtttagcagg tcgggcgccg 19740 atatcttgaa gtcgcagttg gggcctccgc cctgcgcgcg cgagttgcga tacacagggt 19800 tgcagcactg gaacactatc agcgccgggt ggtgcacgct ggccagcacg ctcttgtcgg 19860 agatcagatc cgcgtccagg tcctccgcgt tgctcagggc gaacggagtc aactttggta 19920 gctgccttcc caaaaagggc gcgtgcccag gctttgagtt gcactcgcac cgtagtggca 19980 tcaaaaggtg accgtgcccg gtctgggcgt taggatacag cgcctgcata aaagccttga 20040 tctgcttaaa agccacctga gcctttgcgc cttcagagaa gaacatgccg caagacttgc 20100 cggaaaactg attggccgga caggccgcgt cgtgcacgca gcaccttgcg tcggtgttgg 20160 agatctgcac cacatttcgg ccccaccggt tcttcacgat cttggccttg ctagactgct 20220 ccttcagcgc gcgctgcccg ttttcgctcg tcacatccat ttcaatcacg tgctccttat 20280 ttatcataat gcttccgtgt agacacttaa gctcgccttc gatctcagcg cagcggtgca 20340 gccacaacgc gcagcccgtg ggctcgtgat gcttgtaggt cacctctgca aacgactgca 20400 ggtacgcctg caggaatcgc cccatcatcg tcacaaaggt cttgttgctg gtgaaggtca 20460 gctgcaaccc gcggtgctcc tcgttcagcc aggtcttgca tacggccgcc agagcttcca 20520 cttggtcagg cagtagtttg aagttcgcct ttagatcgtt atccacgtgg tacttgtcca 20580 tcagcgcgcg cgcagcctcc atgcccttct cccacgcaga cacgatcggc acactcagcg 20640 ggttcatcac cgtaatttca ctttccgctt cgctgggctc ttcctcttcc tcttgcgtcc 20700 gcataccacg cgccactggg tcgtcttcat tcagccgccg cactgtgcgc ttacctcctt 20760

tgccatgctt gattagcacc ggtgggttgc tgaaacccac catttgtagc gccacatctt 20820 ctctttcttc ctcgctgtcc acgattacct ctggtgatgg cgggcgctcg ggcttgggag 20880 aagggcgctt ctttttcttc ttgggcgcaa tggccaaatc cgccgccgag gtcgatggcc 20940 gcgggctggg tgtgcgcggc accagcgcgt cttgtgatga gtcttcctcg tcctcggact 21000 cgatacgccg cctcatccgc ttttttgggg gcgcccgggg aggcggcggc gacggggacg 21060 gggacgacac gtcctccatg gttgggggac gtcgcgccgc accgcgtccg cgctcggggg 21120 tggtttcgcg ctgctcctct tcccgactgg ccatttcctt ctcctatagg cagaaaaaga 21180 tcatggagtc agtcgagaag aaggacagcc taaccgcccc ctctgagttc gccaccaccg 21240 cctccaccga tgccgccaac gcgcctacca ccttccccgt cgaggcaccc ccgcttgagg 21300 aggaggaagt gattatcgag caggacccag gttttgtaag cgaagacgac gaggaccgct 21360 cagtaccaac agaggataaa aagcaagacc aggacaacgc agaggcaaac gaggaacaag 21420 tcgggcgggg ggacgaaagg catggcgact acctagatgt gggagacgac gtgctgttga 21480 agcatctgca gcgccagtgc gccattatct gcgacgcgtt gcaagagcgc agcgatgtgc 21540 ccctcgccat agcggatgtc agccttgcct acgaacgcca cctattctca ccgcgcgtac 21600 cccccaaacg ccaagaaaac ggcacatgcg agcccaaccc gcgcctcaac ttctaccccg 21660 tatttgccgt gccagaggtg cttgccacct atcacatctt tttccaaaac tgcaagatac 21720 ccctatcctg ccgtgccaac cgcagccgag cggacaagca gctggccttg cggcagggcg 21780 ctgtcatacc tgatatcgcc tcgctcaacg aagtgccaaa aatctttgag ggtcttggac 21840 gcgacgagaa gcgcgcggca aacgctctgc aacaggaaaa cagcgaaaat gaaagtcact 21900 ctggagtgtt ggtggaactc gagggtgaca acgcgcgcct agccgtacta aaacgcagca 21960 tcgaggtcac ccactttgcc tacccggcac ttaacctacc ccccaaggtc atgagcacag 22020 tcatgagtga gctgatcgtg cgccgtgcgc agcccctgga gagggatgca aatttgcaag 22080 aacaaacaga ggagggccta cccgcagttg gcgacgagca gctagcgcgc tggcttcaaa 22140 cgcgcgagcc tgccgacttg gaggagcgac gcaaactaat gatggccgca gtgctcgtta 22200 ccgtggagct tgagtgcatg cagcggttct ttgctgaccc ggagatgcag cgcaagctag 22260 aggaaacatt gcactacacc tttcgacagg gctacgtacg ccaggcctgc aagatctcca 22320 acgtggagct ctgcaacctg gtctcctacc ttggaatttt gcacgaaaac cgccttgggc 22380 aaaacgtgct tcattccacg ctcaagggcg aggcgcgccg cgactacgtc cgcgactgcg 22440 tttacttatt tctatgctac acctggcaga cggccatggg cgtttggcag cagtgcttgg 22500 aggagtgcaa cctcaaggag ctgcagaaac tgctaaagca aaacttgaag gacctatgga 22560 cggccttcaa cgagcgctcc gtggccgcgc acctggcgga catcattttc cccgaacgcc 22620 tgcttaaaac cctgcaacag ggtctgccag acttcaccag tcaaagcatg ttgcagaact 22680 ttaggaactt tatcctagag cgctcaggaa tcttgcccgc cacctgctgt gcacttccta 22740 gcgactttgt gcccattaag taccgcgaat gccctccgcc gctttggggc cactgctacc 22800 ttctgcagct agccaactac cttgcctacc actctgacat aatggaagac gtgagcggtg 22860 acggtctact ggagtgtcac tgtcgctgca acctatgcac cccgcaccgc tccctggttt 22920 gcaattcgca gctgcttaac gaaagtcaaa ttatcggtac ctttgagctg cagggtccct 22980 cgcctgacga aaagtccgcg gctccggggt tgaaactcac tccggggctg tggacgtcgg 23040 cttaccttcg caaatttgta cctgaggact accacgccca cgagattagg ttctacgaag 23100 accaatcccg cccgccaaat gcggagctta ccgcctgcgt cattacccag ggccacattc 23160 ttggccaatt gcaagccatc aacaaagccc gccaagagtt tctgctacga aagggacggg 23220 gggtttactt ggacccccag tccggcgagg agctcaaccc aatccccccg ccgccgcagc 23280 cctatcagca gcagccgcgg gcccttgctt cccaggatgg cacccaaaaa gaagctgcag 23340 ctgccgccgc cacccacgga cgaggaggaa tactgggaca gtcaggcaga ggaggttttg 23400 gacgaggagg aggaggacat gatggaagac tgggagagcc tagacgagga agcttccgag 23460 gtcgaagagg tgtcagacga aacaccgtca ccctcggtcg cattcccctc gccggcgccc 23520 cagaaatcgg caaccggttc cagcatggct acaacctccg ctcctcaggc gccgccggca 23580 ctgcccgttc gccgacccaa ccgtagatgg gacaccactg gaaccagggc cggtaagtcc 23640 aagcagccgc cgccgttagc ccaagagcaa caacagcgcc aaggctaccg ctcatggcgc 23700 gggcacaaga acgccatagt tgcttgcttg caagactgtg ggggcaacat ctccttcgcc 23760 cgccgctttc ttctctacca tcacggcgtg gccttccccc gtaacatcct gcattactac 23820 cgtcatctct acagcccata ctgcaccggc ggcagcggca gcggcagcaa cagcagcggc 23880 cacacagaag caaaggcgac cggatagcaa gactctgaca aagcccaaga aatccacagc 23940 ggcggcagca gcaggaggag gagcgctgcg tctggcgccc aacgaacccg tatcgacccg 24000 cgagcttaga aacaggattt ttcccactct gtatgctata tttcaacaga gcaggggcca 24060 agaacaagag ctgaaaataa aaaacaggtc tctgcgatcc ctcacccgca gctgcctgta 24120 tcacaaaagc gaagatcagc ttcggcgcac gctggaagac gcggaggctc tcttcagtaa 24180 atactgcgcg ctgactctta aggactagtt tcgcgccctt tctcaaattt aagcgcgaaa 24240 actacgtcat ctccagcggc cacacccggc gccagcacct gtcgtcagcg ccattatgag 24300 caaggaaatt cccacgccct acatgtggag ttaccagcca caaatgggac ttgcggctgg 24360 agctgcccaa gactactcaa cccgaataaa ctacatgagc gcgggacccc acatgatatc 24420 ccgggtcaac ggaatccgcg cccaccgaaa ccgaattctc ttggaacagg cggctattac 24480 caccacacct cgtaataacc ttaatccccg tagttggccc gctgccctgg tgtaccagga 24540 aagtcccgct cccaccactg tggtacttcc cagagacgcc caggccgaag ttcagatgac 24600 taactcaggg gcgcagcttg cgggcggctt tcgtcacagg gtgcggtcgc ccgggcaggg 24660 tataactcac ctgacaatca gagggcgagg tattcagctc aacgacgagt cggtgagctc 24720 ctcgcttggt ctccgtccgg acgggacatt tcagatcggc ggcgccggcc gtccttcatt 24780 cacgcctcgt caggcaatcc taactctgca gacctcgtcc tctgagccgc gctctggagg 24840 cattggaact ctgcaattta ttgaggagtt tgtgccatcg gtctacttta accccttctc 24900 gggacctccc ggccactatc cggatcaatt tattcctaac tttgacgcgg taaaggactc 24960 ggcggacggc tacgactgaa tgttaagtgg agaggcagag caactgcgcc tgaaacacct 25020 ggtccactgt cgccgccaca agtgctttgc ccgcgactcc ggtgagtttt gctactttga 25080 attgcccgag gatcatatcg agggcccggc gcacggcgtc cggcttaccg cccagggaga 25140 gcttgcccgt agcctgattc gggagtttac ccagcgcccc ctgctagttg agcgggacag 25200 gggaccctgt gttctcactg tgatttgcaa ctgtcctaac cttggattac atcaagatcc 25260 tctagttaat taacagcttg catgcctgca ggtcgacgga tcgggagatc tcggccgcat 25320 attaagtgca ttgttctcga taccgctaag tgcattgttc tcgttagctc gatggacaag 25380 tgcattgttc tcttgctgaa agctcgatgg acaagtgcat tgttctcttg ctgaaagctc 25440 gatggacaag tgcattgttc tcttgctgaa agctcagtac ccgggagtac cctcgaccgc 25500 cggagtataa atagaggcgc ttcgtctacg gagcgacaat tcaattcaaa caagcaaagt 25560 gaacacgtcg ctaagcgaaa gctaagcaaa taaacaagcg cagctgaaca agctaaacaa 25620 tctgcagtaa agtgcaagtt aaagtgaatc aattaaaagt aaccagcaac caagtaaatc 25680 aactgcaact actgaaatct gccaagaagt aattattgaa tacaagaaga gaactctgaa 25740 tactttcaac aagttaccga gaaagaagaa ctcacacaca gctagcgttt aaacttaagc 25800 ttcaccatgg tggggccctg catgctgctg ctgctgctgc tgctgggcct gaggctacag 25860 ctctccctgg gcatcatcct agttgaggag gagaacccgg acttctggaa ccgcgaggca 25920 gccgaggccc tgggtgccgc caagaagctg cagcctgcac agacagccgc caagaacctc 25980 atcatcttcc tgggcgatgg ggtgggggtg tctacggtga cagctgccag gatcctaaaa 26040 gggcagaaga aggacaaact ggggcctgag atacccctgg ccatggaccg cttcccatat 26100 gtggctctgt ccaagacata caatgtagac aaacatgtgc cagacagtgg agccacagcc 26160 acggcctacc tgtgcggggt caagggcaac ttccagacca ttggcttgag tgcagccgcc 26220 cgctttaacc agtgcaacac gacacgcggc aacgaggtca tctccgtgat gaatcgggcc 26280 aagaaagcag ggaagtcagt gggagtggta accaccacac gagtgcagca cgcctcgcca 26340 gccggcacct acgcccacac ggtgaaccgc aactggtact cggacgccga cgtgcctgcc 26400 tcggcccgcc aggaggggtg ccaggacatc gctacgcagc tcatctccaa catggacatt 26460 gacgtgatcc taggtggggg ccgaaagtac atgtttcgca tgggaacccc agaccctgag 26520 tacccagatg actacagcca aggtgggacc aggctggacg ggaagaatct ggtgcaggaa 26580 tggctggcga agcaccaggg tgcccggtac gtgtggaacc gcactgagct catgcgggct 26640 tccctggacc cgtctgtggc ccatctcatg ggtctctttg agcctggaga catgaaatac 26700 gagatccacc gagactccac actggacccc tccctgatgg agatgacaga ggctgccctg 26760 cgcctgctga gcaggaaccc ccgcggcttc ttcctcttcg tggagggtgg tcgcatcgac 26820 catggtcatc atgaaagcag ggcttaccgg gcactgactg agacgatcat gttcgacgac 26880 gccattgaga gggcgggcca gctcaccagc gaggaggaca cgctgagcct cgtcactgcc 26940 gaccactccc acgtcttctc cttcggaggc tgccccctgc gagggggctc catcttcggg 27000 ctggcccctg gcaaggcccg ggacaggaag gcctacacgg tcctcctata cggaaacggt 27060 ccaggctatg tgctcaagga cggcgcccgg ccggatgtta ccgagagcga gagcgggagc 27120 cccgagtatc ggcagcagtc agcagtgccc ctggacgaag agacccacgc aggcgaggac 27180 gtggcggtgt tcgcgcgcgg cccgcaggcg cacctggttc acggcgtgca ggagcagacc 27240 ttcatagcgc acgtcatggc cttcgccgcc tgcctggagc cctacaccgc ctgcgacctg 27300 gcgccccccg ccggcaccac cgacgccgcg cacccggggc ggtccgtggt ccccgcgttg 27360 cttcctctgc tggccgggac cctgctgctg ctggagacgg ccactgctcc ctgagtgtcc 27420 cgtccctggg gctcctgctt ccccatcccg gagttctcct gctccccgcc tcctgtcgtc 27480 ctgcctggcc tccagcccga gtcgtcatcc ccggagtccc tatacagagg tcctgccatg 27540 gaaccttccc ctccccgtgc gctctgggga ctgagcccat gacaccaaac ctgccccttg 27600 gctgctctcg gactccctac cccaacccca gggacagatc tggccagatt tgtaaaacaa 27660 atagatttta ggcccaaaga ttatttaaag cattgcctgg aacgcagtga gtttttgtta 27720 gaaaagagaa taattcaaag tggcattgct ttgcttctta tgttaatttg gtacagacct 27780 gtggctgagt ttgctcaaag tattcagagc agaattgtgg agtggaaaga gagattggac 27840 aaagagttta gtttgtcagt gtatcaaaaa atgaagttta atgtggctat gggaattgga 27900 gttttagatt ggctaagaaa cagtgatgat gatgatgaag acagccagga aaatgctgat 27960 aaaaatgaag atggtgggga gaagaacatg gaagactcag ggcatgaaac aggcattgat 28020 tcacagtccc aaggctcatt tcaggcccct cagtcctcac agtctgttca tgatcataat 28080 cagccatacc acatttgtag aggttttact tgctttaaaa aacctcccac acctccccct 28140 gaacctgaaa cataaaatga atgcaattgt tgttgttaac ttgtttattg cagcttataa 28200 tggttacaaa taaagcaata gcatcacaaa tttcacaaat aaagcatttt tttcactgca 28260 ttctagttgt ggtttgtcca aactcatcaa tgtatcttat catgtctgga tccccaggaa 28320

gctcctctgt gtcctcataa accctaacct cctctacttg agaggacatt ccaatcatag 28380 gctgcccatc caccctctgt gtcctcctgt taattaggtc acttaacaaa aaggaaattg 28440 ggtaggggtt tttcacagac cgctttctaa gggtaatttt aaaatatctg ggaagtccct 28500 tccactgctg tgttccagaa gtgttggtaa acagcccaca aatgtcaaca gcagaaacat 28560 acaagctgtc agctttgcac aagggcccaa caccctgctc atcaagaagc actgtggttg 28620 ctgtgttagt aatgtgcaaa acaggaggca cattttcccc acctgtgtag gttccaaaat 28680 atctagtgtt ttcattttta cttggatcag gaacccagca ctccactgga taagcattat 28740 ccttatccaa aacagccttg tggtcagtgt tcatctgctg actgtcaact gtagcatttt 28800 ttggggttac agtttgagca ggatatttgg tcctgtagtt tgctaacaca ccctgcagct 28860 ccaaaggttc cccaccaaca gcaaaaaaat gaaaatttga cccttgaatg ggttttccag 28920 caccattttc atgagttttt tgtgtccctg aatgcaagtt taacatagca gttaccccaa 28980 taacctcagt tttaacagta acagcttccc acatcaaaat atttccacag gttaagtcct 29040 catttaaatt aggcaaagga attccacttc ccactgcctt gcttccgtct cccattcaaa 29100 cttttatcaa ctgacattat tctaagtaaa atcctcttca ttatgttgtc agcaatccat 29160 tgcttgaagg cctggctccc cagaacccct cgactggtat gtcttctcct agaatactcc 29220 agaagaaaag gagtgtatga agatagtgac tgcacattaa aatgactgaa accatagtaa 29280 attaggatga gattctgggc agataaacag acagctggct aggatcattt ttttatgcct 29340 tggacttctt tggcaatctg ttgaagcctg acattcctca gaataatgtt ttaaagccca 29400 acaataagac cctgtagcac atataataag tactgcagtt ttgaagtagt gataagcata 29460 aatgatattt tgatatattt attataactg taatgagatg tgtacatatc tgtgacttca 29520 taggtactga ttgtactact gtgatttttt tgcctacttt caaaatgaaa aggaatgctt 29580 aatttcagtt agaggttagt aaagacaaat aggtaatttt cttctccagt gaagagcatg 29640 gcgccccttg ctattcatgg acgcttgctt aaagacttgt acacaggctt gctttgtatc 29700 aacctatgac ttccccttac agccgatgat aggtttttat ttgcacctcc ttcgtgtaca 29760 aagacagttt tggtggctac gccatcatta aactcattat tatcatgctt aagcctatag 29820 atgtatccag ttcttctgtt acataattga agctgtagtg aattgtctat cttaaactgc 29880 atcgctaact gactacattt cacacttcat ttgcttccaa catagactaa ccttcttgga 29940 tgtccactat tatttgaact tttgagattt tttttcctat ttctaatatc ttaaaatttc 30000 agaagactta aagttttgca actacagggc tccatataga catctagctt gaatttatac 30060 actttctttc attgatgtcc ctggactaaa aaatgttaaa tatttctaac cgctgtactt 30120 aaagtccatt acaaacgaag actactgttg ttaagttgaa taggcatctt atatattttt 30180 caccggtgca ataaataact tctattccct tctaacatct gcttgcgttg cactgagagt 30240 acactattga ttagcaatag gttcgtgatt acagcccttc tataattaat tgttaggtta 30300 acatattatt cataaaatat tattttatta atttttactt gatttgctac tggatgctta 30360 gaaatagcta tgagtatatt ggtagaacca gtacttatat tttattacat ttttacattt 30420 cataaaattt aagtgatata aaaatcctga ggaagtatgc cacaaaagtg gtctcagtgg 30480 aaatttaaat atgttaacat ttatttttaa aatgtagcgt gaaatagaca actttaaaag 30540 ctcagcttaa aaaaaaaact caaggaagct gaacttgact ttttaaagca ctgaagtgca 30600 atatttaatg taggtcaaca tgtttaaatg ggaaaatttt tttcctaatt acagccaaat 30660 ccctagctgt aattaactta aaatttgtat actatttcac aacagagtca gcatatacca 30720 ctttcttata aaattagaaa gatctaaaat tttagagctt atttggtgaa acaggcatat 30780 tgctacatct ttgtttataa attataatgt gcctttagag cccaataaca gataacaaga 30840 ttttgaaaat tcaggtgaat tagagttatc agagggaatg ttaatacact ctattcaaat 30900 actatatgag taagacattt aaaataggaa acaatacttt atatattaaa aaaaattaat 30960 cttccagtcg atttaatcca ctttatgaat tcatttaaat cgatttaaat tcgaattaat 31020 taactagagt acccggggat cttattccct ttaactaata aaaaaaaata ataaagcatc 31080 acttacttaa aatcagttag caaatttctg tccagtttat tcagcagcac ctccttgccc 31140 tcctcccagc tctggtattg cagcttcctc ctggctgcaa actttctcca caatctaaat 31200 ggaatgtcag tttcctcctg ttcctgtcca tccgcaccca ctatcttcat gttgttgcag 31260 atgaagcgcg caagaccgtc tgaagatacc ttcaaccccg tgtatccata tgacacggaa 31320 accggtcctc caactgtgcc ttttcttact cctccctttg tatcccccaa tgggtttcaa 31380 gagagtcccc ctggggtact ctctttgcgc ctatccgaac ctctagttac ctccaatggc 31440 atgcttgcgc tcaaaatggg caacggcctc tctctggacg aggccggcaa ccttacctcc 31500 caaaatgtaa ccactgtgag cccacctctc aaaaaaacca agtcaaacat aaacctggaa 31560 atatctgcac ccctcacagt tacctcagaa gccctaactg tggctgccgc cgcacctcta 31620 atggtcgcgg gcaacacact caccatgcaa tcacaggccc cgctaaccgt gcacgactcc 31680 aaacttagca ttgccaccca aggacccctc acagtgtcag aaggaaagct agccctgcaa 31740 acatcaggcc ccctcaccac caccgatagc agtaccctta ctatcactgc ctcaccccct 31800 ctaactactg ccactggtag cttgggcatt gacttgaaag agcccattta tacacaaaat 31860 ggaaaactag gactaaagta cggggctcct ttgcatgtaa cagacgacct aaacactttg 31920 accgtagcaa ctggtccagg tgtgactatt aataatactt ccttgcaaac taaagttact 31980 ggagccttgg gttttgattc acaaggcaat atgcaactta atgtagcagg aggactaagg 32040 attgattctc aaaacagacg ccttatactt gatgttagtt atccgtttga tgctcaaaac 32100 caactaaatc taagactagg acagggccct ctttttataa actcagccca caacttggat 32160 attaactaca acaaaggcct ttacttgttt acagcttcaa acaattccaa aaagcttgag 32220 gttaacctaa gcactgccaa ggggttgatg tttgacgcta cagccatagc cattaatgca 32280 ggagatgggc ttgaatttgg ttcacctaat gcaccaaaca caaatcccct caaaacaaaa 32340 attggccatg gcctagaatt tgattcaaac aaggctatgg ttcctaaact aggaactggc 32400 cttagttttg acagcacagg tgccattaca gtaggaaaca aaaataatga taagctaact 32460 ttgtggacca caccagctcc atctcctaac tgtagactaa atgcagagaa agatgctaaa 32520 ctcactttgg tcttaacaaa atgtggcagt caaatacttg ctacagtttc agttttggct 32580 gttaaaggca gtttggctcc aatatctgga acagttcaaa gtgctcatct tattataaga 32640 tttgacgaaa atggagtgct actaaacaat tccttcctgg acccagaata ttggaacttt 32700 agaaatggag atcttactga aggcacagcc tatacaaacg ctgttggatt tatgcctaac 32760 ctatcagctt atccaaaatc tcacggtaaa actgccaaaa gtaacattgt cagtcaagtt 32820 tacttaaacg gagacaaaac taaacctgta acactaacca ttacactaaa cggtacacag 32880 gaaacaggag acacaactcc aagtgcatac tctatgtcat tttcatggga ctggtctggc 32940 cacaactaca ttaatgaaat atttgccaca tcctcttaca ctttttcata cattgcccaa 33000 gaataaagaa tcgtttgtgt tatgtttcaa cgtgtttatt tttcaattgc agaaaatttc 33060 aagtcatttt tcattcagta gtatagcccc accaccacat agcttataca gatcaccgta 33120 ccttaatcaa actcacagaa ccctagtatt caacctgcca cctccctccc aacacacaga 33180 gtacacagtc ctttctcccc ggctggcctt aaaaagcatc atatcatggg taacagacat 33240 attcttaggt gttatattcc acacggtttc ctgtcgagcc aaacgctcat cagtgatatt 33300 aataaactcc ccgggcagct cacttaagtt catgtcgctg tccagctgct gagccacagg 33360 ctgctgtcca acttgcggtt gcttaacggg cggcgaagga gaagtccacg cctacatggg 33420 ggtagagtca taatcgtgca tcaggatagg gcggtggtgc tgcagcagcg cgcgaataaa 33480 ctgctgccgc cgccgctccg tcctgcagga atacaacatg gcagtggtct cctcagcgat 33540 gattcgcacc gcccgcagca taaggcgcct tgtcctccgg gcacagcagc gcaccctgat 33600 ctcacttaaa tcagcacagt aactgcagca cagcaccaca atattgttca aaatcccaca 33660 gtgcaaggcg ctgtatccaa agctcatggc ggggaccaca gaacccacgt ggccatcata 33720 ccacaagcgc aggtagatta agtggcgacc cctcataaac acgctggaca taaacattac 33780 ctcttttggc atgttgtaat tcaccacctc ccggtaccat ataaacctct gattaaacat 33840 ggcgccatcc accaccatcc taaaccagct ggccaaaacc tgcccgccgg ctatacactg 33900 cagggaaccg ggactggaac aatgacagtg gagagcccag gactcgtaac catggatcat 33960 catgctcgtc atgatatcaa tgttggcaca acacaggcac acgtgcatac acttcctcag 34020 gattacaagc tcctcccgcg ttagaaccat atcccaggga acaacccatt cctgaatcag 34080 cgtaaatccc acactgcagg gaagacctcg cacgtaactc acgttgtgca ttgtcaaagt 34140 gttacattcg ggcagcagcg gatgatcctc cagtatggta gcgcgggttt ctgtctcaaa 34200 aggaggtaga cgatccctac tgtacggagt gcgccgagac aaccgagatc gtgttggtcg 34260 tagtgtcatg ccaaatggaa cgccggacgt agtcatattt cctgaagcaa aaccaggtgc 34320 gggcgtgaca aacagatctg cgtctccggt ctcgccgctt agatcgctct gtgtagtagt 34380 tgtagtatat ccactctctc aaagcatcca ggcgccccct ggcttcgggt tctatgtaaa 34440 ctccttcatg cgccgctgcc ctgataacat ccaccaccgc agaataagcc acacccagcc 34500 aacctacaca ttcgttctgc gagtcacaca cgggaggagc gggaagagct ggaagaacca 34560 tgtttttttt tttattccaa aagattatcc aaaacctcaa aatgaagatc tattaagtga 34620 acgcgctccc ctccggtggc gtggtcaaac tctacagcca aagaacagat aatggcattt 34680 gtaagatgtt gcacaatggc ttccaaaagg caaacggccc tcacgtccaa gtggacgtaa 34740 aggctaaacc cttcagggtg aatctcctct ataaacattc cagcaccttc aaccatgccc 34800 aaataattct catctcgcca ccttctcaat atatctctaa gcaaatcccg aatattaagt 34860 ccggccattg taaaaatctg ctccagagcg ccctccacct tcagcctcaa gcagcgaatc 34920 atgattgcaa aaattcaggt tcctcacaga cctgtataag attcaaaagc ggaacattaa 34980 caaaaatacc gcgatcccgt aggtcccttc gcagggccag ctgaacataa tcgtgcaggt 35040 ctgcacggac cagcgcggcc acttccccgc caggaacctt gacaaaagaa cccacactga 35100 ttatgacacg catactcgga gctatgctaa ccagcgtagc cccgatgtaa gctttgttgc 35160 atgggcggcg atataaaatg caaggtgctg ctcaaaaaat caggcaaagc ctcgcgcaaa 35220 aaagaaagca catcgtagtc atgctcatgc agataaaggc aggtaagctc cggaaccacc 35280 acagaaaaag acaccatttt tctctcaaac atgtctgcgg gtttctgcat aaacacaaaa 35340 taaaataaca aaaaaacatt taaacattag aagcctgtct tacaacagga aaaacaaccc 35400 ttataagcat aagacggact acggccatgc cggcgtgacc gtaaaaaaac tggtcaccgt 35460 gattaaaaag caccaccgac agctcctcgg tcatgtccgg agtcataatg taagactcgg 35520 taaacacatc aggttgattc atcggtcagt gctaaaaagc gaccgaaata gcccggggga 35580 atacataccc gcaggcgtag agacaacatt acagccccca taggaggtat aacaaaatta 35640 ataggagaga aaaacacata aacacctgaa aaaccctcct gcctaggcaa aatagcaccc 35700 tcccgctcca gaacaacata cagcgcttca cagcggcagc ctaacagtca gccttaccag 35760 taaaaaagaa aacctattaa aaaaacacca ctcgacacgg caccagctca atcagtcaca 35820

gtgtaaaaaa gggccaagtg cagagcgagt atatatagga ctaaaaaatg acgtaacggt 35880 taaagtccac aaaaaacacc cagaaaaccg cacgcgaacc tacgcccaga aacgaaagcc 35940 aaaaaaccca caacttcctc aaatcgtcac ttccgttttc ccacgttacg taacttccca 36000 ttttaagaaa actacaattc ccaacacata caagttactc cgccctaaaa cctacgtcac 36060 ccgccccgtt cccacgcccc gcgccacgtc acaaactcca ccccctcatt atcatattgg 36120 cttcaatcca aaataaggta tattattgat gatg 36154 <210> SEQ ID NO 10 <211> LENGTH: 103 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 10 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcgcggggcg tgggaacggg gcgggtgacg tag 103 <210> SEQ ID NO 11 <211> LENGTH: 73 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 11 catcatcaat aatatacctt attttggatt gaagccaata tgataatgag ggggtggagt 60 ttgtgacgtg gcg 73 <210> SEQ ID NO 12 <211> LENGTH: 2989 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 12 ctaaattgta agcgttaata ttttgttaaa attcgcgtta aatttttgtt aaatcagctc 60 attttttaac caataggccg aaatcggcaa aatcccttat aaatcaaaag aatagaccga 120 gatagggttg agtgttgttc cagtttggaa caagagtcca ctattaaaga acgtggactc 180 caacgtcaaa gggcgaaaaa ccgtctatca gggcgatggc ccactacgtg aaccatcacc 240 ctaatcaagt tttttggggt cgaggtgccg taaagcacta aatcggaacc ctaaagggag 300 cccccgattt agagcttgac ggggaaagcc ggcgaacgtg gcgagaaagg aagggaagaa 360 agcgaaagga gcgggcgcta gggcgctggc aagtgtagcg gtcacgctgc gcgtaaccac 420 cacacccgcc gcgcttaatg cgccgctaca gggcgcgtcc cattcgccat tcaggctgcg 480 caactgttgg gaagggcgat cggtgcgggc ctcttcgcta ttacgccagc tggcgaaagg 540 gggatgtgct gcaaggcgat taagttgggt aacgccaggg ttttcccagt cacgacgttg 600 taaaacgacg gccagtgagc gcgcgtaata cgactcacta tagggcgaat tggagcttac 660 gtattaatta aggcgccgcg gtggcggccg ctctagaact agtggatccc ccgggctgca 720 ggaattcggc cgcctaggcc acgcgtaagc ttatcgatac cgtcgacctc gagggggggc 780 ccggtaccca gcttttgttc cctttagtga gggttaattg cgcgcttggc gtaatcatgg 840 tcatagctgt ttcctgtgtg aaattgttat ccgctcacaa ttccacacaa catacgagcc 900 ggaagcataa agtgtaaagc ctggggtgcc taatgagtga gctaactcac attaattgcg 960 ttgcgctcac tgcccgcttt ccagtcggga aacctgtcgt gccagctgca ttaatgaatc 1020 ggccaacgcg cggggagagg cggtttgcgt attgggcgct cttccgcttc ctcgctcact 1080 gactcgctgc gctcggtcgt tcggctgcgg cgagcggtat cagctcactc aaaggcggta 1140 atacggttat ccacagaatc aggggataac gcaggaaaga acatgtgagc aaaaggccag 1200 caaaaggcca ggaaccgtaa aaaggccgcg ttgctggcgt ttttccatag gctccgcccc 1260 cctgacgagc atcacaaaaa tcgacgctca agtcagaggt ggcgaaaccc gacaggacta 1320 taaagatacc aggcgtttcc ccctggaagc tccctcgtgc gctctcctgt tccgaccctg 1380 ccgcttaccg gatacctgtc cgcctttctc ccttcgggaa gcgtggcgct ttctcatagc 1440 tcacgctgta ggtatctcag ttcggtgtag gtcgttcgct ccaagctggg ctgtgtgcac 1500 gaaccccccg ttcagcccga ccgctgcgcc ttatccggta actatcgtct tgagtccaac 1560 ccggtaagac acgacttatc gccactggca gcagccactg gtaacaggat tagcagagcg 1620 aggtatgtag gcggtgctac agagttcttg aagtggtggc ctaactacgg ctacactaga 1680 aggacagtat ttggtatctg cgctctgctg aagccagtta ccttcggaaa aagagttggt 1740 agctcttgat ccggcaaaca aaccaccgct ggtagcggtg gtttttttgt ttgcaagcag 1800 cagattacgc gcagaaaaaa aggatctcaa gaagatcctt tgatcttttc tacggggtct 1860 gacgctcagt ggaacgaaaa ctcacgttaa gggattttgg tcatgagatt atcaaaaagg 1920 atcttcacct agatcctttt aaattaaaaa tgaagtttta aatcaatcta aagtatatat 1980 gagtaaactt ggtctgacag ttaccaatgc ttaatcagtg aggcacctat ctcagcgatc 2040 tgtctatttc gttcatccat agttgcctga ctccccgtcg tgtagataac tacgatacgg 2100 gagggcttac catctggccc cagtgctgca atgataccgc gagacccacg ctcaccggct 2160 ccagatttat cagcaataaa ccagccagcc ggaagggccg agcgcagaag tggtcctgca 2220 actttatccg cctccatcca gtctattaat tgttgccggg aagctagagt aagtagttcg 2280 ccagttaata gtttgcgcaa cgttgttgcc attgctacag gcatcgtggt gtcacgctcg 2340 tcgtttggta tggcttcatt cagctccggt tcccaacgat caaggcgagt tacatgatcc 2400 cccatgttgt gcaaaaaagc ggttagctcc ttcggtcctc cgatcgttgt cagaagtaag 2460 ttggccgcag tgttatcact catggttatg gcagcactgc ataattctct tactgtcatg 2520 ccatccgtaa gatgcttttc tgtgactggt gagtactcaa ccaagtcatt ctgagaatag 2580 tgtatgcggc gaccgagttg ctcttgcccg gcgtcaatac gggataatac cgcgccacat 2640 agcagaactt taaaagtgct catcattgga aaacgttctt cggggcgaaa actctcaagg 2700 atcttaccgc tgttgagatc cagttcgatg taacccactc gtgcacccaa ctgatcttca 2760 gcatctttta ctttcaccag cgtttctggg tgagcaaaaa caggaaggca aaatgccgca 2820 aaaaagggaa taagggcgac acggaaatgt tgaatactca tactcttcct ttttcaatat 2880 tattgaagca tttatcaggg ttattgtctc atgagcggat acatatttga atgtatttag 2940 aaaaataaac aaataggggt tccgcgcaca tttccccgaa aagtgccac 2989 <210> SEQ ID NO 13 <211> LENGTH: 38041 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 13 ctaaattgta agcgttaata ttttgttaaa attcggccgg ccatcatcaa taatatacct 60 tattttggat tgaagccaat atgataatga gggggtggag tttgtgacgt ggcgcggggc 120 gtgggaacgg ggcgggtgac gtagtagtgt ggcggaagtg tgatgttgca agtgtggcgg 180 aacacatgta taacttcgta taatgtatgc tatacgaagt tatacatgta agcgacggat 240 gtggcaaaag tgacgttttt ggtgtgcgcc ggtgtacaca ggaagtgaca attttcgcgc 300 ggttttaggc ggatgttgta gtaaatttgg gcgtaaccga gtaagatttg gccattttcg 360 cgggaaaact gaataagagg aagtgaaatc tgaataattt tgtgttactc atagcgcgta 420 atatttgtct agggagatct ataacttcgt ataatgtatg ctatacgaag ttattaccga 480 agaaatggct cgagatctgg aaggtgctga ggtacgatga gacccgcacc aggtgcagac 540 cctgcgagtg tggcggtaaa catattagga accagcctgt gatgctggat gtgaccgagg 600 agctgaggcc cgatcacttg gtgctggcct gcacccgcgc tgagtttggc tctagcgatg 660 aagatacaga ttgaggtact gaaatgtgtg ggcgtggctt aagggtggga aagaatatat 720 aaggtggggg tcttatgtag ttttgtatct gttttgcagc agccgccgcc gccatgagca 780 ccaactcgtt tgatggaagc attgtgagct catatttgac aacgcgcatg cccccatggg 840 ccggggtgcg tcagaatgtg atgggctcca gcattgatgg tcgccccgtc ctgcccgcaa 900 actctactac cttgacctac gagaccgtgt ctggaacgcc gttggagact gcagcctccg 960 ccgccgcttc agccgctgca gccaccgccc gcgggattgt gactgacttt gctttcctga 1020 gcccgcttgc aagcagtgca gcttcccgtt catccgcccg cgatgacaag ttgacggctc 1080 ttttggcaca attggattct ttgacccggg aacttaatgt cgtttctcag cagctgttgg 1140 atctgcgcca gcaggtttct gccctgaagg cttcctcccc tcccaatgcg gtttaaaaca 1200 taaataaaaa accagactct gtttggattt ggatcaagca agtgtcttgc tgtctttatt 1260 taggggtttt gcgcgcgcgg taggcccggg accagcggtc tcggtcgttg agggtcctgt 1320 gtattttttc caggacgtgg taaaggtgac tctggatgtt cagatacatg ggcataagcc 1380 cgtctctggg gtggaggtag caccactgca gagcttcatg ctgcggggtg gtgttgtaga 1440 tgatccagtc gtagcaggag cgctgggcgt ggtgcctaaa aatgtctttc agtagcaagc 1500 tgattgccag gggcaggccc ttggtgtaag tgtttacaaa gcggttaagc tgggatgggt 1560 gcatacgtgg ggatatgaga tgcatcttgg actgtatttt taggttggct atgttcccag 1620 ccatatccct ccggggattc atgttgtgca gaaccaccag cacagtgtat ccggtgcact 1680 tgggaaattt gtcatgtagc ttagaaggaa atgcgtggaa gaacttggag acgcccttgt 1740 gacctccaag attttccatg cattcgtcca taatgatggc aatgggccca cgggcggcgg 1800 cctgggcgaa gatatttctg ggatcactaa cgtcatagtt gtgttccagg atgagatcgt 1860 cataggccat ttttacaaag cgcgggcgga gggtgccaga ctgcggtata atggttccat 1920 ccggcccagg ggcgtagtta ccctcacaga tttgcatttc ccacgctttg agttcagatg 1980 gggggatcat gtctacctgc ggggcgatga agaaaacggt ttccggggta ggggagatca 2040 gctgggaaga aagcaggttc ctgagcagct gcgacttacc gcagccggtg ggcccgtaaa 2100 tcacacctat taccgggtgc aactggtagt taagagagct gcagctgccg tcatccctga 2160 gcaggggggc cacttcgtta agcatgtccc tgactcgcat gttttccctg accaaatccg 2220 ccagaaggcg ctcgccgccc agcgatagca gttcttgcaa ggaagcaaag tttttcaacg 2280 gtttgagacc gtccgccgta ggcatgcttt tgagcgtttg accaagcagt tccaggcggt 2340 cccacagctc ggtcacctgc tctacggcat ctcgatccag catatctcct cgtttcgcgg 2400 gttggggcgg ctttcgctgt acggcagtag tcggtgctcg tccagacggg ccagggtcat 2460 gtctttccac gggcgcaggg tcctcgtcag cgtagtctgg gtcacggtga aggggtgcgc 2520 tccgggctgc gcgctggcca gggtgcgctt gaggctggtc ctgctggtgc tgaagcgctg 2580 ccggtcttcg ccctgcgcgt cggccaggta gcatttgacc atggtgtcat agtccagccc 2640 ctccgcggcg tggcccttgg cgcgcagctt gcccttggag gaggcgccgc acgaggggca 2700 gtgcagactt ttgagggcgt agagcttggg cgcgagaaat accgattccg gggagtaggc 2760

atccgcgccg caggccccgc agacggtctc gcattccacg agccaggtga gctctggccg 2820 ttcggggtca aaaaccaggt ttcccccatg ctttttgatg cgtttcttac ctctggtttc 2880 catgagccgg tgtccacgct cggtgacgaa aaggctgtcc gtgtccccgt atacagactt 2940 gagaggcctg tcctcgagcg gtgttccgcg gtcctcctcg tatagaaact cggaccactc 3000 tgagacaaag gctcgcgtcc aggccagcac gaaggaggct aagtgggagg ggtagcggtc 3060 gttgtccact agggggtcca ctcgctccag ggtgtgaaga cacatgtcgc cctcttcggc 3120 atcaaggaag gtgattggtt tgtaggtgta ggccacgtga ccgggtgttc ctgaaggggg 3180 gctataaaag ggggtggggg cgcgttcgtc ctcactctct tccgcatcgc tgtctgcgag 3240 ggccagctgt tggggtgagt actccctctg aaaagcgggc atgacttctg cgctaagatt 3300 gtcagtttcc aaaaacgagg aggatttgat attcacctgg cccgcggtga tgcctttgag 3360 ggtggccgca tccatctggt cagaaaagac aatctttttg ttgtcaagct tggtggcaaa 3420 cgacccgtag agggcgttgg acagcaactt ggcgatggag cgcagggttt ggtttttgtc 3480 gcgatcggcg cgctccttgg ccgcgatgtt tagctgcacg tattcgcgcg caacgcaccg 3540 ccattcggga aagacggtgg tgcgctcgtc gggcaccagg tgcacgcgcc aaccgcggtt 3600 gtgcagggtg acaaggtcaa cgctggtggc tacctctccg cgtaggcgct cgttggtcca 3660 gcagaggcgg ccgcccttgc gcgagcagaa tggcggtagg gggtctagct gcgtctcgtc 3720 cggggggtct gcgtccacgg taaagacccc gggcagcagg cgcgcgtcga agtagtctat 3780 cttgcatcct tgcaagtcta gcgcctgctg ccatgcgcgg gcggcaagcg cgcgctcgta 3840 tgggttgagt gggggacccc atggcatggg gtgggtgagc gcggaggcgt acatgccgca 3900 aatgtcgtaa acgtagaggg gctctctgag tattccaaga tatgtagggt agcatcttcc 3960 accgcggatg ctggcgcgca cgtaatcgta tagttcgtgc gagggagcga ggaggtcggg 4020 accgaggttg ctacgggcgg gctgctctgc tcggaagact atctgcctga agatggcatg 4080 tgagttggat gatatggttg gacgctggaa gacgttgaag ctggcgtctg tgagacctac 4140 cgcgtcacgc acgaaggagg cgtaggagtc gcgcagcttg ttgaccagct cggcggtgac 4200 ctgcacgtct agggcgcagt agtccagggt ttccttgatg atgtcatact tatcctgtcc 4260 cttttttttc cacagctcgc ggttgaggac aaactcttcg cggtctttcc agtactcttg 4320 gatcggaaac ccgtcggcct ccgaacggta agagcctagc atgtagaact ggttgacggc 4380 ctggtaggcg cagcatccct tttctacggg tagcgcgtat gcctgcgcgg ccttccggag 4440 cgaggtgtgg gtgagcgcaa aggtgtccct gaccatgact ttgaggtact ggtatttgaa 4500 gtcagtgtcg tcgcatccgc cctgctccca gagcaaaaag tccgtgcgct ttttggaacg 4560 cggatttggc agggcgaagg tgacatcgtt gaagagtatc tttcccgcgc gaggcataaa 4620 gttgcgtgtg atgcggaagg gtcccggcac ctcggaacgg ttgttaatta cctgggcggc 4680 gagcacgatc tcgtcaaagc cgttgatgtt gtggcccaca atgtaaagtt ccaagaagcg 4740 cgggatgccc ttgatggaag gcaatttttt aagttcctcg taggtgagct cttcagggga 4800 gctgagcccg tgctctgaaa gggcccagtc tgcaagatga gggttggaag cgacgaatga 4860 gctccacagg tcacgggcca ttagcatttg caggtggtcg cgaaaggtcc taaactggcg 4920 acctatggcc attttttctg gggtgatgca gtagaaggta agcgggtctt gttcccagcg 4980 gtcccatcca aggttcgcgg ctaggtctcg cgcggcagtc actagaggct catctccgcc 5040 gaacttcatg accagcatga agggcacgag ctgcttccca aaggccccca tccaagtata 5100 ggtctctaca tcgtaggtga caaagagacg ctcggtgcga ggatgcgagc cgatcgggaa 5160 gaactggatc tcccgccacc aattggagga gtggctattg atgtggtgaa agtagaagtc 5220 cctgcgacgg gccgaacact cgtgctggct tttgtaaaaa cgtgcgcagt actggcagcg 5280 gtgcacgggc tgtacatcct gcacgaggtt gacctgacga ccgcgcacaa ggaagcagag 5340 tgggaatttg agcccctcgc ctggcgggtt tggctggtgg tcttctactt cggctgcttg 5400 tccttgaccg tctggctgct cgaggggagt tacggtggat cggaccacca cgccgcgcga 5460 gcccaaagtc cagatgtccg cgcgcggcgg tcggagcttg atgacaacat cgcgcagatg 5520 ggagctgtcc atggtctgga gctcccgcgg cgtcaggtca ggcgggagct cctgcaggtt 5580 tacctcgcat agacgggtca gggcgcgggc tagatccagg tgatacctaa tttccagggg 5640 ctggttggtg gcggcgtcga tggcttgcaa gaggccgcat ccccgcggcg cgactacggt 5700 accgcgcggc gggcggtggg ccgcgggggt gtccttggat gatgcatcta aaagcggtga 5760 cgcgggcgag cccccggagg tagggggggc tccggacccg ccgggagagg gggcaggggc 5820 acgtcggcgc cgcgcgcggg caggagctgg tgctgcgcgc gtaggttgct ggcgaacgcg 5880 acgacgcggc ggttgatctc ctgaatctgg cgcctctgcg tgaagacgac gggcccggtg 5940 agcttgagcc tgaaagagag ttcgacagaa tcaatttcgg tgtcgttgac ggcggcctgg 6000 cgcaaaatct cctgcacgtc tcctgagttg tcttgatagg cgatctcggc catgaactgc 6060 tcgatctctt cctcctggag atctccgcgt ccggctcgct ccacggtggc ggcgaggtcg 6120 ttggaaatgc gggccatgag ctgcgagaag gcgttgaggc ctccctcgtt ccagacgcgg 6180 ctgtagacca cgcccccttc ggcatcgcgg gcgcgcatga ccacctgcgc gagattgagc 6240 tccacgtgcc gggcgaagac ggcgtagttt cgcaggcgct gaaagaggta gttgagggtg 6300 gtggcggtgt gttctgccac gaagaagtac ataacccagc gtcgcaacgt ggattcgttg 6360 atatccccca aggcctcaag gcgctccatg gcctcgtaga agtccacggc gaagttgaaa 6420 aactgggagt tgcgcgccga cacggttaac tcctcctcca gaagacggat gagctcggcg 6480 acagtgtcgc gcacctcgcg ctcaaaggct acaggggcct cttcttcttc ttcaatctcc 6540 tcttccataa gggcctcccc ttcttcttct tctggcggcg gtgggggagg ggggacacgg 6600 cggcgacgac ggcgcaccgg gaggcggtcg acaaagcgct cgatcatctc cccgcggcga 6660 cggcgcatgg tctcggtgac ggcgcggccg ttctcgcggg ggcgcagttg gaagacgccg 6720 cccgtcatgt cccggttatg ggttggcggg gggctgccat gcggcaggga tacggcgcta 6780 acgatgcatc tcaacaattg ttgtgtaggt actccgccgc cgagggacct gagcgagtcc 6840 gcatcgaccg gatcggaaaa cctctcgaga aaggcgtcta accagtcaca gtcgcaaggt 6900 aggctgagca ccgtggcggg cggcagcggg cggcggtcgg ggttgtttct ggcggaggtg 6960 ctgctgatga tgtaattaaa gtaggcggtc ttgagacggc ggatggtcga cagaagcacc 7020 atgtccttgg gtccggcctg ctgaatgcgc aggcggtcgg ccatgcccca ggcttcgttt 7080 tgacatcggc gcaggtcttt gtagtagtct tgcatgagcc tttctaccgg cacttcttct 7140 tctccttcct cttgtcctgc atctcttgca tctatcgctg cggcggcggc ggagtttggc 7200 cgtaggtggc gccctcttcc tcccatgcgt gtgaccccga agcccctcat cggctgaagc 7260 agggctaggt cggcgacaac gcgctcggct aatatggcct gctgcacctg cgtgagggta 7320 gactggaagt catccatgtc cacaaagcgg tggtatgcgc ccgtgttgat ggtgtaagtg 7380 cagttggcca taacggacca gttaacggtc tggtgacccg gctgcgagag ctcggtgtac 7440 ctgagacgcg agtaagccct cgagtcaaat acgtagtcgt tgcaagtccg caccaggtac 7500 tggtatccca ccaaaaagtg cggcggcggc tggcggtaga ggggccagcg tagggtggcc 7560 ggggctccgg gggcgagatc ttccaacata aggcgatgat atccgtagat gtacctggac 7620 atccaggtga tgccggcggc ggtggtggag gcgcgcggaa agtcgcggac gcggttccag 7680 atgttgcgca gcggcaaaaa gtgctccatg gtcgggacgc tctggccggt caggcgcgcg 7740 caatcgttga cgctctaccg tgcaaaagga gagcctgtaa gcgggcactc ttccgtggtc 7800 tggtggataa attcgcaagg gtatcatggc ggacgaccgg ggttcgagcc ccgtatccgg 7860 ccgtccgccg tgatccatgc ggttaccgcc cgcgtgtcga acccaggtgt gcgacgtcag 7920 acaacggggg agtgctcctt ttggcttcct tccaggcgcg gcggctgctg cgctagcttt 7980 tttggccact ggccgcgcgc agcgtaagcg gttaggctgg aaagcgaaag cattaagtgg 8040 ctcgctccct gtagccggag ggttattttc caagggttga gtcgcgggac ccccggttcg 8100 agtctcggac cggccggact gcggcgaacg ggggtttgcc tccccgtcat gcaagacccc 8160 gcttgcaaat tcctccggaa acagggacga gccccttttt tgcttttccc agatgcatcc 8220 ggtgctgcgg cagatgcgcc cccctcctca gcagcggcaa gagcaagagc agcggcagac 8280 atgcagggca ccctcccctc ctcctaccgc gtcaggaggg gcgacatccg cggttgacgc 8340 ggcagcagat ggtgattacg aacccccgcg gcgccgggcc cggcactacc tggacttgga 8400 ggagggcgag ggcctggcgc ggctaggagc gccctctcct gagcggtacc caagggtgca 8460 gctgaagcgt gatacgcgtg aggcgtacgt gccgcggcag aacctgtttc gcgaccgcga 8520 gggagaggag cccgaggaga tgcgggatcg aaagttccac gcagggcgcg agctgcggca 8580 tggcctgaat cgcgagcggt tgctgcgcga ggaggacttt gagcccgacg cgcgaaccgg 8640 gattagtccc gcgcgcgcac acgtggcggc cgccgacctg gtaaccgcat acgagcagac 8700 ggtgaaccag gagattaact ttcaaaaaag ctttaacaac cacgtgcgta cgcttgtggc 8760 gcgcgaggag gtggctatag gactgatgca tctgtgggac tttgtaagcg cgctggagca 8820 aaacccaaat agcaagccgc tcatggcgca gctgttcctt atagtgcagc acagcaggga 8880 caacgaggca ttcagggatg cgctgctaaa catagtagag cccgagggcc gctggctgct 8940 cgatttgata aacatcctgc agagcatagt ggtgcaggag cgcagcttga gcctggctga 9000 caaggtggcc gccatcaact attccatgct tagcctgggc aagttttacg cccgcaagat 9060 ataccatacc ccttacgttc ccatagacaa ggaggtaaag atcgaggggt tctacatgcg 9120 catggcgctg aaggtgctta ccttgagcga cgacctgggc gtttatcgca acgagcgcat 9180 ccacaaggcc gtgagcgtga gccggcggcg cgagctcagc gaccgcgagc tgatgcacag 9240 cctgcaaagg gccctggctg gcacgggcag cggcgataga gaggccgagt cctactttga 9300 cgcgggcgct gacctgcgct gggccccaag ccgacgcgcc ctggaggcag ctggggccgg 9360 acctgggctg gcggtggcac ccgcgcgcgc tggcaacgtc ggcggcgtgg aggaatatga 9420 cgaggacgat gagtacgagc cagaggacgg cgagtactaa gcggtgatgt ttctgatcag 9480 atgatgcaag acgcaacgga cccggcggtg cgggcggcgc tgcagagcca gccgtccggc 9540 cttaactcca cggacgactg gcgccaggtc atggaccgca tcatgtcgct gactgcgcgc 9600 aatcctgacg cgttccggca gcagccgcag gccaaccggc tctccgcaat tctggaagcg 9660 gtggtcccgg cgcgcgcaaa ccccacgcac gagaaggtgc tggcgatcgt aaacgcgctg 9720 gccgaaaaca gggccatccg gcccgacgaa gccggcctgg tctacgacgc gctgcttcag 9780 cgcgtggctc gttacaacag cggcaacgtg cagaccaacc tggaccggct ggtgggggat 9840 gtgcgcgagg ccgtggcgca gcgtgagcgc gcgcagcagc agggcaacct gggctccatg 9900 gttgcactaa acgccttcct gagtacacag cccgccaacg tgccgcgggg acaggaggac 9960 tacaccaact ttgtgagcgc actgcggcta atggtgactg agacaccgca aagtgaggtg 10020 taccagtctg ggccagacta ttttttccag accagtagac aaggcctgca gaccgtaaac 10080 ctgagccagg ctttcaaaaa cttgcagggg ctgtgggggg tgcgggctcc cacaggcgac 10140 cgcgcgaccg tgtctagctt gctgacgccc aactcgcgcc tgttgctgct gctaatagcg 10200 cccttcacgg acagtggcag cgtgtcccgg gacacatacc taggtcactt gctgacactg 10260

taccgcgagg ccataggtca ggcgcatgtg gacgagcata ctttccagga gattacaagt 10320 gtcagccgcg cgctggggca ggaggacacg ggcagcctgg aggcaaccct aaactacctg 10380 ctgaccaacc ggcggcagaa gatcccctcg ttgcacagtt taaacagcga ggaggagcgc 10440 attttgcgct acgtgcagca gagcgtgagc cttaacctga tgcgcgacgg ggtaacgccc 10500 agcgtggcgc tggacatgac cgcgcgcaac atggaaccgg gcatgtatgc ctcaaaccgg 10560 ccgtttatca accgcctaat ggactacttg catcgcgcgg ccgccgtgaa ccccgagtat 10620 ttcaccaatg ccatcttgaa cccgcactgg ctaccgcccc ctggtttcta caccggggga 10680 ttcgaggtgc ccgagggtaa cgatggattc ctctgggacg acatagacga cagcgtgttt 10740 tccccgcaac cgcagaccct gctagagttg caacagcgcg agcaggcaga ggcggcgctg 10800 cgaaaggaaa gcttccgcag gccaagcagc ttgtccgatc taggcgctgc ggccccgcgg 10860 tcagatgcta gtagcccatt tccaagcttg atagggtctc ttaccagcac tcgcaccacc 10920 cgcccgcgcc tgctgggcga ggaggagtac ctaaacaact cgctgctgca gccgcagcgc 10980 gaaaaaaacc tgcctccggc atttcccaac aacgggatag agagcctagt ggacaagatg 11040 agtagatgga agacgtacgc gcaggagcac agggacgtgc caggcccgcg cccgcccacc 11100 cgtcgtcaaa ggcacgaccg tcagcggggt ctggtgtggg aggacgatga ctcggcagac 11160 gacagcagcg tcctggattt gggagggagt ggcaacccgt ttgcgcacct tcgccccagg 11220 ctggggagaa tgttttaaaa aaaaaaaagc atgatgcaaa ataaaaaact caccaaggcc 11280 atggcaccga gcgttggttt tcttgtattc cccttagtat gcggcgcgcg gcgatgtatg 11340 aggaaggtcc tcctccctcc tacgagagtg tggtgagcgc ggcgccagtg gcggcggcgc 11400 tgggttctcc cttcgatgct cccctggacc cgccgtttgt gcctccgcgg tacctgcggc 11460 ctaccggggg gagaaacagc atccgttact ctgagttggc acccctattc gacaccaccc 11520 gtgtgtacct ggtggacaac aagtcaacgg atgtggcatc cctgaactac cagaacgacc 11580 acagcaactt tctgaccacg gtcattcaaa acaatgacta cagcccgggg gaggcaagca 11640 cacagaccat caatcttgac gaccggtcgc actggggcgg cgacctgaaa accatcctgc 11700 ataccaacat gccaaatgtg aacgagttca tgtttaccaa taagtttaag gcgcgggtga 11760 tggtgtcgcg cttgcctact aaggacaatc aggtggagct gaaatacgag tgggtggagt 11820 tcacgctgcc cgagggcaac tactccgaga ccatgaccat agaccttatg aacaacgcga 11880 tcgtggagca ctacttgaaa gtgggcagac agaacggggt tctggaaagc gacatcgggg 11940 taaagtttga cacccgcaac ttcagactgg ggtttgaccc cgtcactggt cttgtcatgc 12000 ctggggtata tacaaacgaa gccttccatc cagacatcat tttgctgcca ggatgcgggg 12060 tggacttcac ccacagccgc ctgagcaact tgttgggcat ccgcaagcgg caacccttcc 12120 aggagggctt taggatcacc tacgatgatc tggagggtgg taacattccc gcactgttgg 12180 atgtggacgc ctaccaggcg agcttgaaag atgacaccga acagggcggg ggtggcgcag 12240 gcggcagcaa cagcagtggc agcggcgcgg aagagaactc caacgcggca gccgcggcaa 12300 tgcagccggt ggaggacatg aacgatcatg ccattcgcgg cgacaccttt gccacacggg 12360 ctgaggagaa gcgcgctgag gccgaagcag cggccgaagc tgccgccccc gctgcgcaac 12420 ccgaggtcga gaagcctcag aagaaaccgg tgatcaaacc cctgacagag gacagcaaga 12480 aacgcagtta caacctaata agcaatgaca gcaccttcac ccagtaccgc agctggtacc 12540 ttgcatacaa ctacggcgac cctcagaccg gaatccgctc atggaccctg ctttgcactc 12600 ctgacgtaac ctgcggctcg gagcaggtct actggtcgtt gccagacatg atgcaagacc 12660 ccgtgacctt ccgctccacg cgccagatca gcaactttcc ggtggtgggc gccgagctgt 12720 tgcccgtgca ctccaagagc ttctacaacg accaggccgt ctactcccaa ctcatccgcc 12780 agtttacctc tctgacccac gtgttcaatc gctttcccga gaaccagatt ttggcgcgcc 12840 cgccagcccc caccatcacc accgtcagtg aaaacgttcc tgctctcaca gatcacggga 12900 cgctaccgct gcgcaacagc atcggaggag tccagcgagt gaccattact gacgccagac 12960 gccgcacctg cccctacgtt tacaaggccc tgggcatagt ctcgccgcgc gtcctatcga 13020 gccgcacttt ttgagcaagc atgtccatcc ttatatcgcc cagcaataac acaggctggg 13080 gcctgcgctt cccaagcaag atgtttggcg gggccaagaa gcgctccgac caacacccag 13140 tgcgcgtgcg cgggcactac cgcgcgccct ggggcgcgca caaacgcggc cgcactgggc 13200 gcaccaccgt cgatgacgcc atcgacgcgg tggtggagga ggcgcgcaac tacacgccca 13260 cgccgccacc agtgtccaca gtggacgcgg ccattcagac cgtggtgcgc ggagcccggc 13320 gctatgctaa aatgaagaga cggcggaggc gcgtagcacg tcgccaccgc cgccgacccg 13380 gcactgccgc ccaacgcgcg gcggcggccc tgcttaaccg cgcacgtcgc accggccgac 13440 gggcggccat gcgggccgct cgaaggctgg ccgcgggtat tgtcactgtg ccccccaggt 13500 ccaggcgacg agcggccgcc gcagcagccg cggccattag tgctatgact cagggtcgca 13560 ggggcaacgt gtattgggtg cgcgactcgg ttagcggcct gcgcgtgccc gtgcgcaccc 13620 gccccccgcg caactagatt gcaagaaaaa actacttaga ctcgtactgt tgtatgtatc 13680 cagcggcggc ggcgcgcaac gaagctatgt ccaagcgcaa aatcaaagaa gagatgctcc 13740 aggtcatcgc gccggagatc tatggccccc cgaagaagga agagcaggat tacaagcccc 13800 gaaagctaaa gcgggtcaaa aagaaaaaga aagatgatga tgatgaactt gacgacgagg 13860 tggaactgct gcacgctacc gcgcccaggc gacgggtaca gtggaaaggt cgacgcgtaa 13920 aacgtgtttt gcgacccggc accaccgtag tctttacgcc cggtgagcgc tccacccgca 13980 cctacaagcg cgtgtatgat gaggtgtacg gcgacgagga cctgcttgag caggccaacg 14040 agcgcctcgg ggagtttgcc tacggaaagc ggcataagga catgctggcg ttgccgctgg 14100 acgagggcaa cccaacacct agcctaaagc ccgtaacact gcagcaggtg ctgcccgcgc 14160 ttgcaccgtc cgaagaaaag cgcggcctaa agcgcgagtc tggtgacttg gcacccaccg 14220 tgcagctgat ggtacccaag cgccagcgac tggaagatgt cttggaaaaa atgaccgtgg 14280 aacctgggct ggagcccgag gtccgcgtgc ggccaatcaa gcaggtggcg ccgggactgg 14340 gcgtgcagac cgtggacgtt cagataccca ctaccagtag caccagtatt gccaccgcca 14400 cagagggcat ggagacacaa acgtccccgg ttgcctcagc ggtggcggat gccgcggtgc 14460 aggcggtcgc tgcggccgcg tccaagacct ctacggaggt gcaaacggac ccgtggatgt 14520 ttcgcgtttc agccccccgg cgcccgcgcg gttcgaggaa gtacggcgcc gccagcgcgc 14580 tactgcccga atatgcccta catccttcca ttgcgcctac ccccggctat cgtggctaca 14640 cctaccgccc cagaagacga gcaactaccc gacgccgaac caccactgga acccgccgcc 14700 gccgtcgccg tcgccagccc gtgctggccc cgatttccgt gcgcagggtg gctcgcgaag 14760 gaggcaggac cctggtgctg ccaacagcgc gctaccaccc cagcatcgtt taaaagccgg 14820 tctttgtggt tcttgcagat atggccctca cctgccgcct ccgtttcccg gtgccgggat 14880 tccgaggaag aatgcaccgt aggaggggca tggccggcta cggcctgacg ggcggcatgc 14940 gtcgtgcgca ccaccggcgg cggcgcgcgt cgcaccgtcg catgcgcggc ggtatcctgc 15000 ccctccttat tccactgatc gccgcggcga ttggcgccgt gcccggaatt gcatccgtgg 15060 ccttgcaggc gcagagacac tgattaaaaa caagttgcat gtggaaaaat caaaataaaa 15120 agtctggact ctcacgctcg cttggtcctg taactatttt gtagaatgga agacatcaac 15180 tttgcgtctc tggccccgcg acacggctcg cgcccgttca tgggaaactg gcaagatatc 15240 ggcaccagca atatgagcgg tggcgccttc agctggggct cgctgtggag cggcattaaa 15300 aatttcggtt ccaccgttaa gaactatggc agcaaggcct ggaacagcag cacaggccag 15360 atgctgaggg ataagttgaa agagcaaaat ttccaacaaa aggtggtaga tggcctggcc 15420 tctggcatta gcggggtggt ggacctggcc aaccaggcag tgcaaaataa gattaacagt 15480 aagcttgatc cccgccctcc cgtagaggag cctccaccgg ccgtggagac agtgtctcca 15540 gaggggcgtg gcgaaaagcg tccgcgcccc gacagggaag aaactctggt gacgcaaata 15600 gacgagcctc cctcgtacga ggaggcacta aagcaaggcc tgcccaccac ccgtcccatc 15660 gcgcccatgg ctaccggagt gctgggccag cacacacccg taacgctgga cctgcctccc 15720 cccgccgaca cccagcagaa acctgtgctg ccaggcccga ccgccgttgt tgtaacccgt 15780 cctagccgcg cgtccctgcg ccgcgccgcc agcggtccgc gatcgttgcg gcccgtagcc 15840 agtggcaact ggcaaagcac actgaacagc atcgtgggtc tgggggtgca atccctgaag 15900 cgccgacgat gcttctgaat agctaacgtg tcgtatgtgt gtcatgtatg cgtccatgtc 15960 gccgccagag gagctgctga gccgccgcgc gcccgctttc caagatggct accccttcga 16020 tgatgccgca gtggtcttac atgcacatct cgggccagga cgcctcggag tacctgagcc 16080 ccgggctggt gcagtttgcc cgcgccaccg agacgtactt cagcctgaat aacaagttta 16140 gaaaccccac ggtggcgcct acgcacgacg tgaccacaga ccggtcccag cgtttgacgc 16200 tgcggttcat ccctgtggac cgtgaggata ctgcgtactc gtacaaggcg cggttcaccc 16260 tagctgtggg tgataaccgt gtgctggaca tggcttccac gtactttgac atccgcggcg 16320 tgctggacag gggccctact tttaagccct actctggcac tgcctacaac gccctggctc 16380 ccaagggtgc cccaaatcct tgcgaatggg atgaagctgc tactgctctt gaaataaacc 16440 tagaagaaga ggacgatgac aacgaagacg aagtagacga gcaagctgag cagcaaaaaa 16500 ctcacgtatt tgggcaggcg ccttattctg gtataaatat tacaaaggag ggtattcaaa 16560 taggtgtcga aggtcaaaca cctaaatatg ccgataaaac atttcaacct gaacctcaaa 16620 taggagaatc tcagtggtac gaaactgaaa ttaatcatgc agctgggaga gtccttaaaa 16680 agactacccc aatgaaacca tgttacggtt catatgcaaa acccacaaat gaaaatggag 16740 ggcaaggcat tcttgtaaag caacaaaatg gaaagctaga aagtcaagtg gaaatgcaat 16800 ttttctcaac tactgaggcg accgcaggca atggtgataa cttgactcct aaagtggtat 16860 tgtacagtga agatgtagat atagaaaccc cagacactca tatttcttac atgcccacta 16920 ttaaggaagg taactcacga gaactaatgg gccaacaatc tatgcccaac aggcctaatt 16980 acattgcttt tagggacaat tttattggtc taatgtatta caacagcacg ggtaatatgg 17040 gtgttctggc gggccaagca tcgcagttga atgctgttgt agatttgcaa gacagaaaca 17100 cagagctttc ataccagctt ttgcttgatt ccattggtga tagaaccagg tacttttcta 17160 tgtggaatca ggctgttgac agctatgatc cagatgttag aattattgaa aatcatggaa 17220 ctgaagatga acttccaaat tactgctttc cactgggagg tgtgattaat acagagactc 17280 ttaccaaggt aaaacctaaa acaggtcagg aaaatggatg ggaaaaagat gctacagaat 17340 tttcagataa aaatgaaata agagttggaa ataattttgc catggaaatc aatctaaatg 17400 ccaacctgtg gagaaatttc ctgtactcca acatagcgct gtatttgccc gacaagctaa 17460 agtacagtcc ttccaacgta aaaatttctg ataacccaaa cacctacgac tacatgaaca 17520 agcgagtggt ggctcccggg ttagtggact gctacattaa ccttggagca cgctggtccc 17580 ttgactatat ggacaacgtc aacccattta accaccaccg caatgctggc ctgcgctacc 17640 gctcaatgtt gctgggcaat ggtcgctatg tgcccttcca catccaggtg cctcagaagt 17700 tctttgccat taaaaacctc cttctcctgc cgggctcata cacctacgag tggaacttca 17760 ggaaggatgt taacatggtt ctgcagagct ccctaggaaa tgacctaagg gttgacggag 17820

ccagcattaa gtttgatagc atttgccttt acgccacctt cttccccatg gcccacaaca 17880 ccgcctccac gcttgaggcc atgcttagaa acgacaccaa cgaccagtcc tttaacgact 17940 atctctccgc cgccaacatg ctctacccta tacccgccaa cgctaccaac gtgcccatat 18000 ccatcccctc ccgcaactgg gcggctttcc gcggctgggc cttcacgcgc cttaagacta 18060 aggaaacccc atcactgggc tcgggctacg acccttatta cacctactct ggctctatac 18120 cctacctaga tggaaccttt tacctcaacc acacctttaa gaaggtggcc attacctttg 18180 actcttctgt cagctggcct ggcaatgacc gcctgcttac ccccaacgag tttgaaatta 18240 agcgctcagt tgacggggag ggttacaacg ttgcccagtg taacatgacc aaagactggt 18300 tcctggtaca aatgctagct aactacaaca ttggctacca gggcttctat atcccagaga 18360 gctacaagga ccgcatgtac tccttcttta gaaacttcca gcccatgagc cgtcaggtgg 18420 tggatgatac taaatacaag gactaccaac aggtgggcat cctacaccaa cacaacaact 18480 ctggatttgt tggctacctt gcccccacca tgcgcgaagg acaggcctac cctgctaact 18540 tcccctatcc gcttataggc aagaccgcag ttgacagcat tacccagaaa aagtttcttt 18600 gcgatcgcac cctttggcgc atcccattct ccagtaactt tatgtccatg ggcgcactca 18660 cagacctggg ccaaaacctt ctctacgcca actccgccca cgcgctagac atgacttttg 18720 aggtggatcc catggacgag cccacccttc tttatgtttt gtttgaagtc tttgacgtgg 18780 tccgtgtgca ccggccgcac cgcggcgtca tcgaaaccgt gtacctgcgc acgcccttct 18840 cggccggcaa cgccacaaca taaagaagca agcaacatca acaacagctg ccgccatggg 18900 ctccagtgag caggaactga aagccattgt caaagatctt ggttgtgggc catatttttt 18960 gggcacctat gacaagcgct ttccaggctt tgtttctcca cacaagctcg cctgcgccat 19020 agtcaatacg gccggtcgcg agactggggg cgtacactgg atggcctttg cctggaaccc 19080 gcactcaaaa acatgctacc tctttgagcc ctttggcttt tctgaccagc gactcaagca 19140 ggtttaccag tttgagtacg agtcactcct gcgccgtagc gccattgctt cttcccccga 19200 ccgctgtata acgctggaaa agtccaccca aagcgtacag gggcccaact cggccgcctg 19260 tggactattc tgctgcatgt ttctccacgc ctttgccaac tggccccaaa ctcccatgga 19320 tcacaacccc accatgaacc ttattaccgg ggtacccaac tccatgctca acagtcccca 19380 ggtacagccc accctgcgtc gcaaccagga acagctctac agcttcctgg agcgccactc 19440 gccctacttc cgcagccaca gtgcgcagat taggagcgcc acttcttttt gtcacttgaa 19500 aaacatgtaa aaataatgta ctagagacac tttcaataaa ggcaaatgct tttatttgta 19560 cactctcggg tgattattta cccccaccct tgccgtctgc gccgtttaaa aatcaaaggg 19620 gttctgccgc gcatcgctat gcgccactgg cagggacacg ttgcgatact ggtgtttagt 19680 gctccactta aactcaggca caaccatccg cggcagctcg gtgaagtttt cactccacag 19740 gctgcgcacc atcaccaacg cgtttagcag gtcgggcgcc gatatcttga agtcgcagtt 19800 ggggcctccg ccctgcgcgc gcgagttgcg atacacaggg ttgcagcact ggaacactat 19860 cagcgccggg tggtgcacgc tggccagcac gctcttgtcg gagatcagat ccgcgtccag 19920 gtcctccgcg ttgctcaggg cgaacggagt caactttggt agctgccttc ccaaaaaggg 19980 cgcgtgccca ggctttgagt tgcactcgca ccgtagtggc atcaaaaggt gaccgtgccc 20040 ggtctgggcg ttaggataca gcgcctgcat aaaagccttg atctgcttaa aagccacctg 20100 agcctttgcg ccttcagaga agaacatgcc gcaagacttg ccggaaaact gattggccgg 20160 acaggccgcg tcgtgcacgc agcaccttgc gtcggtgttg gagatctgca ccacatttcg 20220 gccccaccgg ttcttcacga tcttggcctt gctagactgc tccttcagcg cgcgctgccc 20280 gttttcgctc gtcacatcca tttcaatcac gtgctcctta tttatcataa tgcttccgtg 20340 tagacactta agctcgcctt cgatctcagc gcagcggtgc agccacaacg cgcagcccgt 20400 gggctcgtga tgcttgtagg tcacctctgc aaacgactgc aggtacgcct gcaggaatcg 20460 ccccatcatc gtcacaaagg tcttgttgct ggtgaaggtc agctgcaacc cgcggtgctc 20520 ctcgttcagc caggtcttgc atacggccgc cagagcttcc acttggtcag gcagtagttt 20580 gaagttcgcc tttagatcgt tatccacgtg gtacttgtcc atcagcgcgc gcgcagcctc 20640 catgcccttc tcccacgcag acacgatcgg cacactcagc gggttcatca ccgtaatttc 20700 actttccgct tcgctgggct cttcctcttc ctcttgcgtc cgcataccac gcgccactgg 20760 gtcgtcttca ttcagccgcc gcactgtgcg cttacctcct ttgccatgct tgattagcac 20820 cggtgggttg ctgaaaccca ccatttgtag cgccacatct tctctttctt cctcgctgtc 20880 cacgattacc tctggtgatg gcgggcgctc gggcttggga gaagggcgct tctttttctt 20940 cttgggcgca atggccaaat ccgccgccga ggtcgatggc cgcgggctgg gtgtgcgcgg 21000 caccagcgcg tcttgtgatg agtcttcctc gtcctcggac tcgatacgcc gcctcatccg 21060 cttttttggg ggcgcccggg gaggcggcgg cgacggggac ggggacgaca cgtcctccat 21120 ggttggggga cgtcgcgccg caccgcgtcc gcgctcgggg gtggtttcgc gctgctcctc 21180 ttcccgactg gccatttcct tctcctatag gcagaaaaag atcatggagt cagtcgagaa 21240 gaaggacagc ctaaccgccc cctctgagtt cgccaccacc gcctccaccg atgccgccaa 21300 cgcgcctacc accttccccg tcgaggcacc cccgcttgag gaggaggaag tgattatcga 21360 gcaggaccca ggttttgtaa gcgaagacga cgaggaccgc tcagtaccaa cagaggataa 21420 aaagcaagac caggacaacg cagaggcaaa cgaggaacaa gtcgggcggg gggacgaaag 21480 gcatggcgac tacctagatg tgggagacga cgtgctgttg aagcatctgc agcgccagtg 21540 cgccattatc tgcgacgcgt tgcaagagcg cagcgatgtg cccctcgcca tagcggatgt 21600 cagccttgcc tacgaacgcc acctattctc accgcgcgta ccccccaaac gccaagaaaa 21660 cggcacatgc gagcccaacc cgcgcctcaa cttctacccc gtatttgccg tgccagaggt 21720 gcttgccacc tatcacatct ttttccaaaa ctgcaagata cccctatcct gccgtgccaa 21780 ccgcagccga gcggacaagc agctggcctt gcggcagggc gctgtcatac ctgatatcgc 21840 ctcgctcaac gaagtgccaa aaatctttga gggtcttgga cgcgacgaga agcgcgcggc 21900 aaacgctctg caacaggaaa acagcgaaaa tgaaagtcac tctggagtgt tggtggaact 21960 cgagggtgac aacgcgcgcc tagccgtact aaaacgcagc atcgaggtca cccactttgc 22020 ctacccggca cttaacctac cccccaaggt catgagcaca gtcatgagtg agctgatcgt 22080 gcgccgtgcg cagcccctgg agagggatgc aaatttgcaa gaacaaacag aggagggcct 22140 acccgcagtt ggcgacgagc agctagcgcg ctggcttcaa acgcgcgagc ctgccgactt 22200 ggaggagcga cgcaaactaa tgatggccgc agtgctcgtt accgtggagc ttgagtgcat 22260 gcagcggttc tttgctgacc cggagatgca gcgcaagcta gaggaaacat tgcactacac 22320 ctttcgacag ggctacgtac gccaggcctg caagatctcc aacgtggagc tctgcaacct 22380 ggtctcctac cttggaattt tgcacgaaaa ccgccttggg caaaacgtgc ttcattccac 22440 gctcaagggc gaggcgcgcc gcgactacgt ccgcgactgc gtttacttat ttctatgcta 22500 cacctggcag acggccatgg gcgtttggca gcagtgcttg gaggagtgca acctcaagga 22560 gctgcagaaa ctgctaaagc aaaacttgaa ggacctatgg acggccttca acgagcgctc 22620 cgtggccgcg cacctggcgg acatcatttt ccccgaacgc ctgcttaaaa ccctgcaaca 22680 gggtctgcca gacttcacca gtcaaagcat gttgcagaac tttaggaact ttatcctaga 22740 gcgctcagga atcttgcccg ccacctgctg tgcacttcct agcgactttg tgcccattaa 22800 gtaccgcgaa tgccctccgc cgctttgggg ccactgctac cttctgcagc tagccaacta 22860 ccttgcctac cactctgaca taatggaaga cgtgagcggt gacggtctac tggagtgtca 22920 ctgtcgctgc aacctatgca ccccgcaccg ctccctggtt tgcaattcgc agctgcttaa 22980 cgaaagtcaa attatcggta cctttgagct gcagggtccc tcgcctgacg aaaagtccgc 23040 ggctccgggg ttgaaactca ctccggggct gtggacgtcg gcttaccttc gcaaatttgt 23100 acctgaggac taccacgccc acgagattag gttctacgaa gaccaatccc gcccgccaaa 23160 tgcggagctt accgcctgcg tcattaccca gggccacatt cttggccaat tgcaagccat 23220 caacaaagcc cgccaagagt ttctgctacg aaagggacgg ggggtttact tggaccccca 23280 gtccggcgag gagctcaacc caatcccccc gccgccgcag ccctatcagc agcagccgcg 23340 ggcccttgct tcccaggatg gcacccaaaa agaagctgca gctgccgccg ccacccacgg 23400 acgaggagga atactgggac agtcaggcag aggaggtttt ggacgaggag gaggaggaca 23460 tgatggaaga ctgggagagc ctagacgagg aagcttccga ggtcgaagag gtgtcagacg 23520 aaacaccgtc accctcggtc gcattcccct cgccggcgcc ccagaaatcg gcaaccggtt 23580 ccagcatggc tacaacctcc gctcctcagg cgccgccggc actgcccgtt cgccgaccca 23640 accgtagatg ggacaccact ggaaccaggg ccggtaagtc caagcagccg ccgccgttag 23700 cccaagagca acaacagcgc caaggctacc gctcatggcg cgggcacaag aacgccatag 23760 ttgcttgctt gcaagactgt gggggcaaca tctccttcgc ccgccgcttt cttctctacc 23820 atcacggcgt ggccttcccc cgtaacatcc tgcattacta ccgtcatctc tacagcccat 23880 actgcaccgg cggcagcggc agcggcagca acagcagcgg ccacacagaa gcaaaggcga 23940 ccggatagca agactctgac aaagcccaag aaatccacag cggcggcagc agcaggagga 24000 ggagcgctgc gtctggcgcc caacgaaccc gtatcgaccc gcgagcttag aaacaggatt 24060 tttcccactc tgtatgctat atttcaacag agcaggggcc aagaacaaga gctgaaaata 24120 aaaaacaggt ctctgcgatc cctcacccgc agctgcctgt atcacaaaag cgaagatcag 24180 cttcggcgca cgctggaaga cgcggaggct ctcttcagta aatactgcgc gctgactctt 24240 aaggactagt ttcgcgccct ttctcaaatt taagcgcgaa aactacgtca tctccagcgg 24300 ccacacccgg cgccagcacc tgtcgtcagc gccattatga gcaaggaaat tcccacgccc 24360 tacatgtgga gttaccagcc acaaatggga cttgcggctg gagctgccca agactactca 24420 acccgaataa actacatgag cgcgggaccc cacatgatat cccgggtcaa cggaatccgc 24480 gcccaccgaa accgaattct cttggaacag gcggctatta ccaccacacc tcgtaataac 24540 cttaatcccc gtagttggcc cgctgccctg gtgtaccagg aaagtcccgc tcccaccact 24600 gtggtacttc ccagagacgc ccaggccgaa gttcagatga ctaactcagg ggcgcagctt 24660 gcgggcggct ttcgtcacag ggtgcggtcg cccgggcagg gtataactca cctgacaatc 24720 agagggcgag gtattcagct caacgacgag tcggtgagct cctcgcttgg tctccgtccg 24780 gacgggacat ttcagatcgg cggcgccggc cgtccttcat tcacgcctcg tcaggcaatc 24840 ctaactctgc agacctcgtc ctctgagccg cgctctggag gcattggaac tctgcaattt 24900 attgaggagt ttgtgccatc ggtctacttt aaccccttct cgggacctcc cggccactat 24960 ccggatcaat ttattcctaa ctttgacgcg gtaaaggact cggcggacgg ctacgactga 25020 atgttaagtg gagaggcaga gcaactgcgc ctgaaacacc tggtccactg tcgccgccac 25080 aagtgctttg cccgcgactc cggtgagttt tgctactttg aattgcccga ggatcatatc 25140 gagggcccgg cgcacggcgt ccggcttacc gcccagggag agcttgcccg tagcctgatt 25200 cgggagttta cccagcgccc cctgctagtt gagcgggaca ggggaccctg tgttctcact 25260 gtgatttgca actgtcctaa ccttggatta catcaagatc ctctagttaa ttaacagctt 25320

gcatgcctgc aggtcgacgg atcgggagat ctcggccgca tattaagtgc attgttctcg 25380 ataccgctaa gtgcattgtt ctcgttagct cgatggacaa gtgcattgtt ctcttgctga 25440 aagctcgatg gacaagtgca ttgttctctt gctgaaagct cgatggacaa gtgcattgtt 25500 ctcttgctga aagctcagta cccgggagta ccctcgaccg ccggagtata aatagaggcg 25560 cttcgtctac ggagcgacaa ttcaattcaa acaagcaaag tgaacacgtc gctaagcgaa 25620 agctaagcaa ataaacaagc gcagctgaac aagctaaaca atctgcagta aagtgcaagt 25680 taaagtgaat caattaaaag taaccagcaa ccaagtaaat caactgcaac tactgaaatc 25740 tgccaagaag taattattga atacaagaag agaactctga atactttcaa caagttaccg 25800 agaaagaaga actcacacac agctagcgtt taaacttaag cttcaccatg gtggggccct 25860 gcatgctgct gctgctgctg ctgctgggcc tgaggctaca gctctccctg ggcatcatcc 25920 tagttgagga ggagaacccg gacttctgga accgcgaggc agccgaggcc ctgggtgccg 25980 ccaagaagct gcagcctgca cagacagccg ccaagaacct catcatcttc ctgggcgatg 26040 gggtgggggt gtctacggtg acagctgcca ggatcctaaa agggcagaag aaggacaaac 26100 tggggcctga gatacccctg gccatggacc gcttcccata tgtggctctg tccaagacat 26160 acaatgtaga caaacatgtg ccagacagtg gagccacagc cacggcctac ctgtgcgggg 26220 tcaagggcaa cttccagacc attggcttga gtgcagccgc ccgctttaac cagtgcaaca 26280 cgacacgcgg caacgaggtc atctccgtga tgaatcgggc caagaaagca gggaagtcag 26340 tgggagtggt aaccaccaca cgagtgcagc acgcctcgcc agccggcacc tacgcccaca 26400 cggtgaaccg caactggtac tcggacgccg acgtgcctgc ctcggcccgc caggaggggt 26460 gccaggacat cgctacgcag ctcatctcca acatggacat tgacgtgatc ctaggtgggg 26520 gccgaaagta catgtttcgc atgggaaccc cagaccctga gtacccagat gactacagcc 26580 aaggtgggac caggctggac gggaagaatc tggtgcagga atggctggcg aagcaccagg 26640 gtgcccggta cgtgtggaac cgcactgagc tcatgcgggc ttccctggac ccgtctgtgg 26700 cccatctcat gggtctcttt gagcctggag acatgaaata cgagatccac cgagactcca 26760 cactggaccc ctccctgatg gagatgacag aggctgccct gcgcctgctg agcaggaacc 26820 cccgcggctt cttcctcttc gtggagggtg gtcgcatcga ccatggtcat catgaaagca 26880 gggcttaccg ggcactgact gagacgatca tgttcgacga cgccattgag agggcgggcc 26940 agctcaccag cgaggaggac acgctgagcc tcgtcactgc cgaccactcc cacgtcttct 27000 ccttcggagg ctgccccctg cgagggggct ccatcttcgg gctggcccct ggcaaggccc 27060 gggacaggaa ggcctacacg gtcctcctat acggaaacgg tccaggctat gtgctcaagg 27120 acggcgcccg gccggatgtt accgagagcg agagcgggag ccccgagtat cggcagcagt 27180 cagcagtgcc cctggacgaa gagacccacg caggcgagga cgtggcggtg ttcgcgcgcg 27240 gcccgcaggc gcacctggtt cacggcgtgc aggagcagac cttcatagcg cacgtcatgg 27300 ccttcgccgc ctgcctggag ccctacaccg cctgcgacct ggcgcccccc gccggcacca 27360 ccgacgccgc gcacccgggg cggtccgtgg tccccgcgtt gcttcctctg ctggccggga 27420 ccctgctgct gctggagacg gccactgctc cctgagtgtc ccgtccctgg ggctcctgct 27480 tccccatccc ggagttctcc tgctccccgc ctcctgtcgt cctgcctggc ctccagcccg 27540 agtcgtcatc cccggagtcc ctatacagag gtcctgccat ggaaccttcc cctccccgtg 27600 cgctctgggg actgagccca tgacaccaaa cctgcccctt ggctgctctc ggactcccta 27660 ccccaacccc agggacagat ctggccagat ttgtaaaaca aatagatttt aggcccaaag 27720 attatttaaa gcattgcctg gaacgcagtg agtttttgtt agaaaagaga ataattcaaa 27780 gtggcattgc tttgcttctt atgttaattt ggtacagacc tgtggctgag tttgctcaaa 27840 gtattcagag cagaattgtg gagtggaaag agagattgga caaagagttt agtttgtcag 27900 tgtatcaaaa aatgaagttt aatgtggcta tgggaattgg agttttagat tggctaagaa 27960 acagtgatga tgatgatgaa gacagccagg aaaatgctga taaaaatgaa gatggtgggg 28020 agaagaacat ggaagactca gggcatgaaa caggcattga ttcacagtcc caaggctcat 28080 ttcaggcccc tcagtcctca cagtctgttc atgatcataa tcagccatac cacatttgta 28140 gaggttttac ttgctttaaa aaacctccca cacctccccc tgaacctgaa acataaaatg 28200 aatgcaattg ttgttgttaa cttgtttatt gcagcttata atggttacaa ataaagcaat 28260 agcatcacaa atttcacaaa taaagcattt ttttcactgc attctagttg tggtttgtcc 28320 aaactcatca atgtatctta tcatgtctgg atccccagga agctcctctg tgtcctcata 28380 aaccctaacc tcctctactt gagaggacat tccaatcata ggctgcccat ccaccctctg 28440 tgtcctcctg ttaattaggt cacttaacaa aaaggaaatt gggtaggggt ttttcacaga 28500 ccgctttcta agggtaattt taaaatatct gggaagtccc ttccactgct gtgttccaga 28560 agtgttggta aacagcccac aaatgtcaac agcagaaaca tacaagctgt cagctttgca 28620 caagggccca acaccctgct catcaagaag cactgtggtt gctgtgttag taatgtgcaa 28680 aacaggaggc acattttccc cacctgtgta ggttccaaaa tatctagtgt tttcattttt 28740 acttggatca ggaacccagc actccactgg ataagcatta tccttatcca aaacagcctt 28800 gtggtcagtg ttcatctgct gactgtcaac tgtagcattt tttggggtta cagtttgagc 28860 aggatatttg gtcctgtagt ttgctaacac accctgcagc tccaaaggtt ccccaccaac 28920 agcaaaaaaa tgaaaatttg acccttgaat gggttttcca gcaccatttt catgagtttt 28980 ttgtgtccct gaatgcaagt ttaacatagc agttacccca ataacctcag ttttaacagt 29040 aacagcttcc cacatcaaaa tatttccaca ggttaagtcc tcatttaaat taggcaaagg 29100 aattccactt cccactgcct tgcttccgtc tcccattcaa acttttatca actgacatta 29160 ttctaagtaa aatcctcttc attatgttgt cagcaatcca ttgcttgaag gcctggctcc 29220 ccagaacccc tcgactggta tgtcttctcc tagaatactc cagaagaaaa ggagtgtatg 29280 aagatagtga ctgcacatta aaatgactga aaccatagta aattaggatg agattctggg 29340 cagataaaca gacagctggc taggatcatt tttttatgcc ttggacttct ttggcaatct 29400 gttgaagcct gacattcctc agaataatgt tttaaagccc aacaataaga ccctgtagca 29460 catataataa gtactgcagt tttgaagtag tgataagcat aaatgatatt ttgatatatt 29520 tattataact gtaatgagat gtgtacatat ctgtgacttc ataggtactg attgtactac 29580 tgtgattttt ttgcctactt tcaaaatgaa aaggaatgct taatttcagt tagaggttag 29640 taaagacaaa taggtaattt tcttctccag tgaagagcat ggcgcccctt gctattcatg 29700 gacgcttgct taaagacttg tacacaggct tgctttgtat caacctatga cttcccctta 29760 cagccgatga taggttttta tttgcacctc cttcgtgtac aaagacagtt ttggtggcta 29820 cgccatcatt aaactcatta ttatcatgct taagcctata gatgtatcca gttcttctgt 29880 tacataattg aagctgtagt gaattgtcta tcttaaactg catcgctaac tgactacatt 29940 tcacacttca tttgcttcca acatagacta accttcttgg atgtccacta ttatttgaac 30000 ttttgagatt ttttttccta tttctaatat cttaaaattt cagaagactt aaagttttgc 30060 aactacaggg ctccatatag acatctagct tgaatttata cactttcttt cattgatgtc 30120 cctggactaa aaaatgttaa atatttctaa ccgctgtact taaagtccat tacaaacgaa 30180 gactactgtt gttaagttga ataggcatct tatatatttt tcaccggtgc aataaataac 30240 ttctattccc ttctaacatc tgcttgcgtt gcactgagag tacactattg attagcaata 30300 ggttcgtgat tacagccctt ctataattaa ttgttaggtt aacatattat tcataaaata 30360 ttattttatt aatttttact tgatttgcta ctggatgctt agaaatagct atgagtatat 30420 tggtagaacc agtacttata ttttattaca tttttacatt tcataaaatt taagtgatat 30480 aaaaatcctg aggaagtatg ccacaaaagt ggtctcagtg gaaatttaaa tatgttaaca 30540 tttattttta aaatgtagcg tgaaatagac aactttaaaa gctcagctta aaaaaaaaac 30600 tcaaggaagc tgaacttgac tttttaaagc actgaagtgc aatatttaat gtaggtcaac 30660 atgtttaaat gggaaaattt ttttcctaat tacagccaaa tccctagctg taattaactt 30720 aaaatttgta tactatttca caacagagtc agcatatacc actttcttat aaaattagaa 30780 agatctaaaa ttttagagct tatttggtga aacaggcata ttgctacatc tttgtttata 30840 aattataatg tgcctttaga gcccaataac agataacaag attttgaaaa ttcaggtgaa 30900 ttagagttat cagagggaat gttaatacac tctattcaaa tactatatga gtaagacatt 30960 taaaatagga aacaatactt tatatattaa aaaaaattaa tcttccagtc gatttaatcc 31020 actttatgaa ttcatttaaa tcgatttaaa ttcgaattaa ttaactagag tacccgggga 31080 tcttattccc tttaactaat aaaaaaaaat aataaagcat cacttactta aaatcagtta 31140 gcaaatttct gtccagttta ttcagcagca cctccttgcc ctcctcccag ctctggtatt 31200 gcagcttcct cctggctgca aactttctcc acaatctaaa tggaatgtca gtttcctcct 31260 gttcctgtcc atccgcaccc actatcttca tgttgttgca gatgaagcgc gcaagaccgt 31320 ctgaagatac cttcaacccc gtgtatccat atgacacgga aaccggtcct ccaactgtgc 31380 cttttcttac tcctcccttt gtatccccca atgggtttca agagagtccc cctggggtac 31440 tctctttgcg cctatccgaa cctctagtta cctccaatgg catgcttgcg ctcaaaatgg 31500 gcaacggcct ctctctggac gaggccggca accttacctc ccaaaatgta accactgtga 31560 gcccacctct caaaaaaacc aagtcaaaca taaacctgga aatatctgca cccctcacag 31620 ttacctcaga agccctaact gtggctgccg ccgcacctct aatggtcgcg ggcaacacac 31680 tcaccatgca atcacaggcc ccgctaaccg tgcacgactc caaacttagc attgccaccc 31740 aaggacccct cacagtgtca gaaggaaagc tagccctgca aacatcaggc cccctcacca 31800 ccaccgatag cagtaccctt actatcactg cctcaccccc tctaactact gccactggta 31860 gcttgggcat tgacttgaaa gagcccattt atacacaaaa tggaaaacta ggactaaagt 31920 acggggctcc tttgcatgta acagacgacc taaacacttt gaccgtagca actggtccag 31980 gtgtgactat taataatact tccttgcaaa ctaaagttac tggagccttg ggttttgatt 32040 cacaaggcaa tatgcaactt aatgtagcag gaggactaag gattgattct caaaacagac 32100 gccttatact tgatgttagt tatccgtttg atgctcaaaa ccaactaaat ctaagactag 32160 gacagggccc tctttttata aactcagccc acaacttgga tattaactac aacaaaggcc 32220 tttacttgtt tacagcttca aacaattcca aaaagcttga ggttaaccta agcactgcca 32280 aggggttgat gtttgacgct acagccatag ccattaatgc aggagatggg cttgaatttg 32340 gttcacctaa tgcaccaaac acaaatcccc tcaaaacaaa aattggccat ggcctagaat 32400 ttgattcaaa caaggctatg gttcctaaac taggaactgg ccttagtttt gacagcacag 32460 gtgccattac agtaggaaac aaaaataatg ataagctaac tttgtggacc acaccagctc 32520 catctcctaa ctgtagacta aatgcagaga aagatgctaa actcactttg gtcttaacaa 32580 aatgtggcag tcaaatactt gctacagttt cagttttggc tgttaaaggc agtttggctc 32640 caatatctgg aacagttcaa agtgctcatc ttattataag atttgacgaa aatggagtgc 32700 tactaaacaa ttccttcctg gacccagaat attggaactt tagaaatgga gatcttactg 32760 aaggcacagc ctatacaaac gctgttggat ttatgcctaa cctatcagct tatccaaaat 32820 ctcacggtaa aactgccaaa agtaacattg tcagtcaagt ttacttaaac ggagacaaaa 32880

ctaaacctgt aacactaacc attacactaa acggtacaca ggaaacagga gacacaactc 32940 caagtgcata ctctatgtca ttttcatggg actggtctgg ccacaactac attaatgaaa 33000 tatttgccac atcctcttac actttttcat acattgccca agaataaaga atcgtttgtg 33060 ttatgtttca acgtgtttat ttttcaattg cagaaaattt caagtcattt ttcattcagt 33120 agtatagccc caccaccaca tagcttatac agatcaccgt accttaatca aactcacaga 33180 accctagtat tcaacctgcc acctccctcc caacacacag agtacacagt cctttctccc 33240 cggctggcct taaaaagcat catatcatgg gtaacagaca tattcttagg tgttatattc 33300 cacacggttt cctgtcgagc caaacgctca tcagtgatat taataaactc cccgggcagc 33360 tcacttaagt tcatgtcgct gtccagctgc tgagccacag gctgctgtcc aacttgcggt 33420 tgcttaacgg gcggcgaagg agaagtccac gcctacatgg gggtagagtc ataatcgtgc 33480 atcaggatag ggcggtggtg ctgcagcagc gcgcgaataa actgctgccg ccgccgctcc 33540 gtcctgcagg aatacaacat ggcagtggtc tcctcagcga tgattcgcac cgcccgcagc 33600 ataaggcgcc ttgtcctccg ggcacagcag cgcaccctga tctcacttaa atcagcacag 33660 taactgcagc acagcaccac aatattgttc aaaatcccac agtgcaaggc gctgtatcca 33720 aagctcatgg cggggaccac agaacccacg tggccatcat accacaagcg caggtagatt 33780 aagtggcgac ccctcataaa cacgctggac ataaacatta cctcttttgg catgttgtaa 33840 ttcaccacct cccggtacca tataaacctc tgattaaaca tggcgccatc caccaccatc 33900 ctaaaccagc tggccaaaac ctgcccgccg gctatacact gcagggaacc gggactggaa 33960 caatgacagt ggagagccca ggactcgtaa ccatggatca tcatgctcgt catgatatca 34020 atgttggcac aacacaggca cacgtgcata cacttcctca ggattacaag ctcctcccgc 34080 gttagaacca tatcccaggg aacaacccat tcctgaatca gcgtaaatcc cacactgcag 34140 ggaagacctc gcacgtaact cacgttgtgc attgtcaaag tgttacattc gggcagcagc 34200 ggatgatcct ccagtatggt agcgcgggtt tctgtctcaa aaggaggtag acgatcccta 34260 ctgtacggag tgcgccgaga caaccgagat cgtgttggtc gtagtgtcat gccaaatgga 34320 acgccggacg tagtcatatt tcctgaagca aaaccaggtg cgggcgtgac aaacagatct 34380 gcgtctccgg tctcgccgct tagatcgctc tgtgtagtag ttgtagtata tccactctct 34440 caaagcatcc aggcgccccc tggcttcggg ttctatgtaa actccttcat gcgccgctgc 34500 cctgataaca tccaccaccg cagaataagc cacacccagc caacctacac attcgttctg 34560 cgagtcacac acgggaggag cgggaagagc tggaagaacc atgttttttt ttttattcca 34620 aaagattatc caaaacctca aaatgaagat ctattaagtg aacgcgctcc cctccggtgg 34680 cgtggtcaaa ctctacagcc aaagaacaga taatggcatt tgtaagatgt tgcacaatgg 34740 cttccaaaag gcaaacggcc ctcacgtcca agtggacgta aaggctaaac ccttcagggt 34800 gaatctcctc tataaacatt ccagcacctt caaccatgcc caaataattc tcatctcgcc 34860 accttctcaa tatatctcta agcaaatccc gaatattaag tccggccatt gtaaaaatct 34920 gctccagagc gccctccacc ttcagcctca agcagcgaat catgattgca aaaattcagg 34980 ttcctcacag acctgtataa gattcaaaag cggaacatta acaaaaatac cgcgatcccg 35040 taggtccctt cgcagggcca gctgaacata atcgtgcagg tctgcacgga ccagcgcggc 35100 cacttccccg ccaggaacct tgacaaaaga acccacactg attatgacac gcatactcgg 35160 agctatgcta accagcgtag ccccgatgta agctttgttg catgggcggc gatataaaat 35220 gcaaggtgct gctcaaaaaa tcaggcaaag cctcgcgcaa aaaagaaagc acatcgtagt 35280 catgctcatg cagataaagg caggtaagct ccggaaccac cacagaaaaa gacaccattt 35340 ttctctcaaa catgtctgcg ggtttctgca taaacacaaa ataaaataac aaaaaaacat 35400 ttaaacatta gaagcctgtc ttacaacagg aaaaacaacc cttataagca taagacggac 35460 tacggccatg ccggcgtgac cgtaaaaaaa ctggtcaccg tgattaaaaa gcaccaccga 35520 cagctcctcg gtcatgtccg gagtcataat gtaagactcg gtaaacacat caggttgatt 35580 catcggtcag tgctaaaaag cgaccgaaat agcccggggg aatacatacc cgcaggcgta 35640 gagacaacat tacagccccc ataggaggta taacaaaatt aataggagag aaaaacacat 35700 aaacacctga aaaaccctcc tgcctaggca aaatagcacc ctcccgctcc agaacaacat 35760 acagcgcttc acagcggcag cctaacagtc agccttacca gtaaaaaaga aaacctatta 35820 aaaaaacacc actcgacacg gcaccagctc aatcagtcac agtgtaaaaa agggccaagt 35880 gcagagcgag tatatatagg actaaaaaat gacgtaacgg ttaaagtcca caaaaaacac 35940 ccagaaaacc gcacgcgaac ctacgcccag aaacgaaagc caaaaaaccc acaacttcct 36000 caaatcgtca cttccgtttt cccacgttac gtaacttccc attttaagaa aactacaatt 36060 cccaacacat acaagttact ccgccctaaa acctacgtca cccgccccgt tcccacgccc 36120 cgcgccacgt cacaaactcc accccctcat tatcatattg gcttcaatcc aaaataaggt 36180 atattattga tgatggccgg ccgaattgaa tcaggggata acgcaggaaa gaacatgtga 36240 gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc gtttttccat 36300 aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag gtggcgaaac 36360 ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt gcgctctcct 36420 gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg aagcgtggcg 36480 ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg ctccaagctg 36540 ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg taactatcgt 36600 cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac tggtaacagg 36660 attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg gcctaactac 36720 ggctacacta gaaggacagt atttggtatc tgcgctctgc tgaagccagt taccttcgga 36780 aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg tggttttttt 36840 gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc tttgatcttt 36900 tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt ggtcatgaga 36960 ttatcaaaaa ggatcttcac ctagatcctt ttaaattaaa aatgaagttt taaatcaatc 37020 taaagtatat atgagtaaac ttggtctgac agttaccaat gcttaatcag tgaggcacct 37080 atctcagcga tctgtctatt tcgttcatcc atagttgcct gactccccgt cgtgtagata 37140 actacgatac gggagggctt accatctggc cccagtgctg caatgatacc gcgagaccca 37200 cgctcaccgg ctccagattt atcagcaata aaccagccag ccggaagggc cgagcgcaga 37260 agtggtcctg caactttatc cgcctccatc cagtctatta attgttgccg ggaagctaga 37320 gtaagtagtt cgccagttaa tagtttgcgc aacgttgttg ccattgctac aggcatcgtg 37380 gtgtcacgct cgtcgtttgg tatggcttca ttcagctccg gttcccaacg atcaaggcga 37440 gttacatgat cccccatgtt gtgcaaaaaa gcggttagct ccttcggtcc tccgatcgtt 37500 gtcagaagta agttggccgc agtgttatca ctcatggtta tggcagcact gcataattct 37560 cttactgtca tgccatccgt aagatgcttt tctgtgactg gtgagtactc aaccaagtca 37620 ttctgagaat agtgtatgcg gcgaccgagt tgctcttgcc cggcgtcaat acgggataat 37680 accgcgccac atagcagaac tttaaaagtg ctcatcattg gaaaacgttc ttcggggcga 37740 aaactctcaa ggatcttacc gctgttgaga tccagttcga tgtaacccac tcgtgcaccc 37800 aactgatctt cagcatcttt tactttcacc agcgtttctg ggtgagcaaa aacaggaagg 37860 caaaatgccg caaaaaaggg aataagggcg acacggaaat gttgaatact catactcttc 37920 ctttttcaat attattgaag catttatcag ggttattgtc tcatgagcgg atacatattt 37980 gaatgtattt agaaaaataa acaaataggg gttccgcgca catttccccg aaaagtgcca 38040 c 38041 <210> SEQ ID NO 14 <211> LENGTH: 7180 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 14 tctagagtcg accggtcatg gctgcgcccc gacacccgcc aacacccgct gacgcgccct 60 gacgggcttg tctgctcccg gcatccgctt acagacaagc tgtgaccgtc tccgggagct 120 gcatgtgtca gaggttttca ccgtcatcac cgaaacgcgc gaggcagccg gatcataatc 180 agccatacca catttgtaga ggttttactt gctttaaaaa acctccccac ctccccctga 240 acctgaaaca taaaatgaat gcaattgttg ttgttaactt gtttattgca gcttataatg 300 gttacaaata aagcaatagc atcacaaatt tcacaaataa agcatttttt tcactgcatt 360 ctagttgtgg tttgtccaaa ctcatcaatg tatcttatca tgtctggatc cagttcgatg 420 taacccactc gtgcacccaa ctgatcttca gcatctttta ctttcaccag cgtttctggg 480 tgagcaaaaa caggaaggca aaatgccgca aaaaagggaa taagggcgac acggaaatgt 540 tgaatactca tactcttcct ttttcaatat tattgaagca tttatcaggg ttattgtctc 600 atgagcggat acatatttga atgtatttag aaaaataaac aaataggggt tccgcgcaca 660 tttccccgaa aagtgccacc tgacgtccat tgttcattcc acggacaaaa acagagaaag 720 gaaacgacag aggccaaaaa gcctcgcttt cagcacctgt cgtttccttt cttttcagag 780 ggtattttaa ataaaaacat taagttatga cgaagaagaa cggaaacgcc ttaaaccgga 840 aaattttcat aaatagcgaa aacccgcgag gtcgccgccc cgtaacctgt cggatcaccg 900 gaaaggaccc gtaaagtgat aatgattatc atctagacta catcgatggg tcgtgcgctc 960 ctttcggtcg ggcgctgcgg gtcgtggggc gggcgtcagg caccgggctt gcgggtcatg 1020 caccaggtcg cgcggtcctt cgggcactcg acgtcggcgg tgacggtgaa gccgagccgc 1080 tcgtagaagg ggaggttgcg gggcgcggag gtctccagga aggcgggcac cccggcgcgc 1140 tcggccgcct ccactccggg gagcacgacg gcgctgccca gacccttgcc ctggtggtcg 1200 ggcgagacgc cgacggtggc caggaaccac gcgggctcct tgggccggtg cggcgccagg 1260 aggccttcca tctgttgctg cgcggccagc cgggaaccgc tcaactcggc catgcgcggg 1320 ccgatctcgg cgaacaccgc ccccgcttcg acgctctccg gcgtggtcca gaccgccacc 1380 gcggcgccgt cgtccgcgac ccacaccttg ccgatgtcga gcccgacgcg cgtgaggaag 1440 agttcttgca gctcggtgac ccgctcgatg tggcggtccg gatcgacggt gtggcgcgtg 1500 gcggggtagt cggcgaacgc ggcggcgagg gtgcgtacgg ccctggggac gtcgtcgcgg 1560 gtggcgaggc gcaccgtggg cttgtactcg gtcatggtaa gcttgctagc agctggtacc 1620 cagcttctag agatctgacg gttcactaaa cgagctctgc ttatatagac ctcccaccgt 1680 acacgcctac cgcccatttg cgtcaacggg gcggggttat tacgacattt tggaaagtcc 1740 cgttgatttt ggtgccaaaa caaactccca ttgacgtcaa tggggtggag acttggaaat 1800 ccccgtgagt caaaccgcta tccacgccca ttggtgtact gccaaaaccg catcaccatg 1860 gtaatagcga tgactaatac gtagatgtac tgccaagtag gaaagtcccg taaggtcatg 1920 tactgggcat aatgccaggc gggccattta ccgtcattga cgtcaatagg gggcggactt 1980

ggcatatgat acacttgatg tactgccaag tgggcagttt accgtaaata ctccacccat 2040 tgacgtcaat ggaaagtccc tattggcgtt actatgggaa catacgtcat tattgacgtc 2100 aatgggcggg ggtcgttggg cggtcagcca ggcgggccat ttaccgtaag ttatgtaacg 2160 cggaactcca tatatgggct atgaactaat gaccccgtaa ttgattacta ttaataacta 2220 gtcaataatc aatgtcaaca tggcggtcat attggacatg agccaatata aatgtacata 2280 ttatgatata gatacaacgt atgcaatggc caatagccaa tattgattta tgctatataa 2340 ccaatgacta atatggctaa ttgccaatat tgattcaatg tatagatctt ccatacctac 2400 cagttctgcg cctgcagcaa tgcaacaacg ttgcccggat ctgcgatgat aagctgtcaa 2460 acatgagaat tggtcgacta gcttggcacg ccagaaatcc gcgcggtggt ttttgggggt 2520 cgggggtgtt tggcagccac agacgcccgg tgttcgtgtc gcgccagtac atgcggtcca 2580 tgcccaggcc atccaaaaac catgggtctg tctgctcagt ccagtcgtgg accagacccc 2640 acgcaacgcc caaaataata acccccacga accataaacc attccccatg ggggaccccg 2700 tccctaaccc acggggccag tggctatggc agggcctgcc gccccgacgt tggctgcgag 2760 ccctgggcct tcacccgaac ttggggggtg gggtggggaa aaggaagaaa cgcgggcgta 2820 ttggccccaa tggggtctcg gtggggtatc gacagagtgc cagccctggg accgaacccc 2880 gcgtttatga acaaacgacc caacacccgt gcgttttatt ctgtcttttt attgccgtca 2940 tagcgcgggt tccttccggt attgtctcct tccgtgtttc agttagcctc ccccatctcc 3000 cctattcctt tgccctcgga cgagtgctgg ggcgtcggtt tccactatcg gcgagtactt 3060 ctacacagcc atcggtccag acggccgcgc ttctgcgggc gatttgtgta cgcccgacag 3120 tcccggctcc ggatcggacg attgcgtcgc atcgaccctg cgcccaagct gcatcatcga 3180 aattgccgtc aaccaagctc tgatagagtt ggtcaagacc aatgcggagc atatacgccc 3240 ggagccgcgg cgatcctgca agctccggat gcctccgctc gaagtagcgc gtctgctgct 3300 ccatacaagc caaccacggc ctccagaaga agatgttggc gacctcgtat tgggaatccc 3360 cgaacatcgc ctcgctccag tcaatgaccg ctgttatgcg gccattgtcc gtcaggacat 3420 tgttggagcc gaaatccgcg tgcacgaggt gccggacttc ggggcagtcc tcggcccaaa 3480 gcatcagctc atcgagagcc tgcgcgacgg acgcactgac ggtgtcgtcc atcacagttt 3540 gccagtgata cacatgggga tcagcaatcg cgcatatgaa atcacgccat gtagtgtatt 3600 gaccgattcc ttgcggtccg aatgggccga acccgctcgt ctggctaaga tcggccgcag 3660 cgcgcgcaaa acccctaaat aaagacagca agacacttgc ttgatccaaa tccaaacaga 3720 gtctggtttt ttatttatgt tttaaaccgc attgggaggg gaggaagcct tcagggcaga 3780 aacctgctgg cgcagatcca acagctgctg agaaacgaca ttaagttccc gggtcaaaga 3840 atccaattgt gccaaaagag ccgtcaactt gtcatcgcgg gcggatgaac gggaagctgc 3900 actgcttgca agcgggctca ggaaagcaaa gtcagtcaca atcccgcggg cggtggctgc 3960 agcggctgaa gcggcggcgg aggctgcagt ctccaacggc gttccagaca cggtctcgta 4020 ggtcaaggta gtagagtttg cgggcaggac ggggcgacca tcaatgctgg agcccatcac 4080 attctgacgc accccggccc atgggggcat gcgcgttgtc aaatatgagc tcacaatgct 4140 tccatcaaac gagttggtgc tcatggcggc ggcggctgct gcaaaacaga tacaaaacta 4200 cataagaccc ccaccttata tattctttcc cacccgggat ctgcggcacg ctgttgacgc 4260 tgttaagcgg gtcgctgcag ggtcgctcgg tgttcgaggc cacacgcgtc accttaatat 4320 gcgaagtgga cctgggaccg cgccgccccg actgcatctg cgtgttcgaa ttcgccaatg 4380 acaagacgct gggcggggtt tgtgtcatca tagaactaaa gacatgcaaa tatatttctt 4440 ccggggacac cgccagcaaa cgcgagcaac gggccacggg gatgaagcag ggcatggcgg 4500 ccgacgcgct gggctacgtc ttgctggcgt tcgcgacgcg aggctggatg gccttcccca 4560 ttatgattct tctcgcttcc ggcggcatcg ggatgcccgc gttgcaggcc atgctgtcca 4620 ggcaggtaga tgacgaccat cagggacagc ttcaaggatc gctcgcggct cttaccagcc 4680 taacttcgat cactggaccg ctgatcgtca cggcgattta tgccgcctcg gcgagcacat 4740 ggaacgggtt ggcatggatt gtaggcgccg ccctatacct tgtctgcctc cccgcgttgc 4800 gtcgcggtgc atggagccgg gccacctcga cctgaatgga agccggcggc acctcgctaa 4860 cggattcacc actccaagaa ttggagccaa tcaattcttg cggagaactg tgaatgcgca 4920 aaccaaccct tggcagaaca tatccatcgc gtccgccatc tccagcagcc gcacgcggcg 4980 cagcaaaagg ccaggaaccg taaaaaggcc gcgttgctgg cgtttttcca taggctccgc 5040 ccccctgacg agcatcacaa aaatcgacgc tcaagtcaga ggtggcgaaa cccgacagga 5100 ctataaagat accaggcgtt tccccctgga agctccctcg tgcgctctcc tgttccgacc 5160 ctgccgctta ccggatacct gtccgccttt ctcccttcgg gaagcgtggc gctttctcat 5220 agctcacgct gtaggtatct cagttcggtg taggtcgttc gctccaagct gggctgtgtg 5280 cacgaacccc ccgttcagcc cgaccgctgc gccttatccg gtaactatcg tcttgagtcc 5340 aacccggtaa gacacgactt atcgccactg gcagcagcca ctggtaacag gattagcaga 5400 gcgaggtatg taggcggtgc tacagagttc ttgaagtggt ggcctaacta cggctacact 5460 agaaggacag tatttggtat ctgcgctctg ctgaagccag ttaccttcgg aaaaagagtt 5520 ggtagctctt gatccggcaa acaaaccacc gctggtagcg gtggtttttt tgtttgcaag 5580 cagcagatta cgcgcagaaa aaaaggatct caagaagatc ctttgatctt ttctacgggg 5640 tctgacgctc agtggaacga aaactcacgt taagggattt tggtcatgag attatcaaaa 5700 aggatcttca cctagatcct tttaaattaa aaatgaagtt ttaaatcaat ctaaagtata 5760 tatgagtaaa cttggtctga cagttaccaa tgcttaatca gtgaggcacc tatctcagcg 5820 atctgtctat ttcgttcatc catagttgcc tgactccccg tcgtgtagat aactacgata 5880 cgggagggct taccatctgg ccccagtgct gcaatgatac cgcgagaccc acgctcaccg 5940 gctccagatt tatcagcaat aaaccagcca gccggaaggg ccgagcgcag aagtggtcct 6000 gcaactttat ccgcctccat ccagtctatt aattgttgcc gggaagctag agtaagtagt 6060 tcgccagtta atagtttgcg caacgttgtt gccattgctg caggcatcgt ggtgtcacgc 6120 tcgtcgtttg gtatggcttc attcagctcc ggttcccaac gatcaaggcg agttacatga 6180 tcccccatgt tgtgcaaaaa agcggttagc tccttcggtc ctccgatcgt tgtcagaagt 6240 aagttggccg cagtgttatc actcatggtt atggcagcac tgcataattc tcttactgtc 6300 atgccatccg taagatgctt ttctgtgact ggtgagtact caaccaagtc attctgagaa 6360 tagtgtatgc ggcgaccgag ttgctcttgc ccggcgtcaa cacgggataa taccgcgcca 6420 catagcagaa ctttaaaagt gctcatcatt ggaaaacgtt cttcggggcg aaaactctca 6480 aggatcttac cgctgttgag atccagttcg atgtaaccca ctcgtgcacc caactgatct 6540 tcagcatctt ttactttcac cagcgtttct gggtgagcaa aaacaggaag gcaaaatgcc 6600 gcaaaaaagg gaataagggc gacacggaaa tgttgaatac tcatactctt cctttttcaa 6660 tattattgaa gcatttatca gggttattgt ctcatgagcg gatacatatt tgaatgtatt 6720 tagaaaaata aacaaatagg ggttccgcgc acatttcccc gaaaagtgcc acctgacgtc 6780 taagaaacca ttattatcat gacattaacc tataaaaata ggcgtatcac gaggcccttc 6840 ccgtagtctt cctgggcccc tgggaggtac atgtccccca gcattggtgt aagagcttca 6900 gccaagagtt acacataaag gcaatgttgt gttgcagtcc acagactgca aagtctgctc 6960 caggatgaaa gccactcagt gttggcaaat gtgcacatcc atttataagg atgtcaacta 7020 cagtcagaga acccctttgt gtttggtccc cccccgtgtc acatgtggaa cagggcccag 7080 ttggcaagtt gtaccaacca actgaaggga ttacatgcac tgccccgcga agaaggggca 7140 gagatgccgt agtcaggttt agttcgtccg gcggcggggc 7180 <210> SEQ ID NO 15 <211> LENGTH: 37391 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 15 ctaaattgta agcgttaata ttttgttaaa attcggccgg ccatcatcaa taatatacct 60 tattttggat tgaagccaat atgataatga gggggtggag tttgtgacgt ggcgcggggc 120 gtgggaacgg ggcgggtgac gtagtagtgt ggcggaagtg tgatgttgca agtgtggcgg 180 aacacatgta taacttcgta taatgtatgc tatacgaagt tatacatgta agcgacggat 240 gtggcaaaag tgacgttttt ggtgtgcgcc ggtgtacaca ggaagtgaca attttcgcgc 300 ggttttaggc ggatgttgta gtaaatttgg gcgtaaccga gtaagatttg gccattttcg 360 cgggaaaact gaataagagg aagtgaaatc tgaataattt tgtgttactc atagcgcgta 420 atatttgtct agggagatca attggattct ttgacccggg aacttaatgt cgtttctcag 480 cagctgttgg atctgcgcca gcaggtttct gccctgaagg cttcctcccc tcccaatgcg 540 gtttaaaaca taaataaaaa accagactct gtttggattt ggatcaagca agtgtcttgc 600 tgtctttatt taggggtttt gcgcgcgcgg taggcccggg accagcggtc tcggtcgttg 660 agggtcctgt gtattttttc caggacgtgg taaaggtgac tctggatgtt cagatacatg 720 ggcataagcc cgtctctggg gtggaggtag caccactgca gagcttcatg ctgcggggtg 780 gtgttgtaga tgatccagtc gtagcaggag cgctgggcgt ggtgcctaaa aatgtctttc 840 agtagcaagc tgattgccag gggcaggccc ttggtgtaag tgtttacaaa gcggttaagc 900 tgggatgggt gcatacgtgg ggatatgaga tgcatcttgg actgtatttt taggttggct 960 atgttcccag ccatatccct ccggggattc atgttgtgca gaaccaccag cacagtgtat 1020 ccggtgcact tgggaaattt gtcatgtagc ttagaaggaa atgcgtggaa gaacttggag 1080 acgcccttgt gacctccaag attttccatg cattcgtcca taatgatggc aatgggccca 1140 cgggcggcgg cctgggcgaa gatatttctg ggatcactaa cgtcatagtt gtgttccagg 1200 atgagatcgt cataggccat ttttacaaag cgcgggcgga gggtgccaga ctgcggtata 1260 atggttccat ccggcccagg ggcgtagtta ccctcacaga tttgcatttc ccacgctttg 1320 agttcagatg gggggatcat gtctacctgc ggggcgatga agaaaacggt ttccggggta 1380 ggggagatca gctgggaaga aagcaggttc ctgagcagct gcgacttacc gcagccggtg 1440 ggcccgtaaa tcacacctat taccgggtgc aactggtagt taagagagct gcagctgccg 1500 tcatccctga gcaggggggc cacttcgtta agcatgtccc tgactcgcat gttttccctg 1560 accaaatccg ccagaaggcg ctcgccgccc agcgatagca gttcttgcaa ggaagcaaag 1620 tttttcaacg gtttgagacc gtccgccgta ggcatgcttt tgagcgtttg accaagcagt 1680 tccaggcggt cccacagctc ggtcacctgc tctacggcat ctcgatccag catatctcct 1740 cgtttcgcgg gttggggcgg ctttcgctgt acggcagtag tcggtgctcg tccagacggg 1800 ccagggtcat gtctttccac gggcgcaggg tcctcgtcag cgtagtctgg gtcacggtga 1860 aggggtgcgc tccgggctgc gcgctggcca gggtgcgctt gaggctggtc ctgctggtgc 1920 tgaagcgctg ccggtcttcg ccctgcgcgt cggccaggta gcatttgacc atggtgtcat 1980 agtccagccc ctccgcggcg tggcccttgg cgcgcagctt gcccttggag gaggcgccgc 2040

acgaggggca gtgcagactt ttgagggcgt agagcttggg cgcgagaaat accgattccg 2100 gggagtaggc atccgcgccg caggccccgc agacggtctc gcattccacg agccaggtga 2160 gctctggccg ttcggggtca aaaaccaggt ttcccccatg ctttttgatg cgtttcttac 2220 ctctggtttc catgagccgg tgtccacgct cggtgacgaa aaggctgtcc gtgtccccgt 2280 atacagactt gagaggcctg tcctcgagcg gtgttccgcg gtcctcctcg tatagaaact 2340 cggaccactc tgagacaaag gctcgcgtcc aggccagcac gaaggaggct aagtgggagg 2400 ggtagcggtc gttgtccact agggggtcca ctcgctccag ggtgtgaaga cacatgtcgc 2460 cctcttcggc atcaaggaag gtgattggtt tgtaggtgta ggccacgtga ccgggtgttc 2520 ctgaaggggg gctataaaag ggggtggggg cgcgttcgtc ctcactctct tccgcatcgc 2580 tgtctgcgag ggccagctgt tggggtgagt actccctctg aaaagcgggc atgacttctg 2640 cgctaagatt gtcagtttcc aaaaacgagg aggatttgat attcacctgg cccgcggtga 2700 tgcctttgag ggtggccgca tccatctggt cagaaaagac aatctttttg ttgtcaagct 2760 tggtggcaaa cgacccgtag agggcgttgg acagcaactt ggcgatggag cgcagggttt 2820 ggtttttgtc gcgatcggcg cgctccttgg ccgcgatgtt tagctgcacg tattcgcgcg 2880 caacgcaccg ccattcggga aagacggtgg tgcgctcgtc gggcaccagg tgcacgcgcc 2940 aaccgcggtt gtgcagggtg acaaggtcaa cgctggtggc tacctctccg cgtaggcgct 3000 cgttggtcca gcagaggcgg ccgcccttgc gcgagcagaa tggcggtagg gggtctagct 3060 gcgtctcgtc cggggggtct gcgtccacgg taaagacccc gggcagcagg cgcgcgtcga 3120 agtagtctat cttgcatcct tgcaagtcta gcgcctgctg ccatgcgcgg gcggcaagcg 3180 cgcgctcgta tgggttgagt gggggacccc atggcatggg gtgggtgagc gcggaggcgt 3240 acatgccgca aatgtcgtaa acgtagaggg gctctctgag tattccaaga tatgtagggt 3300 agcatcttcc accgcggatg ctggcgcgca cgtaatcgta tagttcgtgc gagggagcga 3360 ggaggtcggg accgaggttg ctacgggcgg gctgctctgc tcggaagact atctgcctga 3420 agatggcatg tgagttggat gatatggttg gacgctggaa gacgttgaag ctggcgtctg 3480 tgagacctac cgcgtcacgc acgaaggagg cgtaggagtc gcgcagcttg ttgaccagct 3540 cggcggtgac ctgcacgtct agggcgcagt agtccagggt ttccttgatg atgtcatact 3600 tatcctgtcc cttttttttc cacagctcgc ggttgaggac aaactcttcg cggtctttcc 3660 agtactcttg gatcggaaac ccgtcggcct ccgaacggta agagcctagc atgtagaact 3720 ggttgacggc ctggtaggcg cagcatccct tttctacggg tagcgcgtat gcctgcgcgg 3780 ccttccggag cgaggtgtgg gtgagcgcaa aggtgtccct gaccatgact ttgaggtact 3840 ggtatttgaa gtcagtgtcg tcgcatccgc cctgctccca gagcaaaaag tccgtgcgct 3900 ttttggaacg cggatttggc agggcgaagg tgacatcgtt gaagagtatc tttcccgcgc 3960 gaggcataaa gttgcgtgtg atgcggaagg gtcccggcac ctcggaacgg ttgttaatta 4020 cctgggcggc gagcacgatc tcgtcaaagc cgttgatgtt gtggcccaca atgtaaagtt 4080 ccaagaagcg cgggatgccc ttgatggaag gcaatttttt aagttcctcg taggtgagct 4140 cttcagggga gctgagcccg tgctctgaaa gggcccagtc tgcaagatga gggttggaag 4200 cgacgaatga gctccacagg tcacgggcca ttagcatttg caggtggtcg cgaaaggtcc 4260 taaactggcg acctatggcc attttttctg gggtgatgca gtagaaggta agcgggtctt 4320 gttcccagcg gtcccatcca aggttcgcgg ctaggtctcg cgcggcagtc actagaggct 4380 catctccgcc gaacttcatg accagcatga agggcacgag ctgcttccca aaggccccca 4440 tccaagtata ggtctctaca tcgtaggtga caaagagacg ctcggtgcga ggatgcgagc 4500 cgatcgggaa gaactggatc tcccgccacc aattggagga gtggctattg atgtggtgaa 4560 agtagaagtc cctgcgacgg gccgaacact cgtgctggct tttgtaaaaa cgtgcgcagt 4620 actggcagcg gtgcacgggc tgtacatcct gcacgaggtt gacctgacga ccgcgcacaa 4680 ggaagcagag tgggaatttg agcccctcgc ctggcgggtt tggctggtgg tcttctactt 4740 cggctgcttg tccttgaccg tctggctgct cgaggggagt tacggtggat cggaccacca 4800 cgccgcgcga gcccaaagtc cagatgtccg cgcgcggcgg tcggagcttg atgacaacat 4860 cgcgcagatg ggagctgtcc atggtctgga gctcccgcgg cgtcaggtca ggcgggagct 4920 cctgcaggtt tacctcgcat agacgggtca gggcgcgggc tagatccagg tgatacctaa 4980 tttccagggg ctggttggtg gcggcgtcga tggcttgcaa gaggccgcat ccccgcggcg 5040 cgactacggt accgcgcggc gggcggtggg ccgcgggggt gtccttggat gatgcatcta 5100 aaagcggtga cgcgggcgag cccccggagg tagggggggc tccggacccg ccgggagagg 5160 gggcaggggc acgtcggcgc cgcgcgcggg caggagctgg tgctgcgcgc gtaggttgct 5220 ggcgaacgcg acgacgcggc ggttgatctc ctgaatctgg cgcctctgcg tgaagacgac 5280 gggcccggtg agcttgagcc tgaaagagag ttcgacagaa tcaatttcgg tgtcgttgac 5340 ggcggcctgg cgcaaaatct cctgcacgtc tcctgagttg tcttgatagg cgatctcggc 5400 catgaactgc tcgatctctt cctcctggag atctccgcgt ccggctcgct ccacggtggc 5460 ggcgaggtcg ttggaaatgc gggccatgag ctgcgagaag gcgttgaggc ctccctcgtt 5520 ccagacgcgg ctgtagacca cgcccccttc ggcatcgcgg gcgcgcatga ccacctgcgc 5580 gagattgagc tccacgtgcc gggcgaagac ggcgtagttt cgcaggcgct gaaagaggta 5640 gttgagggtg gtggcggtgt gttctgccac gaagaagtac ataacccagc gtcgcaacgt 5700 ggattcgttg atatccccca aggcctcaag gcgctccatg gcctcgtaga agtccacggc 5760 gaagttgaaa aactgggagt tgcgcgccga cacggttaac tcctcctcca gaagacggat 5820 gagctcggcg acagtgtcgc gcacctcgcg ctcaaaggct acaggggcct cttcttcttc 5880 ttcaatctcc tcttccataa gggcctcccc ttcttcttct tctggcggcg gtgggggagg 5940 ggggacacgg cggcgacgac ggcgcaccgg gaggcggtcg acaaagcgct cgatcatctc 6000 cccgcggcga cggcgcatgg tctcggtgac ggcgcggccg ttctcgcggg ggcgcagttg 6060 gaagacgccg cccgtcatgt cccggttatg ggttggcggg gggctgccat gcggcaggga 6120 tacggcgcta acgatgcatc tcaacaattg ttgtgtaggt actccgccgc cgagggacct 6180 gagcgagtcc gcatcgaccg gatcggaaaa cctctcgaga aaggcgtcta accagtcaca 6240 gtcgcaaggt aggctgagca ccgtggcggg cggcagcggg cggcggtcgg ggttgtttct 6300 ggcggaggtg ctgctgatga tgtaattaaa gtaggcggtc ttgagacggc ggatggtcga 6360 cagaagcacc atgtccttgg gtccggcctg ctgaatgcgc aggcggtcgg ccatgcccca 6420 ggcttcgttt tgacatcggc gcaggtcttt gtagtagtct tgcatgagcc tttctaccgg 6480 cacttcttct tctccttcct cttgtcctgc atctcttgca tctatcgctg cggcggcggc 6540 ggagtttggc cgtaggtggc gccctcttcc tcccatgcgt gtgaccccga agcccctcat 6600 cggctgaagc agggctaggt cggcgacaac gcgctcggct aatatggcct gctgcacctg 6660 cgtgagggta gactggaagt catccatgtc cacaaagcgg tggtatgcgc ccgtgttgat 6720 ggtgtaagtg cagttggcca taacggacca gttaacggtc tggtgacccg gctgcgagag 6780 ctcggtgtac ctgagacgcg agtaagccct cgagtcaaat acgtagtcgt tgcaagtccg 6840 caccaggtac tggtatccca ccaaaaagtg cggcggcggc tggcggtaga ggggccagcg 6900 tagggtggcc ggggctccgg gggcgagatc ttccaacata aggcgatgat atccgtagat 6960 gtacctggac atccaggtga tgccggcggc ggtggtggag gcgcgcggaa agtcgcggac 7020 gcggttccag atgttgcgca gcggcaaaaa gtgctccatg gtcgggacgc tctggccggt 7080 caggcgcgcg caatcgttga cgctctaccg tgcaaaagga gagcctgtaa gcgggcactc 7140 ttccgtggtc tggtggataa attcgcaagg gtatcatggc ggacgaccgg ggttcgagcc 7200 ccgtatccgg ccgtccgccg tgatccatgc ggttaccgcc cgcgtgtcga acccaggtgt 7260 gcgacgtcag acaacggggg agtgctcctt ttggcttcct tccaggcgcg gcggctgctg 7320 cgctagcttt tttggccact ggccgcgcgc agcgtaagcg gttaggctgg aaagcgaaag 7380 cattaagtgg ctcgctccct gtagccggag ggttattttc caagggttga gtcgcgggac 7440 ccccggttcg agtctcggac cggccggact gcggcgaacg ggggtttgcc tccccgtcat 7500 gcaagacccc gcttgcaaat tcctccggaa acagggacga gccccttttt tgcttttccc 7560 agatgcatcc ggtgctgcgg cagatgcgcc cccctcctca gcagcggcaa gagcaagagc 7620 agcggcagac atgcagggca ccctcccctc ctcctaccgc gtcaggaggg gcgacatccg 7680 cggttgacgc ggcagcagat ggtgattacg aacccccgcg gcgccgggcc cggcactacc 7740 tggacttgga ggagggcgag ggcctggcgc ggctaggagc gccctctcct gagcggtacc 7800 caagggtgca gctgaagcgt gatacgcgtg aggcgtacgt gccgcggcag aacctgtttc 7860 gcgaccgcga gggagaggag cccgaggaga tgcgggatcg aaagttccac gcagggcgcg 7920 agctgcggca tggcctgaat cgcgagcggt tgctgcgcga ggaggacttt gagcccgacg 7980 cgcgaaccgg gattagtccc gcgcgcgcac acgtggcggc cgccgacctg gtaaccgcat 8040 acgagcagac ggtgaaccag gagattaact ttcaaaaaag ctttaacaac cacgtgcgta 8100 cgcttgtggc gcgcgaggag gtggctatag gactgatgca tctgtgggac tttgtaagcg 8160 cgctggagca aaacccaaat agcaagccgc tcatggcgca gctgttcctt atagtgcagc 8220 acagcaggga caacgaggca ttcagggatg cgctgctaaa catagtagag cccgagggcc 8280 gctggctgct cgatttgata aacatcctgc agagcatagt ggtgcaggag cgcagcttga 8340 gcctggctga caaggtggcc gccatcaact attccatgct tagcctgggc aagttttacg 8400 cccgcaagat ataccatacc ccttacgttc ccatagacaa ggaggtaaag atcgaggggt 8460 tctacatgcg catggcgctg aaggtgctta ccttgagcga cgacctgggc gtttatcgca 8520 acgagcgcat ccacaaggcc gtgagcgtga gccggcggcg cgagctcagc gaccgcgagc 8580 tgatgcacag cctgcaaagg gccctggctg gcacgggcag cggcgataga gaggccgagt 8640 cctactttga cgcgggcgct gacctgcgct gggccccaag ccgacgcgcc ctggaggcag 8700 ctggggccgg acctgggctg gcggtggcac ccgcgcgcgc tggcaacgtc ggcggcgtgg 8760 aggaatatga cgaggacgat gagtacgagc cagaggacgg cgagtactaa gcggtgatgt 8820 ttctgatcag atgatgcaag acgcaacgga cccggcggtg cgggcggcgc tgcagagcca 8880 gccgtccggc cttaactcca cggacgactg gcgccaggtc atggaccgca tcatgtcgct 8940 gactgcgcgc aatcctgacg cgttccggca gcagccgcag gccaaccggc tctccgcaat 9000 tctggaagcg gtggtcccgg cgcgcgcaaa ccccacgcac gagaaggtgc tggcgatcgt 9060 aaacgcgctg gccgaaaaca gggccatccg gcccgacgaa gccggcctgg tctacgacgc 9120 gctgcttcag cgcgtggctc gttacaacag cggcaacgtg cagaccaacc tggaccggct 9180 ggtgggggat gtgcgcgagg ccgtggcgca gcgtgagcgc gcgcagcagc agggcaacct 9240 gggctccatg gttgcactaa acgccttcct gagtacacag cccgccaacg tgccgcgggg 9300 acaggaggac tacaccaact ttgtgagcgc actgcggcta atggtgactg agacaccgca 9360 aagtgaggtg taccagtctg ggccagacta ttttttccag accagtagac aaggcctgca 9420 gaccgtaaac ctgagccagg ctttcaaaaa cttgcagggg ctgtgggggg tgcgggctcc 9480 cacaggcgac cgcgcgaccg tgtctagctt gctgacgccc aactcgcgcc tgttgctgct 9540

gctaatagcg cccttcacgg acagtggcag cgtgtcccgg gacacatacc taggtcactt 9600 gctgacactg taccgcgagg ccataggtca ggcgcatgtg gacgagcata ctttccagga 9660 gattacaagt gtcagccgcg cgctggggca ggaggacacg ggcagcctgg aggcaaccct 9720 aaactacctg ctgaccaacc ggcggcagaa gatcccctcg ttgcacagtt taaacagcga 9780 ggaggagcgc attttgcgct acgtgcagca gagcgtgagc cttaacctga tgcgcgacgg 9840 ggtaacgccc agcgtggcgc tggacatgac cgcgcgcaac atggaaccgg gcatgtatgc 9900 ctcaaaccgg ccgtttatca accgcctaat ggactacttg catcgcgcgg ccgccgtgaa 9960 ccccgagtat ttcaccaatg ccatcttgaa cccgcactgg ctaccgcccc ctggtttcta 10020 caccggggga ttcgaggtgc ccgagggtaa cgatggattc ctctgggacg acatagacga 10080 cagcgtgttt tccccgcaac cgcagaccct gctagagttg caacagcgcg agcaggcaga 10140 ggcggcgctg cgaaaggaaa gcttccgcag gccaagcagc ttgtccgatc taggcgctgc 10200 ggccccgcgg tcagatgcta gtagcccatt tccaagcttg atagggtctc ttaccagcac 10260 tcgcaccacc cgcccgcgcc tgctgggcga ggaggagtac ctaaacaact cgctgctgca 10320 gccgcagcgc gaaaaaaacc tgcctccggc atttcccaac aacgggatag agagcctagt 10380 ggacaagatg agtagatgga agacgtacgc gcaggagcac agggacgtgc caggcccgcg 10440 cccgcccacc cgtcgtcaaa ggcacgaccg tcagcggggt ctggtgtggg aggacgatga 10500 ctcggcagac gacagcagcg tcctggattt gggagggagt ggcaacccgt ttgcgcacct 10560 tcgccccagg ctggggagaa tgttttaaaa aaaaaaaagc atgatgcaaa ataaaaaact 10620 caccaaggcc atggcaccga gcgttggttt tcttgtattc cccttagtat gcggcgcgcg 10680 gcgatgtatg aggaaggtcc tcctccctcc tacgagagtg tggtgagcgc ggcgccagtg 10740 gcggcggcgc tgggttctcc cttcgatgct cccctggacc cgccgtttgt gcctccgcgg 10800 tacctgcggc ctaccggggg gagaaacagc atccgttact ctgagttggc acccctattc 10860 gacaccaccc gtgtgtacct ggtggacaac aagtcaacgg atgtggcatc cctgaactac 10920 cagaacgacc acagcaactt tctgaccacg gtcattcaaa acaatgacta cagcccgggg 10980 gaggcaagca cacagaccat caatcttgac gaccggtcgc actggggcgg cgacctgaaa 11040 accatcctgc ataccaacat gccaaatgtg aacgagttca tgtttaccaa taagtttaag 11100 gcgcgggtga tggtgtcgcg cttgcctact aaggacaatc aggtggagct gaaatacgag 11160 tgggtggagt tcacgctgcc cgagggcaac tactccgaga ccatgaccat agaccttatg 11220 aacaacgcga tcgtggagca ctacttgaaa gtgggcagac agaacggggt tctggaaagc 11280 gacatcgggg taaagtttga cacccgcaac ttcagactgg ggtttgaccc cgtcactggt 11340 cttgtcatgc ctggggtata tacaaacgaa gccttccatc cagacatcat tttgctgcca 11400 ggatgcgggg tggacttcac ccacagccgc ctgagcaact tgttgggcat ccgcaagcgg 11460 caacccttcc aggagggctt taggatcacc tacgatgatc tggagggtgg taacattccc 11520 gcactgttgg atgtggacgc ctaccaggcg agcttgaaag atgacaccga acagggcggg 11580 ggtggcgcag gcggcagcaa cagcagtggc agcggcgcgg aagagaactc caacgcggca 11640 gccgcggcaa tgcagccggt ggaggacatg aacgatcatg ccattcgcgg cgacaccttt 11700 gccacacggg ctgaggagaa gcgcgctgag gccgaagcag cggccgaagc tgccgccccc 11760 gctgcgcaac ccgaggtcga gaagcctcag aagaaaccgg tgatcaaacc cctgacagag 11820 gacagcaaga aacgcagtta caacctaata agcaatgaca gcaccttcac ccagtaccgc 11880 agctggtacc ttgcatacaa ctacggcgac cctcagaccg gaatccgctc atggaccctg 11940 ctttgcactc ctgacgtaac ctgcggctcg gagcaggtct actggtcgtt gccagacatg 12000 atgcaagacc ccgtgacctt ccgctccacg cgccagatca gcaactttcc ggtggtgggc 12060 gccgagctgt tgcccgtgca ctccaagagc ttctacaacg accaggccgt ctactcccaa 12120 ctcatccgcc agtttacctc tctgacccac gtgttcaatc gctttcccga gaaccagatt 12180 ttggcgcgcc cgccagcccc caccatcacc accgtcagtg aaaacgttcc tgctctcaca 12240 gatcacggga cgctaccgct gcgcaacagc atcggaggag tccagcgagt gaccattact 12300 gacgccagac gccgcacctg cccctacgtt tacaaggccc tgggcatagt ctcgccgcgc 12360 gtcctatcga gccgcacttt ttgagcaagc atgtccatcc ttatatcgcc cagcaataac 12420 acaggctggg gcctgcgctt cccaagcaag atgtttggcg gggccaagaa gcgctccgac 12480 caacacccag tgcgcgtgcg cgggcactac cgcgcgccct ggggcgcgca caaacgcggc 12540 cgcactgggc gcaccaccgt cgatgacgcc atcgacgcgg tggtggagga ggcgcgcaac 12600 tacacgccca cgccgccacc agtgtccaca gtggacgcgg ccattcagac cgtggtgcgc 12660 ggagcccggc gctatgctaa aatgaagaga cggcggaggc gcgtagcacg tcgccaccgc 12720 cgccgacccg gcactgccgc ccaacgcgcg gcggcggccc tgcttaaccg cgcacgtcgc 12780 accggccgac gggcggccat gcgggccgct cgaaggctgg ccgcgggtat tgtcactgtg 12840 ccccccaggt ccaggcgacg agcggccgcc gcagcagccg cggccattag tgctatgact 12900 cagggtcgca ggggcaacgt gtattgggtg cgcgactcgg ttagcggcct gcgcgtgccc 12960 gtgcgcaccc gccccccgcg caactagatt gcaagaaaaa actacttaga ctcgtactgt 13020 tgtatgtatc cagcggcggc ggcgcgcaac gaagctatgt ccaagcgcaa aatcaaagaa 13080 gagatgctcc aggtcatcgc gccggagatc tatggccccc cgaagaagga agagcaggat 13140 tacaagcccc gaaagctaaa gcgggtcaaa aagaaaaaga aagatgatga tgatgaactt 13200 gacgacgagg tggaactgct gcacgctacc gcgcccaggc gacgggtaca gtggaaaggt 13260 cgacgcgtaa aacgtgtttt gcgacccggc accaccgtag tctttacgcc cggtgagcgc 13320 tccacccgca cctacaagcg cgtgtatgat gaggtgtacg gcgacgagga cctgcttgag 13380 caggccaacg agcgcctcgg ggagtttgcc tacggaaagc ggcataagga catgctggcg 13440 ttgccgctgg acgagggcaa cccaacacct agcctaaagc ccgtaacact gcagcaggtg 13500 ctgcccgcgc ttgcaccgtc cgaagaaaag cgcggcctaa agcgcgagtc tggtgacttg 13560 gcacccaccg tgcagctgat ggtacccaag cgccagcgac tggaagatgt cttggaaaaa 13620 atgaccgtgg aacctgggct ggagcccgag gtccgcgtgc ggccaatcaa gcaggtggcg 13680 ccgggactgg gcgtgcagac cgtggacgtt cagataccca ctaccagtag caccagtatt 13740 gccaccgcca cagagggcat ggagacacaa acgtccccgg ttgcctcagc ggtggcggat 13800 gccgcggtgc aggcggtcgc tgcggccgcg tccaagacct ctacggaggt gcaaacggac 13860 ccgtggatgt ttcgcgtttc agccccccgg cgcccgcgcg gttcgaggaa gtacggcgcc 13920 gccagcgcgc tactgcccga atatgcccta catccttcca ttgcgcctac ccccggctat 13980 cgtggctaca cctaccgccc cagaagacga gcaactaccc gacgccgaac caccactgga 14040 acccgccgcc gccgtcgccg tcgccagccc gtgctggccc cgatttccgt gcgcagggtg 14100 gctcgcgaag gaggcaggac cctggtgctg ccaacagcgc gctaccaccc cagcatcgtt 14160 taaaagccgg tctttgtggt tcttgcagat atggccctca cctgccgcct ccgtttcccg 14220 gtgccgggat tccgaggaag aatgcaccgt aggaggggca tggccggcta cggcctgacg 14280 ggcggcatgc gtcgtgcgca ccaccggcgg cggcgcgcgt cgcaccgtcg catgcgcggc 14340 ggtatcctgc ccctccttat tccactgatc gccgcggcga ttggcgccgt gcccggaatt 14400 gcatccgtgg ccttgcaggc gcagagacac tgattaaaaa caagttgcat gtggaaaaat 14460 caaaataaaa agtctggact ctcacgctcg cttggtcctg taactatttt gtagaatgga 14520 agacatcaac tttgcgtctc tggccccgcg acacggctcg cgcccgttca tgggaaactg 14580 gcaagatatc ggcaccagca atatgagcgg tggcgccttc agctggggct cgctgtggag 14640 cggcattaaa aatttcggtt ccaccgttaa gaactatggc agcaaggcct ggaacagcag 14700 cacaggccag atgctgaggg ataagttgaa agagcaaaat ttccaacaaa aggtggtaga 14760 tggcctggcc tctggcatta gcggggtggt ggacctggcc aaccaggcag tgcaaaataa 14820 gattaacagt aagcttgatc cccgccctcc cgtagaggag cctccaccgg ccgtggagac 14880 agtgtctcca gaggggcgtg gcgaaaagcg tccgcgcccc gacagggaag aaactctggt 14940 gacgcaaata gacgagcctc cctcgtacga ggaggcacta aagcaaggcc tgcccaccac 15000 ccgtcccatc gcgcccatgg ctaccggagt gctgggccag cacacacccg taacgctgga 15060 cctgcctccc cccgccgaca cccagcagaa acctgtgctg ccaggcccga ccgccgttgt 15120 tgtaacccgt cctagccgcg cgtccctgcg ccgcgccgcc agcggtccgc gatcgttgcg 15180 gcccgtagcc agtggcaact ggcaaagcac actgaacagc atcgtgggtc tgggggtgca 15240 atccctgaag cgccgacgat gcttctgaat agctaacgtg tcgtatgtgt gtcatgtatg 15300 cgtccatgtc gccgccagag gagctgctga gccgccgcgc gcccgctttc caagatggct 15360 accccttcga tgatgccgca gtggtcttac atgcacatct cgggccagga cgcctcggag 15420 tacctgagcc ccgggctggt gcagtttgcc cgcgccaccg agacgtactt cagcctgaat 15480 aacaagttta gaaaccccac ggtggcgcct acgcacgacg tgaccacaga ccggtcccag 15540 cgtttgacgc tgcggttcat ccctgtggac cgtgaggata ctgcgtactc gtacaaggcg 15600 cggttcaccc tagctgtggg tgataaccgt gtgctggaca tggcttccac gtactttgac 15660 atccgcggcg tgctggacag gggccctact tttaagccct actctggcac tgcctacaac 15720 gccctggctc ccaagggtgc cccaaatcct tgcgaatggg atgaagctgc tactgctctt 15780 gaaataaacc tagaagaaga ggacgatgac aacgaagacg aagtagacga gcaagctgag 15840 cagcaaaaaa ctcacgtatt tgggcaggcg ccttattctg gtataaatat tacaaaggag 15900 ggtattcaaa taggtgtcga aggtcaaaca cctaaatatg ccgataaaac atttcaacct 15960 gaacctcaaa taggagaatc tcagtggtac gaaactgaaa ttaatcatgc agctgggaga 16020 gtccttaaaa agactacccc aatgaaacca tgttacggtt catatgcaaa acccacaaat 16080 gaaaatggag ggcaaggcat tcttgtaaag caacaaaatg gaaagctaga aagtcaagtg 16140 gaaatgcaat ttttctcaac tactgaggcg accgcaggca atggtgataa cttgactcct 16200 aaagtggtat tgtacagtga agatgtagat atagaaaccc cagacactca tatttcttac 16260 atgcccacta ttaaggaagg taactcacga gaactaatgg gccaacaatc tatgcccaac 16320 aggcctaatt acattgcttt tagggacaat tttattggtc taatgtatta caacagcacg 16380 ggtaatatgg gtgttctggc gggccaagca tcgcagttga atgctgttgt agatttgcaa 16440 gacagaaaca cagagctttc ataccagctt ttgcttgatt ccattggtga tagaaccagg 16500 tacttttcta tgtggaatca ggctgttgac agctatgatc cagatgttag aattattgaa 16560 aatcatggaa ctgaagatga acttccaaat tactgctttc cactgggagg tgtgattaat 16620 acagagactc ttaccaaggt aaaacctaaa acaggtcagg aaaatggatg ggaaaaagat 16680 gctacagaat tttcagataa aaatgaaata agagttggaa ataattttgc catggaaatc 16740 aatctaaatg ccaacctgtg gagaaatttc ctgtactcca acatagcgct gtatttgccc 16800 gacaagctaa agtacagtcc ttccaacgta aaaatttctg ataacccaaa cacctacgac 16860 tacatgaaca agcgagtggt ggctcccggg ttagtggact gctacattaa ccttggagca 16920 cgctggtccc ttgactatat ggacaacgtc aacccattta accaccaccg caatgctggc 16980 ctgcgctacc gctcaatgtt gctgggcaat ggtcgctatg tgcccttcca catccaggtg 17040 cctcagaagt tctttgccat taaaaacctc cttctcctgc cgggctcata cacctacgag 17100

tggaacttca ggaaggatgt taacatggtt ctgcagagct ccctaggaaa tgacctaagg 17160 gttgacggag ccagcattaa gtttgatagc atttgccttt acgccacctt cttccccatg 17220 gcccacaaca ccgcctccac gcttgaggcc atgcttagaa acgacaccaa cgaccagtcc 17280 tttaacgact atctctccgc cgccaacatg ctctacccta tacccgccaa cgctaccaac 17340 gtgcccatat ccatcccctc ccgcaactgg gcggctttcc gcggctgggc cttcacgcgc 17400 cttaagacta aggaaacccc atcactgggc tcgggctacg acccttatta cacctactct 17460 ggctctatac cctacctaga tggaaccttt tacctcaacc acacctttaa gaaggtggcc 17520 attacctttg actcttctgt cagctggcct ggcaatgacc gcctgcttac ccccaacgag 17580 tttgaaatta agcgctcagt tgacggggag ggttacaacg ttgcccagtg taacatgacc 17640 aaagactggt tcctggtaca aatgctagct aactacaaca ttggctacca gggcttctat 17700 atcccagaga gctacaagga ccgcatgtac tccttcttta gaaacttcca gcccatgagc 17760 cgtcaggtgg tggatgatac taaatacaag gactaccaac aggtgggcat cctacaccaa 17820 cacaacaact ctggatttgt tggctacctt gcccccacca tgcgcgaagg acaggcctac 17880 cctgctaact tcccctatcc gcttataggc aagaccgcag ttgacagcat tacccagaaa 17940 aagtttcttt gcgatcgcac cctttggcgc atcccattct ccagtaactt tatgtccatg 18000 ggcgcactca cagacctggg ccaaaacctt ctctacgcca actccgccca cgcgctagac 18060 atgacttttg aggtggatcc catggacgag cccacccttc tttatgtttt gtttgaagtc 18120 tttgacgtgg tccgtgtgca ccggccgcac cgcggcgtca tcgaaaccgt gtacctgcgc 18180 acgcccttct cggccggcaa cgccacaaca taaagaagca agcaacatca acaacagctg 18240 ccgccatggg ctccagtgag caggaactga aagccattgt caaagatctt ggttgtgggc 18300 catatttttt gggcacctat gacaagcgct ttccaggctt tgtttctcca cacaagctcg 18360 cctgcgccat agtcaatacg gccggtcgcg agactggggg cgtacactgg atggcctttg 18420 cctggaaccc gcactcaaaa acatgctacc tctttgagcc ctttggcttt tctgaccagc 18480 gactcaagca ggtttaccag tttgagtacg agtcactcct gcgccgtagc gccattgctt 18540 cttcccccga ccgctgtata acgctggaaa agtccaccca aagcgtacag gggcccaact 18600 cggccgcctg tggactattc tgctgcatgt ttctccacgc ctttgccaac tggccccaaa 18660 ctcccatgga tcacaacccc accatgaacc ttattaccgg ggtacccaac tccatgctca 18720 acagtcccca ggtacagccc accctgcgtc gcaaccagga acagctctac agcttcctgg 18780 agcgccactc gccctacttc cgcagccaca gtgcgcagat taggagcgcc acttcttttt 18840 gtcacttgaa aaacatgtaa aaataatgta ctagagacac tttcaataaa ggcaaatgct 18900 tttatttgta cactctcggg tgattattta cccccaccct tgccgtctgc gccgtttaaa 18960 aatcaaaggg gttctgccgc gcatcgctat gcgccactgg cagggacacg ttgcgatact 19020 ggtgtttagt gctccactta aactcaggca caaccatccg cggcagctcg gtgaagtttt 19080 cactccacag gctgcgcacc atcaccaacg cgtttagcag gtcgggcgcc gatatcttga 19140 agtcgcagtt ggggcctccg ccctgcgcgc gcgagttgcg atacacaggg ttgcagcact 19200 ggaacactat cagcgccggg tggtgcacgc tggccagcac gctcttgtcg gagatcagat 19260 ccgcgtccag gtcctccgcg ttgctcaggg cgaacggagt caactttggt agctgccttc 19320 ccaaaaaggg cgcgtgccca ggctttgagt tgcactcgca ccgtagtggc atcaaaaggt 19380 gaccgtgccc ggtctgggcg ttaggataca gcgcctgcat aaaagccttg atctgcttaa 19440 aagccacctg agcctttgcg ccttcagaga agaacatgcc gcaagacttg ccggaaaact 19500 gattggccgg acaggccgcg tcgtgcacgc agcaccttgc gtcggtgttg gagatctgca 19560 ccacatttcg gccccaccgg ttcttcacga tcttggcctt gctagactgc tccttcagcg 19620 cgcgctgccc gttttcgctc gtcacatcca tttcaatcac gtgctcctta tttatcataa 19680 tgcttccgtg tagacactta agctcgcctt cgatctcagc gcagcggtgc agccacaacg 19740 cgcagcccgt gggctcgtga tgcttgtagg tcacctctgc aaacgactgc aggtacgcct 19800 gcaggaatcg ccccatcatc gtcacaaagg tcttgttgct ggtgaaggtc agctgcaacc 19860 cgcggtgctc ctcgttcagc caggtcttgc atacggccgc cagagcttcc acttggtcag 19920 gcagtagttt gaagttcgcc tttagatcgt tatccacgtg gtacttgtcc atcagcgcgc 19980 gcgcagcctc catgcccttc tcccacgcag acacgatcgg cacactcagc gggttcatca 20040 ccgtaatttc actttccgct tcgctgggct cttcctcttc ctcttgcgtc cgcataccac 20100 gcgccactgg gtcgtcttca ttcagccgcc gcactgtgcg cttacctcct ttgccatgct 20160 tgattagcac cggtgggttg ctgaaaccca ccatttgtag cgccacatct tctctttctt 20220 cctcgctgtc cacgattacc tctggtgatg gcgggcgctc gggcttggga gaagggcgct 20280 tctttttctt cttgggcgca atggccaaat ccgccgccga ggtcgatggc cgcgggctgg 20340 gtgtgcgcgg caccagcgcg tcttgtgatg agtcttcctc gtcctcggac tcgatacgcc 20400 gcctcatccg cttttttggg ggcgcccggg gaggcggcgg cgacggggac ggggacgaca 20460 cgtcctccat ggttggggga cgtcgcgccg caccgcgtcc gcgctcgggg gtggtttcgc 20520 gctgctcctc ttcccgactg gccatttcct tctcctatag gcagaaaaag atcatggagt 20580 cagtcgagaa gaaggacagc ctaaccgccc cctctgagtt cgccaccacc gcctccaccg 20640 atgccgccaa cgcgcctacc accttccccg tcgaggcacc cccgcttgag gaggaggaag 20700 tgattatcga gcaggaccca ggttttgtaa gcgaagacga cgaggaccgc tcagtaccaa 20760 cagaggataa aaagcaagac caggacaacg cagaggcaaa cgaggaacaa gtcgggcggg 20820 gggacgaaag gcatggcgac tacctagatg tgggagacga cgtgctgttg aagcatctgc 20880 agcgccagtg cgccattatc tgcgacgcgt tgcaagagcg cagcgatgtg cccctcgcca 20940 tagcggatgt cagccttgcc tacgaacgcc acctattctc accgcgcgta ccccccaaac 21000 gccaagaaaa cggcacatgc gagcccaacc cgcgcctcaa cttctacccc gtatttgccg 21060 tgccagaggt gcttgccacc tatcacatct ttttccaaaa ctgcaagata cccctatcct 21120 gccgtgccaa ccgcagccga gcggacaagc agctggcctt gcggcagggc gctgtcatac 21180 ctgatatcgc ctcgctcaac gaagtgccaa aaatctttga gggtcttgga cgcgacgaga 21240 agcgcgcggc aaacgctctg caacaggaaa acagcgaaaa tgaaagtcac tctggagtgt 21300 tggtggaact cgagggtgac aacgcgcgcc tagccgtact aaaacgcagc atcgaggtca 21360 cccactttgc ctacccggca cttaacctac cccccaaggt catgagcaca gtcatgagtg 21420 agctgatcgt gcgccgtgcg cagcccctgg agagggatgc aaatttgcaa gaacaaacag 21480 aggagggcct acccgcagtt ggcgacgagc agctagcgcg ctggcttcaa acgcgcgagc 21540 ctgccgactt ggaggagcga cgcaaactaa tgatggccgc agtgctcgtt accgtggagc 21600 ttgagtgcat gcagcggttc tttgctgacc cggagatgca gcgcaagcta gaggaaacat 21660 tgcactacac ctttcgacag ggctacgtac gccaggcctg caagatctcc aacgtggagc 21720 tctgcaacct ggtctcctac cttggaattt tgcacgaaaa ccgccttggg caaaacgtgc 21780 ttcattccac gctcaagggc gaggcgcgcc gcgactacgt ccgcgactgc gtttacttat 21840 ttctatgcta cacctggcag acggccatgg gcgtttggca gcagtgcttg gaggagtgca 21900 acctcaagga gctgcagaaa ctgctaaagc aaaacttgaa ggacctatgg acggccttca 21960 acgagcgctc cgtggccgcg cacctggcgg acatcatttt ccccgaacgc ctgcttaaaa 22020 ccctgcaaca gggtctgcca gacttcacca gtcaaagcat gttgcagaac tttaggaact 22080 ttatcctaga gcgctcagga atcttgcccg ccacctgctg tgcacttcct agcgactttg 22140 tgcccattaa gtaccgcgaa tgccctccgc cgctttgggg ccactgctac cttctgcagc 22200 tagccaacta ccttgcctac cactctgaca taatggaaga cgtgagcggt gacggtctac 22260 tggagtgtca ctgtcgctgc aacctatgca ccccgcaccg ctccctggtt tgcaattcgc 22320 agctgcttaa cgaaagtcaa attatcggta cctttgagct gcagggtccc tcgcctgacg 22380 aaaagtccgc ggctccgggg ttgaaactca ctccggggct gtggacgtcg gcttaccttc 22440 gcaaatttgt acctgaggac taccacgccc acgagattag gttctacgaa gaccaatccc 22500 gcccgccaaa tgcggagctt accgcctgcg tcattaccca gggccacatt cttggccaat 22560 tgcaagccat caacaaagcc cgccaagagt ttctgctacg aaagggacgg ggggtttact 22620 tggaccccca gtccggcgag gagctcaacc caatcccccc gccgccgcag ccctatcagc 22680 agcagccgcg ggcccttgct tcccaggatg gcacccaaaa agaagctgca gctgccgccg 22740 ccacccacgg acgaggagga atactgggac agtcaggcag aggaggtttt ggacgaggag 22800 gaggaggaca tgatggaaga ctgggagagc ctagacgagg aagcttccga ggtcgaagag 22860 gtgtcagacg aaacaccgtc accctcggtc gcattcccct cgccggcgcc ccagaaatcg 22920 gcaaccggtt ccagcatggc tacaacctcc gctcctcagg cgccgccggc actgcccgtt 22980 cgccgaccca accgtagatg ggacaccact ggaaccaggg ccggtaagtc caagcagccg 23040 ccgccgttag cccaagagca acaacagcgc caaggctacc gctcatggcg cgggcacaag 23100 aacgccatag ttgcttgctt gcaagactgt gggggcaaca tctccttcgc ccgccgcttt 23160 cttctctacc atcacggcgt ggccttcccc cgtaacatcc tgcattacta ccgtcatctc 23220 tacagcccat actgcaccgg cggcagcggc agcggcagca acagcagcgg ccacacagaa 23280 gcaaaggcga ccggatagca agactctgac aaagcccaag aaatccacag cggcggcagc 23340 agcaggagga ggagcgctgc gtctggcgcc caacgaaccc gtatcgaccc gcgagcttag 23400 aaacaggatt tttcccactc tgtatgctat atttcaacag agcaggggcc aagaacaaga 23460 gctgaaaata aaaaacaggt ctctgcgatc cctcacccgc agctgcctgt atcacaaaag 23520 cgaagatcag cttcggcgca cgctggaaga cgcggaggct ctcttcagta aatactgcgc 23580 gctgactctt aaggactagt ttcgcgccct ttctcaaatt taagcgcgaa aactacgtca 23640 tctccagcgg ccacacccgg cgccagcacc tgtcgtcagc gccattatga gcaaggaaat 23700 tcccacgccc tacatgtgga gttaccagcc acaaatggga cttgcggctg gagctgccca 23760 agactactca acccgaataa actacatgag cgcgggaccc cacatgatat cccgggtcaa 23820 cggaatccgc gcccaccgaa accgaattct cttggaacag gcggctatta ccaccacacc 23880 tcgtaataac cttaatcccc gtagttggcc cgctgccctg gtgtaccagg aaagtcccgc 23940 tcccaccact gtggtacttc ccagagacgc ccaggccgaa gttcagatga ctaactcagg 24000 ggcgcagctt gcgggcggct ttcgtcacag ggtgcggtcg cccgggcagg gtataactca 24060 cctgacaatc agagggcgag gtattcagct caacgacgag tcggtgagct cctcgcttgg 24120 tctccgtccg gacgggacat ttcagatcgg cggcgccggc cgtccttcat tcacgcctcg 24180 tcaggcaatc ctaactctgc agacctcgtc ctctgagccg cgctctggag gcattggaac 24240 tctgcaattt attgaggagt ttgtgccatc ggtctacttt aaccccttct cgggacctcc 24300 cggccactat ccggatcaat ttattcctaa ctttgacgcg gtaaaggact cggcggacgg 24360 ctacgactga atgttaagtg gagaggcaga gcaactgcgc ctgaaacacc tggtccactg 24420 tcgccgccac aagtgctttg cccgcgactc cggtgagttt tgctactttg aattgcccga 24480 ggatcatatc gagggcccgg cgcacggcgt ccggcttacc gcccagggag agcttgcccg 24540 tagcctgatt cgggagttta cccagcgccc cctgctagtt gagcgggaca ggggaccctg 24600

tgttctcact gtgatttgca actgtcctaa ccttggatta catcaagatc ctctagttaa 24660 ttaacagctt gcatgcctgc aggtcgacgg atcgggagat ctcggccgca tattaagtgc 24720 attgttctcg ataccgctaa gtgcattgtt ctcgttagct cgatggacaa gtgcattgtt 24780 ctcttgctga aagctcgatg gacaagtgca ttgttctctt gctgaaagct cgatggacaa 24840 gtgcattgtt ctcttgctga aagctcagta cccgggagta ccctcgaccg ccggagtata 24900 aatagaggcg cttcgtctac ggagcgacaa ttcaattcaa acaagcaaag tgaacacgtc 24960 gctaagcgaa agctaagcaa ataaacaagc gcagctgaac aagctaaaca atctgcagta 25020 aagtgcaagt taaagtgaat caattaaaag taaccagcaa ccaagtaaat caactgcaac 25080 tactgaaatc tgccaagaag taattattga atacaagaag agaactctga atactttcaa 25140 caagttaccg agaaagaaga actcacacac agctagcgtt taaacttaag cttcaccatg 25200 gtggggccct gcatgctgct gctgctgctg ctgctgggcc tgaggctaca gctctccctg 25260 ggcatcatcc tagttgagga ggagaacccg gacttctgga accgcgaggc agccgaggcc 25320 ctgggtgccg ccaagaagct gcagcctgca cagacagccg ccaagaacct catcatcttc 25380 ctgggcgatg gggtgggggt gtctacggtg acagctgcca ggatcctaaa agggcagaag 25440 aaggacaaac tggggcctga gatacccctg gccatggacc gcttcccata tgtggctctg 25500 tccaagacat acaatgtaga caaacatgtg ccagacagtg gagccacagc cacggcctac 25560 ctgtgcgggg tcaagggcaa cttccagacc attggcttga gtgcagccgc ccgctttaac 25620 cagtgcaaca cgacacgcgg caacgaggtc atctccgtga tgaatcgggc caagaaagca 25680 gggaagtcag tgggagtggt aaccaccaca cgagtgcagc acgcctcgcc agccggcacc 25740 tacgcccaca cggtgaaccg caactggtac tcggacgccg acgtgcctgc ctcggcccgc 25800 caggaggggt gccaggacat cgctacgcag ctcatctcca acatggacat tgacgtgatc 25860 ctaggtgggg gccgaaagta catgtttcgc atgggaaccc cagaccctga gtacccagat 25920 gactacagcc aaggtgggac caggctggac gggaagaatc tggtgcagga atggctggcg 25980 aagcaccagg gtgcccggta cgtgtggaac cgcactgagc tcatgcgggc ttccctggac 26040 ccgtctgtgg cccatctcat gggtctcttt gagcctggag acatgaaata cgagatccac 26100 cgagactcca cactggaccc ctccctgatg gagatgacag aggctgccct gcgcctgctg 26160 agcaggaacc cccgcggctt cttcctcttc gtggagggtg gtcgcatcga ccatggtcat 26220 catgaaagca gggcttaccg ggcactgact gagacgatca tgttcgacga cgccattgag 26280 agggcgggcc agctcaccag cgaggaggac acgctgagcc tcgtcactgc cgaccactcc 26340 cacgtcttct ccttcggagg ctgccccctg cgagggggct ccatcttcgg gctggcccct 26400 ggcaaggccc gggacaggaa ggcctacacg gtcctcctat acggaaacgg tccaggctat 26460 gtgctcaagg acggcgcccg gccggatgtt accgagagcg agagcgggag ccccgagtat 26520 cggcagcagt cagcagtgcc cctggacgaa gagacccacg caggcgagga cgtggcggtg 26580 ttcgcgcgcg gcccgcaggc gcacctggtt cacggcgtgc aggagcagac cttcatagcg 26640 cacgtcatgg ccttcgccgc ctgcctggag ccctacaccg cctgcgacct ggcgcccccc 26700 gccggcacca ccgacgccgc gcacccgggg cggtccgtgg tccccgcgtt gcttcctctg 26760 ctggccggga ccctgctgct gctggagacg gccactgctc cctgagtgtc ccgtccctgg 26820 ggctcctgct tccccatccc ggagttctcc tgctccccgc ctcctgtcgt cctgcctggc 26880 ctccagcccg agtcgtcatc cccggagtcc ctatacagag gtcctgccat ggaaccttcc 26940 cctccccgtg cgctctgggg actgagccca tgacaccaaa cctgcccctt ggctgctctc 27000 ggactcccta ccccaacccc agggacagat ctggccagat ttgtaaaaca aatagatttt 27060 aggcccaaag attatttaaa gcattgcctg gaacgcagtg agtttttgtt agaaaagaga 27120 ataattcaaa gtggcattgc tttgcttctt atgttaattt ggtacagacc tgtggctgag 27180 tttgctcaaa gtattcagag cagaattgtg gagtggaaag agagattgga caaagagttt 27240 agtttgtcag tgtatcaaaa aatgaagttt aatgtggcta tgggaattgg agttttagat 27300 tggctaagaa acagtgatga tgatgatgaa gacagccagg aaaatgctga taaaaatgaa 27360 gatggtgggg agaagaacat ggaagactca gggcatgaaa caggcattga ttcacagtcc 27420 caaggctcat ttcaggcccc tcagtcctca cagtctgttc atgatcataa tcagccatac 27480 cacatttgta gaggttttac ttgctttaaa aaacctccca cacctccccc tgaacctgaa 27540 acataaaatg aatgcaattg ttgttgttaa cttgtttatt gcagcttata atggttacaa 27600 ataaagcaat agcatcacaa atttcacaaa taaagcattt ttttcactgc attctagttg 27660 tggtttgtcc aaactcatca atgtatctta tcatgtctgg atccccagga agctcctctg 27720 tgtcctcata aaccctaacc tcctctactt gagaggacat tccaatcata ggctgcccat 27780 ccaccctctg tgtcctcctg ttaattaggt cacttaacaa aaaggaaatt gggtaggggt 27840 ttttcacaga ccgctttcta agggtaattt taaaatatct gggaagtccc ttccactgct 27900 gtgttccaga agtgttggta aacagcccac aaatgtcaac agcagaaaca tacaagctgt 27960 cagctttgca caagggccca acaccctgct catcaagaag cactgtggtt gctgtgttag 28020 taatgtgcaa aacaggaggc acattttccc cacctgtgta ggttccaaaa tatctagtgt 28080 tttcattttt acttggatca ggaacccagc actccactgg ataagcatta tccttatcca 28140 aaacagcctt gtggtcagtg ttcatctgct gactgtcaac tgtagcattt tttggggtta 28200 cagtttgagc aggatatttg gtcctgtagt ttgctaacac accctgcagc tccaaaggtt 28260 ccccaccaac agcaaaaaaa tgaaaatttg acccttgaat gggttttcca gcaccatttt 28320 catgagtttt ttgtgtccct gaatgcaagt ttaacatagc agttacccca ataacctcag 28380 ttttaacagt aacagcttcc cacatcaaaa tatttccaca ggttaagtcc tcatttaaat 28440 taggcaaagg aattccactt cccactgcct tgcttccgtc tcccattcaa acttttatca 28500 actgacatta ttctaagtaa aatcctcttc attatgttgt cagcaatcca ttgcttgaag 28560 gcctggctcc ccagaacccc tcgactggta tgtcttctcc tagaatactc cagaagaaaa 28620 ggagtgtatg aagatagtga ctgcacatta aaatgactga aaccatagta aattaggatg 28680 agattctggg cagataaaca gacagctggc taggatcatt tttttatgcc ttggacttct 28740 ttggcaatct gttgaagcct gacattcctc agaataatgt tttaaagccc aacaataaga 28800 ccctgtagca catataataa gtactgcagt tttgaagtag tgataagcat aaatgatatt 28860 ttgatatatt tattataact gtaatgagat gtgtacatat ctgtgacttc ataggtactg 28920 attgtactac tgtgattttt ttgcctactt tcaaaatgaa aaggaatgct taatttcagt 28980 tagaggttag taaagacaaa taggtaattt tcttctccag tgaagagcat ggcgcccctt 29040 gctattcatg gacgcttgct taaagacttg tacacaggct tgctttgtat caacctatga 29100 cttcccctta cagccgatga taggttttta tttgcacctc cttcgtgtac aaagacagtt 29160 ttggtggcta cgccatcatt aaactcatta ttatcatgct taagcctata gatgtatcca 29220 gttcttctgt tacataattg aagctgtagt gaattgtcta tcttaaactg catcgctaac 29280 tgactacatt tcacacttca tttgcttcca acatagacta accttcttgg atgtccacta 29340 ttatttgaac ttttgagatt ttttttccta tttctaatat cttaaaattt cagaagactt 29400 aaagttttgc aactacaggg ctccatatag acatctagct tgaatttata cactttcttt 29460 cattgatgtc cctggactaa aaaatgttaa atatttctaa ccgctgtact taaagtccat 29520 tacaaacgaa gactactgtt gttaagttga ataggcatct tatatatttt tcaccggtgc 29580 aataaataac ttctattccc ttctaacatc tgcttgcgtt gcactgagag tacactattg 29640 attagcaata ggttcgtgat tacagccctt ctataattaa ttgttaggtt aacatattat 29700 tcataaaata ttattttatt aatttttact tgatttgcta ctggatgctt agaaatagct 29760 atgagtatat tggtagaacc agtacttata ttttattaca tttttacatt tcataaaatt 29820 taagtgatat aaaaatcctg aggaagtatg ccacaaaagt ggtctcagtg gaaatttaaa 29880 tatgttaaca tttattttta aaatgtagcg tgaaatagac aactttaaaa gctcagctta 29940 aaaaaaaaac tcaaggaagc tgaacttgac tttttaaagc actgaagtgc aatatttaat 30000 gtaggtcaac atgtttaaat gggaaaattt ttttcctaat tacagccaaa tccctagctg 30060 taattaactt aaaatttgta tactatttca caacagagtc agcatatacc actttcttat 30120 aaaattagaa agatctaaaa ttttagagct tatttggtga aacaggcata ttgctacatc 30180 tttgtttata aattataatg tgcctttaga gcccaataac agataacaag attttgaaaa 30240 ttcaggtgaa ttagagttat cagagggaat gttaatacac tctattcaaa tactatatga 30300 gtaagacatt taaaatagga aacaatactt tatatattaa aaaaaattaa tcttccagtc 30360 gatttaatcc actttatgaa ttcatttaaa tcgatttaaa ttcgaattaa ttaactagag 30420 tacccgggga tcttattccc tttaactaat aaaaaaaaat aataaagcat cacttactta 30480 aaatcagtta gcaaatttct gtccagttta ttcagcagca cctccttgcc ctcctcccag 30540 ctctggtatt gcagcttcct cctggctgca aactttctcc acaatctaaa tggaatgtca 30600 gtttcctcct gttcctgtcc atccgcaccc actatcttca tgttgttgca gatgaagcgc 30660 gcaagaccgt ctgaagatac cttcaacccc gtgtatccat atgacacgga aaccggtcct 30720 ccaactgtgc cttttcttac tcctcccttt gtatccccca atgggtttca agagagtccc 30780 cctggggtac tctctttgcg cctatccgaa cctctagtta cctccaatgg catgcttgcg 30840 ctcaaaatgg gcaacggcct ctctctggac gaggccggca accttacctc ccaaaatgta 30900 accactgtga gcccacctct caaaaaaacc aagtcaaaca taaacctgga aatatctgca 30960 cccctcacag ttacctcaga agccctaact gtggctgccg ccgcacctct aatggtcgcg 31020 ggcaacacac tcaccatgca atcacaggcc ccgctaaccg tgcacgactc caaacttagc 31080 attgccaccc aaggacccct cacagtgtca gaaggaaagc tagccctgca aacatcaggc 31140 cccctcacca ccaccgatag cagtaccctt actatcactg cctcaccccc tctaactact 31200 gccactggta gcttgggcat tgacttgaaa gagcccattt atacacaaaa tggaaaacta 31260 ggactaaagt acggggctcc tttgcatgta acagacgacc taaacacttt gaccgtagca 31320 actggtccag gtgtgactat taataatact tccttgcaaa ctaaagttac tggagccttg 31380 ggttttgatt cacaaggcaa tatgcaactt aatgtagcag gaggactaag gattgattct 31440 caaaacagac gccttatact tgatgttagt tatccgtttg atgctcaaaa ccaactaaat 31500 ctaagactag gacagggccc tctttttata aactcagccc acaacttgga tattaactac 31560 aacaaaggcc tttacttgtt tacagcttca aacaattcca aaaagcttga ggttaaccta 31620 agcactgcca aggggttgat gtttgacgct acagccatag ccattaatgc aggagatggg 31680 cttgaatttg gttcacctaa tgcaccaaac acaaatcccc tcaaaacaaa aattggccat 31740 ggcctagaat ttgattcaaa caaggctatg gttcctaaac taggaactgg ccttagtttt 31800 gacagcacag gtgccattac agtaggaaac aaaaataatg ataagctaac tttgtggacc 31860 acaccagctc catctcctaa ctgtagacta aatgcagaga aagatgctaa actcactttg 31920 gtcttaacaa aatgtggcag tcaaatactt gctacagttt cagttttggc tgttaaaggc 31980 agtttggctc caatatctgg aacagttcaa agtgctcatc ttattataag atttgacgaa 32040 aatggagtgc tactaaacaa ttccttcctg gacccagaat attggaactt tagaaatgga 32100 gatcttactg aaggcacagc ctatacaaac gctgttggat ttatgcctaa cctatcagct 32160

tatccaaaat ctcacggtaa aactgccaaa agtaacattg tcagtcaagt ttacttaaac 32220 ggagacaaaa ctaaacctgt aacactaacc attacactaa acggtacaca ggaaacagga 32280 gacacaactc caagtgcata ctctatgtca ttttcatggg actggtctgg ccacaactac 32340 attaatgaaa tatttgccac atcctcttac actttttcat acattgccca agaataaaga 32400 atcgtttgtg ttatgtttca acgtgtttat ttttcaattg cagaaaattt caagtcattt 32460 ttcattcagt agtatagccc caccaccaca tagcttatac agatcaccgt accttaatca 32520 aactcacaga accctagtat tcaacctgcc acctccctcc caacacacag agtacacagt 32580 cctttctccc cggctggcct taaaaagcat catatcatgg gtaacagaca tattcttagg 32640 tgttatattc cacacggttt cctgtcgagc caaacgctca tcagtgatat taataaactc 32700 cccgggcagc tcacttaagt tcatgtcgct gtccagctgc tgagccacag gctgctgtcc 32760 aacttgcggt tgcttaacgg gcggcgaagg agaagtccac gcctacatgg gggtagagtc 32820 ataatcgtgc atcaggatag ggcggtggtg ctgcagcagc gcgcgaataa actgctgccg 32880 ccgccgctcc gtcctgcagg aatacaacat ggcagtggtc tcctcagcga tgattcgcac 32940 cgcccgcagc ataaggcgcc ttgtcctccg ggcacagcag cgcaccctga tctcacttaa 33000 atcagcacag taactgcagc acagcaccac aatattgttc aaaatcccac agtgcaaggc 33060 gctgtatcca aagctcatgg cggggaccac agaacccacg tggccatcat accacaagcg 33120 caggtagatt aagtggcgac ccctcataaa cacgctggac ataaacatta cctcttttgg 33180 catgttgtaa ttcaccacct cccggtacca tataaacctc tgattaaaca tggcgccatc 33240 caccaccatc ctaaaccagc tggccaaaac ctgcccgccg gctatacact gcagggaacc 33300 gggactggaa caatgacagt ggagagccca ggactcgtaa ccatggatca tcatgctcgt 33360 catgatatca atgttggcac aacacaggca cacgtgcata cacttcctca ggattacaag 33420 ctcctcccgc gttagaacca tatcccaggg aacaacccat tcctgaatca gcgtaaatcc 33480 cacactgcag ggaagacctc gcacgtaact cacgttgtgc attgtcaaag tgttacattc 33540 gggcagcagc ggatgatcct ccagtatggt agcgcgggtt tctgtctcaa aaggaggtag 33600 acgatcccta ctgtacggag tgcgccgaga caaccgagat cgtgttggtc gtagtgtcat 33660 gccaaatgga acgccggacg tagtcatatt tcctgaagca aaaccaggtg cgggcgtgac 33720 aaacagatct gcgtctccgg tctcgccgct tagatcgctc tgtgtagtag ttgtagtata 33780 tccactctct caaagcatcc aggcgccccc tggcttcggg ttctatgtaa actccttcat 33840 gcgccgctgc cctgataaca tccaccaccg cagaataagc cacacccagc caacctacac 33900 attcgttctg cgagtcacac acgggaggag cgggaagagc tggaagaacc atgttttttt 33960 ttttattcca aaagattatc caaaacctca aaatgaagat ctattaagtg aacgcgctcc 34020 cctccggtgg cgtggtcaaa ctctacagcc aaagaacaga taatggcatt tgtaagatgt 34080 tgcacaatgg cttccaaaag gcaaacggcc ctcacgtcca agtggacgta aaggctaaac 34140 ccttcagggt gaatctcctc tataaacatt ccagcacctt caaccatgcc caaataattc 34200 tcatctcgcc accttctcaa tatatctcta agcaaatccc gaatattaag tccggccatt 34260 gtaaaaatct gctccagagc gccctccacc ttcagcctca agcagcgaat catgattgca 34320 aaaattcagg ttcctcacag acctgtataa gattcaaaag cggaacatta acaaaaatac 34380 cgcgatcccg taggtccctt cgcagggcca gctgaacata atcgtgcagg tctgcacgga 34440 ccagcgcggc cacttccccg ccaggaacct tgacaaaaga acccacactg attatgacac 34500 gcatactcgg agctatgcta accagcgtag ccccgatgta agctttgttg catgggcggc 34560 gatataaaat gcaaggtgct gctcaaaaaa tcaggcaaag cctcgcgcaa aaaagaaagc 34620 acatcgtagt catgctcatg cagataaagg caggtaagct ccggaaccac cacagaaaaa 34680 gacaccattt ttctctcaaa catgtctgcg ggtttctgca taaacacaaa ataaaataac 34740 aaaaaaacat ttaaacatta gaagcctgtc ttacaacagg aaaaacaacc cttataagca 34800 taagacggac tacggccatg ccggcgtgac cgtaaaaaaa ctggtcaccg tgattaaaaa 34860 gcaccaccga cagctcctcg gtcatgtccg gagtcataat gtaagactcg gtaaacacat 34920 caggttgatt catcggtcag tgctaaaaag cgaccgaaat agcccggggg aatacatacc 34980 cgcaggcgta gagacaacat tacagccccc ataggaggta taacaaaatt aataggagag 35040 aaaaacacat aaacacctga aaaaccctcc tgcctaggca aaatagcacc ctcccgctcc 35100 agaacaacat acagcgcttc acagcggcag cctaacagtc agccttacca gtaaaaaaga 35160 aaacctatta aaaaaacacc actcgacacg gcaccagctc aatcagtcac agtgtaaaaa 35220 agggccaagt gcagagcgag tatatatagg actaaaaaat gacgtaacgg ttaaagtcca 35280 caaaaaacac ccagaaaacc gcacgcgaac ctacgcccag aaacgaaagc caaaaaaccc 35340 acaacttcct caaatcgtca cttccgtttt cccacgttac gtaacttccc attttaagaa 35400 aactacaatt cccaacacat acaagttact ccgccctaaa acctacgtca cccgccccgt 35460 tcccacgccc cgcgccacgt cacaaactcc accccctcat tatcatattg gcttcaatcc 35520 aaaataaggt atattattga tgatggccgg ccgaattgaa tcaggggata acgcaggaaa 35580 gaacatgtga gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc 35640 gtttttccat aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag 35700 gtggcgaaac ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt 35760 gcgctctcct gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg 35820 aagcgtggcg ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg 35880 ctccaagctg ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg 35940 taactatcgt cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac 36000 tggtaacagg attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg 36060 gcctaactac ggctacacta gaaggacagt atttggtatc tgcgctctgc tgaagccagt 36120 taccttcgga aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg 36180 tggttttttt gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc 36240 tttgatcttt tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt 36300 ggtcatgaga ttatcaaaaa ggatcttcac ctagatcctt ttaaattaaa aatgaagttt 36360 taaatcaatc taaagtatat atgagtaaac ttggtctgac agttaccaat gcttaatcag 36420 tgaggcacct atctcagcga tctgtctatt tcgttcatcc atagttgcct gactccccgt 36480 cgtgtagata actacgatac gggagggctt accatctggc cccagtgctg caatgatacc 36540 gcgagaccca cgctcaccgg ctccagattt atcagcaata aaccagccag ccggaagggc 36600 cgagcgcaga agtggtcctg caactttatc cgcctccatc cagtctatta attgttgccg 36660 ggaagctaga gtaagtagtt cgccagttaa tagtttgcgc aacgttgttg ccattgctac 36720 aggcatcgtg gtgtcacgct cgtcgtttgg tatggcttca ttcagctccg gttcccaacg 36780 atcaaggcga gttacatgat cccccatgtt gtgcaaaaaa gcggttagct ccttcggtcc 36840 tccgatcgtt gtcagaagta agttggccgc agtgttatca ctcatggtta tggcagcact 36900 gcataattct cttactgtca tgccatccgt aagatgcttt tctgtgactg gtgagtactc 36960 aaccaagtca ttctgagaat agtgtatgcg gcgaccgagt tgctcttgcc cggcgtcaat 37020 acgggataat accgcgccac atagcagaac tttaaaagtg ctcatcattg gaaaacgttc 37080 ttcggggcga aaactctcaa ggatcttacc gctgttgaga tccagttcga tgtaacccac 37140 tcgtgcaccc aactgatctt cagcatcttt tactttcacc agcgtttctg ggtgagcaaa 37200 aacaggaagg caaaatgccg caaaaaaggg aataagggcg acacggaaat gttgaatact 37260 catactcttc ctttttcaat attattgaag catttatcag ggttattgtc tcatgagcgg 37320 atacatattt gaatgtattt agaaaaataa acaaataggg gttccgcgca catttccccg 37380 aaaagtgcca c 37391 <210> SEQ ID NO 16 <400> SEQUENCE: 16 000 <210> SEQ ID NO 17 <211> LENGTH: 671 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 17 Met Ala Leu Ser Val Asn Asp Cys Ala Arg Leu Thr Gly Gln Ser Val 1 5 10 15 Pro Thr Met Glu His Phe Leu Pro Leu Arg Asn Ile Trp Asn Arg Val 20 25 30 Arg Asp Phe Pro Arg Ala Ser Thr Thr Ala Ala Gly Ile Thr Trp Met 35 40 45 Ser Arg Tyr Ile Tyr Gly Tyr His Arg Leu Met Leu Glu Asp Leu Ala 50 55 60 Pro Gly Ala Pro Ala Thr Leu Arg Trp Pro Leu Tyr Arg Gln Pro Pro 65 70 75 80 Pro His Phe Leu Val Gly Tyr Gln Tyr Leu Val Arg Thr Cys Asn Asp 85 90 95 Tyr Val Phe Asp Ser Arg Ala Tyr Ser Arg Leu Arg Tyr Thr Glu Leu 100 105 110 Ser Gln Pro Gly His Gln Thr Val Asn Trp Ser Val Met Ala Asn Cys 115 120 125 Thr Tyr Thr Ile Asn Thr Gly Ala Tyr His Arg Phe Val Asp Met Asp 130 135 140 Asp Phe Gln Ser Thr Leu Thr Gln Val Gln Gln Ala Ile Leu Ala Glu 145 150 155 160 Arg Val Val Ala Asp Leu Ala Leu Leu Gln Pro Met Arg Gly Phe Gly 165 170 175 Val Thr Arg Met Gly Gly Arg Gly Arg His Leu Arg Pro Asn Ser Ala 180 185 190 Ala Ala Val Ala Ile Asp Ala Arg Asp Ala Gly Gln Glu Glu Gly Glu 195 200 205 Glu Glu Val Pro Val Glu Arg Leu Met Gln Asp Tyr Tyr Lys Asp Leu 210 215 220 Arg Arg Cys Gln Asn Glu Ala Trp Gly Met Ala Asp Arg Leu Arg Ile 225 230 235 240 Gln Gln Ala Gly Pro Lys Asp Met Val Leu Leu Ser Thr Ile Arg Arg 245 250 255 Leu Lys Thr Ala Tyr Phe Asn Tyr Ile Ile Ser Ser Thr Ser Ala Arg 260 265 270 Asn Asn Pro Asp Arg His Pro Leu Pro Pro Ala Thr Val Leu Ser Leu 275 280 285 Pro Cys Asp Cys Asp Trp Leu Asp Ala Phe Leu Glu Arg Phe Ser Asp 290 295 300 Pro Val Asp Ala Asp Ser Leu Arg Ser Leu Gly Gly Gly Val Pro Thr 305 310 315 320

Gln Gln Leu Leu Arg Cys Ile Val Ser Ala Val Ser Leu Pro His Gly 325 330 335 Ser Pro Pro Pro Thr His Asn Arg Asp Met Thr Gly Gly Val Phe Gln 340 345 350 Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr Met Arg Arg 355 360 365 Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu Pro Val Arg 370 375 380 Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro Glu Glu Glu 385 390 395 400 Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu Glu Ala 405 410 415 Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala Glu Leu Ile 420 425 430 Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn Ser Gln Phe 435 440 445 Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg Leu Glu Ala 450 455 460 Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val Met Tyr Phe 465 470 475 480 Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu Phe Gln Arg 485 490 495 Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu Asn Leu Ala 500 505 510 Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val Val Tyr Ser 515 520 525 Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln Leu Met Ala 530 535 540 Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala Gly Arg Gly 545 550 555 560 Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu Ile Ala Tyr 565 570 575 Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln Ala Ala Val 580 585 590 Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg Phe Lys Leu 595 600 605 Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln Glu Ile Asn 610 615 620 Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln His Gln Leu 625 630 635 640 Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu Pro Ala Gly 645 650 655 Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His Arg Phe 660 665 670 <210> SEQ ID NO 18 <211> LENGTH: 322 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 18 Val Phe Gln Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr 1 5 10 15 Met Arg Arg Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu 20 25 30 Pro Val Arg Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro 35 40 45 Glu Glu Glu Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu 50 55 60 Glu Glu Ala Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala 65 70 75 80 Glu Leu Ile Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn 85 90 95 Ser Gln Phe Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg 100 105 110 Leu Glu Ala Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val 115 120 125 Met Tyr Phe Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu 130 135 140 Phe Gln Arg Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu 145 150 155 160 Asn Leu Ala Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val 165 170 175 Val Tyr Ser Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln 180 185 190 Leu Met Ala Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala 195 200 205 Gly Arg Gly Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu 210 215 220 Ile Ala Tyr Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln 225 230 235 240 Ala Ala Val Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg 245 250 255 Phe Lys Leu Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln 260 265 270 Glu Ile Asn Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln 275 280 285 His Gln Leu Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu 290 295 300 Pro Ala Gly Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His 305 310 315 320 Arg Phe <210> SEQ ID NO 19 <211> LENGTH: 671 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 19 Met Ala Leu Ser Val Asn Asp Cys Ala Arg Leu Thr Gly Gln Ser Val 1 5 10 15 Pro Thr Met Glu His Phe Leu Pro Leu Arg Asn Ile Trp Asn Arg Val 20 25 30 Arg Asp Phe Pro Arg Ala Ser Thr Thr Ala Ala Gly Ile Thr Trp Met 35 40 45 Ser Arg Tyr Ile Tyr Gly Tyr His Arg Leu Met Leu Glu Asp Leu Ala 50 55 60 Pro Gly Ala Pro Ala Thr Leu Arg Trp Pro Leu Tyr Arg Gln Pro Pro 65 70 75 80 Pro His Phe Leu Val Gly Tyr Gln Tyr Leu Val Arg Thr Cys Asn Asp 85 90 95 Tyr Val Phe Asp Ser Arg Ala Tyr Ser Arg Leu Arg Tyr Thr Glu Leu 100 105 110 Ser Gln Pro Gly His Gln Thr Val Asn Trp Ser Val Met Ala Asn Cys 115 120 125 Thr Tyr Thr Ile Asn Thr Gly Ala Tyr His Arg Phe Val Asp Met Asp 130 135 140 Asp Phe Gln Ser Thr Leu Thr Gln Val Gln Gln Ala Ile Leu Ala Glu 145 150 155 160 Arg Val Val Ala Asp Leu Ala Leu Leu Gln Pro Met Arg Gly Phe Gly 165 170 175 Val Thr Arg Met Gly Gly Arg Gly Arg His Leu Arg Pro Asn Ser Ala 180 185 190 Ala Ala Ala Ala Ile Asp Ala Arg Asp Ala Gly Gln Glu Glu Gly Glu 195 200 205 Glu Glu Val Pro Val Glu Arg Leu Met Gln Asp Tyr Tyr Lys Asp Leu 210 215 220 Arg Arg Cys Gln Asn Glu Ala Trp Gly Met Ala Asp Arg Leu Arg Ile 225 230 235 240 Gln Gln Ala Gly Pro Lys Asp Met Val Leu Leu Ser Thr Ile Arg Arg 245 250 255 Leu Lys Thr Ala Tyr Phe Asn Tyr Ile Ile Ser Ser Thr Ser Ala Arg 260 265 270 Asn Asn Pro Asp Arg Arg Pro Leu Pro Pro Ala Thr Val Leu Ser Leu 275 280 285 Pro Cys Asp Cys Asp Trp Leu Asp Ala Phe Leu Glu Arg Phe Ser Asp 290 295 300 Pro Val Asp Ala Asp Ser Leu Arg Ser Leu Gly Gly Gly Val Pro Thr 305 310 315 320 Gln Gln Leu Leu Arg Cys Ile Val Ser Ala Val Ser Leu Pro His Gly 325 330 335 Ser Pro Pro Pro Thr His Asn Arg Asp Met Thr Gly Gly Val Phe Gln 340 345 350 Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr Met Arg Arg 355 360 365 Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu Pro Val Arg 370 375 380 Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro Glu Glu Glu 385 390 395 400 Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu Glu Glu Ala 405 410 415 Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala Glu Leu Ile 420 425 430 Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn Ser Gln Phe 435 440 445 Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg Leu Glu Ala 450 455 460 Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val Met Tyr Phe 465 470 475 480 Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu Phe Gln Arg 485 490 495 Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu Asn Leu Ala 500 505 510 Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val Val Tyr Ser 515 520 525 Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln Leu Met Ala 530 535 540 Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala Gly Arg Gly 545 550 555 560 Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu Ile Ala Tyr

565 570 575 Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln Ala Ala Val 580 585 590 Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg Leu Lys Leu 595 600 605 Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln Glu Ile Asn 610 615 620 Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln His Gln Leu 625 630 635 640 Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu Pro Ala Gly 645 650 655 Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His Arg Phe 660 665 670 <210> SEQ ID NO 20 <211> LENGTH: 322 <212> TYPE: PRT <213> ORGANISM: Homo sapiens <400> SEQUENCE: 20 Val Phe Gln Leu Arg Pro Arg Glu Asn Gly Arg Ala Val Thr Glu Thr 1 5 10 15 Met Arg Arg Arg Arg Gly Glu Met Ile Glu Arg Phe Val Asp Arg Leu 20 25 30 Pro Val Arg Arg Arg Arg Arg Arg Val Pro Pro Pro Pro Pro Pro Pro 35 40 45 Glu Glu Glu Glu Gly Glu Ala Leu Met Glu Glu Glu Ile Glu Glu Glu 50 55 60 Glu Glu Ala Pro Val Ala Phe Glu Arg Glu Val Arg Asp Thr Val Ala 65 70 75 80 Glu Leu Ile Arg Leu Leu Glu Glu Glu Leu Thr Val Ser Ala Arg Asn 85 90 95 Ser Gln Phe Phe Asn Phe Ala Val Asp Phe Tyr Glu Ala Met Glu Arg 100 105 110 Leu Glu Ala Leu Gly Asp Ile Asn Glu Ser Thr Leu Arg Arg Trp Val 115 120 125 Met Tyr Phe Phe Val Ala Glu His Thr Ala Thr Thr Leu Asn Tyr Leu 130 135 140 Phe Gln Arg Leu Arg Asn Tyr Ala Val Phe Ala Arg His Val Glu Leu 145 150 155 160 Asn Leu Ala Gln Val Val Met Arg Ala Arg Asp Ala Glu Gly Gly Val 165 170 175 Val Tyr Ser Arg Val Trp Asn Glu Gly Gly Leu Asn Ala Phe Ser Gln 180 185 190 Leu Met Ala Arg Ile Ser Asn Asp Leu Ala Ala Thr Val Glu Arg Ala 195 200 205 Gly Arg Gly Asp Leu Gln Glu Glu Glu Ile Glu Gln Phe Met Ala Glu 210 215 220 Ile Ala Tyr Gln Asp Asn Ser Gly Asp Val Gln Glu Ile Leu Arg Gln 225 230 235 240 Ala Ala Val Asn Asp Thr Glu Ile Asp Ser Val Glu Leu Ser Phe Arg 245 250 255 Leu Lys Leu Thr Gly Pro Val Val Phe Thr Gln Arg Arg Gln Ile Gln 260 265 270 Glu Ile Asn Arg Arg Val Val Ala Phe Ala Ser Asn Leu Arg Ala Gln 275 280 285 His Gln Leu Leu Pro Ala Arg Gly Ala Asp Val Pro Leu Pro Pro Leu 290 295 300 Pro Ala Gly Pro Glu Pro Pro Leu Pro Pro Gly Ala Arg Pro Arg His 305 310 315 320 Arg Phe <210> SEQ ID NO 21 <211> LENGTH: 12 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 21 catcatcaat aa 12 <210> SEQ ID NO 22 <211> LENGTH: 12 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 22 gtagtagtta tt 12 <210> SEQ ID NO 23 <211> LENGTH: 15 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 23 taacatcatc aataa 15 <210> SEQ ID NO 24 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 24 taattgtagt agttatt 17 <210> SEQ ID NO 25 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 25 ccatcatcaa taa 13 <210> SEQ ID NO 26 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 26 ggccggtagt agttatt 17 <210> SEQ ID NO 27 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 27 gacgaggccg gcctggtc 18 <210> SEQ ID NO 28 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 28 ggcatggccg gccacggc 18 <210> SEQ ID NO 29 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 29 gacgaagccg gcctggtc 18 <210> SEQ ID NO 30 <211> LENGTH: 18 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 30 ggcatggccg gctacggc 18 <210> SEQ ID NO 31 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 31 ccatcatcaa taa 13 <210> SEQ ID NO 32 <211> LENGTH: 17 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 32 ggccggtagt agttatt 17 <210> SEQ ID NO 33 <211> LENGTH: 22 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <220> FEATURE: <221> NAME/KEY: misc_feature <222> LOCATION: (1)..(5) <223> OTHER INFORMATION: n is a, c, g, or t <400> SEQUENCE: 33 nnnnnggccg gtagtagtta tt 22

<210> SEQ ID NO 34 <211> LENGTH: 13 <212> TYPE: DNA <213> ORGANISM: Artificial Sequence <220> FEATURE: <223> OTHER INFORMATION: Synthetic <400> SEQUENCE: 34 ggtagtagtt att 13

Claims

1. A method for producing helper-dependent viral vectors comprising: a) providing; helper-dependent viral DNA comprising a first origin of replication, helper viral DNA comprising a second origin of replication, wherein said second origin of replication has similar activity level in a replication assay as said first origin of replication, and target cells; and b) transfecting said target cells with said helper-dependent viral DNA and said helper viral DNA under conditions such that helper-dependent viral vectors are produced.

2. The method of claim 1, wherein said helper-dependent viral DNA comprises adenoviral DNA.

3. The method of claim 1, wherein said helper-dependent viral DNA comprises a heterologous gene sequence.

4. The method of claim 1, wherein said first origin of replication and second origin of replication have nucleic acid sequences that are substantially similar.

5. The method of claim 1, wherein said helper viral DNA is adenoviral helper viral DNA.

6. The method of claim 1, wherein said first origin of replication and said second origin of replication are not linked to terminal protein or any terminal protein remnant.

7. The method of claim 1, wherein said helper viral DNA comprises a crippling sequence.

8. The method of claim 1, wherein said helper viral DNA comprises recognition sites for site-specific recombinases.

9. The method of claim 1, wherein said target cells express adenoviral DNA polymerase and preterminal protein.

10. The method of claim 8, further comprising; providing iv) a vector encoding a site-specific recombinase, and step c) transfecting said target cells with said vector.

11. The method of claim 10, further comprising recovering said helper-dependent vectors.

12. The method of claim 10, wherein said recovering yields a helper-dependent titer of at least 20 fold increase compared to transfection/infection protocols in cells expressing adenoviral DNA polymerase and preterminal protein.

13. A composition comprising said helper-dependent viral vectors produced by the method of claim 1.

14. A host cell comprising; a) helper-dependent viral DNA comprising a first origin of replication, and b) helper viral DNA comprising a second origin of replication, wherein said second origin of replication has a similar activity level in a replication assay as said first origin of replication.

15. A method for producing helper-dependent viral vectors comprising: a) providing; helper-dependent viral DNA comprising an origin of replication linked to a replication-promoting agent, and target cells; and b) transfecting said target cells with said helper-dependent viral DNA under conditions such that helper-dependent viral vectors are produced.

16. The method of claim 15, further comprising; providing iii) helper viral DNA, and step c) transfecting said target cells with said helper viral DNA.

17. The method of claim 15, wherein said replication-promoting agent is selected from Ad2 preterminal protein, Ad2 terminal protein, Ad5 preterminal protein, and Ad5 terminal protein.

18. The method of claim 15, wherein said helper-dependent viral DNA comprises adenoviral DNA.

19. The method of claim 15, wherein said helper-dependent viral DNA comprises a heterologous gene sequence.

20. The method of claim 15, wherein said helper viral DNA is linked to adenoviral terminal protein.