PLANT REGULATORY SEQUENCE

Abstract

The present invention relates to Cry1Ab coding sequences and to polynucleotides that comprise promoter sequences operably-linked to Cry1Ab coding sequences useful for expression in transgenic plants to control target insect pests that feed on leaves while allowing non-target insects to feed on pollen of the transgenic plant. The invention further relates to transgenic plants comprising the polynucleotides and to methods of controlling target insect pests.

Description

[0001] This application is a divisional of co-pending U.S. application Ser. No. 12/172,535, filed Jul. 14, 2008, which is herein incorporated by reference in its entirety.

[0002] The present invention is in the field of plant biotechnology and relates to regulatory sequences. In particular, the invention relates to a regulatory nucleotide sequence, at least part of which has a transcription initiation function directing expression of an operably associated protein encoding polynucleotide of interest to basically all plant tissues, but essentially excluding expression in the tissues of the reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent. The invention further relates to chimeric genes and expression cassettes comprising said regulatory sequence in association with an expressible protein encoding polynucleotide of interest and to transgenic plants comprising said chimeric genes and expression cassettes, respectively, expressing the protein encoding polynucleotide of interest in basically all plant tissues, but essentially excluding expression in the tissues of the reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

BACKGROUND OF THE INVENTION

[0003] In many agricultural crops such as corn, devastating pests tend to feed on vegetative tissues such as the leaf, stalk and root and also reproductive tissues such as the ear. One technique used to protect plants from pests is the application of chemical compounds. An alternative technique involves genetic recombination, wherein a gene or genes are introduced into the plant to express protein products that are directly or indirectly involved in the control of the pest organisms. Current protein products produced by genetic recombination are expressed constitutively, i.e., throughout the plant at all times and in most tissues and organs. Such protein products are also expressed specifically, either in response to particular stimuli or confined to specific cells or tissues. In contrast, the present invention includes expression of the protein or polynucleotide of interest in basically all plant tissues, but essentially excludes expression in the tissues of the reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0004] Several insect control trait genes target the larval stage of development. Under certain circumstances, these proteins also affect unintended insects, which are not corn pests, but do occasionally feed on corn pollen. These insects may be harmed by insecticidal proteins expressed in pollen tissue. This was seen as a problem in early BT-corn events which had high insecticidal protein expression in pollen. This issue was addressed in later BT-corn events through the development of alternative transgene expression systems. These newer events remained effective against target pests and accumulated less insecticidal protein in pollen, but are still viewed as potentially harmful to non-target pests due to the presence of insecticidal protein in pollen.

[0005] In some instances, useful insect control trait genes may also compromise the development of reproductive structures of the plant such as, for example, the tassel.

[0006] It is, therefore, desirable to provide plants, particularly corn plants that exclude expression of the transgene in the tissues of the reproductive structures of the plant such as the tissues of the pollen and/or the tassel. This could be achieved within the scope of the present invention by providing a regulatory nucleotide sequence, at least part of which has a transcription initiation function directing expression of an operably associated protein encoding a polynucleotide of interest to basically all plant tissues, but essentially excluding expression in the tissues of the male reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent. This regulatory nucleotide sequence can then be used to develop expression systems that enable effective accumulation of the polypeptide or protein of interest such as, for example, an insecticidal protein, in tissues that target pests normally feed on, and eliminate or reduce accumulation of the insecticidal protein in non-target tissues or organs and/or in those tissues that may be compromised by the polypeptide or protein of interest.

SUMMARY OF THE INVENTION

[0007] In one embodiment, the invention relates to a transgenic plant comprising stably integrated in its genome a chimeric polynucleotide construct, particularly a chimeric construct, comprising a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, associated with and/or under control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function directing expression of said protein encoding polynucleotide of interest to basically all tissues of said plant, particularly the tissues target insects normally feed on, but essentially excluding the tissues of the reproductive plant structures, particularly the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0008] In one embodiment, the polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, is not transcribed to any significant extent in the tissues of the reproductive plant structures, particularly in pollen and/or tassel tissue of the transgenic plant according to the invention. Therefore, essentially no expression of the polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, occurs in the tissues of the male reproductive plant structures, particularly in the tissues of the pollen and/or the tassel, and only residual amounts of the expression product, if any, can be detected in said tissues, which is not sufficient for the expression product to fulfil its envisaged biological function in said tissues, particularly in the tissues of the pollen and/or the tassel, and therefore also does not exhibit any toxic effects on insects feeding on said tissues or on the plant reproductive structures.

[0009] In one embodiment of the invention, a transgenic plant is provided as described herein, wherein a chimeric polynucleotide construct, particularly a chimeric DNA construct, comprises a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, operably associated with and/or under operable control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function and is obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which polypeptide or protein is highly expressed in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent.

[0010] In one embodiment, said actin depolymerizing factor 3 (ABP3) gene is obtainable from maize.

[0011] In one embodiment of the invention, a transgenic plant is provided as described herein, wherein a chimeric polynucleotide construct, particularly a chimeric DNA construct, comprises a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, operably associated with and/or under operable control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function and is obtainable from a gene represented by a DNA probe, particularly a DNA probe exhibiting a DNA sequence as depicted in SEQ ID NOs: 47 to 56, which DNA probe shows a signal pattern in tissue samples, which is indicative of expression of said gene in all tissues and of no or substantially no expression in pollen.

[0012] In one embodiment, a transgenic plant according to the invention and as described herein is provided comprising a regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, at least part of which has a transcription initiation function and mediates expression of an operably associated protein encoding polynucleotide of interest in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, which regulatory sequence can be obtained in a PCR reaction from a genomic Zea mays DNA template using

[0013] i) a first primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 1, particularly a first primer of SEQ ID NO: 1; or

[0014] ii) second primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 2, particularly a second primer of; SEQ ID NO: 2; or

[0015] iii) a first primer as a forward primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 1 and a second primer as a reverse primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 2, particularly the forward primer of SEQ ID NO: 1 and the reverse primer of SEQ ID NO: 2.

[0016] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the nucleotide sequence providing the transcription initiation function has at least between 80% and 85% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 13, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 13, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 13, or a fragment thereof, and wherein said regulatory nucleotide sequence or fragment thereof mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide of interest such that said polynucleotide of interest is transcribed in most of the plant tissues but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent.

[0017] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the complementary strand of the nucleotide sequence providing the transcription initiation function is capable of hybridizing with a nucleotide sequence depicted in SEQ ID NO: 13, particularly under moderate hybridization conditions, more particularly under stringent hybridization conditions, and wherein said regulatory nucleotide sequence mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide of interest such that said polynucleotide of interest is transcribed in most of the plant tissues but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent.

[0018] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the nucleotide sequence providing the transcription initiation function is the sequence depicted in SEQ ID NO: 13 or a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence.

[0019] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription termination function obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which regulatory sequence mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide molecule of interest such that said polynucleotide of interest is transcribed in most of the plant tissues excluding the tissues of the pollen but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly from a maize actin depolymerizing factor 3 (ABP3) gene, wherein

[0020] i) said regulatory nucleotide sequence comprises a transcription termination sequence which has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 14; or a fragment thereof, which still exhibits the functionality of a termination sequence; or

[0021] ii) the complementary strand of said regulatory nucleotide sequence hybridizes to a nucleotide sequence depicted in SEQ ID NO: 14, particularly under moderate hybridization conditions, more particularly under moderate-stringent hybridization conditions, particularly under stringent hybridization conditions and mediates termination of transcription of an operably associated protein encoding polynucleotide of interest; or.

[0022] iii) said regulatory nucleotide sequence has a sequence as depicted in SEQ ID NO: 14, including complements thereof.

[0023] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which is expressed in most plant tissues but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly from a maize actin depolymerizing factor 3 (ABP3) gene, and which regulatory nucleotide sequence comprises a transcription initiation sequence and a transcription termination sequence, respectively, which have at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 13 and SEQ ID NO:14, respectively, or a fragment thereof which still exhibits the full functionality as a transcription initiation and a termination sequence, respectively.

[0024] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which is expressed in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly from a maize actin depolymerizing factor 3 (ABP3) gene, and which regulatory nucleotide sequence comprises a transcription initiation sequence as depicted in SEQ ID NO: 13 and a transcription termination sequence as depicted in SEQ ID NO:14.

[0025] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a gene represented by a DNA probe, particularly a DNA probe exhibiting a DNA sequence as depicted in SEQ ID NOs: 47 to 56, which DNA probe shows a signal pattern in tissue samples, which is indicative of expression of said gene in all tissues and of no or substantially no expression in pollen.

[0026] In one embodiment of the invention, a transgenic plant is provided as described herein, wherein the chimeric polynucleotide construct, particularly the chimeric DNA construct, comprises a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, operably associated with and/or under operable control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function and is obtainable from plant genomic DNA, particularly from maize genomic DNA, which polypeptide or protein is expressed in most tissues of the plant but essentially excluding tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0027] In one embodiment of the invention, a transgenic plant is provided as described herein, wherein the chimeric polynucleotide construct, particularly the chimeric DNA construct, comprises a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, operably associated with and/or under operable control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function and is obtainable from a gene represented by a DNA probe, particularly a DNA probe exhibiting a DNA sequence as depicted in SEQ ID NOs: 57 to 79, which DNA probe shows a signal pattern in tissue samples, which is indicative of expression of said gene in all tissues and of no or substantially no expression in the tissues of the tassel.

[0028] In one embodiment, a transgenic plant according to the invention and as described herein is provided comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which regulatory sequence can be obtained in a PCR reaction from a genomic Zea mays DNA template using

[0029] i) a first primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 19, particularly the primer of SEQ ID NO: 19; or

[0030] ii) a second primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 20, particularly the reverse primer of SEQ ID NO: 20; or

[0031] iii) a first primer as a forward primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 19 and a second primer as a reverse primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 20, particularly the forward primer of SEQ ID NO: 19 and the reverse primer of SEQ ID NO: 20.

[0032] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the nucleotide sequence providing the transcription initiation function has at least between 80% and 85% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35, or a fragment thereof, and wherein said regulatory nucleotide sequence or fragment thereof mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide of interest such that said polynucleotide of interest is transcribed in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0033] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the complementary strand of the nucleotide sequence providing the transcription initiation function is capable of hybridizing with a nucleotide sequence depicted in SEQ ID NO: 35, particularly under moderate hybridization conditions, more particularly under stringent hybridization conditions and wherein said regulatory nucleotide sequence mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide of interest such that said polynucleotide of interest is transcribed in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0034] In one embodiment, the invention relates to a transgenic plant as described herein, wherein the nucleotide sequence providing the transcription initiation function is the sequence depicted in SEQ ID NO: 35 or a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence.

[0035] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription termination function obtainable from a plant genomic DNA, particularly a maize genomic DNA and mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide of interest such that said polynucleotide of interest is transcribed in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent, wherein

[0036] i) said regulatory nucleotide sequence comprises a transcription termination sequence which has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 36; or a fragment thereof which still exhibits the full functionality as a transcription initiation sequence; or

[0037] ii) the complementary strand of said regulatory nucleotide sequence hybridizes to a nucleotide sequence depicted in SEQ ID NO: 36, particularly under moderate hybridization conditions, particularly under moderate-stringent hybridization conditions, particularly under stringent hybridization conditions and mediates termination of transcription of an operably associated protein encoding polynucleotide of interest; or

[0038] iii) said regulatory sequence has a sequence as depicted in SEQ ID NO: 36, or a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence including complements thereof.

[0039] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a genomic plant DNA, particularly from a genomic maize DNA and is expressed in most tissues of the plant but essentially excluding tissues of the tassel so that no expression product is present in said tissues to any significant extent, which regulatory nucleotide sequence comprises a transcription initiation sequence and a transcription termination sequence, respectively, which sequences have at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35 and SEQ ID NO:36, respectively, including a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence and a termination sequence, respectively.

[0040] In one embodiment the invention relates to a transgenic plant according to the invention and as described herein comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a genomic plant DNA, particularly a genomic maize DNA and is expressed in most tissues of the plant but essentially excluding tissues of the tassel so that no expression product is present in said tissues to any significant extent, which regulatory nucleotide sequence comprises a transcription initiation sequence as depicted in SEQ ID NO: 35 and a transcription termination sequence as depicted in and SEQ ID NO:36 respectively, including a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence and a termination sequence, respectively.

[0041] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes a polypeptide product exhibiting an insecticidal activity, particularly an endotoxin of Bacillus thuringiensis.

[0042] In one embodiment, the concentration of the polypeptide product expressed from the protein encoding polynucleotide of interest in the tissues of the plant reproductive structures, particularly in the tissues of the pollen and/or the tassel is such that no insecticidal activity can be detected in a standard insect feeding assay. In particular, the concentration of the expression product in the tassel is below a basic level of not more than 10 ng/mg soluble protein, particularly of not more than 5 ng/mg soluble protein, more particularly of not more than 3 ng/mg soluble protein, but especially of not more than 2 ng/mg soluble protein or less.

[0043] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes an endotoxin of Bacillus thuringiensis which has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO:15.

[0044] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes an endotoxin of Bacillus thuringiensis which has the nucleotide sequence as depicted in SEQ ID NO: 15.

[0045] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes a polypeptide product contributing to the enhancement of drought tolerance, particularly a deregulated form of a H⁺-pyrophosphatase, wherein said polypeptide or protein is under control of a regulatory sequence according to the invention at least part of which has a transcription initiation function which mediates expression of an operably associated protein encoding polynucleotide of interest in most plant tissues but essentially excluding expression in the tissues of the pollen and/or the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0046] In one embodiment, the transgenic plant according to the invention and as described herein is a Zea mays plant.

[0047] In one embodiment, the invention relates to a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence, at least part of which has a transcription initiation function which mediates expression of an operably associated protein encoding a polynucleotide of interest in most plant tissues but essentially excluding expression in the tissues of the male reproductive structures, particularly the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0048] In one embodiment of the invention, the regulatory nucleotide sequence is obtainable from a gene represented by a DNA probe, particularly a DNA probe exhibiting a DNA sequence as depicted in SEQ ID NOs: 47 to 56, which DNA probe shows a signal pattern in tissue samples which is indicative of expression of said gene in all tissues and of no or substantially no expression in pollen.

[0049] In one embodiment of the invention, the regulatory nucleotide sequence is obtainable from a gene encoding an actin depolymerizing factor 3, which is expressed in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly an actin depolymerizing factor 3 gene from maize.

[0050] In one embodiment of the invention, the regulatory nucleotide sequence is obtainable from a gene represented by a DNA probe, particularly a DNA probe exhibiting a DNA sequence as depicted in SEQ ID NOs: 57 to 79, which DNA probe shows a signal pattern in tissue samples, which is indicative of expression of said gene in all tissues and of no or substantially no expression in the tissues of the tassel . . . .

[0051] In one embodiment, the invention provides a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which sequence is obtainable from a genomic Zea mays DNA template using

[0052] i) a first primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 1, particularly a first primer of SEQ ID NO: 1; or

[0053] ii) second primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 2, particularly a second primer of; SEQ ID NO: 2; or

[0054] iii) a first primer as a forward primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 1 and a second primer as a reverse primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 2, particularly the forward primer of SEQ ID NO: 1 and the reverse primer of SEQ ID NO: 2.

[0055] In one embodiment, the regulatory nucleotide sequence according to the invention and as described herein is modified using one or more oligonucleotides selected from the group of oligonucleotides depicted in SEQ ID NO: 3, SEQ ID NO: 4, SEQ ID NO: 5, SEQ ID NO: 6, SEQ ID NO: 7 and SEQ ID NO: 8.

[0056] In one embodiment the invention relates to a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which regulatory nucleotide sequence provides a transcription initiation function, wherein the nucleotide sequence providing said function has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 13 and wherein said regulatory nucleotide sequence mediates transcription of an operably associated protein encoding polynucleotide of interest in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent.

[0057] In one embodiment, the invention relates to a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which regulatory nucleotide sequence provides a transcription initiation function, wherein the complementary strand of the nucleotide sequence providing said function hybridizes to a nucleotide sequence depicted in SEQ ID NO: 13, particularly under moderate hybridization conditions, more particularly under moderately stringent hybridization conditions and wherein said regulatory nucleotide sequence mediates transcription of an operably associated protein encoding polynucleotide of interest in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent. In particular, said hybridization occurs under stringent hybridization conditions.

[0058] In one embodiment of the invention, the nucleotide sequence providing the transcription initiation function is the sequence depicted in SEQ ID NO: 13, or a fragment thereof which still exhibits full functionality as a transcription initiation sequence, and complements thereof.

[0059] In one embodiment, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence according to the invention and as described herein is provided comprising approximately 1 kb of the nucleotide sequence upstream of the ZmABP3 transcription start site of a ZmABP3 gene, particularly upstream of the ZmABP3 transcription start site of the ZmABP3 gene as depicted in SEQ ID NO: 17.

[0060] In one embodiment of the invention, said regulatory nucleotide sequence comprises in addition the ZmABP3 5'-untranslated sequence, the ZmABP3 first exon, the ZmABP3 first intron and a portion of the ZmABP3 second exon, particularly a portion of the ZmABP3 second exon terminating at the translation initiation codon, particularly a portion of the ZmABP3 second exon comprising between about 10 to about 20 nucleotides, particularly between about 12 and about 16 nucleotides, particularly about 14 nucleotides, of the second exon.

[0061] In one embodiment, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence is provided at least part of which has a transcription termination function, which sequence is obtainable in a PCR amplification reaction from a gDNA template, particularly a maize gDNA template, using a forward primer (P3 (5'-tatatagagctcgcatcatgatcatgcatcatggact-3') which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 9 and a reverse primer (P4 (5'-atatatactagtggcgcgccacactttctgtcgcatgtgatttgca-3') which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 10. In particular, said regulatory nucleotide sequence comprises a transcriptional terminator and poly-adenylation signal. In particular, a forward primer (P3 (5'-tatatagagctcgcatcatgatcatgcatcatggact-3')) which has a nucleotide sequence as depicted in SEQ ID NO: 9 and a reverse primer (P4 (5'-atatatactagtggcgcgccacactlictgtcgcatgtgatttgca-3') which has a nucleotide sequence as depicted in SEQ ID NO: 10 are used.

[0062] In one embodiment of the invention, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence is provided which comprises a transcription termination sequence obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which regulatory sequence mediates transcription of an operably associated polynucleotide molecule, particularly of an operably associated protein encoding polynucleotide molecule of interest such that said polynucleotide of interest is transcribed in most of the plant tissues but not or substantially not in the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly from a maize actin depolymerizing factor 3 (ABP3) gene, wherein

[0063] i) said regulatory nucleotide sequence comprises a transcription termination sequence which regulatory sequence has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 14; or

[0064] ii) the complementary strand of said regulatory nucleotide sequence hybridizes to a nucleotide sequence depicted in SEQ ID NO: 14, particularly under moderate hybridization conditions, more particularly under moderate-stringent hybridization conditions, particularly under stringent hybridization conditions and mediates termination of transcription of an operably associated protein encoding polynucleotide of interest; or

[0065] iii) said regulatory nucleotide sequence has a sequence as depicted in SEQ ID NO: 14, or a fragment thereof which still exhibits full functionality as a termination sequence, including complements thereof.

[0066] In one embodiment of the invention, a regulatory nucleotide sequence is provided or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a gene encoding an actin depolymerizing factor 3 (ABP3), which is expressed in most tissues of the plant but not or substantially not in the tissues of the pollen so that no expression product is present in said tissues to any significant extent, particularly from a maize actin depolymerizing factor 3 (ABP3) gene, and which regulatory nucleotide sequence comprises a transcription initiation sequence as depicted in SEQ ID NO: 13 and a transcription termination sequence as depicted in SEQ ID NO:14.

[0067] In one embodiment of the invention, the regulatory nucleotide sequence is obtainable from maize genomic DNA, particularly from a putative gene on the maize genome, which is highly expressed in most tissues of the plant but not or substantially not in the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0068] In one embodiment, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence according to the invention and as described herein is provided comprising approximately 2.6 kb of the 5'-sequence including approximately 2 kb of 5'-non-transcribed sequence, a 5'-UTR, and exon 1 and part of exon 2 and intron 1, particularly approximately 0.6 kb representing exon 1, intron 1 and about 16 bp of exon 2.

[0069] In one embodiment, the invention provides a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence at least part of which has a transcription initiation function as described herein, which regulatory sequence is obtainable from a genomic Zea mays DNA template using

[0070] i) a first primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 19, particularly the primer of SEQ ID NO: 19; or

[0071] ii) a second primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 20, particularly the reverse primer of SEQ ID NO: 20; or

[0072] iii) a first primer as a forward primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 19 and a second primer as a reverse primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 0.97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 20, particularly the forward primer of SEQ ID NO: 19 and the reverse primer of SEQ ID NO: 20.

[0073] In one embodiment, the regulatory nucleotide sequence according to the invention and as described herein is modified using one or more oligonucleotides selected from the group of oligonucleotides depicted in SEQ ID NO: 21, SEQ ID NO: 22, SEQ ID NO: 23, SEQ ID NO: 24, SEQ ID NO: 25 and SEQ ID NO: 26.

[0074] In one embodiment, the invention relates to a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which regulatory nucleotide sequence provides a transcription initiation function, wherein the nucleotide sequence providing said function has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35 and wherein said regulatory nucleotide sequence mediates transcription of an operably associated protein encoding polynucleotide of interest in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0075] In one embodiment, the invention relates to a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence as described herein, which regulatory nucleotide sequence provides a transcription initiation function, wherein the complementary strand of the nucleotide sequence providing said function hybridizes to a nucleotide sequence depicted in SEQ ID NO: 35, particularly under moderate hybridization conditions, more particularly under moderately stringent hybridization conditions and wherein said regulatory nucleotide sequence mediates transcription of an operably associated protein encoding polynucleotide of interest in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent. In particular, said hybridization occurs under stringent hybridization conditions.

[0076] In one embodiment of the invention, the nucleotide sequence providing the transcription initiation function is the sequence depicted in SEQ ID NO: 35, or a fragment thereof, which still exhibits the full functionality as a transcription initiation sequence and complements thereof.

[0077] In one embodiment, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence is provided at least part of which has a transcription termination function which sequence is obtainable in a PCR amplification reaction from a gDNA template, particularly a maize gDNA template, using a forward primer which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 29 and a reverse primer, which has at least 90%, particularly at least 91%, particularly at least 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO: 30. In particular, said regulatory nucleotide sequence comprises a transcriptional terminator and poly-adenylation signal. In particular, a forward primer, which has a nucleotide sequence as depicted in SEQ ID NO: 29 and a reverse primer, which has a nucleotide sequence as depicted in SEQ ID NO: 30 are used.

[0078] In one embodiment of the invention, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence is provided wherein

[0079] i) said regulatory nucleotide sequence comprises a transcription termination sequence which has at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 36; or

[0080] ii) the complementary strand of said regulatory nucleotide sequence hybridizes to a nucleotide sequence depicted in SEQ ID NO: 36, particularly under moderate hybridization conditions, particularly under moderate-stringent hybridization conditions, particularly under stringent hybridization conditions and mediates termination of transcription of an operably associated protein encoding polynucleotide of interest; or

[0081] iii) said regulatory sequence has a sequence as depicted in SEQ ID NO: 36, or a fragment thereof, which still exhibits the full functionality as a termination sequence, including complements thereof.

[0082] In one embodiment of the invention, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence, is provided at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a maize genomic DNA, which is expressed in most tissues of the plant but not or substantially not in the tissues of the tassel so that no expression product is present in said tissues to any significant extent, and which regulatory nucleotide sequence comprises a transcription initiation sequence and a transcription termination sequence, respectively, which have at least between 80% and 85% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least between 85% and 90% sequence identity, with all integers falling within this range also being comprised herewith, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence depicted in SEQ ID NO: 35 and SEQ ID NO:36, respectively.

[0083] In one embodiment of the invention, a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence, is provided at least part of which has a transcription initiation function and a termination function, respectively, which regulatory nucleotide sequence is obtainable from a maize genomic DNA, which is expressed in most tissues of the plant but not or substantially not in the tissues of the tassel so that no expression product is present in said tissues to any significant extent, and which regulatory nucleotide sequence comprises a transcription initiation sequence as depicted in SEQ ID NO: 35 and a transcription termination sequence as depicted in SEQ ID NO: 36.

[0084] It is apparent to the skilled artisan that, based on the nucleotide sequences shown in SEQ ID NO: 13, SEQ ID NO 14, SEQ ID NO: 35 and SEQ ID NO: 36, fragments of various length can be obtained from said sequences, for example by using any primer combinations of interest to generate fragments that still exhibit the specific regulatory function according to the invention that is driving expression of an operably associated polynucleotide of interest in most plant tissues but tissues of the pollen and the tassel, respectively. The invention thus includes fragments derived from a full-length transcript promoter and a full-length terminator of the invention and as described herein, respectively that function according to the invention, i.e. are capable of conferring expression and termination of an operably associated nucleotide sequence in most plant tissues but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent and/or the tassel.

[0085] The function of the promoter and terminator fragments, once obtained, can be easily tested by fusing them to a selectable or screenable marker gene and assaying the fusion constructs for retention of the specific promoter activity. Such assays are within the ordinary skill of the person skilled in the art.

[0086] In one embodiment, the invention relates to nucleotide fragments, particularly to nucleotide fragments obtainable from the regulatory sequences of an action depolymerizing factor 3 (ABP3) gene, which nucleotide fragments are of at least about 50 bases, preferably of between about 400 bases and about 650 bases, more preferably of between about 200 bases and about 400 bases and most preferably of about 350 bases in length and still exhibit the specific regulatory function according to the invention that is driving expression of an operably associated polynucleotide of interest in most plant tissues but essentially excluding the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0087] In one embodiment, the invention relates to nucleotide fragment comprising a nucleotide sequence comprising a consecutive stretch of at least 50 nt, particularly of between about 400 nt and about 650 nt, particularly of between about 200 nt and about 400 nt, particularly of about 350 nt in length of the nucleotide sequence depicted in SEQ ID NO:13 and SEQ ID NO: 35, respectively, wherein said nucleotide sequences still exhibit the specific regulatory function according to the invention that is driving expression of an operably associated polynucleotide of interest in most plant tissues but essentially excluding the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0088] It is also clear to the skilled artisan that variant sequences may be obtained without affecting the specific properties of the regulatory sequences according to the invention by introducing mutations, i.e. insertions, deletions and/or substitutions of one or more nucleotides, into the DNA sequences of SEQ ID NO: 13, SEQ ID NO 14, SEQ ID NO: 35 and SEQ ID NO: 36, respectively, using methods known in the art. In addition, an unmodified or modified nucleotide sequence of the present invention may be further varied by shuffling the sequence of the invention. To test for a function of variant DNA sequences according to the invention, the sequence of interest is operably linked to a selectable or screenable marker gene and expression of the marker gene is tested in transient expression assays with protoplasts or in whole plant tissues or in stably transformed plants. It is known to the skilled artisan that DNA sequences capable of driving expression of an operably associated nucleotide sequence are build in a modular way. Accordingly, expression levels from shorter DNA fragments may be different than the one from the longest fragment and may be different from each other. For example, deletion of a down-regulating upstream element will lead to an increase in the expression levels of the associated nucleotide sequence while deletion of an up-regulating element will decrease the expression levels of the associated nucleotide sequence.

[0089] In one embodiment, the invention relates to an expression cassette comprising a regulatory nucleotide sequence or an expression cassette comprising said regulatory nucleotide sequence or a polynucleotide construct, particularly a chimeric polynucleotide construct, comprising said regulatory sequence according to the invention and as described herein.

[0090] In one embodiment, the expression cassette according to the invention comprises about 2.3 kb of the 5'-sequence of ZmABP3 which consists of about 1.1 kb of 5'-non-transcribed sequence, about 0.25 kb of 5'-UTR and about 0.98 kb representing ZmABP3-intron 1, about 1.013 kb of the 3'-sequence starting just past the ABP3 translation stop codon including about 0.3 kb of 3'-UTR and about 0.7 kb of non-transcribed sequence, which functions as the transcriptional terminator and poly-adenylation signal.

[0091] In one embodiment, an expression cassette according to the invention is provided wherein the natural translation start codon is silenced and moved to the second exon, particularly moved within 15 nucleotides of the 5'-end of ZmABP3 exon 2.

[0092] In one embodiment, an expression cassette according to the invention is provided wherein the start codon is preceded by the Kozak sequence 5'- . . . CCACC . . . -3'.

[0093] In one embodiment, the expression cassette according to the invention comprises a regulatory nucleotide sequence comprising approximately 2.6 kb of the 5'-sequence, which consists of approximately 2 kb of 5'-non-transcribed sequence, and about 12 bp of 5'-UTR, approximately 0.6 kb representing exon 1, intron 1 and about 16 bp of exon 2; and approximately 1 kb of the 3'-sequence that begins just past the translation stop codon and includes approximately 0.6 kb of 3'-UTR and about 0.4 kb of non-transcribed sequence, and functions as the transcriptional terminator and poly-adenylation signal.

[0094] In one embodiment, an expression cassette according to the invention is provided wherein the natural translation start codon is silenced and moved to the second exon.

[0095] In one embodiment, a polypeptide or protein encoding nucleotide sequence is provided encoding an endotoxin of Bacillus thuringiensis which has at least 80% sequence identity, particularly at least 85% sequence identity, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO:15.

[0096] In one embodiment, a polypeptide or protein encoding nucleotide sequence is provided encoding an endotoxin of Bacillus thuringiensis which has the nucleotide sequence as depicted in SEQ ID NO: 15.

[0097] In one embodiment, the invention relates to a transgenic plant comprising an expression cassette according to the invention and as described herein.

[0098] In one embodiment, the invention provides a transgenic plant, particularly a transgenic maize plant comprising a regulatory sequence according to the invention and as described herein.

[0099] In one embodiment, the invention provides a transgenic plant, particularly a transgenic maize plant comprising a regulatory sequence according to the invention and as described herein in association with a polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest.

[0100] In one embodiment, the invention provides a transgenic plant, particularly a transgenic maize plant comprising an expression cassette according to the invention and as described herein.

[0101] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding nucleotide sequence encodes an endotoxin of Bacillus thuringiensis which has at least 80% sequence identity, particularly at least 85% sequence identity, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO:15 and is under the control of a regulatory sequences operable in said plant.

[0102] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding nucleotide sequence encodes an endotoxin of Bacillus thuringiensis which has the nucleotide sequence as depicted in SEQ ID NO: 15 and is under the control of a regulatory sequences operable in said plant.

[0103] The invention also provides methods for preparing expression cassettes comprising the regulatory sequence according to the invention comprising linking an expressible polynucleotide encoding a polypeptide or a protein of interest with the regulatory sequence according to the invention and as described herein to obtain an expression construct, wherein the polynucleotide of interest is operably linked or associated with the regulatory sequence such that expression of the polypeptide or a protein of interest is mediated by the regulatory sequence according to the invention and results in the expression of said polypeptide or a protein of interest in essentially all plant tissues, but essentially excludes expression in the tissues of the reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0104] In one embodiment, the invention relates to a method of producing a transgenic plant expressing a DNA sequence of interest in non-pollen tissue but not or substantially not in the tissues of the pollen and/or the tassel, comprising

[0105] a. transforming an expression cassette according to the invention and as described herein into a plant cell which comprises a regulatory nucleotide sequence, at least part of which has a transcription initiation function which mediates expression of an operably associated protein encoding polynucleotide of interest in most plant tissues but essentially excluding the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent; and

[0106] b. regenerating the plant cell transformed in step a) into a plant.

[0107] In one embodiment, the invention relates to a method of controlling insect target-pests feeding on vegetative plant tissues such as the leaf, stalk and root and/or on reproductive tissues such as the ear, but protecting non-target pests feeding on pollen comprising

[0108] a. growing a plant according to the invention and as described herein in an area that is infested with the target pest;

[0109] b. expressing a polypeptide or protein that is capable of controlling said target pest under the control of a regulatory sequence according to the invention and as described herein.

[0110] In one embodiment, the invention relates to a method of protecting the reproductive tissues of a plant, particularly the tissues of the pollen and/or the tassel against damage caused by expression in said tissues of a polypeptide or protein of interest comprising

[0111] a. growing a plant according to the invention and as described herein;

[0112] b. expressing in said plant a polypeptide or protein of interest under the control of a regulatory sequence according to the invention and as described herein.

[0113] In one embodiment the present invention relates to the use of a regulatory sequence according to the present invention and as disclosed herein for protecting the reproductive tissues of a plant, particularly the tissues of the pollen and/or the tassel against damage caused by expression in said tissues of a polypeptide or protein of interest comprising expressing in said plant said polypeptide or protein of interest under the control of a regulatory sequence according to the invention and as described herein.

BRIEF DESCRIPTION OF THE SEQUENCES

[0114] SEQ ID NO: 1 depicts the nucleotide sequence of forward primer P1

[0115] SEQ ID NO: 2 depicts the nucleotide sequence of reverse primer P2

[0116] SEQ ID NO: 3 depicts the nucleotide sequence of oligonucleotide Patg

[0117] SEQ ID NO: 4 depicts the nucleotide sequence of oligonucleotide Pnco

[0118] SEQ ID NO: 5 depicts the nucleotide sequence of oligonucleotide ADPc-1

[0119] SEQ ID NO: 6 depicts the nucleotide sequence of oligonucleotide ADPc-2

[0120] SEQ ID NO: 7 depicts the nucleotide sequence of oligonucleotide ADPc-4

[0121] SEQ ID NO: 8 depicts the nucleotide sequence of oligonucleotide adp3-a

[0122] SEQ ID NO: 9 depicts the nucleotide sequence of forward primer P3

[0123] SEQ ID NO: 10 depicts the nucleotide sequence of reverse primer P4

[0124] SEQ ID NO: 11 depicts the nucleotide sequence of forward primer Tnco

[0125] SEQ ID NO: 12 depicts the nucleotide sequence of forward primer T2

[0126] SEQ ID NO: 13 depicts the nucleotide sequence of modified ZmABP3 regulatory sequence including the transcription initiation sequence

[0127] SEQ ID NO: 14 depicts the nucleotide sequence of ZmABP3 terminal sequence

[0128] SEQ ID NO: 15 depicts the nucleotide sequence of Cry1AbG6

[0129] SEQ ID NO: 16 depicts the nucleotide sequence of maize-optimized AtAVP1D coding sequence

[0130] SEQ ID NO: 17 depicts the nucleotide sequence of the ZmABP3 gene

[0131] SEQ ID NO: 18 depicts the nucleotide sequence of the pNOV1321 plasmid

[0132] SEQ ID NO: 19 depicts the nucleotide sequence of forward primer ABT P1 forw

[0133] SEQ ID NO: 20 depicts the nucleotide sequence of reverse primer ABT P2 rev

[0134] SEQ ID NO: 21 depicts the nucleotide sequence of oligonucleotide pABT mut1

[0135] SEQ ID NO: 22 depicts the nucleotide sequence of oligonucleotide pABT mut2

[0136] SEQ ID NO: 23 depicts the nucleotide sequence of oligonucleotide pABT mut3

[0137] SEQ ID NO: 24 depicts the nucleotide sequence of oligonucleotide pABT mut4

[0138] SEQ ID NO: 25 depicts the nucleotide sequence of oligonucleotide pABT mut5

[0139] SEQ ID NO: 26 depicts the nucleotide sequence of oligonucleotide pABT mut6

[0140] SEQ ID NO: 27 depicts the nucleotide sequence of forward primer pABT amp1

[0141] SEQ ID NO: 28 depicts the nucleotide sequence of reverse primer pABT amp2

[0142] SEQ ID NO: 29 depicts the nucleotide sequence of forward primer ABT P4

[0143] SEQ ID NO: 30 depicts the nucleotide sequence of reverse primer ABT P5

[0144] SEQ ID NO: 31 depicts the nucleotide sequence of oligonucleotide ABTt m1

[0145] SEQ ID NO: 32 depicts the nucleotide sequence of oligonucleotide ABTt m2

[0146] SEQ ID NO: 33 depicts the nucleotide sequence of ZmABT1 cDNA

[0147] SEQ ID NO: 34 depicts the nucleotide sequence of ZmABT2 cDNA

[0148] SEQ ID NO: 35 depicts the nucleotide sequence of the ZmABT promoter

[0149] SEQ ID NO: 36 depicts the nucleotide sequence of the ZmABT terminal sequence.

[0150] SEQ ID NO: 37 depicts the nucleotide sequence of the ZmABP3-Cry1AbG6 Assembly construct.

[0151] SEQ ID NO: 38 depicts the nucleotide sequence of the ZmABP3-Cry1AbG6 binary construct.

[0152] SEQ ID NO: 39 depicts the nucleotide sequence of the enhanced ZmABP3-Cry1AbG6 binary construct.

[0153] SEQ ID NO: 40 depicts the nucleotide sequence of the ZmABP3-AmCyan assembly construct.

[0154] SEQ ID NO: 41 depicts the nucleotide sequence of the ZmABP3-AmCyan binary construct.

[0155] SEQ ID NO: 42 depicts the nucleotide sequence of the ZmABP3-AtAVP1D assembly construct.

[0156] SEQ ID NO: 43 depicts the nucleotide sequence of the ZmABP3-AtAVP1D binary construct.

[0157] SEQ ID NO: 44 depicts the nucleotide sequence of plasmid 15772 (ZmABT Assembly)

[0158] SEQ ID NO: 45 depicts the nucleotide sequence of plasmid 15773

[0159] SEQ ID NO: 46 depicts the nucleotide sequence of ZmABT gDNA

[0160] SEQ ID NO: 47 depicts the nucleotide sequence of Ctrl_ZMU45855-3_at

[0161] SEQ ID NO: 48 depicts the nucleotide sequence of AF032370_at

[0162] SEQ ID NO: 49 depicts the nucleotide sequence of Zm001747_s_at

[0163] SEQ ID NO: 50 depicts the nucleotide sequence of Zm005803_s_at

[0164] SEQ ID NO: 51 depicts the nucleotide sequence of Zm007728_s_at

[0165] SEQ ID NO: 52 depicts the nucleotide sequence of Zm009722_s_at

[0166] SEQ ID NO: 53 depicts the nucleotide sequence of Zm015335_s_at

[0167] SEQ ID NO: 54 depicts the nucleotide sequence of Zm021004_s_at

[0168] SEQ ID NO: 55 depicts the nucleotide sequence of Zm058948_s_at

[0169] SEQ ID NO: 56 depicts the nucleotide sequence of Zm061393_s_at

[0170] SEQ ID NO: 57 depicts the nucleotide sequence of Zm016864_s_at

[0171] SEQ ID NO: 58 depicts the nucleotide sequence of Zm018791_at

[0172] SEQ ID NO: 59 depicts the nucleotide sequence of ZMMETALL_x_at

[0173] SEQ ID NO: 60 depicts the nucleotide sequence of Zm000019_at

[0174] SEQ ID NO: 61 depicts the nucleotide sequence of Zm002987_at

[0175] SEQ ID NO: 62 depicts the nucleotide sequence of Zm002990_s_at

[0176] SEQ ID NO: 63 depicts the nucleotide sequence of Zm002990_x_at

[0177] SEQ ID NO: 64 depicts the nucleotide sequence of Zm004433_at

[0178] SEQ ID NO: 65 depicts the nucleotide sequence of Zm005761_at

[0179] SEQ ID NO: 66 depicts the nucleotide sequence of Zm006285_at

[0180] SEQ ID NO: 67 depicts the nucleotide sequence of Zm006481_s_at

[0181] SEQ ID NO: 68 depicts the nucleotide sequence of Zm010323_s_at

[0182] SEQ ID NO: 69 depicts the nucleotide sequence of Zm011554_at

[0183] SEQ ID NO: 70 depicts the nucleotide sequence of Zm011554_x_at

[0184] SEQ ID NO: 71 depicts the nucleotide sequence of Zm021403_at

[0185] SEQ ID NO: 72 depicts the nucleotide sequence of Zm028405_s_at

[0186] SEQ ID NO: 73 depicts the nucleotide sequence of Zm032921_s_at

[0187] SEQ ID NO: 74 depicts the nucleotide sequence of Zm033444_s_at

[0188] SEQ ID NO: 75 depicts the nucleotide sequence of Zm035082_s_at

[0189] SEQ ID NO: 76 depicts the nucleotide sequence of Zm040564_x_at

[0190] SEQ ID NO: 77 depicts the nucleotide sequence of Zm054116_s_at

[0191] SEQ ID NO: 78 depicts the nucleotide sequence of Zm066342_at

[0192] SEQ ID NO: 79 depicts the nucleotide sequence of Zm051284_at

[0193] SEQ ID NO: 80 depicts the nucleotide sequence of Vector 15289

[0194] SEQ ID NO: 81 depicts the nucleotide sequence of ZmABP-948-binary

[0195] SEQ ID NO: 82 depicts the nucleotide sequence of ZmABT-990-binary

[0196] SEQ ID NO: 83 depicts the nucleotide sequence of 5' BfrI primer

[0197] SEQ ID NO: 84 depicts the nucleotide sequence of 3' XbaI primer

[0198] SEQ ID NO: 85 depicts the nucleotide sequence of 5'Gfix primer

[0199] SEQ ID NO: 86 depicts the nucleotide sequence of 3'Gfix primer

[0200] SEQ ID NO: 87 depicts the nucleotide sequence of 5'1Ab5XbaI primer

[0201] SEQ ID NO: 88 depicts the nucleotide sequence of 3'1Ab3d6 primer

[0202] SEQ ID NO: 89 depicts the nucleotide sequence of cy2'

[0203] SEQ ID NO: 90 depicts the nucleotide sequence of cy1

[0204] SEQ ID NO: 91 depicts the nucleotide sequence of cy2

DETAILED DESCRIPTION OF THE INVENTION

Definitions

[0205] The technical terms and expressions used within the scope of this application are generally to be given the meaning commonly applied to them in the pertinent art of plant molecular biology if not otherwise indicated herein below.

[0206] As used in this specification and the appended claims, the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to "a plant" includes one or more plants, and reference to "a cell" includes mixtures of cells, tissues, and the like.

[0207] As used in this specification and the appended claims, the plural form "tissues", includes also the singular form unless the context clearly dictates otherwise. Thus, for example, reference to "tissues of the tassel" includes one or more tissues present in the tassel.

[0208] As used in this specification and the appended claims, the phrase "most tissues of the plant" or "essentially all tissues of the plant" is used interchangeably and refers to the majority to the tissues present in the plant with the exception of the tissues of the reproductive structures, particularly the tissues of the pollen and the tassel. In particular, "most tissues" refer to those tissues of the plant where target insects mainly feed on, with the exception of the tissues of the male reproductive structures, such as the tissues of the stalk, the roots, the leaves, the ear, the ear sheath, the silks and the developing kernels.

[0209] The term "polynucleotide" is understood herein to refer to polymeric molecule of high molecular weight which can be single-stranded or double-stranded, composed of monomers (nucleotides) containing a sugar, phosphate and a base which is either a purine or pyrimidine. A "polynucleotide fragment" is a fraction of a given polynucleotide molecule. In higher plants, deoxyribonucleic acid (DNA) is the genetic material while ribonucleic acid (RNA) is involved in the transfer of information contained within DNA into proteins. A "genome" is the entire body of genetic material contained in each cell of an organism, including the genomes of the mitochondria and the plastids. The term "polynucleotide" thus refers to a polymer of DNA or RNA which can be single- or double-stranded, optionally containing synthetic, non-natural or altered nucleotide bases capable of incorporation into DNA or RNA polymers. Unless otherwise indicated, a particular nucleic acid sequence of this invention also implicitly encompasses conservatively modified variants thereof (e.g. degenerate codon substitutions) and complementary sequences and as well as the sequence explicitly indicated. Specifically, degenerate codon substitutions may be achieved by generating sequences in which the third position of one or more selected (or all) codons is substituted with mixed-base and/or deoxyinosine residues (Batzer, et al., Nucleic Acid Res. 19:5081 (1991); Ohtsuka, et al., J. Biol. Chem. 260:2605-2608 (1985); and Rossolini, et al., Mol. Cell. Probes 8:91-98 (1994)). The term polynucleotide is used interchangeably with nucleic acid, nucleotide sequence and may include genes, cDNAs, and mRNAs encoded by a gene, etc.

[0210] A "regulatory nucleotide sequence at least part of which has a transcription initiation function" is understood herein to refer to a nucleotide sequence, which controls the expression of an operably associated coding sequence by providing the recognition for RNA polymerase and other factors required for proper transcription and is located usually upstream (5') to its coding sequence. "Regulatory nucleotide sequences" include 5' regulatory sequences located proximal and more distal elements upstream of the associated coding region, which influence the transcription, RNA processing or stability, or translation of the associated coding sequence. "Regulatory nucleotide sequences" may further include 3' sequences, including 3' non-translated and/or 3' non-transcribed sequences, located downstream of the associated coding region, and can include a transcription termination site. "Regulatory nucleotide sequences" may include enhancers, promoters, untranslated leader sequences, introns, and polyadenylation signal sequences. They include natural and synthetic sequences as well as sequences that may be a combination of synthetic and natural sequences. An "enhancer" is a DNA sequence that can stimulate promoter activity and may be an innate element of the promoter or a heterologous element inserted to enhance the level or tissue specificity of a promoter. It is capable of operating in both orientations (normal or flipped), and is capable of functioning even when moved either upstream or downstream from the promoter. The meaning of the term "regulatory nucleotide sequences" includes "transcription initiation" or "promoter" sequences and "promoter regulatory sequences." These terms are used interchangeably herein after. For purposes of this invention, the definition of the term "3'-nontranscribed sequence" includes modifications to the nucleotide sequence of a 3'-nontranscribed sequence derived from a target gene, provided the modified 3'-nontranscribed sequence does not significantly reduce the activity of its associated 3' regulatory sequence. The 3'-nontranscribed sequence extends approximately 0.5 to 1.5 kb downstream of the transcription termination site.

[0211] The polynucleotide of the invention is understood to be provided in isolated form. The term "isolated" means that the polynucleotide disclosed and claimed herein is not a polynucleotide as it occurs in its natural context, if it indeed has a naturally occurring counterpart. Accordingly, the other compounds of the invention described further below are understood to be isolated. If claimed in the context of a plant genome, the polynucleotide of the invention is distinguished over naturally occurring counterparts by i.e. modifications introduced into the naturally occurring counterpart sequence and/or the insertion side in the genome and the flanking sequences at the insertion side.

[0212] "Operably associated" and "operably-linked" are used interchangeably and refer to the association of nucleic acid sequences on a single nucleic acid fragment so that the function of one is affected by the other. For example, a promoter is associated or operably-linked with a coding sequence or functional RNA when it is capable of affecting the expression of that coding sequence or functional RNA (i.e., that the coding sequence or functional RNA is under the transcriptional control of the promoter). Coding sequences in sense or antisense orientation can be operably-linked to regulatory sequences.

[0213] The term "present to any significant extent" as used within the context of the present invention refers to the fact that only negligible expression occurs in pollen resulting in only minor amounts of the expression product in pollen tissue at concentrations that may be detectable by high-resolution detection methods such as HPLC, ELISA-based assays, Western analysis, insect feeding assays, enzyme activity assays etc., but stay below a certain threshold level that would be needed to effect the envisaged biological function of the expression product. For example, in case of the Cry1AbG6 endotoxin of Bacillus thuringiensis the threshold level is in the range of between 5 ng/mg soluble protein and 60 ng/mg soluble protein, particularly in the range of between 20 ng/mg soluble protein and 50 ng/mg soluble protein.

[0214] The term "chimeric gene" refers to any gene that contains 1) DNA sequences, including regulatory and coding sequences that are not found together in nature in this specific combination or 2) sequences encoding parts of proteins not naturally adjoined, or 3) parts of promoters that are not naturally adjoined. Accordingly, a chimeric gene may comprise regulatory sequences and coding sequences that are derived from different sources, or comprise regulatory sequences and coding sequences derived from the same source, but arranged in a manner different from that found in nature.

[0215] The terms "heterologous DNA sequence," "exogenous DNA segment" or "heterologous nucleic acid," as used herein, each refer to a sequence that originates from a source foreign to the particular host cell or, if from the same source, is modified from its original form. Thus, a heterologous gene in a host cell includes a gene that is endogenous to the particular host cell but has been modified through, for example, the use of DNA shuffling or mutation. These terms also include non-naturally occurring multiple copies of a naturally occurring DNA sequence. Thus, the terms refer to a DNA segment that is foreign or heterologous to the cell, or homologous to the cell but in a position within the host cell genome in which the element is not ordinarily found. Exogenous DNA segments are expressed to yield exogenous polypeptides. A "homologous" DNA sequence is a DNA sequence that is naturally associated with a host cell into which it is introduced.

[0216] A "transgene" refers to a gene that has been introduced into the genome by transformation and is stably maintained. Transgenes may include, for example, genes that are either heterologous or homologous to the genes of a particular plant to be transformed. Additionally, transgenes may comprise native genes inserted into a non-native organism, or chimeric genes. The term "endogenous gene" refers to a native gene in its natural location in the genome of an organism. A "foreign" gene refers to a gene not normally found in the host organism but that is introduced by gene transfer.

[0217] "Expression cassette" as used herein means a DNA sequence capable of directing expression of a particular nucleotide sequence in an appropriate host cell, comprising a promoter operably linked to the protein encoding polynucleotide of interest which is operably linked to a terminator. It also typically comprises sequences required for proper translation of the nucleotide sequence. The coding region usually codes for a protein of interest but may also code for a functional RNA of interest, for example antisense RNA or a nontranslated RNA, in the sense or antisense direction. The expression cassette comprising the protein encoding polynucleotide of interest may be chimeric.

[0218] "Intron" refers to an intervening section of DNA which occurs almost exclusively within a eukaryotic gene, but which is not translated to amino acid sequences in the gene product. The introns are removed from the pre-mature mRNA through a process called splicing, which leaves the exons untouched, to form an mRNA. For purposes of the present invention, the definition of the term "intron" includes modifications to the nucleotide sequence of an intron derived from a target gene, provided the modified intron does not significantly reduce the activity of its associated 5' regulatory sequence.

[0219] "Exon" refers to a section of DNA which carries the coding sequence for a protein or part of it. Exons are separated by intervening, non-coding sequences (introns). For purposes of the present invention, the definition of the term "exon" includes modifications to the nucleotide sequence of an exon derived from a target gene, provided the modified exon does not significantly reduce the activity of its associated 5' regulatory sequence.

[0220] The terms "protein," "peptide" and "polypeptide" are used interchangeably herein.

[0221] A "probe" as used herein refers to a defined nucleic acid (DNA or RNA) fragment of variable length which may be used to detect in a DNA or RNA containing sample nucleotide sequences that are complementary to the sequence represented by the probe molecule.

[0222] The probe molecules may be used in a microarray set up, where they are covalently attached to a chemical matrix on an inert surface, such as coated glass slides or silicon based gene chips. Hybridization of the probe molecules to a target nucleic acid in the sample usually occurs under high stringency conditions. Probe-target hybridization is usually detected and quantified by fluorescence-based detection of fluorophore-labeled targets to determine relative transcript abundance of nucleic acid sequences in the target. DNA microarrays may be used in expression profiling experiments to quantify transcript abundance for a target molecule in tissue samples such as the tissues of the pollen and/or the tassel, calculated based on the strength of the signal detected in the respective samples.

[0223] The term "hybridize" as used herein refers to conventional hybridization conditions, preferably to hybridization conditions at which 5×SSPE, 1% SDS, 1×Denhardts solution is used as a solution and/or hybridization temperatures are between 35° C. and 70° C., preferably 65° C. After hybridization, washing is preferably carried out first with 2×SSC, 1% SDS and subsequently with 0.2×SSC at temperatures between 35° C. and 75° C., particularly between 45° C. and 65° C., but especially at 59° C. (regarding the definition of SSPE, SSC and Denhardts solution see Sambrook et al. loc. cit.). High stringency hybridization conditions as for instance described in Sambrook et al, supra, are particularly preferred. Particularly preferred stringent hybridization conditions are for instance present if hybridization and washing occur at 65° C. as indicated above. Non-stringent hybridization conditions for instance with hybridization and washing carried out at 45° C. are less preferred and at 35° C. even less.

[0224] "Sequence Homology or Sequence Identity" is used herein interchangeably. The terms "identical" or percent "identity" in the context of two or more nucleic acid or protein sequences, refer to two or more sequences or subsequences that are the same or have a specified percentage of amino acid residues or nucleotides that are the same, when compared and aligned for maximum correspondence, as measured using one of the following sequence comparison algorithms or by visual inspection. If two sequences which are to be compared with each other differ in length, sequence identity preferably relates to the percentage of the nucleotide residues of the shorter sequence which are identical with the nucleotide residues of the longer sequence. Sequence identity can be determined conventionally with the use of computer programs such as the Bestfit program (Wisconsin Sequence Analysis Package, Version 8 for Unix, Genetics Computer Group, University Research Park, 575 Science Drive Madison, Wis. 53711). Bestfit utilizes the local homology algorithm of Smith and Waterman, Advances in Applied Mathematics 2 (1981), 482-489, in order to find the segment having the highest sequence identity between two sequences. When using Bestfit or another sequence alignment program to determine whether a particular sequence has for instance 95% identity with a reference sequence of the present invention, the parameters are preferably so adjusted that the percentage of identity is calculated over the entire length of the reference sequence and that homology gaps of up to 5% of the total number of the nucleotides in the reference sequence are permitted. When using Bestfit, the so-called optional parameters are preferably left at their preset ("default") values. The deviations appearing in the comparison between a given sequence and the above-described sequences of the invention may be caused for instance by addition, deletion, substitution, insertion or recombination. Such a sequence comparison can preferably also be carried out with the program "fasta20u66" (version 2.0u66, September 1998 by William R. Pearson and the University of Virginia; see also W. R. Pearson (1990), Methods in Enzymology 183, 63-98, appended examples and http://workbench.sdsc.edu/). For this purpose, the "default" parameter settings may be used.

[0225] Another indication that two nucleic acid sequences are substantially identical is that the two molecules hybridize to each other under stringent conditions. The phrase: "hybridizing specifically to" refers to the binding, duplexing, or hybridizing of a molecule only to a particular nucleotide sequence under stringent conditions when that sequence is present in a complex mixture (e.g., total cellular) DNA or RNA. "Bind(s) substantially" refers to complementary hybridization between a probe nucleic acid and a target nucleic acid and embraces minor mismatches that can be accommodated by reducing the stringency of the hybridization media to achieve the desired detection of the target nucleic acid sequence.

[0226] "Stringent hybridization conditions" and "stringent hybridization wash conditions" in the context of nucleic acid hybridization experiments such as Southern and Northern hybridizations are sequence dependent, and are different under different environmental parameters. Longer sequences hybridize specifically at higher temperatures. An extensive guide to the hybridization of nucleic acids is found in Tijssen (1993) Laboratory Techniques in Biochemistry and Molecular Biology-Hybridization with Nucleic Acid Probes part I chapter 2 "Overview of principles of hybridization and the strategy of nucleic acid probe assays" Elsevier, N.Y. Generally, highly stringent hybridization and wash conditions are selected to be about 5° C. lower than the thermal melting point (T_m) for the specific sequence at a defined ionic strength and pH. Typically, under "stringent conditions" a probe will hybridize to its target subsequence, but to no other sequences.

[0227] The T_m is the temperature (under defined ionic strength and pH) at which 50% of the target sequence hybridizes to a perfectly matched probe. Very stringent conditions are selected to be equal to the T_m for a particular probe. An example of stringent hybridization conditions for hybridization of complementary nucleic acids which have more than 100 complementary residues on a filter in a Southern or northern blot is 50% formamide with 1 mg of heparin at 42° C., with the hybridization being carried out overnight. An example of highly stringent wash conditions is 0.15 M NaCl at 72° C. for about 15 minutes. An example of stringent wash conditions is a 0.2×SSC wash at 65° C. for 15 minutes (see, Sambrook, infra, for a description of SSC buffer). Often, a high stringency wash is preceded by a low stringency wash to remove background probe signal. An example medium stringency wash for a duplex of, e.g., more than 100 nucleotides, is 0.1×SSC at 45° C. for 15 minutes. An example low stringency wash for a duplex of, e.g., more than 100 nucleotides, is 4-6×SSC at 40° C. for 15 minutes. For short probes (e.g., about 10 to 50 nucleotides), stringent conditions typically involve salt concentrations of less than about 1.0 M Na⁺ ion, typically about 0.01 to 1.0 M Na⁺ ion concentration (or other salts) at pH 7.0 to 8.3, and the temperature is typically at least about 30° C. Stringent conditions can also be achieved with the addition of destabilizing agents such as formamide. In general, a signal to noise ratio of 2× (or higher) than that observed for an unrelated probe in the particular hybridization assay indicates detection of a specific hybridization. Nucleic acids that do not hybridize to each other under stringent conditions are still substantially identical if the proteins that they encode are substantially identical. This occurs, e.g., when a copy of a nucleic acid is created using the maximum codon degeneracy permitted by the genetic code.

[0228] A "plant" is any plant at any stage of development, particularly a seed plant.

[0229] A "plant cell" is a structural and physiological unit of a plant, comprising a protoplast and a cell wall. The plant cell may be in form of an isolated single cell or a cultured cell, or as a part of higher organized unit such as, for example, plant tissue, a plant organ, or a whole plant.

[0230] "Plant cell culture" means cultures of plant units such as, for example, protoplasts, cell culture cells, cells in plant tissues, pollen, pollen tubes, ovules, embryo sacs, zygotes and embryos at various stages of development.

[0231] "Plant material" refers to leaves, stems, roots, flowers or flower parts, fruits, pollen, egg cells, zygotes, seeds, cuttings, cell or tissue cultures, or any other part or product of a plant.

[0232] A "plant organ" is a distinct and visibly structured and differentiated part of a plant such as a root, stem, leaf, flower bud, or embryo.

[0233] "Plant tissue" as used herein means a group of plant cells organized into a structural and functional unit. Any tissue of a plant in planta or in culture is included. This term includes, but is not limited to, whole plants, plant organs, plant seeds, tissue culture and any groups of plant cells organized into structural and/or functional units. "Plant tissue" includes differentiated and undifferentiated tissues or plants, including but not limited to roots, stems, shoots, leaves, pollen, seeds, tumor tissue and various forms of cells and culture such as single cells, protoplasts, embryos, and callus tissue. The plant tissue may be in plants or in organ, tissue or cell culture.

[0234] The use of this term in conjunction with, or in the absence of, any specific type of plant tissue as listed above or otherwise embraced by this definition is not intended to be exclusive of any other type of plant tissue.

[0235] The terms "maize", "corn" and "Zea mays" are used herein interchangeably and refer to plants belonging to the genus Zea including, for example, different strains, races or varieties, commercial and non-commercial, of the species Zea mays.

[0236] The present invention relates to a transgenic plant comprising stably integrated in its genome a chimeric polynucleotide construct, particularly a chimeric DNA construct, comprising a protein encoding polynucleotide of interest, particularly a polypeptide or protein encoding polynucleotide of interest, under control of a regulatory nucleotide sequence, at least part of which has a transcription initiation function directing expression of said protein encoding polynucleotide of interest to essentially all tissues of the plant with the exception of the tissues of the male reproductive structures, particularly the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0237] A regulatory nucleotide sequence according to the present invention at least part of which has a transcription initiation function which mediates expression of an operably associated protein encoding polynucleotide of interest in most plant tissues but the tissues of the male reproductive structures, particularly the tissues of the pollen and/or the tassel, may be obtained in an expression profiling experiment to screen for probes that give strong signals in all samples, but only a weak or no signal in the pollen and/or the tassel sample, which is indicative of expression of the respective polynucleotides represented by said probes in most plant tissues and of no or substantially no expression in the tissues of the pollen and/or the tassel. In particular, maize plant tissues and tissues of the reproductive structures, particularly tissues of the pollen and/or the tassel may be screened to identify and obtain a regulatory sequence according to the present invention.

[0238] In particular, samples of all plant tissues, particularly samples of the green tissues and the root of a maize plant, may be directly compared to tissue samples from the male reproductive structures, particularly tissue samples of the pollen and/or the tassel. Probes representing polynucleotides that do not meet the target expression profile are eliminated. Only those probes with the strongest signal across all non-pollen/non-tassel tissues and weak of no signal in pollen and/or the tassel are selected for further analysis that is probes representing polynucleotides that are highly expressed in all tissue samples, but show substantially no expression in pollen and/or the tassel. Said probes may then be aligned with plant cDNA assembly datasets to detect bona fide plant genes, particularly maize genes or putative maize genes.

[0239] The DNA sequence representing probes on the maize chip identified as representing genes that are highly expressed in all tissue samples but essentially not expressed in pollen, particularly probes represented by the DNA sequence as given in SEQ ID NOs: 47 to 56 and those representing genes that are highly expressed in all tissue samples and have essentially no or reduced expression in tassel samples, particularly probes represented by the DNA sequence a given in SEQ ID NOs: 57-79, can easily be extended to designed expression cassettes following the steps outlined in the Examples.

[0240] Probe candidate sequences from the expression profiling analysis for each expression category may be selected and progressed to a finished binary vector with the designed expression cassette linked to a gene of interest such as, for example, a reported gene, i.e., the GUS reporter gene.

[0241] In a first step, each expression cassette is flanked with one or more suitable restriction sites such as, for example, SanDI/RsrII sites and cloned into the vector molecule. The regulatory region including the transcription initiation function typically resides within a fragment of about 1000-1500 bp upstream of the transcription start site and extends into the second exon, or to the natural translation start codon if it is not on the first exon. It typically terminates with the maize optimized Kozak sequence `gtaaaccatgg`. The engineered translation start codon is then embedded in a suitable restriction site such as the NcoI restriction endonuclease site `ccatgg`. All translation start codons in the theoretical transcript that are upstream of the engineered restriction site are eliminated. At least one stop codon should be present in each reading frame upstream of the engineered restriction site. The regulatory region including the transcription initiation function is designed to be flanked by suitable restriction sites such as, for example, XhoI/SanDI sites at the 5'-end and a NcoI site at the 3'-end.

[0242] The Gene Of Interest (GOI) such as the GUS reporter gene is provided as a suitable restriction fragment, in the example given here as a NcoI/SacI fragment. The terminus extends from just after the translation stop codon for about 1 kb downstream. The terminus is designed to be flanked by suitable restriction sites such as, for example, SacI at the 5'-end and RsrII/XmaI at the 3'-end.

[0243] The complete expression cassette is designed to be mobilized as a suitable restriction fragment, such as a SanDI/RsrII fragment, which can be ligated into the corresponding site located on an Agrobacterium binary vector such as the vector given in SEQ ID NO: 80.

[0244] All internal restriction sites used in the cloning steps identified above are mutated by single base substitutions to silence them.

[0245] Through application of these basic steps a plant expression cassette can be designed that corresponds to the respective probe molecules, particularly probe molecules on the maize chip identified as representing genes that are highly expressed in all tissue samples but essentially not expressed in pollen, particularly probes represented by the DNA sequence as given in SEQ ID NOs: 47 to 56 and those identified as representing genes that are highly expressed in all tissue samples and have essentially no or reduced expression in tassel samples, particularly probes represented by the DNA sequence a given in SEQ ID NOs: 57-79. The former is an expression cassette that should be transcribed in all maize tissues and not in pollen. The latter is an expression cassette that should be transcribed in all maize tissues but not or only moderately transcribed in tassels. This design strategy can be applied to all probes identified in an expression profiling experiment.

[0246] In a specific embodiment of the invention, applying the above criteria results in the identification of genes which exhibit the desired expression profile. In particular, a gene is identified which encodes an actin binding protein 3 (ABP3), particularly a actin binding protein 3 of maize (ZmABP3), which is a member of a small gene family that had been previously characterized (Lopez et al., 1996). The gene product has also been called actin depolymerizing factor 3.

[0247] It was shown by southern analysis that there are two ABP3 genes in the maize genome (Lopez et al., 1996), designated herein as ZmABP3-A and ZmABP3-B, respectively. The ZmABP3-A and ZmABP3-B cDNAs encode a protein of 139 amino acids that are identical at all residues, except one. The expression profiling data indicate that ZmABP3-B is highly expressed in most tissues of the plant, but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent, whereas. ZmABP3-A is not as highly expressed.

[0248] A structural analysis of the ZmABP3-B gene reveals that the ZmABP3-B protein coding region is encoded on 3 exons, which are interrupted by two intervening sequences (introns) flanked by the expected GT . . . AG border nucleotides.

[0249] The regulatory sequence is located in the 5'-region of the ABP3 gene immediately upstream of the coding sequence. The size of the regulatory region is in a range of between about 2 kb to 3 kb, particularly between about 2.3 kb and 2.5 kb, and comprises a 5'-non-transcribed sequence, particularly a 5'-non-transcribed sequence of between about 0.9 kb and 1.3 kb, but especial of about 1.1 kb, and a 5'-UTR, particularly between about of 0.1 kb and 0.3 kb, but especially 0.25 kb of the 5'-UTR and all or part of a nucleotide sequence representing ZmABP3-intron 1, particularly a nucleotide sequence of between about 0.7 kb and 1.2 kb, but especially of about 0.98 kb.

[0250] The regulatory sequence according to the invention further comprises part of 3'-sequence that begins just past the ABP3 translation stop codon including transcribed but not translated sequence (UTR) and non-transcribed sequence that functions as the transcriptional terminator and a poly-adenylation signal. In particular, the 3'-sequence is in a range of between about 0.8 kb and about 1.2 kb, particularly between about 0.9 kb and about 1.1 kb, but especially about 1.013 kb. The size of the 3'-UTR is in a range of between about 0.2 kb and about 0.4 kb, but especially about 0.3 kb, and that of the non-transcribed sequence in a range of between about 0.5 kb and about 0.8 kb, but specifically about 0.7 kb.

[0251] In a specific embodiment of the invention, the regulatory sequence is modified such that the natural translation start codon is silenced in order to move it to the second exon.

[0252] In another embodiment of the invention, candidate probes can be identified on a DNA chip or gene array, particularly a maize DNA chip or gene array such as, for example, the maize Affymetrix® Chip applying the above criteria, which can be used in the identification of genes or putative genes on the maize genome which exhibit the desired expression profile. Two candidate probes were identified which demonstrate virtually no signal in tassel but a high signal in other tissues. This indicates that the gene represented by said candidate probes is not expressed in tassel, but is highly expressed throughout the rest of the plant. The greatest expression differential, 60-fold higher in non-tassel tissue, was observed in candidate probe Zm033444_S_AT. The other candidate probe (Zm040564_X_AT) showed signal variation depending on the development status of the probed plant material, i.e. a low signal in young tassel that gradually increases to a high or strong signal when the plant becomes older. The signal strength between tassel and non-tassel samples differed by less than 10-fold, but the signal strength in non-tassel samples was nearly 10-fold higher as compared to the other candidate probe. The sequence data indicate that neither probe corresponds to a characterized gene. Both probes identify good candidate genes for development of promoters that deliver high expression in non-tassel tissue and little or no expression in tassels. Given the high signal differential between tassel and non-tassel samples, an expression cassette based on probe Zm033444_S_AT was developed.

[0253] Public and proprietary databases can be queried by BLASTN with the candidate probe Zm033444_S_AT sequence to obtain DNA sequence evidence for both transcripts and gDNA corresponding to Zm033444_S_AT. cDNA hits with precise matches to the query sequence fell into two similar contigs. ZmABT1 corresponds to Maize.1482.c47 and Maize.1908.c31, and ZmABT2 corresponds to Maize.1482.c32, Maize.1482.c28, Maize.1482.c53, Maize.1908.c17, Maize.1908.c20, Maize.1908.c37 and AI947567.

[0254] The Zm033444_S_AT, ZmABT1 and ZmABT2 sequences can then be used to query maize genomic DNA sequence databases to identify the regulatory sequence(s) that give high expression in non-tassel tissue and little or no expression in tassels. These queries identified three entries, AZM4_--12, ZmGSStuc11-12-04.4740.1 and MAGI_--88845, that assemble into a single contig. The ZmABT gDNA sequence is shown in SEQ ID NO: 46. It encodes both the ZmABT1 and ZmABT2 transcript, which suggests that they are alternatively spliced variants of the same transcript.

[0255] ZmABT1 is encoded on 5 exons, and ZmABT2 is encoded on 6 exons. The additional exon lies between exon 1 and exon 2 of ZmABT1. The largest open reading frame on ZmABT1 and ZmABT2 can be used to define their translation start and stop codons and further to define the location of each translation start and stop codon. By this analysis both cDNAs use the same translation start and stop codon.

[0256] In one important aspect of the present invention the regulatory sequence according to the invention can be used in the development of robust expression cassettes that express recombinant genes in most tissues of the plant but not or substantially not in the tissues of the male reproductive structures, particularly the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0257] In a specific embodiment of the invention a regulatory sequence obtainable from a ABP3 gene, more particularly of regulatory sequence obtainable form a Zea mays ABP3 gene, can be used in the development of robust expression cassettes that express recombinant genes in most tissues of the plant but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent.

[0258] The transcription initiation region of the regulatory sequence according to the invention, particularly of regulatory sequence obtainable from a ABP3 gene, more particularly of regulatory sequence obtainable from a Zea mays ABP3 gene can be obtained in a PCR reaction containing a primer pair involving forward primer P1 (5'-atatatgcatgcggcgcgccgaaagtagcaaacaacaggttcatgtgcac-3') as depicted in SEQ ID NO: 1 and reverse primer P2 (5'-tatataccatggtgggtttgcctgcgaccacaagttca-3') as depicted in SEQ ID NO: 2 through amplification from a gDNA template, particularly a maize gDNA template. In a specific embodiment of the invention a thermocycling program is applied involving amplification at about 95° C. for about 15 minutes followed by about 45 cycles at about 94° C. for about 1 minute, at about 64° C. for about 1 minute and at about 72° C. for about 5 minutes. The final extension step is carried out at about 72° C. for about 15 minutes. The reaction product, particularly an about 2.3 kb reaction product, is purified and the DNA extracted using a DNA extraction method known in the art. The DNA is precipitated, recovered and finally cloned into a suitable vector.

[0259] The transcription initiation region according to the invention, particularly a transcription initiation region obtainable from an ABP3 gene, more particularly obtainable from a ZmABP3, may be modified in a series of reactions using at least one of the oligonucleotides selected from the group of oligonucleotides depicted in

TABLE-US-00001 SEQ ID NO: 3 (Patg (5'-cagctcgcccgagttggtaaggccccct-3')), SEQ ID NO: 4 (Pnco (5'-acagattagtccatcgcccacggt-3')), SEQ ID NO: 5 (ADPc-1 (5'-agccctgtccatgacggcccaagcaac-3')), SEQ ID NO: 6 (ADPc-2 (5'-agtagcaattcggtaggcacaggcac-3')), SEQ ID NO: 7 (ADPc-4 (5'-tctatggtctgcgaggtgcggtggc-3')), and SEQ ID NO: 8 (adp3-a (5'-gtccccttcttcgccgcgccagctcgc-3')).

[0260] The terminus of the regulatory sequence according to the invention, particularly a terminal sequence obtainable from an ABP3 gene, more particularly a terminal sequence obtainable from a ZmABP3, can be amplified from a gDNA template, particularly a maize gDNA template, in a DNA polymerase reaction using a forward primer (P3 (5'-tatatagagctcgcatcatgatcatgcatcatggact-3')) as depicted in SEQ ID NO: 9 and a reverse primer (P4 (5'-atatatactagtggcgcgccacactlictgtcgcatgtgatttgca-3')) as depicted in SEQ ID NO: 10. A thermocycling program may be applied comprising a first cycle of about 95° C. for about 5 minutes followed by about 45 cycles of about 94° C. for about 30 seconds, about 50° C. for about 1 minute and about 72° C. for about 4 minutes. The final extension step may be carried out at about 72° C. for about 15 minutes. The about 1 kb reaction product is then purified and the DNA extracted using standard extraction methods. The DNA is precipitated, recovered and cloned into a suitable vector.

[0261] The terminus of the regulatory sequence according to the invention, particularly a terminal sequence obtainable from a ABP3 gene, more particularly a terminal sequence obtainable from a ZmABP3, may be modified to remove an internal restriction site, particularly a Ncol restriction site using a suitable primer pair, particularly primer pair Tnco (5'-Pgtaaaaaaaggtcccttggctcccagaaga-3')/T2 (5'-Pcaatgtgttagactgacgtg-3') as depicted in SEQ ID NO: 11 and SEQ ID NO: 12, respectively, in a DNA polymerase reaction. The thermocycling program employed may comprise a first cycle at about 95° C. for about 5 minutes followed by about 30 cycles of about 95° C. for about 1 minute, about 50° C. for about 1 minute and about 65° C. for about 15 minutes. The product may then be processed and sequenced.

[0262] The present invention is also directed to expression cassettes that incorporate the regulatory mechanisms of a target gene of interest that shows the desired expression profile, that is high expression in most plant tissues but no expression in pollen tissue, particularly an ABP target gene, more particularly of a ZmABP3 target gene, to control in plants the expression of products of nucleic acid molecules of interest in a manner that mimics the expression profile of the original target gene.

[0263] The present invention further includes expression cassettes that incorporate regulatory sequences obtainable from the 5'-region of the target gene, particularly an ABP target gene, more particularly of a ZmABP3 target gene, to express the products of nucleic acid hb molecules of interest in plant tissues but not or substantially not in pollen tissue, The present invention is also directed to expression cassettes incorporating both regulatory sequences obtainable from the 5'-region and the 3'-region of the target gene, particularly an ABP3 target gene, more particularly of a ZmABP3 target gene.

[0264] In another specific embodiment of the invention a regulatory sequence obtainable from maize genomic DNA can be used in the development of robust expression cassettes that transcribe polynucleotides in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent.

[0265] An inclusive gene structure-based design strategy may be used to construct such an expression cassette. To incorporate the known alternative splicing of the putative maize gene identified in a method as described above into the expression cassette, the design strategy can be based on the structure of ZmABT1 transcript as shown in SEQ ID NO: 33.

[0266] The transcription initiation region of the regulatory sequence according to the invention, particularly of the ZmABT promoter region can be amplified from a maize gDNA template in a DNA polymerase reaction containing gDNA and a primer pair involving forward primer ABT P1 forw (5'-CGACCAGCGCGACATGCATGGCA-3') as depicted in SEQ ID NO: 19 and ABT P2 rev (5'-ACCCCAGGGCGTACGACAAG-GCC-3') as depicted in SEQ ID NO: 20. In a specific embodiment of the invention a thermocycling program is applied involving amplification at about 95° C. for about 5 minutes followed by about 40 cycles of 94° C. for about 30 seconds, about 67° C. for about 30 seconds and about 72° C. for about 2.5 minutes. The final extension step was done at about 72° C. for about 10 minutes.

[0267] This amplification reaction leads to an amplification product of about 2.6 kb, which can be purified and the DNA extracted using a standard DNA extraction method. The DNA can than be cloned into a suitable vector such as, for example, the pCR-BluntII-TOPO vector.

[0268] The ZmABT promoter can be modified in a series of mutagenesis reactions to silence the endogenous translation start codon, silence a SanDI restriction site and correct point mutations created during amplification. This can be done in a series of reactions using at least one of the oligonucleotides selected from the group of oligonucleotides depicted in

TABLE-US-00002 SEQ ID NO: 21 pABT mut1 (5'-GATGGCCGGATTGGGCTCCCGGGGTGGAG-3') SEQ ID NO: 22 pABT mut2 (5'-CTGGGAGGCGCGCAAGGGGCAGTTCCTCG-3') SEQ ID NO: 23 pABT mut3 (5'-CCCACCGCCGGAGCACCGAAAGGCCCCGCG-3') SEQ ID NO: 24 pABT mut4 (5'-GTCACCCGGGAGCACTTCCCGGCGCCG-3') SEQ ID NO: 25 pABT mut5 (5'-CATTGGGCCGAGCACGGCTTCTTCCGC-3') SEQ ID NO: 26 pABT mut6 (5'-GGGGTACGGTGTTCTTGAGTCGTGAAGCGAC-3')

[0269] The modified ZmABT promoter can the be amplified in another PCR reaction using primers pABT amp1 (5'-GCGTCTAGAGGGACCCCGACCAGCGCGACATGCAT-GGCA-3') as depicted in SEQ ID NO: 27 and pABT amp2 (5'-ACCCCAGGG-CGTACGACAAGGCCCCACCATGGGCGC-3') as depicted in SEQ ID NO: 28. The PCR product can then be purified and the DNA extracted using standard a DNA extraction method. The DNA can be cloned into a suitable vector such as, for example, the pCR-Bluntll-TOPO vector, transformed and sequenced. The ZmABT promoter can then be excised, particularly as an XbaI/NcoI fragment and ligated to a suitable expression vector such as, for example, pNOV6901.

[0270] In one embodiment of the invention, an expression cassette is provided comprising a termination sequence which can be obtained form the ZmABT gene identified and described herein above. The ZmABT terminus can be amplified from maize gDNA template in a DNA polymerase reaction containing gDNA and a primer pair involving forward primer ABT P4 (5'-TATATAGAGCTCGAATCGAAGAAGCCACA-CTGTAAATCTGCCGGG-3') as depicted in SEQ ID NO: 29 and reverse primer ABT P5 (5'-AGCAAGGCATATGCAGCAGCTGCTGGTCGGACCGGGCCCTATATA-3') as depicted in SEQ ID NO: 30 resulting in an amplification product of about 1 kb. This reaction product can be purified and the DNA extracted using a standard DNA extraction method. The purified DNA can then be cloned into a suitable vector such as, for example, the pCR4-TOPO-Blunt vector.

[0271] In one embodiment of the invention, the ZmABP3 terminus is modified to remove internal NcoI and XhoI restriction sites. This can be done in a series of reactions using at least one of the oligonucleotides selected from the group of oligonucleotides depicted in.

TABLE-US-00003 SEQ ID NO: 31 ABTt m1 (5'-GTCATGCATGGGCATGTGAAGGAGGAGCC-3') SEQ ID NO: 32 ABTt m2 (5'-GTTGCATGCATGCTGCATGGCGTCGAGAT-3')

[0272] The amplification product can then be processed and sequenced to result in a terminator sequence as shown in SEQ ID NO: 36.

[0273] In one embodiment of the invention, an expression cassette is provided that express recombinant genes in most tissues of the plant but essentially excluding the tissues of the tassel so that no expression product is present in said tissues to any significant extent, comprising both a regulatory sequence at least part of which has a transcription initiation function and a regulatory sequence at least part of which has a termination function, which regulatory sequences can be obtained form the ZmABT gene identified and described herein above.

[0274] In one embodiment of the invention such an expression cassette can be obtained by excising the ZmABT terminus excised and ligating it into a suitable vector already comprising a regulatory sequence at least part of which has a transcription initiation function, particularly the sequence of the ZmABT promoter such as, for example, the pNOV6901-prABT vector as described above.

[0275] In one embodiment, the expression cassette according to the invention comprises a regulatory nucleotide sequence comprising approximately 2.6 kb of the 5'-sequence, which consists of approximately 2 kb of 5'-non-transcribed sequence, and about 12 bp of 5'-UTR, approximately 0.6 kb representing exon 1, intron 1 and about 16 bp of exon 2; and approximately 1 kb of the 3'-sequence that begins just past the translation stop codon and includes approximately 0.6 kb of 3'-UTR and about 0.4 kb of non-transcribed sequence, and functions as the transcriptional terminator and poly-adenylation signal.

[0276] In one embodiment, an expression cassette according to the invention is provided wherein the natural translation start codon is silenced and moved to the second exon

[0277] The complete expression cassette can then be mobilized into a suitable vector for plant transformation and expression such as, for example, an Agrobacterium binary vector, particularly Agrobacterium binary vector 15289.

[0278] The nucleic acid segment of interest can, for example, code for a ribosomal RNA, an antisense RNA or any other type of RNA that is not translated into protein. In another preferred embodiment of the invention, the nucleic acid segment of interest is translated into a protein product. The nucleotide sequence which directs transcription and/or the nucleic acid segment may be of homologous or heterologous origin with respect to the plant to be transformed. A recombinant DNA molecule useful for introduction into plant cells includes that which has been derived or isolated from any source that may be subsequently characterized as to structure size and/or function, chemically altered, and later introduced into plants. Therefore a useful nucleotide sequence, segment or fragment of interest includes completely synthetic DNA, semi-synthetic DNA, DNA isolated from biological sources, etc. Generally, the introduced DNA is not originally resident in the plant genotype which is the recipient of the DNA, but it is within the scope of the invention to isolate a gene from a given plant genotype, and to subsequently introduce multiple copies of the gene into the same genotype, e.g., to enhance production of a given gene product such as a storage protein or a protein that is involved in carbohydrate metabolism or any other gene of interest as provided in the SEQ ID NOs of the sequence listing.

[0279] The introduced recombinant DNA molecule includes but is not limited to, DNA from plant genes, and non-plant genes such as those from bacteria, yeasts, animals or viruses. The introduced DNA can include modified genes, portions of genes, or chimeric genes, including genes from the same or different genotype. The term "chimeric gene" or "chimeric DNA" is defined as a gene or DNA sequence or segment comprising at least two DNA sequences or segments from species which do not combine DNA under natural conditions, or which DNA sequences or segments are positioned or linked in a manner which does not normally occur in the native genome of untransformed plant.

[0280] The introduced recombinant DNA molecule used for transformation herein may be circular or linear, double-stranded or single-stranded. Generally, the DNA is in the form of chimeric DNA, such as plasmid DNA,

[0281] In one embodiment, the regulatory sequences may be operably associated with an expressible polynucleotide of interest. The expressible polynucleotide may encode a polypeptide or protein of interest.

[0282] Such a polypeptide or protein of interest may be one exhibiting a certain biological activity such as, for example, an insecticidal, herbicidal or fungicidal activity or may contribute of an improved performance of a crop plant of agronomic interest in form of improved yield, quality, lodging, biotic and abiotic stress resistance, flowering control, etc.

[0283] In one embodiment, the concentration of the polypeptide product expressed from the protein encoding polynucleotide of interest in the tissues of the reproductive structures, particularly in the tissues of the pollen and/or the tassel, is such that no insecticidal activity can be detected in a standard insect feeding assay. In particular, the concentration of the expression product in the tissues of the male reproductive structures, particularly in the tissues of the pollen and/or the tassel, is below a basic level of about 10 ng/mg soluble protein, particularly of about 5 ng/mg soluble protein, more particularly of about 3 ng/mg soluble protein, but especially of about 2 ng/mg soluble protein or below.

[0284] In one specific embodiment of the invention, the polypeptide or protein of interest is an insecticidally active protein or polypeptide, particularly an insecticidally active protein or polypeptide obtainable from Bacillus thuringiensis, more particularly a Bacillus thuringiensis endotoxin such as, for example, crylA(b) endotoxin. Other endotoxins known to occur in Bacillus thuringiensis may likewise be used in association with the regulatory sequence according to the invention to obtain toxin expression in most plant tissues except pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0285] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes an endotoxin of Bacillus thuringiensis which has at least 80% sequence identity, particularly at least 85% sequence identity, particularly at least 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% sequence identity with a nucleotide sequence as depicted in SEQ ID NO:15.

[0286] In one embodiment, a transgenic plant according to the invention and as described herein is provided, wherein the polypeptide or protein encoding polynucleotide of interest encodes an endotoxin of Bacillus thuringiensis which has the nucleotide sequence as depicted in SEQ ID NO: 15.

[0287] Once completed, the expression cassette may be mobilized into a suitable vector for plant transformation, such as, for example, a binary vector, which may then be mobilized to maize via Agrobacterium-mediated transformation.

[0288] Transgenic plants (or plant cells, or plant explants, or plant tissues) incorporating the polynucleotides of the invention and/or expressing a polypeptide of interest such as, for example, a toxin protein of B. thuringiensis, can be produced by a variety of well established techniques. Following construction of an expression cassette and a vector incorporating the regulatory polynucleotide sequence according to the invention and as described herein, standard techniques can be used to introduce the polynucleotide into a plant, a plant cell, a plant explant or a plant tissue of interest. Optionally, the plant cell, explant or tissue can be regenerated to produce a transgenic plant. The plant can be any higher plant, including gymnosperms, monocotyledonous and dicotyledonous plants. Suitable protocols are available for Leguminosae (alfalfa, soybean, clover, etc.), Umbelliferae (carrot, celery, parsnip), Cruciferae (cabbage, radish, rapeseed, broccoli, etc.), Curcurbitaceae (melons and cucumber), Gramineae (wheat, corn, rice, barley, millet, etc.), Solanaceae (potato, tomato, tobacco, peppers, etc.), and various other crops. See protocols described in Ammirato et al., eds., (1984) Handbook of Plant Cell Culture--Crop Species, Macmillan Publ. Co., New York, N.Y.; Shimamoto et al. (1989) Nature 338: 274 276; Fromm et al. (1990) Bio/Technol. 8: 833 839; and Vasil et al. (1990) Bio/Technol. 8: 429 434. Transformation and regeneration of both monocotyledonous and dicotyledonous plant cells is now routine, and the selection of the most appropriate transformation technique will be determined by the practitioner. The choice of method will vary with the type of plant to be transformed; those skilled in the art will recognize the suitability of particular methods for given plant types. Suitable methods can include, but are not limited to: electroporation of plant protoplasts; liposome-mediated transformation; polyethylene glycol (PEG) mediated transformation; transformation using viruses; micro-injection of plant cells; micro-projectile bombardment of plant cells; vacuum infiltration; and Agrobacterium tumefaciens mediated transformation.

[0289] Transformation of plants can be undertaken with a single DNA molecule or multiple DNA molecules (i.e., co-transformation), and both these techniques are suitable for use with the expression cassettes of the present invention. Numerous transformation vectors are available for plant transformation, and the expression cassettes of this invention can be used in conjunction with any such vectors. The selection of vector will depend upon the preferred transformation technique and the target species for transformation.

[0290] A variety of techniques are available and known to those skilled in the art for introduction of constructs into a plant cell host. These techniques generally include transformation with DNA employing A. tumefaciens or A. rhizogenes as the transforming agent, liposomes, PEG precipitation, electroporation, DNA injection, direct DNA uptake, microprojectile bombardment, particle acceleration, and the like (See, for example, EP 295959 and EP 138341) (see below). However, cells other than plant cells may be transformed with the expression cassettes of the invention. The general descriptions of plant expression vectors and reporter genes, and Agrobacterium and Agrobacterium-mediated gene transfer, can be found in Gruber et al. (1993).

[0291] Expression vectors containing the regulatory polynucleotide sequence according to the invention can be introduced into protoplasts or into intact tissues or isolated cells. Preferably expression vectors are introduced into intact tissue. General methods of culturing plant tissues are provided for example by Maki et al., (1993); and by Phillips et al. (1988). Preferably, expression vectors are introduced into maize or other plant tissues using a direct gene transfer method such as microprojectile-mediated delivery, DNA injection, electroporation and the like. More preferably expression vectors are introduced into plant tissues using the microprojectile media delivery with the biolistic device. See, for example, Tomes et al. (1995). The vectors of the invention can not only be used for expression of structural genes but may also be used in exon-trap cloning, or promoter trap procedures to detect differential gene expression in varieties of tissues, (Lindsey et al., 1993; Auch & Reth et al.).

[0292] It is particularly preferred to use the binary type vectors of Ti and Ri plasmids of Agrobacterium spp. Ti-derived vectors transform a wide variety of higher plants, including monocotyledonous and dicotyledonous plants, such as soybean, cotton, rape, tobacco, and rice (Pacciotti et al., 1985: Byrne et al., 1987; Sukhapinda et al., 1987; Lorz et al., 1985; Potrykus, 1985; Park et al., 1985: Hiei et al., 1994). The use of T-DNA to transform plant cells has received extensive study and is amply described (EP 120516; Hoekema, 1985; Knauf, et al., 1983; and An et al., 1985). For introduction into plants, the chimeric genes of the invention can be inserted into binary vectors as described in the examples.

[0293] Those skilled in the art will appreciate that the choice of method might depend on the type of plant, i.e., monocotyledonous or dicotyledonous, targeted for transformation. Suitable methods of transforming plant cells include, but are not limited to, microinjection (Crossway et al., 1986), electroporation (Riggs et al., 1986), Agrobacterium-mediated transformation (Hinchee et al., 1988), direct gene transfer (Paszkowski et al., 1984), and ballistic particle acceleration using devices available from Agracetus, Inc., Madison, Wis. and BioRad, Hercules, Calif. (see, for example, Sanford et al., U.S. Pat. No. 4,945,050; and McCabe et al., 1988). Also see, Weissinger et al., 1988; Sanford et al., 1987 (onion); Christou et al., 1988 (soybean); McCabe et al., 1988 (soybean); Datta et al., 1990 (rice); Klein et al., 1988 (maize); Klein et al., 1988 (maize); Klein et al., 1988 (maize); Fromm et al., 1990 (maize); and Gordon-Kamm et al., 1990 (maize); Svab et al., 1990 (tobacco chloroplast); Koziel et al., 1993 (maize); Shimamoto et al., 1989 (rice); Christou et al., 1991 (rice); European Patent Application EP 0 332 581 (orchardgrass and other Pooideae); Vasil et al., 1993 (wheat); Weeks et al., 1993 (wheat). In one embodiment, the protoplast transformation method for maize is employed (European Patent Application EP 0 292 435, U.S. Pat. No. 5,350,689).

[0294] In another embodiment, a nucleotide sequence of the present invention is directly transformed into the plastid genome. Plastid transformation technology is extensively described in U.S. Pat. Nos. 5,451,513, 5,545,817, and 5,545,818, in PCT application no. WO 95/16783, and in McBride et al., 1994. Following transformation, plants are preferably selected using a dominant selectable marker incorporated into the transformation vector. Typically, such a marker will confer antibiotic or herbicide resistance on the transformed plants and selection of transformants can be accomplished by exposing the plants to appropriate concentrations of the antibiotic or herbicide.

[0295] After transformed plant cells or plants are selected and grown to maturity, those plants showing the trait of interest are identified. The trait can be any of those traits described above. Additionally, to confirm that the trait of interest is due to the expression of the introduced polynucleotide of interest under control of the regulatory nucleotide according to the invention, expression levels or activity of the polypeptide or polynucleotide of interest can be determined by analyzing mRNA expression using Northern blots, RT-PCR or microarrays, or protein expression using immunoblots or Western blots or enzyme activity assays.

[0296] The invention thus relates to plant cells and tissues, to plants derived from such cells and tissues, respectively, to plant material, to the progeny and to seeds derived from such plants, and to agricultural products including processed plant products with improved properties obtainable by, for example, any one of the transformation methods described below.

[0297] Once an expression cassette according the present invention and as described herein comprising a regulatory sequence according to the invention in association with a polynucleotide of interest has been transformed into a particular plant species, it may be propagated in that species or moved into other varieties of the same species, particularly including commercial varieties, using traditional breeding techniques. Preferred plants of the invention include gymnosperms, monocots, and dicots, especially agronomically important crop plants, such as rice, wheat, barley, rye, rape, corn, potato, carrot, sweet potato, sugar beet, bean, pea, chicory, lettuce, cabbage, cauliflower, broccoli, turnip, radish, spinach, asparagus, onion, garlic, eggplant, pepper, celery, carrot, squash, pumpkin, zucchini, cucumber, apple, pear, quince, melon, plum, cherry, peach, nectarine, apricot, strawberry, grape, raspberry, blackberry, pineapple, avocado, papaya, mango, banana, soybean, tobacco, tomato, sorghum and sugarcane.

[0298] The genetic properties engineered into the transgenic plants described above are passed on by sexual reproduction or vegetative growth and can thus be maintained and propagated in progeny plants. Generally said maintenance and propagation make use of known agricultural methods developed to fit specific purposes such as tilling, sowing or harvesting. Specialized processes such as hydroponics or greenhouse technologies can also be applied. Use of the advantageous genetic properties of the transgenic plants according to the invention can further be made in plant breeding that aims at the development of plants with improved properties such as tolerance to pests, herbicides, or stress, improved nutritional value, increased yield, or improved structure causing less loss from lodging or shattering. The various breeding steps are characterized by well-defined human intervention such as selecting the lines to be crossed, directing pollination of the parental lines, or selecting appropriate progeny plants. Depending on the desired properties different breeding measures are taken. The relevant techniques are well known in the art and include but are not limited to hybridization, inbreeding, backcross breeding, multiline breeding, variety blend, interspecific hybridization, aneuploid techniques, etc. Hybridization techniques also include the sterilization of plants to yield male or female sterile plants by mechanical, chemical or biochemical means. Cross pollination of a male sterile plant with pollen of a different line assures that the genome of the male sterile but female fertile plant will uniformly obtain properties of both parental lines. Thus, the transgenic plants according to the invention can be used for the breeding of improved plant lines that for example increase the effectiveness of conventional methods such as herbicide or pesticide treatment or allow to dispense with said methods due to their modified genetic properties. Alternatively new crops with improved stress tolerance can be obtained that, due to their optimized genetic "equipment", yield harvested product of better quality than products that were not able to tolerate comparable adverse developmental conditions.

[0299] In one embodiment of the invention, the plant has been transformed with and expresses a polypeptide or protein encoding nucleotide sequence encoding a polypeptide product exhibiting an insecticidal activity, particularly an endotoxin of Bacillus thuringiensis in most tissues of the plant but essentially excluding the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent, where the nucleotide sequence is not transcribed to any significant extent. Therefore, essentially no expression occurs in the pollen and/or the tassel tissue and only residual amounts of the expression product, if any, can be detected in said tissues, which is not sufficient for the expression product to fulfil its envisaged biological function in said tissues or to exhibit any toxic effects either towards insects feeding on these tissues or the plant itself.

[0300] In particular, the concentration of the polypeptide product expressed from the protein encoding polynucleotide of interest in the tissues of the pollen and/or the tassel is such that no insecticidal activity can be detected in a standard insect feeding assay. In one embodiment of the invention, the concentration of the expression product in pollen is below a basic level of about 10 ng/mg soluble protein, particularly of about 5 ng/mg soluble protein, more particularly of about 3 ng/mg soluble protein, but especially of about 2 ng/mg soluble protein or below.

[0301] The invention also provides methods for preparing expression cassettes comprising the regulatory sequence according to the invention comprising linking an expressible polynucleotide encoding a polypeptide or a protein of interest with the regulatory sequence according to the invention and as described herein to obtain an expression construct, wherein the polynucleotide of interest is operably linked or associated with the regulatory sequence such that expression of the polypeptide or a protein of interest is mediated by the regulatory sequence according to the invention and results in the expression of said polypeptide or a protein of interest in essentially all plant tissues, but essentially excludes expression in the tissues of the reproductive structures of the plant, particularly in the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent.

[0302] In one embodiment, the invention relates to a method of producing a transgenic plant expressing a DNA sequence of interest in non-pollen tissue but not or substantially not in the tissues of the pollen and/or the tassel, comprising

[0303] a) transforming an expression cassette according to the invention and as described herein into a plant cell which comprises a regulatory nucleotide sequence, at least part of which has a transcription initiation function which mediates expression of an operably associated protein encoding polynucleotide of interest in most plant tissues but essentially excluding the tissues of the pollen and/or the tassel so that no expression product is present in said tissues to any significant extent; and

[0304] b) regenerating the plant cell transformed in step a) into a plant.

[0305] In one embodiment, the invention relates to a method of controlling insect target-pests feeding on vegetative plant tissues such as the leaf, stalk and root and/or on reproductive tissues such as the ear, but protecting non-target pests feeding on pollen comprising

[0306] a) growing a plant according to the invention and as described herein in an area that is infested with the target pest;

[0307] b) expressing a polypeptide or protein that is capable of controlling said target pest under the control of a regulatory sequence according to the invention and as described herein.

[0308] In one embodiment, the invention relates to a method of protecting the reproductive tissues of a plant, particularly the tissues of the pollen and/or the tassel against damage caused by expression in said tissues of a polypeptide or protein of interest comprising

[0309] a) growing a plant according to the invention and as described herein;

[0310] b) expressing a polypeptide or protein of interest under the control of a regulatory sequence according to the invention and as described herein.

[0311] In one embodiment the present invention relates to the use of a regulatory sequence according to the present invention and as disclosed herein for controlling insect target-pests feeding on vegetative plant tissues such as the leaf, stalk and root and/or on reproductive tissues such as the ear, but protecting non-target pests feeding on pollen comprising

[0312] a) growing a plant according to the invention and as described herein in an area that is infested with the target pest;

[0313] b) expressing a polypeptide or protein that is capable of controlling said target pest under the control of a regulatory sequence according to the invention and as described herein.

[0314] In one embodiment the present invention relates to the use of a regulatory sequence according to the present invention and as disclosed herein for protecting the reproductive tissues of a plant, particularly the tissues of the pollen and/or the tassel against damage caused by expression in said tissues of a polypeptide or protein of interest comprising expressing said polypeptide or protein of interest under the control of a regulatory sequence according to the invention and as described herein.

EXAMPLE

[0315] The following Examples provide illustrative embodiments. In light of the present disclosure and the general level of skill in the art, those of skill will appreciate that the following Examples are intended to be exemplary only and that numerous changes, modifications, and alterations can be employed without departing from the scope of the presently claimed subject matter.

[0316] All manipulations and techniques necessary to construct and propagate strains described in this invention are known to those skilled in the art. Technical details are described e.g. in Ausubel et al 1995; Sambrook, J, 2001 and Miller, J. H. 1992 and in relevant publications cited within this invention.

Example 1

Non-Pollen Expression

Example 1.1

Identification of ZmABP3

[0317] In an expression profiling experiment a maize developmental series was queried on a Zea mays (Zm80K) Affymetrix chip for probes that gave strong signals in all samples, but not or substantially not in the pollen sample. All the green tissue and root samples were directly compared to pollen, and probes representing polynucleotides that did not meet the target expression profile were eliminated. The analysis produced two sets of results. The first set contains 36 probes representing polynucleotides that were highly expressed in all the tissue samples, but very low in pollen. The second set contains 10 probes represented polynucleotides that are highly expressed in all tissue samples, but gave no signal in pollen. Alignment of probe sequence with maize cDNA assembly datasets showed that all 46 probes represent bona fide maize genes. The top 10 probes are those with the strongest signal across all non-pollen tissues and no signal in pollen (see Table A).

[0318] Applying further criteria including determination of the availability of genomic DNA (gDNA) and cDNA sequence for each lead produced Zm07728_s_at as the top candidate that met all promoter development requirements. Literature analysis revealed that this probe represents the gene encoding actin binding protein 3 (ZmABP3) which is a member of a small gene family that had been previously characterized (Lopez et al., 1996). The gene product has also been called actin depolymerizing factor 3. Lopez et al (1996) confirms in FIG. 3 that ZmABP3 is highly expressed in most tissues of the plant examined, except pollen samples. Lopez et al (1996) also show by southern analysis that there are two ABP3 genes in the maize genome. The ZmABP3 cDNA they report is GenBank Accession X97726, and it corresponds to the TIGR Accession TC248585. This gene was designated ZmABP3-A. Both ZmABP3 genes are represented on the maize (Zm80K) Affymetrix Chip: ZmABP3-A corresponds to probe Zm007595_at and ZmABP3-B corresponds to Zm07728_s_at. The `Zm07728_s_at` sequence was used to identify the TC248588 in the TIGR database, and MAIZE.974.CB1 in a maize cDNA assembly database. It also identified the MAGI_--93606, MAGI_--93607, AZM4_--39177, ZmGSStuc11-12-04.2725.1, ZmGSStuc11-12-04.2725.2 and CC463190 g DNA sequences. The ZmABP3-A and ZmABP3-B cDNAs encode proteins that are identical at all residues, except one. The expression profiling data indicate that ZmABP3-B is highly expressed in most tissues of the plant, but essentially excluding the tissues of the pollen so that no expression product is present in said tissues to any significant extent. ZmABP3-A is not as highly expressed.

[0319] SEQ ID NO: 16 show that the ZmABP3-B mRNA is encoded on 3 exons. The two intervening sequences (introns) are bracketed by the expected GT . . . AG border nucleotides.

[0320] More specifically, SEQ ID NO: 16 discloses the design of the ZmABP3 expression cassette. The ZmABP3 regulatory components to be included in the construct are 2.3 kb of 5'-sequence (prZmABP3-01) which contains 1.1 kb of 5'-non-transcribed sequence, 0.25 kb of 5'-UTR and 0.98 kb representing ZmABP3-B-intron 1; and 1.013 kb of 3'-sequence (tZmZBP3-01) that begins just past the ABP3-B translation stop codon. This includes about 0.3 kb of 3'-UTR and 0.7 kb of non-transcribed sequence.

[0321] Table A shows a summary of the to 10 candidate probes representing polynucleotides with a high expression level in all maize tissues and no expression signal in pollen

TABLE-US-00004 Average Expression (all Zea mays Probe Name Description of Reference Gene Pollen Expression tissues) TIGR Hit AF032370_at "Zea mays profilin (PRO4) mRNA, complete cds." absent 4208 TC269677 Ctrl_ZmU45855-3_at From 808 to 1307 of glyceraldehyde-3-phosphate absent 4275 TC269361 dehydrogenase GAPC2 (gpc2) mRNA, complete cds. Zm001747_s_at Similar to CAA63903.1 Pennisetum glaucum; heat shock absent 4945 TC268849 protein 17.9; P. glaucum mRNA for heat shock protein, HSP 17.9 Zm005803_s_at "Similar to AAB99745.1 Triticum aestivum; HSP70; absent 4091 TC247918 Triticum aestivum 70 kDa heat shock protein (TaHSP70d) mRNA, complete cds; 70 kDa heat shock protein, molecular chaperone" Zm007728_s_at Similar to SW: ADF3_MAIZE Q41764 zea mays (maize). absent 4805 TC248588 actin-depolymerizing factor 3 (adf 3) (zmabp3) (zmadf3). Zm009722_s_at "Similar to BAC22420.1 Oryza sativa (japonica cultivar- absent 3306 TC248975 group);; Oryza sativa (japonica cultivar-group) genomic DNA, chromosome 7, PAC clone: P0453E03; contains ESTs C96778(C10671), D22278(C10671) unknown Zm015335_s_at Similar to SW: RS5A_ARATH Q9zut9 arabidopsis thaliana absent 3598 TC269022 (mouse-ear cress). 40s ribosomal protein s5-1. 2/2003 Zm021004_s_at "Similar to AAD39835.1 Arabidopsis thaliana; Ran-binding absent 3092 TC259986 protein siRanBP; Arabidopsis thaliana Ran-binding protein (siRanBP) mRNA, complete cds; atranbp1a homolog" Zm058948_s_at No Description absent 4337 TC270333 Zm061393_s_a No Description = sucrose synthase absent 6509 TC258905

Example 1.2

Cry1AbG6 Construction

[0322] Cry1AbG6 (2814 bp) is a modified version of the full-length Cry1Ab (pNOV1321, 3546 bp) gene. The Geiser sequence (81 bp from 4398-4478 in pNOV1321) and the 3'-end (651 bp from 4908-5558 in pNOV1321) were deleted.

[0323] The Cry1AbG6 sequence was constructed from pNOV1321 (source vector for the Cry1Ab full-length gene) as follows: pNOV1321 plasmid DNA was cut with BamHl/Sacl. The Cry1Ab full-length gene (3546 bp, named Michigan) was gel purified and ligated to pTrcHisB expression vector (In vitrogen life technologies, Cat# V36020), which was cut with BamHl/Sacl. This construct was named as Michigan-pTrcHisB. The Geiser sequence (81 bp) was deleted from Michigan-pTrcHisB by overlapping PCR with the following primers:

TABLE-US-00005 (SEQ ID NO: 83) 5'Bfr1 (5'-cctggtggagtgcttaagcgacgagttctgcctgg- 3'), (SEQ ID NO: 84) 3'Xba1 (5'-gggclictcctccaggaactctagattgcccaggcg- 3'), (SEQ ID NO: 85) 5'Gfix (5'-catcggcaagtgccaccacagccaccacttcagcctg- 3') and (SEQ ID NO: 86) 3'Gfix (5'-gctgtggtggcacttgccgatggggctggg-3').

[0324] PCR product A was made using high-fidelity PCR with Michigan-pTrcHisB as a template, and the 5' Bfr1 and 3' Gfix primers. PCR product B was made using high-fidelity PCR with Michigan-pTrcHisB as a template, and the 5'Gfix and 3'Xba1 primers. The final PCR used products A and B as templates, and the 5'Bfr1 and 3'Xba1 primers. The final PCR band was digested with AflII/XbaI and gel-purified. This fragment was ligated to Michigan-pTrcHisB that had also been digested with XbaI/AflII. The correct recombinant DNA product was identified by AflII/XbaI digestion analysis. This construct was named as Cry1Ab-G.

[0325] A second PCR product was made by high-fidelity PCR using pNOV1321 as a template, the 5'1Ab5XbaI (5'-gcccgcctgggcaatctagagttcctggaggag-3') primer depicted in SEQ ID NO: 87, and the 3'1Ab3d6 (5'-gcgagctcctagatgcggccctcga-glicctcgaaga-3') primer depicted in SEQ ID NO: 88. The PCR product was digested with XbaI/SacI then ligated to Cry1Ab-G that was also digested with XbaI/SacI. The correct recombinant DNA product was identified using BamHI/SacI restriction analysis. This construct was named as Cry1AbG6.

[0326] The Cry1AbG6 sequence was subjected to QuikChange mutagenesis to remove an internal NcoI site. The 25 μL reaction contained

[0327] 1 μL Cry1AbG6 template,

[0328] 2.5 μL 10× QuikChange buffer,

[0329] 1 μL QuikChange dNTP mix,

[0330] 1 μL of 20 μM cy2' (5'-Pccctgtacggcacgatgggcaacgctgca-3'; SEQ ID NO: 89),

[0331] 0.75 μL Quik solution and

[0332] 1 μL QuikChange DNA polymerase.

[0333] The thermocycling program was 95° C. for 5 minutes followed by 30 cycles of 95° C. for 1 minute, 55° C. for 1 minute and 65° C. for 20 minutes. The product was processed as described by the manufacturer (Stratagene) and completely sequenced.

[0334] The Cry1AbG6 coding sequence was amplified from the mutagenized plasmid template, above, in a 50 μL Pfu turbo (Stratagene) DNA polymerase reaction containing

[0335] 5 μL template,

[0336] 5 μL 10×Pfu buffer,

[0337] 1 μL 10 mM dNTP mix,

[0338] 1 μL of 20 μM cy1 (5'-atatatccaccatggacaacaaccccaaca-3'; SEQ ID NO: 90),

[0339] 1 μL of 20 μM cy2 (5'-tatatagagctcctagatgcggccctcgagt-3'; SEQ ID NO: 91) and

[0340] 1 μL Pfu turbo DNA polymerase.

[0341] The thermocycling program was 95° C. for 2 minutes followed by 40 cycles of 95° C. for 1 minute, 50° C. for 1 minute and 72° C. for 7 minutes. The final extension step was 72° C. for 15 minutes. The 2.8 kb reaction product was gel-purified on 1% TAE agarose, and the DNA was extracted using Qiaprep DNA extraction method. The recovered DNA was digested with NcoI/SacI, then ligated to pNOV6901 vector that was also digested with NcoI/SacI. This operation replaced the GUS coding sequence in pNOV6901 with Cry1AbG6. The Cry1AbG6 sequence is given in SEQ ID NO: 15.

Example 1.3

Construction of the ZmABP3 Expression Cassette

[0342] An inclusive design strategy was used to develop the ZmABP3 expression cassette. The cassette contains 2.3 kb of 5'-sequence which consists of 1.1 kb of 5'-non-transcribed sequence, 0.25 kb of 5'-UTR and 0.98 kb representing ZmABP3-intron 1. The natural translation start codon was silenced in order to move it to the second exon. The expression cassette also contains 1.013 kb of 3'-sequence that begins just past the ABP3 translation stop codon. This includes about 0.3 kb of 3'-UTR and 0.7 kb of non-transcribed sequence, and functions as the transcriptional terminator and poly-adenylation signal.

[0343] The ZmABP3 terminus was amplified from maize gDNA template in a 50 μL Proofstart (Qiagen) DNA polymerase reaction containing

[0344] 10 μg gDNA,

[0345] 5 μL 10× Proofstart buffer,

[0346] 1.5 μL 10 mM dNTP mix,

[0347] 2.5 μL of 20 μM P3 (5'-tatatagagctcgcatcatgatcatgcatcatggact-3'; SEQ ID NO: 9),

[0348] 2.5 μL of 20 μM P4 (5'-atatatactagtggcgcgccacactlictgtcgcatgtgatttgca-3'; SEQ ID NO: 10),

[0349] 10 μL Q solution and

[0350] 2 μL Proofstart DNA polymerase.

[0351] The thermocycling program was 95° C. for 5 minutes followed by 45 cycles of 94° C. for 30 seconds, 50° C. for 1 minute and 72° C. for 4 minutes. The final extension step was 72° C. for 15 minutes. The 1 kb reaction product was gel-purified on 1% TAE agarose, and the DNA was extracted using Qiaprep DNA extraction method. The DNA was ethanol precipitated and recovered in 4 μL ddH₂O, then cloned into the pCR4-TOPO-Blunt vector.

[0352] The ZmABP3 terminus was modified to remove an internal NcoI restriction site using the Stratagene QuikChange Multi-site mutagenesis kit. The 25 μL reaction contained

[0353] 1 μL pCR4-TOPO-ZmABP3-terminus,

[0354] 2.5 μL 10× QuikChange buffer,

[0355] 1 μL QuikChange dNTP mix,

[0356] 1 μL of 20 μM Tnco (5'-Pgtaaaaaaaggtcccttggctcccagaaga-3'; SEQ ID NO: 11),

[0357] 1 μL of 20 μM T2 (5'-Pcaatgtgttagactgacgtg-3'; SEQ ID NO: 12),

[0358] 0.75 μL Quik solution and

[0359] 1 μL QuikChange DNA polymerase.

[0360] The thermocycling program was 95° C. for 5 minutes followed by 30 cycles of 95° C. for 1 minute, 50° C. for 1 minute and 65° C. for 15 minutes. The product was processed as described by the manufacturer (Stratagene) and completely sequenced. The ZmABP3-terminus sequence is shown in SEQ ID NO: 14.

[0361] The ZmABP3 promoter was amplified from maize gDNA template in a 50 μL Hotstart (Qiagen) DNA polymerase reaction containing

[0362] 10 μg gDNA,

[0363] 25 μL 2× Hotstart Master Mix,

[0364] 1.25 μL of 20 μM P1 (5'-atatatgcatgcggcgcgccgaaagtagcaaacaacagglicatgtgcac-3'; SEQ ID NO: 1),

[0365] 1.25 μL of 20 μM P2 (5'-tatataccatggtggglitgcctgcgaccacaaglica-3'; SEQ ID NO: 2), 10.5 μL Q solution and

[0366] 2 μL 25 mM MgCl₂.

[0367] The thermocycling program was 95° C. for 15 minutes followed by 45 cycles of 94° C. for 1 minute, 64° C. for 1 minute and 72° C. for 5 minutes. The final extension step was 72° C. for 15 minutes. The 2.3 kb reaction product was gel-purified on 1% TAE agarose, and the DNA was extracted using Qiaprep DNA extraction method. The DNA was ethanol precipitated and recovered in 4 μL ddH₂O, then cloned into the pCR4-TOPO vector.

[0368] The ZmABP3 promoter was modified in a series of QuikChange reactions as outlined above using the following oligonucleotides:

TABLE-US-00006 Patg (5'-cagctcgcccgagttggtaagg- ccccct-3'; SEQ ID NO: 3), Pnco (5'-acagattagtccatcgcccacg- gt-3'; SEQ ID NO: 4), ADPc-1 (5'-agccctgtccatgacggccc- aagcaac-3'; SEQ ID NO: 5), ADPc-2 (5'-agtagcaattcggtaggcac- aggcac-3'; SEQ ID NO: 6), ADPc-4 (5'-tctatggtctgcgaggtgcg- gtggc-3'; SEQ ID NO: 7), and adp3-a (5'-gtccccttcttcgccgcgcc- agctcgc-3'; SEQ ID NO: 8).

[0369] The ZmABP3 promoter sequence is shown in SEQ ID NO: 13.

[0370] The ZmABP3 terminus was ligated to the pNOV6901-Cry1AbG6 vector (from Example 2) as a SacI/SpeI fragment. The ZmABP3 Promoter was subsequently ligated to the vector as a SphI/NcoI fragment. This produced ZmABP3-Cry1AbG6-assembly, shown in SEQ ID NO: 37. The complete ZmABP3-Cry1AbG6 expression cassette was mobilized into a binary vector, pNOV6900, as an AscI fragment. These constructs, ZmABP3-Cry1AbG6-6900 and enhanced ZmABP3-Cry1AbG6-binary, are shown in SEQ ID NOS: 38 and 39, respectively. The only difference between these vectors is the presence of the CaMV-FMV dual enhancer in enhanced ZmABP3-Cry1AbG6-binary. Both were mobilized to maize via Agrobacterium-mediated transformation.

Example 1.4

Construction of ZmABP3-AmCyan

[0371] The Cry1AbG6 coding sequence was excised from ZmABP3-Cry1AbG6-assembly as an NcoI/SacI fragment. It was replaced with the AmCyan reporter gene coding sequence that was excised from plasmid 13718 as an NcoI/SacI fragment. This produced the ZmABP3-AmCyan-assembly construct shown in SEQ ID NO: 40. The ZmABP3-AmCyan expression cassette was mobilized into a binary vector, pNOV6900, as an AscI fragment. This construct, ZmABP3-AmCyan-binary, is shown in SEQ ID NO: 41. It was mobilized to maize via Agrobacterium-mediated transformation.

Example 1.5

Expression from ZmABP3-AmCyan in Transgenic Maize

[0372] Several transgenic maize events containing the ZmABP3-AmCyan expression cassette were produced. Those containing a single-copy of the transgene and no un-intended vector sequence were analyzed. All transgenic events accumulated AmCyan transcript in leaf tissue (data not shown). Several tissues from a representative event were examined for AmCyan transcript accumulation. Total RNA was prepared using the Plant RNAeasy total RNA isolation system (Qiagen). Pollen total RNA was prepared using the method described by Shirzadegan et al (1991). Preparation quality was assessed by UV spectrophotometry, and 10 μg of total RNA per sample was resolved on a 1% formaldehyde gel then transferred to Nytran SuPerCharge membrane following the recommended protocol (Schleicher & Schuell). The blot was hybridized to a random-primed ³²P-labeled AmCyan DNA probe using high stringency conditions. The results clearly show that ZmABP3 promotes transcription in tassel, leaf, silk, ear and root tissue, but does not promote transcription in pollen.

Example 1.6

Expression from ZmABP3-Cry1AbG6 in Transgenic Maize

[0373] Several transgenic maize events containing the ZmABP3-Cry1AbG6 expression cassette were produced. Those containing a single-copy of the transgene and no un-intended vector sequence were analyzed. The T0 events were tested for insecticidal activity against corn earworm twice during the course of development. The first samples were taken at V2-V4, and the second samples were taken at V7-V9. Leaf discs from lower leaf tips were excised and placed on water-moistened Whatman paper in 47×10 mm petri dishes. Ten-to-twenty L1 corn earworm or European corn borer larvae were added to each dish, and they were incubated for 48 hours at 28° C. Leaf discs were then scored for insect damage. Samples with no visible leaf damage and absolute mortality were scored as positive, and those with visible damage were negative. The data obtained show that several transgenic events with activity against both insects were identified.

[0374] Cry1AbG6 protein accumulation was also measured in TO plants using the enzyme-linked immunosorbent assay (ELISA) with a fully-truncated Cry1Ab standard. The first assay was done on seedling leaf tissue, sampled 1-2 weeks after transfer to soil. The second assay was done on leaf tissue from maturing plants, sampled just prior to the transition to reproductive development. The data in TABLE B show the range of Cry1AbG6 protein accumulated in plants with insecticidal activity. The data indicate that plants require nearly 50 ng (or more) Cry1AbG6 protein/mg extractable protein to have insecticidal activity.

[0375] TABLE B shows the insect control characteristics of greenhouse grown plants.

TABLE-US-00007 Cry1 AbG6 (ng/mg extract- Corn Earworm ECB Event Cassette able protein) Activity Activity Number Description seedling adult V2-V4 V7-V9 V7-V9 1 ABP3-Cry1Abg6 63 79 + + + 2 ABP3-Cry1Abg6 54 56 + + + 3 ABP3-Cry1Abg6 85 108 + + + 4 ABP3-Cry1Abg6 67 94 + + + 5 ABP3-Cry1Abg6 45 83 + +/- +/- 6 ABP3-Cry1Abg6 68 120 + + + 7 ABP3-Cry1Abg6 133 159 + + + 8 ABP3-Cry1Abg6 96 46 + + + 9 ABP3-Cry1Abg6 138 101 + + + 10 ABP3-Cry1Abg6 131 100 + + + 11 ABP3-Cry1Abg6 94 65 + + + 12 ABP3-Cry1Abg6 111 59 + + + 13 ABP3-Cry1Abg6 139 60 + + + 14 ABP3-Cry1Abg6 121 81 15 ABP3-Cry1Abg6 66 55 + + + 16 ABP3-Cry1Abg6 130 95 + + +

[0376] Leaf tissue from TO plants was assayed for Cry1AbG6 protein by ELISA using truncated Cry1Ab protein as standard, Corn Earworm activity and European Corn Borer (ECB) activity. The plant developmental stage when sampled is indicated at the top of each column. The older (lower) leaf tissue was sampled. For insect assays a (+) indicates no visible leaf damage and complete and absolute insect mortality. Visible leaf damage produced a (-) score.

Example 1.7

European Cornborer Efficacy of ZmABP3-Cry1AbG6 Events in the Field

[0377] The ECB (European corn borer) field efficacy studies were conducted in Stanton, Minn. (SMN) and Bloomington, Ill. (BIL) during the 2006 growing season. Near-isogenic hybrids, comprising the ABP3-Cry1AbG6 events listed in TABLE C, Bt11, and a nontransgenic control hybrid were tested. The experimental design was randomized complete block with three replications in each location. A plot consisted of one 5.31 m long row containing 25 plants, with 0.76 m spacing between rows.

[0378] TABLE C shows the performance of ZmABP3-Cry1AbG6 maize in field studies.

TABLE-US-00008 MG371 MG331 BIL SMN Trial ECB ECB Location ECBLR ECBKN ECBSN ECBLR ECBKN ECBSN Trial Type Leaf CEBSN Ear Stalk Leaf CEBSN Ear Stalk Event Cassette Feeding Shank Feeding Feeding Feeding Shank Feeding Feeding Number Description Rating (cm) (cm) (cm) Rating (cm) (cm) (cm) 1 ABP3-Cry1Abg6 1.0 0.00 1.42 0.00 1.1 0.00 0.00 0.30 2 ABP3-Cry1Abg6 1.0 0.00 1.42 0.08 1.0 0.00 0.15 0.10 3 ABP3-Cry1Abg6 1.0 0.00 1.25 0.08 1.0 0.00 0.00 0.80 4 ABP3-Cry1Abg6 1.0 0.00 1.57 0.00 1.0 0.10 0.51 1.10 5 ABP3-Cry1Abg6 1.0 0.00 1.25 0.04 1.0 0.00 0.07 0.20 6 ABP3-Cry1Abg6 1.0 0.00 1.08 0.00 7 ABP3-Cry1Abg6 1.0 0.00 1.31 0.00 1.1 0.10 0.45 0.80 8 ABP3-Cry1Abg6 1.0 0.04 2.00 0.08 1.1 0.00 0.00 0.30 9 ABP3-Cry1Abg6 1.0 0.00 0.92 0.00 1.3 0.00 0.00 0.10 10 ABP3-Cry1Abg6 1.0 0.00 1.42 0.04 1.2 0.00 0.00 0.40 11 ABP3-Cry1Abg6 1.0 0.13 1.17 0.00 1.0 0.00 0.00 0.10 12 ABP3-Cry1Abg6 1.0 0.00 1.62 0.08 1.1 0.00 0.17 0.30 13 ABP3-Cry1Abg6 1.0 0.00 1.29 0.00 1.2 0.00 0.00 0.20 14 ABP3-Cry1Abg6 1.0 0.00 1.10 0.13 1.0 0.00 0.07 0.10 15 ABP3-Cry1Abg6 1.0 0.08 1.33 0.04 1.1 0.00 0.24 0.20 16 ABP3-Cry1Abg6 1.0 0.00 1.33 0.21 1.0 0.00 0.00 0.10 Bt11 1.0 0.00 2.75 0.00 1.3 0.00 0.00 0.00 Negative Check 7.0 0.21 3.00 4.67 4.3 0.40 5.80 13.50 Rep with data 3 3 3 3 3 3 3 3 Loc with data 1 1 1 1 1 1 1 1 Design Used RCB RCB RCB RCB RCB RCB RCB RCB LSD (5%) General EE 0.149 0.923 0.257 0.399 0.200 1.988 0.650 LSD (5%) Excluded Negatives 0.158 0.936 0.255 0.397 0.181 0.505 1.391 CV % 242.21 38.47 72.14 20.10 292.75 138.76 120.87 Probablitiy % 0.90 0.09 0.00 0.00 4.10 0.00 0.00

[0379] Two studies were undertaken in Bloomington, Ill. (BIL) and Stanton, Minn. (SMN) in 2006. Several ZmABP3-Cry1AG6 events were compared to positive and negative benchmarks represented by Bt11 and Negative Check, respectively.

[0380] First-instar ECB larvae were produced from a laboratory colony following procedures outlined in Guthrie (1989) at the Syngenta Seeds, Inc. entomology laboratory in Slater, Iowa. Eggs were incubated at about 28° C. and approximately 80% relative humidity, and neonates were collected from hatching containers approximately 6 hours after hatch. Larvae were healthy and vigorous when placed on the plants as indicated by movement.

[0381] Two ECB application types were performed: ECB1, applied at approximately leaf stage V6-V8 and ECB2, applied at pollen shed. The applications were made with the BioServe Davis Inoculator using 1 ml corn cob grits per application. For ECB1 (first-generation ECB infestation) a total of about 150 larvae were placed into the whorl of each plant, in corn cob grits. Two to four applications were made, with one to six days between each application. The first plant in the row was not treated, and then up to 10 consecutive plants were infested.

[0382] For ECB2 (second-generation ECB infestation) a total of about 200 larvae were applied per plant, placed into the ear leaf axil and leaf axils directly above or below the ear, in corn cob grits. Four applications were made, with one to six days between each application. Up to ten consecutive plants on the opposite end of the row from the ECB1 treatment were infested. The last plant in the row was not treated.

[0383] The following observations were recorded. For ECB1, up to eight consecutive infested plants in the row were evaluated for foliar ECB damage (ECBLR in TABLE C) at least 14 days after the first infestation. The Guthrie scale of 1-9 (Guthrie et al. (1960) was used and one rating, the average for the evaluated plants, was recorded for each plot. For ECB2, approximately 45 days after the plants were infested, up to eight consecutively infested plants on the opposite end of the row from the ECB1 evaluations were dissected to assess ear shank, ear kernel, and stalk feeding, by measuring feeding tunnel lengths (cm).

[0384] ECB2 data were subjected to analyses of variance appropriate for a randomized complete block design. Replications were considered random while all other effects were considered fixed. Mean separation was done using the least significant difference (LSD) procedure, but only if the F-test for entries was significant at the customary 5% significance level. Because there was no variability among the events in the ECB1 data, an analysis of variance was not done for this trait. The data and analysis are summarized in TABLE D. In general, the data show that ZmABP3-Cry1ABG6 affords protection against ECB similar to that observed in Bt11 material.

[0385] TABLE D shows the amount of Cry1AbG6 protein in transgenic maize tissue. The youngest developing leaf was tested for Cry1AbG6 by ELISA at 5 developmental stages (V5-V6, V8, V10, R1, R3-R4) for each plant. Cry1AbG6 was also measured in pollen. Events 5, 12, 15 and 16 express the ABP3-Cry1AbG6 construct, and Events A-D express the enhanced ABP3-Cry1Ab construct. Data shown are the mean±SD (n=8-10).

TABLE-US-00009 Developmental Stage V5-V6 V8 V10 R1 R3-R4 Pollen Event 5 39(3.8) 38(2.7) 61(8.2) 75(5.3) 60(3.5) 1.5(0.14) Event 12 61(5.2) 32(1.9) 50(6.1) 44(5.1) 49(4.4) 1.4(0.39) Event 15 45(4.5) 45(4.8) 46(4.8) 38(7.4) 55(5.4) 1.0(0.14) Event 16 58(5.4) 30(2.9) 47(5.3) 53(7.2) 44(4.6) 1.2(0.17) Event A 260(24) 190(22) 250(18) 200(21) 150(14) 1.3(0.19) Event B 260(22) 227(29) 240(30) 200(23) 150(76) 1.6(0.30) Event C 310(31) 210(26) 270(26) 150(15) 160(16) 1.9(0.31) Event D 310(30) 180(23) 240(15) 170(26) 150(18) 1.4(0.19)

Example 1.8

Use of ZmABP3 Expression Cassette to Improve Drought Tolerance in Maize

[0386] A deregulated form of an Arabidopsis H⁺-pyrophosphatase (AtAVP1 D) has been shown to improve drought tolerance when over-expressed in several plants (Gaxiola et al., 2001; Park et al., 2005). The improved performance is enabled by high expression throughout the plant. To demonstrate the utility of AtAVP1D to improve drought tolerance in maize, a maize-optimized coding sequence was synthesized. The sequence of the AtAVP1D synthetic gene is shown in SEQ ID NO: 16. It was ligated to the ZmABP3 expression cassette as an NcoI/SacI fragment. The vector map shown in SEQ ID: 42 illustrates the ZmABP3-AtAVP1D expression cassette. The complete ZmABP3-AVP1 D expression cassette was excised from the Assembly vector as a SanDI/RsrII fragment and ligated to the RsrII site of the Agrobacterium binary vector, 15289. A map of the construct is shown in SEQ ID NO: 43.

Example 1.9

Measurement of Cry1AbG6 in Maize Tissue

[0387] Hybrid T1 seed (in the ID5829/AX5707 background) for several ZmABP3-Cry1ABG6 events were produced at a Syngenta field station in Bloomington, Ill. Several seed were germinated in 2 inch pots. Seedlings were tested for transgene zygosity, and only hemizygotes were retained. A minimum of 8 plants per event were transplanted to 3 gallon pots and grown in a temperature controlled greenhouse. Leaf tissue from each plant was sampled and assayed for Cry1AbG6 protein at 5 stages of development, V5-V6, V8, V10, R1, and R3-R4 (Ritchie et al., 1997). Pollen was also collected and assayed for Cry1AbG6 protein.

[0388] At each stage, leaf tissue (minus the collar, midrib and sheath) was sampled from the youngest expanding leaf. Duplicate samples were pulverized in 96-well blocks. The powder was suspended in 500 μL-1 mL extraction buffer (0.1 M Sodium Borate, 0.5% Tween 20, 0.2% Polyvinylpyrrolidone, 0.05% Sodium Azide, and 1× protease inhibitor cocktail tablets (Roche)). The mixture was clarified by centrifugation and soluble protein quantified using the BCA assay. Fresh pollen was collected in 1.5 mL Eppendorf tubes. Three 3 mm glass beads were added to each tube and the samples were frozen at -80° C. Samples were then pulverized in a horizontal oscillator at 600 rpm. Protein was extracted by adding 500 μL-1 mL extraction buffer and incubating at 4° C. for 30 minutes. The samples were clarified by centrifugation at 4° C., and the soluble protein in each sample was quantified by BCA Assay.

[0389] Samples were normalized for protein content and Cry1AbG6 was quantified by ELISA using fully-truncated Cry1Ab as a standard. Each data point is the mean of duplicate measurements, taken at a different dilution of total protein. Data for each event are reported as the mean±SD for all siblings.

[0390] Results in TABLE D show that the ZmABP3-Cry1AbG6 cassette produces steady Cry1AbG6 protein in leaf tissue throughout development. Some reduction in CryAbG6 protein is evident as the vegetative tissue begins to senesce (R3-R4). Also evident is the 3-5 fold increase in Cry1AbG6 accumulation in events that also have the CaMV-FMV dual-enhancer complex. Finally, the data show virtually no detectable Cry1AbG6 protein in pollen. In all events CryAbG6, on average, accumulates to less than 1.5 ng/mg total soluble protein. Furthermore, the dual-enhancer complex does not influence Cry1AbG6 accumulation in pollen; it is identical between all events. This is consistent with our data showing that ZmABP3 is not transcribed in pollen (Example 1.5). We conclude that detectable Cry1AbG6 in pollen was likely produced in the microspore mother cells or their progenitors, and carried to pollen through cell division.

Example 2

Non-Tassel Expression

Example 2.1

Identification of ZmABT

[0391] 2.1.1 Expression Profiling Experiment:

[0392] A maize developmental series on the Zm80K Affymetrix chip, was queried for probes that gave strong signals in all samples, and a low or no signal in the tassel samples. Twenty-three (23) probes were identified representing polynucleotides that met the expression criteria. To better represent the differential expression signal between the tassel samples and other tissue samples, the ratio of mean signal for other samples and tassel was calculated for each probe. This indicates the expression differential between tassel and other samples. Any signal below 50 is in the experimental noise, which means the gene may not be transcribed or is transcribed at a very low level. To understand the expression level of each gene represented by candidate probes, a second expression profiling study was queried. In this experiment tissues from two maize genotypes were hybridized to the Zm80K Affymetrix chip. In general signals over 1000 indicate high expression and signals over 10,000 indicate very high expression.

[0393] 2.1.2 Identification of candidate probes:

[0394] Two top candidate probes were identified. Probe Zm033444_S_AT demonstrates virtually no signal in tassel and a high signal in other tissues. This indicates that the gene represented by Zm033444_S_AT is not expressed in tassel and is highly expressed throughout the rest of the plant. It also demonstrates the greatest expression differential, 60-fold higher in non-tassel tissue. Probe Zm040564_X_AT has a low signal in young tassel that gradually increases to a high or strong signal. The signal strength between tassel and non-tassel samples differs by less than 10-fold. However the signal strength in non-tassel samples is nearly 10-fold higher than Zm033444_S_AT. The sequence data indicate that neither probe corresponds to a characterized gene. Both probes identify good candidate genes for development of promoters that deliver high expression in non-tassel tissue and little or no expression in tassels. Given the high signal differential between tassel and non-tassel samples, an expression cassette based on probe Zm033444_S_AT was developed.

[0395] Table E: shows a summary of the top candidate probes representing polynucleotides with a high expression level in all maize tissues and low expression signal in tassel

TABLE-US-00010 Mean in- duction in BH Q- non-tassel V9 V12 V15 Probe P-Value Value samples tassel tassel tassel Zm033444 _s_at 0.00 0.00 60 16.2 10.2 132 Zm002990_s_at 0.00 0.00 45 32.8 68.7 47.8 Zm006285_at 0.00 0.00 20 37.9 44.1 35.8 Zm000019_at 0.00 0.00 16 117 200 242 Zm006481_s_at 0.00 0.00 14 26.9 32.1 31.5 Zm002987_at 0.00 0.00 14 83.7 80.8 119 Zm004433_at 0.00 0.00 12 53.8 35.3 127 Zm010323_s_at 0.00 0.00 11 45.4 63 71.5 Zm016864_s_at 0.01 0.01 11 89.5 55.6 1280 Zm018791_at 0.01 0.01 11 41.4 34.7 252 Zm028405_s_at 0.00 0.00 10 69 65.1 89 Zm021403_at 0.00 0.00 10 42.2 41.4 71 Zm054116_s_at 0.00 0.00 10 93.3 62.4 219 Zm002990_x_at 0.00 0.00 10 13.6 29.5 29.2 Zm005761_at 0.00 0.00 9.6 33.2 40 46.7 Zm035082_s_at 0.00 0.00 8.5 83 84 143 Zm066342_at 0.00 0.00 8.2 52.9 59.2 199 Zm032921_s_at 0.00 0.00 8.1 57.5 29.8 90.5 Zm040564_x_at 0.01 0.01 7.5 277 143 3710 Zm051284_at 0.01 0.01 6.5 53.2 40 194 Zm011554_at 0.03 0.04 5.4 72.5 64.2 895 Zmmetall_x_at 0.01 0.01 5.3 325 199 2330 Zm011554_x_at 0.04 0.04 4.9 63.5 62.6 664

Example 2.2

Development of an Expression Cassette

[0396] DNA sequence evidence to identify cDNAs corresponding to Zm033444_S_AT was collected. Public and proprietary databases were queried by BLASTN with Zm033444_S_AT sequence. cDNA hits with precise matches to the query sequence fell into two similar contigs. ZmABT1 corresponds to Maize.1482.c47 and Maize.1908.c31, and ZmABT2 corresponds to Maize.1482.c32, Maize.1482.c28, Maize.1482.c53, Maize.1908.c17, Maize.1908.c20, Maize.1908.c37 and AI947567. The Zm033444_S_AT, ZmABT1 and ZmABT2 sequences were used to query maize genomic DNA sequence databases to identify the regulatory sequence(s) that give high expression in non-tassel tissue and little or no expression in tassels. The queries identified three entries, AZM4_--12, ZmGSStuc11-12-04.4740.1 and MAGI_--88845, that assemble into a single contig. The ZmABT gDNA sequence is shown in SEQ ID NO: 46. It encodes both ZmABT1 and ZmABT2 (SEQ ID NO: 33 and 34, respectively). They are alternatively spliced variants of the same transcript.

[0397] ZmABT1 is encoded on 5 exons, and ZmABT2 is encoded on 6 exons. The additional exon lies between exon 1 and exon 2 of ZmABT1. The largest open reading frame on ZmABT1 and ZmABT2 was used to define their translation start and stop codons. Both cDNAs used the same translation start and stop codon. This information enabled the design of a ZmABT-based expression cassette.

Example 3

Construction of a ZmABT-GUS Expression Cassette

[0398] An inclusive, gene structure-based design strategy was used to construct the ZmABT expression cassette. To incorporate the known alternative splicing of this gene into the expression cassette, the design strategy was based on the structure of ZmABT1. The cassette contains 2.615 kb of 5'-sequence, which consists of 2.020 kb of 5'-non-transcribed sequence, 12 bp of 5'-UTR and 0.58 kb representing exon 1, intron 1 and 16 bp of exon 2. The natural translation start codon was silenced in order to move it to the second exon. The expression cassette also contains 1.039 kb of 3'-sequence that begins just past the translation stop codon. This includes 0.603 kb of 3'-UTR and 0.436 kb of non-transcribed sequence, and functions as the transcriptional terminator and poly-adenylation signal.

[0399] The ZmABT promoter was amplified from maize gDNA template in a 50 μL Proofstart (Qiagen) DNA polymerase reaction containing 10 μg gDNA, 5 μL 10× Proofstart Buffer, 1.0 μL 10 mM dNTP mix, 1.0 μL of 20 μM ABT P1 forw (5'-CGACCAGCGCGACATGCATGGCA-3'; SEQ ID NO: 19), 1.0 μL of 20 μM ABT P2 rev (5'-ACCCCAGGGCGTACGACAAGGCC-3'; SEQ ID NO: 20), and 10.0 μL 5×Q solution. The thermocycling program was 95° C. for 5 minutes followed by 40 cycles of 94° C. for 30 seconds, 67° C. for 30 seconds and 72° C. for 2.5 minutes. The final extension step was 72° C. for 10 minutes. The 2.6 kb reaction product was gel-purified on 1% TBE agarose and the DNA was extracted using Qiaprep DNA extraction method. The DNA was cloned into the pCR-BluntII-TOPO vector.

[0400] The ZmABT promoter was modified in a series of mutagenesis reactions to silence the endogenous START codon, silence a SanDI restriction site and correct point mutations created during amplification. This was done using the Stratagene QuikChange Multi-site mutagenesis kit. The 25 μL reaction contained 1 μL pCR4-TOPO-ZmABT-promoter, 2.5 μL 10× QuikChange buffer, 1 μL QuikChange dNTP mix, 0.75 μL Quik solution, 1 μL QuikChange DNA polymerase and 1 μL of 20 μM of at least one of the following oligonucleotides:

TABLE-US-00011 (SEQ ID NO: 21) pABT mutt (5'-GATGGCCGGATTGGGCTCCCGGGGTGGAG-3') (SEQ ID NO: 22) pABT mut2 (5'-CTGGGAGGCGCGCAAGGGGCAGTTCCTCG-3') (SEQ ID NO: 23) pABT mut3 (5'-CCCACCGCCGGAGCACCGAAAGGCCCCGCG-3') (SEQ ID NO: 24) pABT mut4 (5'-GTCACCCGGGAGCACTTCCCGGCGCCG-3') (SEQ ID NO: 25) pABT mut5 (5'-CATTGGGCCGAGCACGGCTTCTTCCGC-3') (SEQ ID NO: 26) pABT mut6 (5'-GGGGTACGGTGTTCTTGAGTCGTGAAGCGAC-3')

[0401] The thermocycling program was 95° C. for 1 minute followed by 35 cycles of 95° C. for 1 minute, 50° C. for 1 minute and 65° C. for 12 minutes. The product was processed as described by the manufacturer (Stratagene) and completely sequenced. The ZmABT promoter sequence is shown in SEQ ID NO: 35.

[0402] The corrected ZmABT promoter was PCR amplified from the TOPO vector in a 50 μL Proofstart (Qiagen) DNA polymerase reaction as above using primers pABT amp1 (5'-GCGTCTAGAGGGACCCCGACCAGCGCGACATGCATGGCA-3'), depicted in SEQ ID NO: 27 and pABT amp2 (5'-ACCCCAGGGCGTACGACAA-GGCCCCACCATGGGCGC-3'), depicted in SEQ ID NO: 28. The PCR product was gel-purified on 1% TBE agarose and the DNA was extracted using Qiaprep DNA extraction method. The DNA was cloned into the pCR-BluntII-TOPO vector, transformed and sequenced. The ZmABT promoter was excised as an XbaI/NcoI fragment and ligated to pNOV6901.

[0403] The ZmABT terminus was amplified from maize gDNA template in a 50 μL Extensor (ABgene) DNA polymerase reaction containing 10 μg gDNA, 5 μL 10× Extensor buffer #1, 2.0 μL 10 mM dNTP mix, 2.0 μL of 20 μM ABT P4 (5'-TATATAGAGCTCGAATCGAAGAAGCCACACTGTAAATCTGCCGGG-3'; SEQ ID NO: 29), 2.0 μL of 20 μM ABT P5 (5'-AGCAAGGCATATGCAGCAGCTGCT-GGTCGGACCGGGCCCTATATA-3'; SEQ ID NO: 30), 10 μL 5×Q solution, 0.5 μL Extensor DNA polymerase and 0.5 μL Amplitaq DNA polymerase. The reactions were overlaid with mineral oil and the thermocycling program was 95° C. for 2 minutes followed by 40 cycles of 98° C. for 2 seconds, 63° C. for 1 minute and 68° C. for 4 minutes. The final extension step was 68° C. for 7 minutes. The 1 kb reaction product was gel-purified on 1% TAE agarose, and the DNA was extracted using Qiaprep DNA extraction method. The DNA was ethanol precipitated and recovered in 4 μL ddH₂O, then cloned into the pCR4-TOPO-Blunt vector.

[0404] The ZmABT terminus was modified to remove internal NcoI and XhoI restriction sites using the Stratagene QuikChange Multi-site mutagenesis kit, as above. The 25 μL reaction contained 1 μL pCR4-TOPO-ZmABT-promoter, 2.5 μL 10× QuikChange buffer, 1 μL QuikChange dNTP mix, 0.75 μL Quik solution, 1 μL QuikChange DNA polymerase and 1 μL of 20 μM of at least one of the following oligonucleotides:

TABLE-US-00012 (SEQ ID NO: 31) ABTt m1 (5'-GTCATGCATGGGCATGTGAAGGAGGAGCC-3') (SEQ ID NO: 32) ABTt m2 (5'-GTTGCATGCATGCTGCATGGCGTCGAGAT-3')

[0405] The thermocycling program was 95° C. for 1 minute followed by 35 cycles of 95° C. for 1 minute, 50° C. for 1 minute and 65° C. for 13 minutes. The product was processed as described by the manufacturer (Stratagene) and completely sequenced. The ZmABT terminator sequence is shown in SEQ ID NO: 36.

[0406] The ZmABT terminus was excised as a SacI/Apal fragment and ligated to pNOV6901-prABT vector (above). This produced plasmid 15772 (ZmABT Assembly), and a plasmid map is shown in SEQ ID NO: 44. The complete ZmABT expression cassette was mobilized as a SanDI/RsrII fragment into the RsrII site of the Agrobacterium binary vector 15289. A plasmid map of this construct, 15773, is shown in SEQ ID NO: 45.

Example 4

Extension of DNA Probe Sequences to Designed Expression Cassettes

[0407] DNA sequence representing probes on the maize chip can easily be extended to designed expression cassettes following the steps outlined above. The DNA sequence for probes identified as representing genes that are highly expressed in all tissue samples and not expressed in pollen (Table A) and those that are highly expressed in all tissue samples and have reduced expression in tassel samples (Table E) is reported as SEQ ID NOs: 47-79.

[0408] An additional probe candidate from the expression profiling analysis for each expression category was selected to demonstrate progression from this DNA sequence to a finished binary vector with the designed expression cassette linked to the GUS reporter gene. The method used is identical to that for ZmABP3 and ZmABT. In summary the process steps to be applied are as follows:

[0409] 1. Flank each expression cassette with SanDI/RsrII sites and report as cloned into the RsrII site of 15289 (SEQ ID NO: 80).

[0410] 2. Promoter consists of 1000-1500 bp of sequence upstream of the transcription start site and extends 10 bases into the second exon, or to the natural translation start codon if it is not on the first exon. It terminates with the maize optimized Kozak sequence `gtaaaccatgg`. The engineered translation start codon is now embedded in the NcoI restriction endonuclease site `ccatgg`. Mutate all translation start codons in the theoretical transcript that are upstream of the engineered NcoI site. Ensure at least one stop codon is in each reading frame upstream of the engineered NcoI site.

[0411] The promoter is designed to be flanked by XhoI/SanDI at the 5'-end and NcoI at the 3'-end.

[0412] 3. The Gene Of Interest (GOI) is represented by the GUS reporter gene as an NcoI/SacI fragment.

[0413] 4. The terminus extends from just after the translation stop codon for 1 kb downstream. The terminus is designed to be flanked by SacI at the 5'-end and RsrII/XmaI at the 3'-end.

[0414] 5. The complete expression cassette is designed to be mobilized as a SanDI/RsrII fragment, which can be ligated into an RsrII site located on an Agrobacterium binary vector such as 15289 (SEQ ID NO: 80).

[0415] 6. Mutate all internal SanDI, RsrII, NcoI, SacI, XhoI and XmaI sites by single base substitution to silence them.

[0416] Through application of these basic steps a plant expression cassette (SEQ ID NO: 81) can be designed that corresponds to probe Zm058948_s_at (SEQ ID NO: 55) and a plant expression cassette (SEQ ID NO: 82) that corresponds to probe Zm002990_s_at (SEQ ID NO: 62). The former is an expression cassette that should be transcribed in all maize tissues and not in pollen. The latter is an expression cassette that should be transcribed in all maize tissues and have reduced transcription in tassels. This design strategy applies to all probes identified in Tables A and E.

[0417] Further details of how to make such expression cassettes are described in US2005235311, which is incorporated herein by reference in its entirety.

REFERENCES

[0418] Ammirato et al., eds., (1984) Handbook of Plant Cell Culture--Crop Species, Macmillan Publ. Co., New York, N.Y.

[0419] An et al., (1985) EMBO J. 4, 277 287

[0420] Auch & Reth et al.

[0421] Batzer, et al., Nucleic Acid Res. 19:5081 (1991)

[0422] Byrne, M. C., McDonnell, R. E., Wright, M. S. and Carnes, M. G., 1987. "Strain and Cultivar Specificity in the Agrobacterium-soybean Interaction." Plant Cell Tissue and Organ Culture 8:3-15

[0423] Christou et al., Plant Physiol. 87:671-674 (1988)

[0424] Christou et al., Biotechnology 9: 957-962 (1991)

[0425] Crossway et al., Bio Techniques 4:320-334 (1986)

[0426] Datta et al., Bio/Technology 8:736-740 (1990)

[0427] Fromm et al., Bio/Technology 8:833-839 (1990)

[0428] Gaxiola, R. A., Li, J., Undurraga, S., Dang, L. M., Allen, G. J. Alper, S. L., Fink, G. R. (2001). Drought- and salt-tolerant plants result from over-expression of the AVP1 H⁺-pump. Proc. Natl. Acad. Sci. USA 98: 11444-11449.

[0429] Gordon-Kamm et al., Plant Cell 2:603-618 (1990)

[0430] Gruber, et al., "Vectors for Plant Transformation, in Methods in Plant Molecular Biology & Biotechnology" in Glich, et al., (Eds. pp. 89-119, CRC Press, 1993).

[0431] Guthrie, W. D., F. F. Dicke, and C. R. Neiswander (1960) Leaf and sheath feeding resistance to the Eur. corn borer in eight inbred lines of dent corn. Ohio Agric. Exp. Stn. Res. Bull. 860.

[0432] Guthrie, W. D. (1989) Advances in Rearing the European Corn Borer on a Meridic Diet, In: Toward Insect Resistant Maize for the Third World; Proceedings of the International Symposium on Methodologies for Developing Host Plant Resistance to Maize Insects. Mexico, D. F.: CIMMYT

[0433] Hiei et al., (1994) Plant J. 6, 271-282

[0434] Hinchee et al., Biotechnology 6:915-921 (1988)

[0435] Hoekema (1985) The Binary Plant Vector System, Offsetdrukkerij Kanters B. V., Alblasserdam, Chap. V

[0436] Klein et al., Proc. Natl. Acad. Sci. USA, 85:4305-4309 (1988)

[0437] Klein et al., Bio/Technology 6:559-563 (1988)(maize); Klein et al., Plant Physiol. 91:440-444 (1988)

[0438] Knauf, et al., 1983

[0439] Koziel et al., Biotechnology 11: 194-200 (1993)

[0440] Lindsey K, Wei W, Clarke M C, McArdle H F, Rooke L M, Topping J F. Tagging genomic sequences that direct transgene expression by activation of a promoter trap in plants. Transgenic Res. 1993 January; 2(1):33-47.

[0441] Lopez, I, Anthony, R. G., Maciver, S. K., Jiang, C.-J., Khan, S., Weeds, A. G., Hussey, P. J. (1996) Pollen specific expression of maize genes encoding actin depolymerizing factor-like proteins. Proc. Natl. Acad. Sci. USA. 93: 7415-7420.

[0442] Lorz et al. (Mol. Gen. Genet. 199, 178, (1985))

[0443] McBride, et al. (1994) Proc. Natl. Acad. Sci. USA 91:7301-7305

[0444] McCabe et al., Biotechnology 6:923-926 (1988)

[0445] Ohtsuka, et al., J. Biol. Chem. 260:2605-2608 (1985)

[0446] Pacciotti et al. (1985) Bio/Technology 3:241

[0447] Park et al., 1985

[0448] Park, S., Li, J., Pittman, J. K., Berkowitz, G. A., Yang, H., Undurrago, S., Morris, J., Hirschi, K. D., Gaxiola, R. A. (2005). Up-regulation of a H⁺-pyrophosphatase (H⁺-PPase) as a strategy to engineer drought-resistant crop plants. Proc. Natl. Acad. Sci. USA 102: 18830-18835.

[0449] Paszkowski et al., EMBO J. 3:2717-2722 (1984)

[0450] Pearson, W. R. (1990), Methods in Enzymology 183, 63-98

[0451] Potrykus, I., Paszkowski, J. P., Saul, M. W., Petruska, P. and Shillito, R. D. 1985. Molecular and general genetics of a hybrid foreign gene introduced into tobacco by direct gene transfer. Mol. Gen. Genet. 199:169-177.

[0452] Ritchie, S. W., Hanway, J. J., Benson, G. O. (1997). How a corn plant develops: Special Report No. 48. Iowa State University of Science and Technology Cooperative Extension service: Ames, Iowa.

[0453] Riggs et al., Proc. Natl. Acad. Sci. USA 83:5602-5606 (1986)

[0454] Rossolini, et al., Mol. Cell. Probes 8:91-98 (1994)

[0455] Sambrook et al. supra; Molecular Cloning, a Laboratory Manual, Maniatis et al. (eds) Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y. (1982); Advanced Bacterial Genetics, Davis et al. (eds.) Cold Spring Harbor Laboratory, Cold Spring Harbor, N.Y. (1980)

[0456] Sanford et al., Particulate Science and Technology 5:27-37 (1987)

[0457] Shimamoto et al., Nature 338: 274-277 (1989)

[0458] Shirzadegan, M., Christie, P., Seemann, J. (1991) An efficient method for isolation of RNA from tissue-cultured plant cells. Nucleic Acids Res. 19(21): 6055.

[0459] Smith and Waterman, Advances in Applied Mathematics 2 (1981), 482-489

[0460] Sukhapinda et al., Plant Mol. Biol., vol. 8:209-216, 1987

[0461] Svab et al., Proc. Natl. Acad. Sci. USA 87: 8526-8530 (1990)

[0462] Tijssen (1993) Laboratory Techniques in Biochemistry and Molecular Biology-Hybridization with Nucleic Acid Probes part I chapter 2 "Overview of principles of hybridization and the strategy of nucleic acid probe assays" Elsevier, N.Y.,

[0463] Vasil et al., Biotechnology 11: 1553-1558 (1993)

[0464] Weeks et al., Plant Physiol. 102: 1077-1084 (1993)

[0465] Weissinger et al., Annual Rev. Genet. 22:421-477 (1988)

Patent Literature:

[0465]

[0466] EP 0 332 581

[0467] EP 0 292 435

[0468] EP 0 295959

[0469] EP 0 138341

[0470] EP 0 120516

[0471] U.S. Pat. No. 5,451,513

[0472] U.S. Pat. No. 5,545,817

[0473] U.S. Pat. No. 5,545,818

[0474] U.S. Pat. No. 5,350,689

[0475] U.S. Pat. No. 5,451,513,

[0476] U.S. Pat. No. 4,945,050

[0477] WO 95/16783

Sequence CWU 1

1

91150DNAArtificial Sequencemisc_feature(1)..(50)forward primer P1 1atatatgcat gcggcgcgcc gaaagtagca aacaacaggt tcatgtgcac 50238DNAArtificial Sequencemisc_feature(1)..(38)reverse primer P2 2tatataccat ggtgggtttg cctgcgacca caagttca 38328DNAArtificial Sequencemisc_feature(1)..(28)oligonucleotide Patg 3cagctcgccc gagttggtaa ggccccct 28424DNAArtificial Sequencemisc_feature(1)..(24)oligonucleotide Pnco 4acagattagt ccatcgccca cggt 24527DNAArtificial Sequencemisc_feature(1)..(27)oligonucleotide ADPc-1 5agccctgtcc atgacggccc aagcaac 27626DNAArtificial Sequencemisc_feature(1)..(26)oligonucleotide ADPc-2 6agtagcaatt cggtaggcac aggcac 26725DNAArtificial Sequencemisc_feature(1)..(25)oligonucleotide ADPc-4 7tctatggtct gcgaggtgcg gtggc 25827DNAArtificial Sequencemisc_feature(1)..(27)oligonucleotide adp3-a 8gtccccttct tcgccgcgcc agctcgc 27937DNAArtificial Sequencemisc_feature(1)..(37)forward primer P3 9tatatagagc tcgcatcatg atcatgcatc atggact 371046DNAArtificial Sequencemisc_feature(1)..(46)reverse primer P4 10atatatacta gtggcgcgcc acactttctg tcgcatgtga tttgca 461130DNAArtificial Sequencemisc_feature(1)..(30)forward primer Tnco 11gtaaaaaaag gtcccttggc tcccagaaga 301220DNAArtificial Sequencemisc_feature(1)..(20)forward primer T2 12caatgtgtta gactgacgtg 20132333DNAZea mays 13gcatgcggcg cgccgaaagt agcaaacaac aggttcatgt gcactataaa aagacaaaat 60tctcgagttt catcttttat tccacataag ccttatattt tccattttca tatgattttt 120agtttaagtt tgtgtcttaa ctttttcgtt aatacgtaat tctatgcatt atggatgcgt 180gaagtatttt tgtttaaaaa aatgaaatgt caaaatacgt tttgtgatct atttccatgt 240tttcacctaa caggtggttt ttactatata ttctgccata actctagcct tagatgtaaa 300tcgaaaaaaa atgagagatg agctggagat agccttagat gaagcgtctg aaatataaaa 360gaaagagtaa tgttgaacgc agtaggtgta gcagctgtag ttccatctct aggaaaggga 420actgcaatcc gggctccggg cctcgcgcaa tctggcctgt cgtgtagatg cagccctgtc 480catgacggcc caagcaacgc ccgcggctct cgatccacca cggaacccac tccgacacac 540actgacacac acatgctgga tgtggatgtg ctgtccaatt attagtagca attcggtagg 600cacaggcacg tactggccgg tgttttagct gtaagtaccg aaccaatcac ggttaagaac 660cgattaatcc gtgcccagcc gccgagtgcg ttcgtacgtg catcggatgc actgcatgaa 720ttgagagcat catcatatca tacgcaggag tagtacgacg ccgctgctgt cttgtccggc 780taatgctttg ctcacagatt agtccatcgc ccacggtcgg tgtggtgtgg atcgctgatg 840ccactgcttt ttgtttggtt tttattcccc tgataatcct ccgcgtccct gaatgtatct 900atttattttc attccgaaat ccctttcacg aaaaagaaaa cgaataaaaa gagagttacg 960aatacgcttc cggcggccca catcaccttc cagcgaacat cgcgccgcgc tgacgtgtcg 1020cccatcgcgg ccgtccatat cgccatccga cgaccgtgga agctggcagc ggccgctccg 1080ttccgtcgaa ggggcaggtc agtcaggtca cccacacggc cacacccgcg cgggggatac 1140gcggtggaaa acccggcgac cacatcaaaa cacgaggcgt ctcccgcagg actggtcact 1200cggcacgcag gcagaggcag cacagcagca gccagctcca tccatcctct ttcccctcct 1260cgcttcgctt cctcggcgga ttcctcctcc ctcggccgtc cccgtcccct tcttcgccgc 1320gccagctcgc ccgagttggt aaggccccct ccacccctcc gcttcccctc ccccgggcgc 1380gctctggctt cctccccgga tcggcgcggg gcgtgctggc tccgcgcctg atttcgggcc 1440ttttgtttcc ttctcgcgga gcgctcgtgt aacgcttcgg atctagctgg attcaggcgg 1500gatcgcggcc gctcggcttc ctcgtggcct gattcgtggt tttcctcggg gagggaatcc 1560tgatcggatc atcgggattc ctcgtgcggc cgggacacgc ttgcgagcca gaaacatagt 1620ctgcgtggcc gggattccac gatctgtgat ctagacgtcg ggcgcttcgt ctatgtgctc 1680gctgcaggct gtggcgtact ggcgtggtgc gcggccgcta tggatccgtg cttgtttgtt 1740cgccctgtag cgtgtgaaat cgagctgtgt agatctatgg tctgcgaggt gcggtggcgg 1800tggaatctcg gttgatcttt acctcagcgg cgccagtgta gctcgtgtgg ctgcagttca 1860tctgcgaatt tggctctcgg cggcttaggt cgcggagctt ggattatgga gcaccagctg 1920cagcgtgacc ctgttggttc tcatgtggat ctgttggctg aggttgcaga cttcaagtgc 1980cactgccatt gaccggagct gctgcacgat tatactggaa tatctagcgg tagtatactc 2040tgctagtact caatacgggt ctcctgacaa atgtctttcg tgtttaggga cctagcactc 2100tagtgtcaag actatttgct ggaatatcta atattagcag tttctgtagt ggctcagttg 2160cagcctggtt tagaatgatg gggacagttg gctgtgccat gcaaaataaa gtgtgtgaaa 2220gcaactgcct cttaaactat gggtggtgca agcaggttat ttgaagggac tctccacact 2280gtatctccag ttaactatga ctgaacttgt ggtcgcaggc aaacccacca tgg 2333141031DNAZea mays 14gagctcgcat catgatcatg catcatggac tcggcctact actgtggatt tgtatgccat 60tatagacttg gtgctgtgaa agactgcttg atgatttgcg ggtttgttgc tgtgtaaaaa 120aaggtccctt ggctcccaga agaccatgaa ggttcggatc tatcatgtaa ttccttgtta 180tctgccaatt atgtatggac tatggacatg tgttgcgctg ttcaacttac tactacaaat 240aagtaatcga tatgttccct tcccatgtct cggtgacaat tgtctggaga agcttagggg 300tcgtttgttt gggattatgt ctggagaaac ttattttaaa ctaagtgtga gttcaagtta 360agttagatta tataatctag gcagattata attccaagcg aacaggtcct tagtgttttt 420ggaaaatcct aggtgttctt ttggctacat tgttgtgtgt gcagatccct tgttggtctg 480taagcgtggg gaagtaagaa tcgtccgttt ctactgaaga cctgctcgag ttaggcaccg 540aggatgccgg taaccaaaca gagcaatagt gtctctgtgg gcacagtgga gtgtgaatct 600gtgtgatgca aatccgtcat ttgtttagca aaatttccag cgttgcatga tgcagtttct 660ttaacacgga cttaagggaa gggaaaaaaa tgttgagcca ggagatcctt caatgtgtta 720gactgacgtg atagccaact aaaccacgac gcaatgttgt cgttaatgac aaaaaaacta 780tttgttccta aatccttggc gacattgcat ggctgtctca tgagataatg gtctcatctc 840ttatttatct cttatttata gccggaagtg gtagtgaccc ctgcttgatt gctcgtatgc 900catctcaagt tctcaaccgt gtcgagcagc cattttccca tctcaagcgc atcatcgttt 960cgtttgacct catctgctat cctgctccta gtgcaaatca catgcgacag aaagtgtggc 1020gcgccactag t 1031151031DNAZea mays 15gagctcgcat catgatcatg catcatggac tcggcctact actgtggatt tgtatgccat 60tatagacttg gtgctgtgaa agactgcttg atgatttgcg ggtttgttgc tgtgtaaaaa 120aaggtccctt ggctcccaga agaccatgaa ggttcggatc tatcatgtaa ttccttgtta 180tctgccaatt atgtatggac tatggacatg tgttgcgctg ttcaacttac tactacaaat 240aagtaatcga tatgttccct tcccatgtct cggtgacaat tgtctggaga agcttagggg 300tcgtttgttt gggattatgt ctggagaaac ttattttaaa ctaagtgtga gttcaagtta 360agttagatta tataatctag gcagattata attccaagcg aacaggtcct tagtgttttt 420ggaaaatcct aggtgttctt ttggctacat tgttgtgtgt gcagatccct tgttggtctg 480taagcgtggg gaagtaagaa tcgtccgttt ctactgaaga cctgctcgag ttaggcaccg 540aggatgccgg taaccaaaca gagcaatagt gtctctgtgg gcacagtgga gtgtgaatct 600gtgtgatgca aatccgtcat ttgtttagca aaatttccag cgttgcatga tgcagtttct 660ttaacacgga cttaagggaa gggaaaaaaa tgttgagcca ggagatcctt caatgtgtta 720gactgacgtg atagccaact aaaccacgac gcaatgttgt cgttaatgac aaaaaaacta 780tttgttccta aatccttggc gacattgcat ggctgtctca tgagataatg gtctcatctc 840ttatttatct cttatttata gccggaagtg gtagtgaccc ctgcttgatt gctcgtatgc 900catctcaagt tctcaaccgt gtcgagcagc cattttccca tctcaagcgc atcatcgttt 960cgtttgacct catctgctat cctgctccta gtgcaaatca catgcgacag aaagtgtggc 1020gcgccactag t 1031161031DNAZea mays 16gagctcgcat catgatcatg catcatggac tcggcctact actgtggatt tgtatgccat 60tatagacttg gtgctgtgaa agactgcttg atgatttgcg ggtttgttgc tgtgtaaaaa 120aaggtccctt ggctcccaga agaccatgaa ggttcggatc tatcatgtaa ttccttgtta 180tctgccaatt atgtatggac tatggacatg tgttgcgctg ttcaacttac tactacaaat 240aagtaatcga tatgttccct tcccatgtct cggtgacaat tgtctggaga agcttagggg 300tcgtttgttt gggattatgt ctggagaaac ttattttaaa ctaagtgtga gttcaagtta 360agttagatta tataatctag gcagattata attccaagcg aacaggtcct tagtgttttt 420ggaaaatcct aggtgttctt ttggctacat tgttgtgtgt gcagatccct tgttggtctg 480taagcgtggg gaagtaagaa tcgtccgttt ctactgaaga cctgctcgag ttaggcaccg 540aggatgccgg taaccaaaca gagcaatagt gtctctgtgg gcacagtgga gtgtgaatct 600gtgtgatgca aatccgtcat ttgtttagca aaatttccag cgttgcatga tgcagtttct 660ttaacacgga cttaagggaa gggaaaaaaa tgttgagcca ggagatcctt caatgtgtta 720gactgacgtg atagccaact aaaccacgac gcaatgttgt cgttaatgac aaaaaaacta 780tttgttccta aatccttggc gacattgcat ggctgtctca tgagataatg gtctcatctc 840ttatttatct cttatttata gccggaagtg gtagtgaccc ctgcttgatt gctcgtatgc 900catctcaagt tctcaaccgt gtcgagcagc cattttccca tctcaagcgc atcatcgttt 960cgtttgacct catctgctat cctgctccta gtgcaaatca catgcgacag aaagtgtggc 1020gcgccactag t 1031171031DNAZea mays 17gagctcgcat catgatcatg catcatggac tcggcctact actgtggatt tgtatgccat 60tatagacttg gtgctgtgaa agactgcttg atgatttgcg ggtttgttgc tgtgtaaaaa 120aaggtccctt ggctcccaga agaccatgaa ggttcggatc tatcatgtaa ttccttgtta 180tctgccaatt atgtatggac tatggacatg tgttgcgctg ttcaacttac tactacaaat 240aagtaatcga tatgttccct tcccatgtct cggtgacaat tgtctggaga agcttagggg 300tcgtttgttt gggattatgt ctggagaaac ttattttaaa ctaagtgtga gttcaagtta 360agttagatta tataatctag gcagattata attccaagcg aacaggtcct tagtgttttt 420ggaaaatcct aggtgttctt ttggctacat tgttgtgtgt gcagatccct tgttggtctg 480taagcgtggg gaagtaagaa tcgtccgttt ctactgaaga cctgctcgag ttaggcaccg 540aggatgccgg taaccaaaca gagcaatagt gtctctgtgg gcacagtgga gtgtgaatct 600gtgtgatgca aatccgtcat ttgtttagca aaatttccag cgttgcatga tgcagtttct 660ttaacacgga cttaagggaa gggaaaaaaa tgttgagcca ggagatcctt caatgtgtta 720gactgacgtg atagccaact aaaccacgac gcaatgttgt cgttaatgac aaaaaaacta 780tttgttccta aatccttggc gacattgcat ggctgtctca tgagataatg gtctcatctc 840ttatttatct cttatttata gccggaagtg gtagtgaccc ctgcttgatt gctcgtatgc 900catctcaagt tctcaaccgt gtcgagcagc cattttccca tctcaagcgc atcatcgttt 960cgtttgacct catctgctat cctgctccta gtgcaaatca catgcgacag aaagtgtggc 1020gcgccactag t 1031188546DNAArtificial sequencemisc_feature(1)..(8546)plasmid pNOV1321 18cttgcatgcc tgcagtgcag cgtgacccgg tcgtgcccct ctctagagat aatgagcatt 60gcatgtctaa gttataaaaa attaccacat attttttttg tcacacttgt ttgaagtgca 120gtttatctat ctttatacat atatttaaac tttactctac gaataatata atctatagta 180ctacaataat atcagtgttt tagagaatca tataaatgaa cagttagaca tggtctaaag 240gacaattgag tattttgaca acaggactct acagttttat ctttttagtg tgcatgtgtt 300ctcctttttt tttgcaaata gcttcaccta tataatactt catccatttt attagtacat 360ccatttaggg tttagggtta atggttttta tagactaatt tttttagtac atctatttta 420ttctatttta gcctctaaat taagaaaact aaaactctat tttagttttt ttatttaata 480atttagatat aaaatagaat aaaataaagt gactaaaaat taaacaaata ccctttaaga 540aattaaaaaa actaaggaaa catttttctt gtttcgagta gataatgcca gcctgttaaa 600cgccgtcgac gagtctaacg gacaccaacc agcgaaccag cagcgtcgcg tcgggccaag 660cgaagcagac ggcacggcat ctctgtcgct gcctctggac ccctctcgag agttccgctc 720caccgttgga cttgctccgc tgtcggcatc cagaaattgc gtggcggagc ggcagacgtg 780agccggcacg gcaggcggcc tcctcctcct ctcacggcac cggcagctac gggggattcc 840tttcccaccg ctccttcgct ttcccttcct cgcccgccgt aataaataga caccccctcc 900acaccctctt tccccaacct cgtgttgttc ggagcgcaca cacacacaac cagatctccc 960ccaaatccac ccgtcggcac ctccgcttca aggtacgccg ctcgtcctcc cccccccccc 1020ctctctacct tctctagatc ggcgttccgg tccatggtta gggcccggta gttctacttc 1080tgttcatgtt tgtgttagat ccgtgtttgt gttagatccg tgctgctagc gttcgtacac 1140ggatgcgacc tgtacgtcag acacgttctg attgctaact tgccagtgtt tctctttggg 1200gaatcctggg atggctctag ccgttccgca gacgggatcg atttcatgat tttttttgtt 1260tcgttgcata gggtttggtt tgcccttttc ctttatttca atatatgccg tgcacttgtt 1320tgtcgggtca tcttttcatg cttttttttg tcttggttgt gatgatgtgg tctggttggg 1380cggtcgttct agatcggagt agaattctgt ttcaaactac ctggtggatt tattaatttt 1440ggatctgtat gtgtgtgcca tacatattca tagttacgaa ttgaagatga tggatggaaa 1500tatcgatcta ggataggtat acatgttgat gcgggtttta ctgatgcata tacagagatg 1560ctttttgttc gcttggttgt gatgatgtgg tgtggttggg cggtcgttca ttcgttctag 1620atcggagtag aatactgttt caaactacct ggtgtattta ttaattttgg aactgtatgt 1680gtgtgtcata catcttcata gttacgagtt taagatggat ggaaatatcg atctaggata 1740ggtatacatg ttgatgtggg ttttactgat gcatatacat gatggcatat gcagcatcta 1800ttcatatgct ctaaccttga gtacctatct attataataa acaagtatgt tttataatta 1860ttttgatctt gatatacttg gatgatggca tatgcagcag ctatatgtgg atttttttag 1920ccctgccttc atacgctatt tatttgcttg gtactgtttc ttttgtcgat gctcaccctg 1980ttgtttggtg ttacttctgc agggatccaa caatggacaa caaccccaac atcaacgagt 2040gcatccccta caactgcctg agcaaccccg aggtggaggt gctgggcggc gagcgcatcg 2100agaccggcta cacccccatc gacatcagcc tgagcctgac ccagttcctg ctgagcgagt 2160tcgtgcccgg cgccggcttc gtgctgggcc tggtggacat catctggggc atcttcggcc 2220ccagccagtg ggacgccttc ctggtgcaga tcgagcagtt gataaaccaa cgcatagagg 2280aattcgcccg caaccaggcc atcagccgcc tggagggcct gagcaacctg taccaaatct 2340acgccgagag cttccgcgag tgggaggccg accccaccaa ccccgccctg cgcgaggaga 2400tgcgcatcca gttcaacgac atgaacagcg ccctgaccac cgccatcccc ctgttcgccg 2460tgcagaacta ccaggtgccc ctgctgagcg tgtacgtgca ggccgccaac ctgcacctga 2520gcgtgctgcg cgacgtcagc gtgttcggcc agcgctgggg cttcgacgcc gccaccatca 2580acagccgcta caacgacctg acccgcctga tcggcaacta caccgaccac gccgtgcgct 2640ggtacaacac cggcctggag cgcgtgtggg gtcccgacag ccgcgactgg atcaggtaca 2700accagttccg ccgcgagctg accctgaccg tgctggacat cgtgagcctg ttccccaact 2760acgacagccg cacctacccc atccgcaccg tgagccagct gacccgcgag atttacacca 2820accccgtgct ggagaacttc gacggcagct tccgcggcag cgcccagggc atcgagggca 2880gcatccgcag cccccacctg atggacatcc tgaacagcat caccatctac accgacgccc 2940accgcggcga gtactactgg agcggccacc agatcatggc cagccccgtc ggcttcagcg 3000gccccgagtt caccttcccc ctgtacggca ccatgggcaa cgctgcacct cagcagcgca 3060tcgtggcaca gctgggccag ggagtgtacc gcaccctgag cagcaccctg taccgtcgac 3120ctttcaacat cggcatcaac aaccagcagc tgagcgtgct ggacggcacc gagttcgcct 3180acggcaccag cagcaacctg cccagcgccg tgtaccgcaa gagcggcacc gtggacagcc 3240tggacgagat cccccctcag aacaacaacg tgccacctcg acagggcttc agccaccgtc 3300tgagccacgt gagcatgttc cgcagtggct tcagcaacag cagcgtgagc atcatccgtg 3360cacctatgtt cagctggatt caccgcagtg ccgagttcaa caacatcatc cccagcagcc 3420agatcaccca gatccccctg accaagagca ccaacctggg cagcggcacc agcgtggtga 3480agggccccgg cttcaccggc ggcgacatcc tgcgccgcac cagccccggc cagatcagca 3540ccctgcgcgt gaacatcacc gcccccctga gccagcgcta ccgcgtccgc atccgctacg 3600ccagcaccac caacctgcag ttccacacca gcatcgacgg ccgccccatc aaccagggca 3660acttcagcgc caccatgagc agcggcagca acctgcagag cggcagcttc cgcaccgtgg 3720gcttcaccac ccccttcaac ttcagcaacg gcagcagcgt gttcaccctg agcgcccacg 3780tgttcaacag cggcaacgag gtgtacatcg accgcatcga gttcgtgccc gccgaggtga 3840ccttcgaggc cgagtacgac ctggagaggg ctcagaaggc cgtgaacgag ctgttcacca 3900gcagcaacca gatcggcctg aagaccgacg tgaccgacta ccacatcgac caggtgagca 3960acctggtgga gtgcttaagc gacgagttct gcctggacga gaagaaggag ctgagcgaga 4020aggtgaagca cgccaagcgc ctgagcgacg agcgcaacct gctgcaggac cccaacttcc 4080gcggcatcaa ccgccagctg gaccgcggct ggcgaggcag caccgatatc accatccagg 4140gcggcgacga cgtgttcaag gagaactacg tgaccctgct gggcaccttc gacgagtgct 4200accccaccta cctgtaccag aagatcgacg agagcaagct gaaggcctac acccgctacc 4260agctgcgcgg ctacatcgag gacagccagg acctggaaat ctacctgatc cgctacaacg 4320cgaagcacga gaccgtgaac gtgcccggca ccggcagcct gtggcccctg agcgccccca 4380gccccatcgg caagtgcggg gagccgaatc gatgcgctcc gcacctggag tggaacccgg 4440acctagactg cagctgcagg gacggggaga agtgcgccca ccacagccac cacttcagcc 4500tggacatcga cgtgggctgc accgacctga acgaggacct gggcgtgtgg gtgatcttca 4560agatcaagac ccaggacggc cacgcccgcc tgggcaatct agagttcctg gaggagaagc 4620ccctggtggg cgaggccctg gcccgcgtga agcgtgctga gaagaagtgg cgcgacaagc 4680gcgagaagct ggagtgggag accaacatcg tgtacaagga ggccaaggag agcgtggacg 4740ccctgttcgt gaacagccag tacgaccgcc tgcaggccga caccaacatc gccatgatcc 4800acgccgccga caagcgcgtg cacagcattc gcgaggccta cctgcccgag ctgagcgtga 4860tccccggtgt gaacgccgcc atcttcgagg aactcgaggg ccgcatcttc accgccttca 4920gcctgtacga cgcccgcaac gtgatcaaga acggcgactt caacaacggc ctgagctgct 4980ggaacgtgaa gggccacgtg gacgtggagg agcagaacaa ccaccgcagc gtgctggtgg 5040tgcccgagtg ggaggccgag gtgagccagg aggtgcgcgt gtgccccggc cgcggctaca 5100tcctgcgcgt gaccgcctac aaggagggct acggcgaggg ctgcgtgacc atccacgaga 5160tcgagaacaa caccgacgaa ctcaagttca gcaactgcgt ggaggaggag gtttacccca 5220acaacaccgt gacctgcaac gactacaccg cgacccagga ggagtacgaa ggcacctaca 5280cctctcgcaa caggggttac gacggcgcct acgagtccaa cagctccgtg ccagctgact 5340acgccagcgc ctacgaggag aaagcctaca ccgacggtag acgcgacaac ccatgtgaga 5400gcaacagagg ctacggcgac tacacccccc tgcccgctgg atacgtgacc aaggagctgg 5460agtacttccc cgagaccgac aaggtgtgga tcgagattgg cgagaccgag ggcaccttca 5520tcgtggacag cgtggagctg ctgctgatgg aggagtagta gatccatctg cagatgagct 5580ctagatcccc gaatttcccc gatcgttcaa acatttggca ataaagtttc ttaagattga 5640atcctgttgc cggtcttgcg atgattatca tataatttct gttgaattac gttaagcatg 5700taataattaa catgtaatgc atgacgttat ttatgagatg ggtttttatg attagagtcc 5760cgcaattata catttaatac gcgatagaaa acaaaatata gcgcgcaaac taggataaat 5820tatcgcgcgc ggtgtcatct atgttactag atcgggaatt gggtaccgaa ttcactggcc 5880gtcgttttac aacgtcgtga ctgggaaaac cctggcgtta cccaacttaa tcgccttgca 5940gcacatcccc ctttcgccag ctggcgtaat agcgaagagg cccgcaccga tcgcccttcc 6000caacagttgc gcagcctgaa tggcgaatgg cgcctgatgc ggtattttct ccttacgcat 6060ctgtgcggta tttcacaccg catatggtgc actctcagta caatctgctc tgatgccgca 6120tagttaagcc agccccgaca cccgccaaca cccgctgacg cgccctgacg ggcttgtctg 6180ctcccggcat ccgcttacag acaagctgtg accgtctccg ggagctgcat gtgtcagagg 6240ttttcaccgt catcaccgaa acgcgcgaga cgaaagggcc tcgtgatacg cctattttta 6300taggttaatg tcatgataat aatggtttct tagacgtcag gtggcacttt tcggggaaat 6360gtgcgcggaa cccctatttg tttatttttc taaatacatt caaatatgta tccgctcatg 6420agacaataac cctgataaat gcttcaatgg cgcgccgcgg ccgcttaaga atattgaaaa 6480aggaagagta tgagtattca acatttccgt gtcgccctta ttcccttttt tgcggcattt 6540tgccttcctg tttttgctca cccagaaacg ctggtgaaag taaaagatgc tgaagatcag 6600ttgggtgcac gagtgggtta catcgaactg gatctcaaca gcggtaagat ccttgagagt 6660tttcgccccg aagaacgttt tccaatgatg agcactttta aagttctgct atgtggcgcg 6720gtattatccc gtattgacgc cgggcaagag caactcggtc gccgcataca ctattctcag 6780aatgacttgg ttgagtactc

accagtcaca gaaaagcatc ttacggatgg catgacagta 6840agagaattat gcagtgctgc cataaccatg agtgataaca ctgcggccaa cttacttctg 6900acaacgatcg gaggaccgaa ggagctaacc gcttttttgc acaacatggg ggatcatgta 6960actcgccttg atcgttggga accggagctg aatgaagcca taccaaacga cgagcgtgac 7020accacgatgc ctgtagcaat ggcaacaacg ttgcgcaaac tattaactgg cgaactactt 7080actctagctt cccggcaaca attaatagac tggatggagg cggataaagt tgcaggacca 7140cttctgcgct cggcccttcc ggctggctgg tttattgctg ataaatctgg agccggtgag 7200cgtgggtctc gcggtatcat tgcagcactg gggccagatg gtaagccctc ccgtatcgta 7260gttatctaca cgacggggag tcaggcaact atggatgaac gaaatagaca gatcgctgag 7320ataggtgcct cactgattaa gcattggtaa ctgtcagacc aagtttactc atatatactt 7380tagattgatt taaaacttca tttttaattt aaaaggatct aggtgaagat cctttttgat 7440aatctcatga ccaaaatccc ttaacgtgag ttttcgttcc actgagcgtc agaccccgta 7500gaaaagatca aaggatcttc ttgagatcct ttttttctgc gcgtaatctg ctgcttgcaa 7560acaaaaaaac caccgctacc agcggtggtt tgtttgccgg atcaagagct accaactctt 7620tttccgaagg taactggctt cagcagagcg cagataccaa atactgtcct tctagtgtag 7680ccgtagttag gccaccactt caagaactct gtagcaccgc ctacatacct cgctctgcta 7740atcctgttac cagtggctgc tgccagtggc gataagtcgt gtcttaccgg gttggactca 7800agacgatagt taccggataa ggcgcagcgg tcgggctgaa cggggggttc gtgcacacag 7860cccagcttgg agcgaacgac ctacaccgaa ctgagatacc tacagcgtga gctatgagaa 7920agcgccacgc ttcccgaagg gagaaaggcg gacaggtatc cggtaagcgg cagggtcgga 7980acaggagagc gcacgaggga gcttccaggg ggaaacgcct ggtatcttta tagtcctgtc 8040gggtttcgcc acctctgact tgagcgtcga tttttgtgat gctcgtcagg ggggcggagc 8100ctatggaaaa acgccagcaa cgcggccttt ttacggttcc tggccttttg ctggcctttt 8160gctcacatgt tctttcctgc gttatcccct gattctgtgg ataaccgtat taccgccttt 8220gagtgagctg ataccgctcg ccgcagccga acgaccgagc gcagcgagtc agtgagcgag 8280gaagcggaag agcttaagcg gccgcggcgc gccgcccaat acgcaaaccg cctctccccg 8340cgcgttggcc gattcattaa tgcagctggc acgacaggtt tcccgactgg aaagcgggca 8400gtgagcgcaa cgcaattaat gtgagttagc tcactcatta ggcaccccag gctttacact 8460ttatgcttcc ggctcgtatg ttgtgtggaa ttgtgagcgg ataacaattt cacacaggaa 8520acagctatga ccatgattac gccaag 85461923DNAArtificial sequencemisc_feature(1)..(23)forward primer ABT P1 forw 19cgaccagcgc gacatgcatg gca 232023DNAArtificial sequencemisc_feature(1)..(23)reverse primer ABT P2 rev 20accccagggc gtacgacaag gcc 232129DNAArtificial sequencemisc_feature(1)..(29)oligonucleotide pABT mut1 21gatggccgga ttgggctccc ggggtggag 292229DNAArtificial sequencemisc_feature(1)..(29)oligonucleotide pABT mut2 22ctgggaggcg cgcaaggggc agttcctcg 292330DNAArtificial sequencemisc_feature(1)..(30)oligonucleotide pABT mut3 23cccaccgccg gagcaccgaa aggccccgcg 302427DNAArtificial sequencemisc_feature(1)..(27)oligonucleotide pABT mut4 24gtcacccggg agcacttccc ggcgccg 272527DNAArtificial sequencemisc_feature(1)..(27)oligonucleotide pABT mut5 25cattgggccg agcacggctt cttccgc 272631DNAArtificial sequencemisc_feature(1)..(31)oligonucleotide pABT mut6 26ggggtacggt gttcttgagt cgtgaagcga c 312739DNAArtificial sequencemisc_feature(1)..(39)forward primer pABT amp1 27gcgtctagag ggaccccgac cagcgcgaca tgcatggca 392836DNAArtificial sequencemisc_feature(1)..(36)reverse primer pABT amp2 28accccagggc gtacgacaag gccccaccat gggcgc 362945DNAArtificial sequencemisc_feature(1)..(45)forward primer ABT P4 29tatatagagc tcgaatcgaa gaagccacac tgtaaatctg ccggg 453045DNAArtificial sequencemisc_feature(1)..(45)reverse primer ABT P5 30agcaaggcat atgcagcagc tgctggtcgg accgggccct atata 453129DNAArtificial sequencemisc_feature(1)..(29)oligonucleotide ABTt m1 31gtcatgcatg ggcatgtgaa ggaggagcc 293229DNAArtificial sequencemisc_feature(1)..(29)oligonucleotide ABTt m2 32gttgcatgca tgctgcatgg cgtcgagat 2933873DNAZea mays 33tgggaggcgc gcatggggca gttcctcggc aagaaggcgt acgacaaggc cgcgatcaaa 60tgcaacggta gagaggccgt gacgaacttc gagcccagca cgtacgacgg ggagctgctg 120ctgactgctg aagctagcgc agaagttgct gacgacgttg atctgaactt gagcatctcg 180caaccggcat cgtcccagag ccccaaaaga gacaagaact gccttggtcc gcagctccac 240caccaccatg ggcggccgtt tgacggctcc gccgttctga agaaaaccaa gatcgatgct 300ccgtctgagc tgtcgtcggc gggccgccct caccggtcgt tcctccctca tctcgtggct 360gccgagcatc taccgcctcg gtctcacccc ttcttcatca cacaccatga gagtgatgca 420tcaagaagag atcccagctg ggcagcagca gcagcatgga aggtgaccgc agctgcacct 480cctcctccta ccaccaccct gttgccgttg ccgctgccgt cgacgtcgtc cgctgcagca 540tcatcaggat tctccaatac cgccacgaca gctgccgccg ccccatcggc cgcctcctcc 600cgccggttcg acccgccgcc accgtcgtcg tcctcctcct cgagccatca ccaccaccac 660caccgccgct gagaatcgaa gaagccacac tgtaaatctg ccgggaagcg gctggtggca 720tccggcccgc tcctccctcc gggcgccgca acttttttcg atcggttttg cgccgcccgg 780gacgggttgt agttgatcga ttggattctt cataactgta tttgcgtact gcttacacta 840cccaagtgaa atcgaaaatg gcgccttctc tcg 87334921DNAZea mays 34gaggcgcgca tggggcagtt cctcggcaag aagtacatat atcttgggct attcgacagc 60gaagtagagg ctgcaagggc gtacgacaag gccgcgatca aatgcaacgg tagagaggcc 120gtgacgaact tcgagcccag cacgtacgac ggggagctgc tgctgactgc tgaagctagc 180gcagaagttg ctgacgacgt tgatctgaac ttgagcatct cgcaaccggc atcgtcccag 240agccccaaaa gagacaagaa ctgccttggt ccgcagctcc accaccacca tgggcggccg 300tttgacggct ccgccgttct gaagaaaacc aagatcgatg ctccgtctga gctgtcgtcg 360gcgggccgcc ctcaccggtc gttcctccct catctcgtgg ctgccgagca tctaccgcct 420cggtctcacc ccttcttcat cacacaccat gagagtgatg catcaagaag agatcccagc 480tgggcagcag cagcagcatg gaaggtgacc gcagctgcac ctcctcctcc taccaccacc 540ctgttgccgt tgccgctgcc gtcgacgtcg tccgctgcag catcatcagg attctccaat 600accgccacga cagctgccgc cgccccatcg gccgcctcct cccgccggtt cgacccgccg 660ccaccgtcgt cgtcctcctc ctcgagccat caccaccacc accaccgccg ctgagaatcg 720aagaagccac actgtaaatc tgccgggaag cggctggtgg catccggccc gctcctccct 780ccgggcgccg caactttttt cgatcggttt tgcgccgccc gggacgggtt gtagttgatc 840gattggattc ttcataactg tatttgcgta ctgcttacac tacccaagtg aaatcgaaaa 900tggcgccttc tctcgttgaa t 921352644DNAZea mays 35gcgtctagag ggaccccgac cagcgcgaca tgcatggcat ggcaaactat atatcgtcat 60catcattatt atcatctgac cctctttttt tttcactctc actcccatgt ttttattccc 120gggcggggcc gtgtgggtgt gggttgggat ggccggattg ggctcccggg gtggagaaat 180gacaaatcca ggcccgcagg cggccaccca ccaaatcgga cgacgcaggg tgcccaaatc 240aggaaggatt ttaaggttaa ccggccaccg gcggtgaccg acgccccacc ccactctcct 300tctcctattc tatctatata tcacccgcct cttttttctc cctcactccg ccacaccttc 360cctcttcttc ctcagctccg tcgcccaccg ccggagcacc gaaaggcccc gcgcccgccg 420cctttcctgt aaaaaaccca acctttagct agctaaccgc tcctcttctc cccctactcc 480ccttgcccaa atcagagaag atatttaacg gaggagggga aggagaggat atttagctga 540ttgttgattg gtggtccggg gtacggtgtt cttgagtcgt gaagcgaccg tacagtggct 600agggccgtct ccgggttgcg tgcaggatgg tcgtcagaga tcgggagtga ggaggcagct 660cgtggtcgtg gaggctaaat gtaccgcaag aacgactcgg cactctcctg tttctacctc 720ttcctcctct ggttcttctt cttgaaatag accagcgcca gccaccaggt agctacctac 780tagctagcag cccagttgcg actggggacg ggctgctgct tgcaagttgg aatcttggag 840caggagcaga ggagcgggag atggagctgg atctgaacgt ggccgaggtg gcgccggaga 900agccatcggc ggcgctggag gcgagcgact cggggtcctc gggctcgtcg gtgctgaacg 960cggaggcggc atcggcgggc ggcggggggc ccgcgccggg ggaggagggg tcaagctcga 1020cgccggccgt gctcgagttc agcatcctca ggagcgacag cgacgcggcc ggcgcggacg 1080ccgacgacgg cgacgccacg ccgtcgccac ctcgccacca ccagcagcag ctcgtcaccc 1140gggagcactt cccggcgccg cagcattggg ccgagcacgg cttcttccgc gccggcccgc 1200agcagcagcc ggacatcagg gtcctgccgc acccgcaccc gtacccgccc ccgccgccgc 1260ccgcgcagcc gcagcaggcc aagaagagcc gccgcggccc gcgctcccgc agctcgcagt 1320accgcggcgt caccttctac cgccgcaccg gccgctggga gtcccacatc tggtcagtag 1380cactgcaagc tcaccatgcg ccctttcacc taccgaccaa taatcgcttg tgattctgac 1440acccaaatgt ttcgtcttcc tgtgctgtcc tgttcctcgg aaatggcagg gattgcggga 1500agcaggtgta cttaggtgag cagcaataag cagatcgatc tgcagcataa atttcccgtt 1560attaactagt tcgtgatctc gatcgaatgg cctaattaac cgattcggtg atctggccga 1620tggccaatct acgcaggtgg attcgacact gctcatgccg ctgcaaggta acgatcaatc 1680catccatcca cccttgtcta gctaccccac cgaccggccg gattaatgga ccgctagctc 1740tcgggacggg cttgctgcag ggcgtacgac cgagcggcga tcaagttccg cggcgtcgac 1800gccgacataa acttcaacct cagcgactac gacgacgata tgaagcaggt acatacacga 1860gtgttcttgc agctagcacc gactgaaaca tctgctgaac gtacacgcat ggccctgtgc 1920accagatgaa gagcctgtcc aaggaggagt tcgttcacgc cctgcggcgg cagagcaccg 1980gcttctcccg cggcagctcc aagtacaggg gcgtcaccct gcacaagtgc ggccgctggg 2040aggcgcgcaa ggggcagttc ctcggcaaga agtaagaaac aacacttcgt ttgcaggcgc 2100tgtactttgc tgcagattat ttcatttcat ccttgcatgt gcctttcctt tccatccact 2160cacttgatgg ctgtagtctc gatagagttc gttcgttcgt acttcgcacc agatgaactc 2220ccacgcacat gatttagtac tagttttacc atgcattgtt cagtaaaagt atatgcttgc 2280ttgatcagtg gttgtttcaa tcagaagatt aaaaaaacgg aatattaata taaaaaaaag 2340gggaagtggc tagggaattc ctcagtccta gctagctagc tcaccggtgg gaacgccatg 2400cttggcttgg gtgcaggtac atatatcttg ggctattcga cagcgaagta gaggctgcaa 2460ggttgttcac ctcggacgat tctgccattt gttcatatac accatgcctt ttgatttctc 2520tcttgcaatt tctcttcttt tatcatggct tttgattccc aaagggttga gtaccgactc 2580gatattcgat tctccctgcc gtttcgtgac cccagggcgt acgacaaggc cccaccatgg 2640gcgc 2644361069DNAZea mays 36tatatagagc tcgaatcgaa gaagccacac tgtaaatctg ccgggaagcg gctggtggca 60tccggcccgc tcctccctcc gggcgccgca acttttttcg atcggttttg cgccgcccgg 120gacgggttgt agttgatcga ttggattctt cataactgta tttgcgtact gcttacacta 180cccaagtgaa atcgaaaatg gcgccttctc tcgttgaata aattgcacgt acgctactcg 240atccgctgcg gctcttgctg gagtggccgc cgccgctata gatagaagga tcaagccaag 300gaatctgtca tgcatgggca tgtgaaggag gagcctcctg caatgtttag tcttttttgg 360tcgacgccca ccagagatat acgcactaga tttcatatag ctgagctaga tcgattccgt 420tgcatgcatg ctgcatggcg tcgagattcg agctagcacc gcctgttcat catcgaccga 480tccattctga tcgattcccc tctcgagctt tcacgaactg aacctaccta gtgagggtga 540cgcctaacgc ctagtgcgcg cgcgtgggtc tccgatgtca gtggccgcac gcgcgcgcgc 600gttctcgaga tcgcatgtgg tcatagcgca gcaggtttgc cctcagaacc tacagcaact 660cgaccaccgg tttggatttc ttcttttttc aaggatatga tcggagagag agagctacct 720aggcgtcgtc cttgttttct tgtatcgcat gtggtgtggg tctctctcct cctttcgtac 780gcacgcatga ttccattctt accccccctc gagatcgaga ggaaatatat tgctatttta 840tacacacacg gcgcccccag ctatacgtca ctgcttacgt taattccccc accggatagt 900agttgtttaa tggcccaaac aaaccttgtt gttgcatgca tcatggacca aacaaaatac 960atagttagtt aaatattact gttatatata caactaataa taattatatt attagttaaa 1020acaaagcaag gcatatgcag cagctgctgg tcggaccggg ccctatata 1069378599DNAArtificial sequencemisc_feature(1)..(8599)ZmABP3-Cry1AbG6 Assembly construct 37cggcgcgccg aaagtagcaa acaacaggtt catgtgcact ataaaaagac aaaattctcg 60agtttcatct tttattccac ataagcctta tattttccat tttcatatga tttttagttt 120aagtttgtgt cttaactttt tcgttaatac gtaattctat gcattatgga tgcgtgaagt 180atttttgttt aaaaaaatga aatgtcaaaa tacgttttgt gatctatttc catgttttca 240cctaacaggt ggtttttact atatattctg ccataactct agccttagat gtaaatcgaa 300aaaaaatgag agatgagctg gagatagcct tagatgaagc gtctgaaata taaaagaaag 360agtaatgttg aacgcagtag gtgtagcagc tgtagttcca tctctaggaa agggaactgc 420aatccgggct ccgggcctcg cgcaatctgg cctgtcgtgt agatgcagcc ctgtccatga 480cggcccaagc aacgcccgcg gctctcgatc caccacggaa cccactccga cacacactga 540cacacacatg ctggatgtgg atgtgctgtc caattattag tagcaattcg gtaggcacag 600gcacgtactg gccggtgttt tagctgtaag taccgaacca atcacggtta agaaccgatt 660aatccgtgcc cagccgccga gtgcgttcgt acgtgcatcg gatgcactgc atgaattgag 720agcatcatca tatcatacgc aggagtagta cgacgccgct gctgtcttgt ccggctaatg 780ctttgctcac agattagtcc atcgcccacg gtcggtgtgg tgtggatcgc tgatgccact 840gctttttgtt tggtttttat tcccctgata atcctccgcg tccctgaatg tatctattta 900ttttcattcc gaaatccctt tcacgaaaaa gaaaacgaat aaaaagagag ttacgaatac 960gcttccggcg gcccacatca ccttccagcg aacatcgcgc cgcgctgacg tgtcgcccat 1020cgcggccgtc catatcgcca tccgacgacc gtggaagctg gcagcggccg ctccgttccg 1080tcgaaggggc aggtcagtca ggtcacccac acggccacac ccgcgcgggg gatacgcggt 1140ggaaaacccg gcgaccacat caaaacacga ggcgtctccc gcaggactgg tcactcggca 1200cgcaggcaga ggcagcacag cagcagccag ctccatccat cctctttccc ctcctcgctt 1260cgcttcctcg gcggattcct cctccctcgg ccgtccccgt ccccttcttc gccgcgccag 1320ctcgcccgag ttggtaaggc cccctccacc cctccgcttc ccctcccccg ggcgcgctct 1380ggcttcctcc ccggatcggc gcggggcgtg ctggctccgc gcctgatttc gggccttttg 1440tttccttctc gcggagcgct cgtgtaacgc ttcggatcta gctggattca ggcgggatcg 1500cggccgctcg gcttcctcgt ggcctgattc gtggttttcc tcggggaggg aatcctgatc 1560ggatcatcgg gattcctcgt gcggccggga cacgcttgcg agccagaaac atagtctgcg 1620tggccgggat tccacgatct gtgatctaga cgtcgggcgc ttcgtctatg tgctcgctgc 1680aggctgtggc gtactggcgt ggtgcgcggc cgctatggat ccgtgcttgt ttgttcgccc 1740tgtagcgtgt gaaatcgagc tgtgtagatc tatggtctgc gaggtgcggt ggcggtggaa 1800tctcggttga tctttacctc agcggcgcca gtgtagctcg tgtggctgca gttcatctgc 1860gaatttggct ctcggcggct taggtcgcgg agcttggatt atggagcacc agctgcagcg 1920tgaccctgtt ggttctcatg tggatctgtt ggctgaggtt gcagacttca agtgccactg 1980ccattgaccg gagctgctgc acgattatac tggaatatct agcggtagta tactctgcta 2040gtactcaata cgggtctcct gacaaatgtc tttcgtgttt agggacctag cactctagtg 2100tcaagactat ttgctggaat atctaatatt agcagtttct gtagtggctc agttgcagcc 2160tggtttagaa tgatggggac agttggctgt gccatgcaaa ataaagtgtg tgaaagcaac 2220tgcctcttaa actatgggtg gtgcaagcag gttatttgaa gggactctcc acactgtatc 2280tccagttaac tatgactgaa cttgtggtcg caggcaaacc caccatggac aacaacccca 2340acatcaacga gtgcatcccc tacaactgcc tgagcaaccc cgaggtggag gtgctgggcg 2400gcgagcgcat cgagaccggc tacaccccca tcgacatcag cctgagcctg acccagttcc 2460tgctgagcga gttcgtgccc ggcgccggct tcgtgctggg cctggtggac atcatctggg 2520gcatcttcgg ccccagccag tgggacgcct tcctggtgca gatcgagcag ttgataaacc 2580aacgcataga ggaattcgcc cgcaaccagg ccatcagccg cctggagggc ctgagcaacc 2640tgtaccaaat ctacgccgag agcttccgcg agtgggaggc cgaccccacc aaccccgccc 2700tgcgcgagga gatgcgcatc cagttcaacg acatgaacag cgccctgacc accgccatcc 2760ccctgttcgc cgtgcagaac taccaggtgc ccctgctgag cgtgtacgtg caggccgcca 2820acctgcacct gagcgtgctg cgcgacgtca gcgtgttcgg ccagcgctgg ggcttcgacg 2880ccgccaccat caacagccgc tacaacgacc tgacccgcct gatcggcaac tacaccgacc 2940acgccgtgcg ctggtacaac accggcctgg agcgcgtgtg gggtcccgac agccgcgact 3000ggatcaggta caaccagttc cgccgcgagc tgaccctgac cgtgctggac atcgtgagcc 3060tgttccccaa ctacgacagc cgcacctacc ccatccgcac cgtgagccag ctgacccgcg 3120agatttacac caaccccgtg ctggagaact tcgacggcag cttccgcggc agcgcccagg 3180gcatcgaggg cagcatccgc agcccccacc tgatggacat cctgaacagc atcaccatct 3240acaccgacgc ccaccgcggc gagtactact ggagcggcca ccagatcatg gccagccccg 3300tcggcttcag cggccccgag ttcaccttcc ccctgtacgg cacgatgggc aacgctgcac 3360ctcagcagcg catcgtggca cagctgggcc agggagtgta ccgcaccctg agcagcaccc 3420tgtaccgtcg acctttcaac atcggcatca acaaccagca gctgagcgtg ctggacggca 3480ccgagttcgc ctacggcacc agcagcaacc tgcccagcgc cgtgtaccgc aagagcggca 3540ccgtggacag cctggacgag atcccccctc agaacaacaa cgtgccacct cgacagggct 3600tcagccaccg tctgagccac gtgagcatgt tccgcagtgg cttcagcaac agcagcgtga 3660gcatcatccg tgcacctatg ttcagctgga ttcaccgcag tgccgagttc aacaacatca 3720tccccagcag ccagatcacc cagatccccc tgaccaagag caccaacctg ggcagcggca 3780ccagcgtggt gaagggcccc ggcttcaccg gcggcgacat cctgcgccgc accagccccg 3840gccagatcag caccctgcgc gtgaacatca ccgcccccct gagccagcgc taccgcgtcc 3900gcatccgcta cgccagcacc accaacctgc agttccacac cagcatcgac ggccgcccca 3960tcaaccaggg caacttcagc gccaccatga gcagcggcag caacctgcag agcggcagct 4020tccgcaccgt gggcttcacc acccccttca acttcagcaa cggcagcagc gtgttcaccc 4080tgagcgccca cgtgttcaac agcggcaacg aggtgtacat cgaccgcatc gagttcgtgc 4140ccgccgaggt gaccttcgag gccgagtacg acctggagag ggctcagaag gccgtgaacg 4200agctgttcac cagcagcaac cagatcggcc tgaagaccga cgtgaccgac taccacatcg 4260accaggtgag caacctggtg gagtgcttaa gcgacgagtt ctgcctggac gagaagaagg 4320agctgagcga gaaggtgaag cacgccaagc gcctgagcga cgagcgcaac ctgctgcagg 4380accccaactt ccgcggcatc aaccgccagc tggaccgcgg ctggcgaggc agcaccgata 4440tcaccatcca gggcggcgac gacgtgttca aggagaacta cgtgaccctg ctgggcacct 4500tcgacgagtg ctaccccacc tacctgtacc agaagatcga cgagagcaag ctgaaggcct 4560acacccgcta ccagctgcgc ggctacatcg aggacagcca ggacctggaa atctacctga 4620tccgctacaa cgcgaagcac gagaccgtga acgtgcccgg caccggcagc ctgtggcccc 4680tgagcgcccc cagccccatc ggcaagtgcc accacagcca ccacttcagc ctggacatcg 4740acgtgggctg caccgacctg aacgaggacc tgggcgtgtg ggtgatcttc aagatcaaga 4800cccaggacgg ccacgcccgc ctgggcaatc tagagttcct ggaggagaag cccctggtgg 4860gcgaggccct ggcccgcgtg aagcgtgctg agaagaagtg gcgcgacaag cgcgagaagc 4920tggagtggga gaccaacatc gtgtacaagg aggccaagga gagcgtggac gccctgttcg 4980tgaacagcca gtacgaccgc ctgcaggccg acaccaacat cgccatgatc cacgccgccg 5040acaagcgcgt gcacagcatt cgcgaggcct acctgcccga gctgagcgtg atccccggtg 5100tgaacgccgc catcttcgag gaactcgagg gccgcatcta ggagctcgca tcatgatcat 5160gcatcatgga ctcggcctac tactgtggat ttgtatgcca ttatagactt ggtgctgtga 5220aagactgctt gatgatttgc gggtttgttg ctgtgtaaaa aaaggtccct tggctcccag 5280aagaccatga aggttcggat ctatcatgta attccttgtt atctgccaat tatgtatgga 5340ctatggacat gtgttgcgct gttcaactta ctactacaaa taagtaatcg atatgttccc 5400ttcccatgtc tcggtgacaa ttgtctggag aagcttaggg gtcgtttgtt tgggattatg 5460tctggagaaa cttattttaa actaagtgtg agttcaagtt aagttagatt atataatcta 5520ggcagattat aattccaagc gaacaggtcc ttagtgtttt tggaaaatcc taggtgttct 5580tttggctaca ttgttgtgtg tgcagatccc ttgttggtct gtaagcgtgg ggaagtaaga 5640atcgtccgtt tctactgaag acctgctcga gttaggcacc gaggatgccg gtaaccaaac 5700agagcaatag tgtctctgtg ggcacagtgg agtgtgaatc tgtgtgatgc aaatccgtca

5760tttgtttagc aaaatttcca gcgttgcatg atgcagtttc tttaacacgg acttaaggga 5820agggaaaaaa atgttgagcc aggagatcct tcaatgtgtt agactgacgt gatagccaac 5880taaaccacga cgcaatgttg tcgttaatga caaaaaaact atttgttcct aaatccttgg 5940cgacattgca tggctgtctc atgagataat ggtctcatct cttatttatc tcttatttat 6000agccggaagt ggtagtgacc cctgcttgat tgctcgtatg ccatctcaag ttctcaaccg 6060tgtcgagcag ccattttccc atctcaagcg catcatcgtt tcgtttgacc tcatctgcta 6120tcctgctcct agtgcaaatc acatgcgaca gaaagtgtgg cgcgccacta gtcccgggcc 6180catcgatgat atcagatctg gttctatagt gtcacctaaa tcgtatgtgt atgatacata 6240aggttatgta ttaattgtag ccgcgttcta acgacaatat gtccatatgg tgcactctca 6300gtacaatctg ctctgatgcc gcatagttaa gccagccccg acacccgcca acacccgctg 6360acgcgccctg acgggcttgt ctgctcccgg catccgctta cagacaagct gtgaccgtct 6420ccgggagctg catgtgtcag aggttttcac cgtcatcacc gaaacgcgcg agacgaaagg 6480gcctcgtgat acgcctattt ttataggtta atgtcatgat aataatggtt tcttagacgt 6540caggtggcac ttttcgggga aatgtgcgcg gaacccctat ttgtttattt ttctaaatac 6600attcaaatat gtatccgctc atgagacaat aaccctgata aatgcttcaa taatattgaa 6660aaaggaagag tatgagtatt caacatttcc gtgtcgccct tattcccttt tttgcggcat 6720tttgccttcc tgtttttgct cacccagaaa cgctggtgaa agtaaaagat gctgaagatc 6780agttgggtgc acgagtgggt tacatcgaac tggatctcaa cagcggtaag atccttgaga 6840gttttcgccc cgaagaacgt tttccaatga tgagcacttt taaagttctg ctatgtggcg 6900cggtattatc ccgtattgac gccgggcaag agcaactcgg tcgccgcata cactattctc 6960agaatgactt ggttgagtac tcaccagtca cagaaaagca tcttacggat ggcatgacag 7020taagagaatt atgcagtgct gccataacca tgagtgataa cactgcggcc aacttacttc 7080tgacaacgat cggaggaccg aaggagctaa ccgctttttt gcacaacatg ggggatcatg 7140taactcgcct tgatcgttgg gaaccggagc tgaatgaagc cataccaaac gacgagcgtg 7200acaccacgat gcctgtagca atggcaacaa cgttgcgcaa actattaact ggcgaactac 7260ttactctagc ttcccggcaa caattaatag actggatgga ggcggataaa gttgcaggac 7320cacttctgcg ctcggccctt ccggctggct ggtttattgc tgataaatct ggagccggtg 7380agcgtgggtc tcgcggtatc attgcagcac tggggccaga tggtaagccc tcccgtatcg 7440tagttatcta cacgacgggg agtcaggcaa ctatggatga acgaaataga cagatcgctg 7500agataggtgc ctcactgatt aagcattggt aactgtcaga ccaagtttac tcatatatac 7560tttagattga tttaaaactt catttttaat ttaaaaggat ctaggtgaag atcctttttg 7620ataatctcat gaccaaaatc ccttaacgtg agttttcgtt ccactgagcg tcagaccccg 7680tagaaaagat caaaggatct tcttgagatc ctttttttct gcgcgtaatc tgctgcttgc 7740aaacaaaaaa accaccgcta ccagcggtgg tttgtttgcc ggatcaagag ctaccaactc 7800tttttccgaa ggtaactggc ttcagcagag cgcagatacc aaatactgtt cttctagtgt 7860agccgtagtt aggccaccac ttcaagaact ctgtagcacc gcctacatac ctcgctctgc 7920taatcctgtt accagtggct gctgccagtg gcgataagtc gtgtcttacc gggttggact 7980caagacgata gttaccggat aaggcgcagc ggtcgggctg aacggggggt tcgtgcacac 8040agcccagctt ggagcgaacg acctacaccg aactgagata cctacagcgt gagctatgag 8100aaagcgccac gcttcccgaa gggagaaagg cggacaggta tccggtaagc ggcagggtcg 8160gaacaggaga gcgcacgagg gagcttccag ggggaaacgc ctggtatctt tatagtcctg 8220tcgggtttcg ccacctctga cttgagcgtc gatttttgtg atgctcgtca ggggggcgga 8280gcctatggaa aaacgccagc aacgcggcct ttttacggtt cctggccttt tgctggcctt 8340ttgctcacat gttctttcct gcgttatccc ctgattctgt ggataaccgt attaccgcct 8400ttgagtgagc tgataccgct cgccgcagcc gaacgaccga gcgcagcgag tcagtgagcg 8460aggaagcgga agagcgccca atacgcaaac cgcctctccc cgcgcgttgg ccgattcatt 8520aatgcaggtt aacctggctt atcgaaatta atacgactca ctatagggag accggcctcg 8580agcagctgaa gcttgcatg 85993815162DNAArtificial sequencemisc_feature(1)..(15162)ZmABP3-Cry1AbG6 binary construct 38taattcctgt ggttggcatg cacatacaaa tggacgaacg gataaacctt ttcacgccct 60tttaaatatc cgattattct aataaacgct cttttctctt aggtttaccc gccaatatat 120cctgtcaaac actgatagtt taaactgaag gcgggaaacg acaatctgat catgagcgga 180gaattaaggg agtcacgtta tgacccccgc cgatgacgcg ggacaagccg ttttacgttt 240ggaactgaca gaaccgcaac gctgcaggaa ttggccgcag cggccattta aatcaattgg 300gcgcgccaca ctttctgtcg catgtgattt gcactaggag caggatagca gatgaggtca 360aacgaaacga tgatgcgctt gagatgggaa aatggctgct cgacacggtt gagaacttga 420gatggcatac gagcaatcaa gcaggggtca ctaccacttc cggctataaa taagagataa 480ataagagatg agaccattat ctcatgagac agccatgcaa tgtcgccaag gatttaggaa 540caaatagttt ttttgtcatt aacgacaaca ttgcgtcgtg gtttagttgg ctatcacgtc 600agtctaacac attgaaggat ctcctggctc aacatttttt tcccttccct taagtccgtg 660ttaaagaaac tgcatcatgc aacgctggaa attttgctaa acaaatgacg gatttgcatc 720acacagattc acactccact gtgcccacag agacactatt gctctgtttg gttaccggca 780tcctcggtgc ctaactcgag caggtcttca gtagaaacgg acgattctta cttccccacg 840cttacagacc aacaagggat ctgcacacac aacaatgtag ccaaaagaac acctaggatt 900ttccaaaaac actaaggacc tgttcgcttg gaattataat ctgcctagat tatataatct 960aacttaactt gaactcacac ttagtttaaa ataagtttct ccagacataa tcccaaacaa 1020acgaccccta agcttctcca gacaattgtc accgagacat gggaagggaa catatcgatt 1080acttatttgt agtagtaagt tgaacagcgc aacacatgtc catagtccat acataattgg 1140cagataacaa ggaattacat gatagatccg aaccttcatg gtcttctggg agccaaggga 1200ccttttttta cacagcaaca aacccgcaaa tcatcaagca gtctttcaca gcaccaagtc 1260tataatggca tacaaatcca cagtagtagg ccgagtccat gatgcatgat catgatgcga 1320gctcctagat gcggccctcg agttcctcga agatggcggc gttcacaccg gggatcacgc 1380tcagctcggg caggtaggcc tcgcgaatgc tgtgcacgcg cttgtcggcg gcgtggatca 1440tggcgatgtt ggtgtcggcc tgcaggcggt cgtactggct gttcacgaac agggcgtcca 1500cgctctcctt ggcctccttg tacacgatgt tggtctccca ctccagcttc tcgcgcttgt 1560cgcgccactt cttctcagca cgcttcacgc gggccagggc ctcgcccacc aggggcttct 1620cctccaggaa ctctagattg cccaggcggg cgtggccgtc ctgggtcttg atcttgaaga 1680tcacccacac gcccaggtcc tcgttcaggt cggtgcagcc cacgtcgatg tccaggctga 1740agtggtggct gtggtggcac ttgccgatgg ggctgggggc gctcaggggc cacaggctgc 1800cggtgccggg cacgttcacg gtctcgtgct tcgcgttgta gcggatcagg tagatttcca 1860ggtcctggct gtcctcgatg tagccgcgca gctggtagcg ggtgtaggcc ttcagcttgc 1920tctcgtcgat cttctggtac aggtaggtgg ggtagcactc gtcgaaggtg cccagcaggg 1980tcacgtagtt ctccttgaac acgtcgtcgc cgccctggat ggtgatatcg gtgctgcctc 2040gccagccgcg gtccagctgg cggttgatgc cgcggaagtt ggggtcctgc agcaggttgc 2100gctcgtcgct caggcgcttg gcgtgcttca ccttctcgct cagctccttc ttctcgtcca 2160ggcagaactc gtcgcttaag cactccacca ggttgctcac ctggtcgatg tggtagtcgg 2220tcacgtcggt cttcaggccg atctggttgc tgctggtgaa cagctcgttc acggccttct 2280gagccctctc caggtcgtac tcggcctcga aggtcacctc ggcgggcacg aactcgatgc 2340ggtcgatgta cacctcgttg ccgctgttga acacgtgggc gctcagggtg aacacgctgc 2400tgccgttgct gaagttgaag ggggtggtga agcccacggt gcggaagctg ccgctctgca 2460ggttgctgcc gctgctcatg gtggcgctga agttgccctg gttgatgggg cggccgtcga 2520tgctggtgtg gaactgcagg ttggtggtgc tggcgtagcg gatgcggacg cggtagcgct 2580ggctcagggg ggcggtgatg ttcacgcgca gggtgctgat ctggccgggg ctggtgcggc 2640gcaggatgtc gccgccggtg aagccggggc ccttcaccac gctggtgccg ctgcccaggt 2700tggtgctctt ggtcaggggg atctgggtga tctggctgct ggggatgatg ttgttgaact 2760cggcactgcg gtgaatccag ctgaacatag gtgcacggat gatgctcacg ctgctgttgc 2820tgaagccact gcggaacatg ctcacgtggc tcagacggtg gctgaagccc tgtcgaggtg 2880gcacgttgtt gttctgaggg gggatctcgt ccaggctgtc cacggtgccg ctcttgcggt 2940acacggcgct gggcaggttg ctgctggtgc cgtaggcgaa ctcggtgccg tccagcacgc 3000tcagctgctg gttgttgatg ccgatgttga aaggtcgacg gtacagggtg ctgctcaggg 3060tgcggtacac tccctggccc agctgtgcca cgatgcgctg ctgaggtgca gcgttgccca 3120tcgtgccgta cagggggaag gtgaactcgg ggccgctgaa gccgacgggg ctggccatga 3180tctggtggcc gctccagtag tactcgccgc ggtgggcgtc ggtgtagatg gtgatgctgt 3240tcaggatgtc catcaggtgg gggctgcgga tgctgccctc gatgccctgg gcgctgccgc 3300ggaagctgcc gtcgaagttc tccagcacgg ggttggtgta aatctcgcgg gtcagctggc 3360tcacggtgcg gatggggtag gtgcggctgt cgtagttggg gaacaggctc acgatgtcca 3420gcacggtcag ggtcagctcg cggcggaact ggttgtacct gatccagtcg cggctgtcgg 3480gaccccacac gcgctccagg ccggtgttgt accagcgcac ggcgtggtcg gtgtagttgc 3540cgatcaggcg ggtcaggtcg ttgtagcggc tgttgatggt ggcggcgtcg aagccccagc 3600gctggccgaa cacgctgacg tcgcgcagca cgctcaggtg caggttggcg gcctgcacgt 3660acacgctcag caggggcacc tggtagttct gcacggcgaa cagggggatg gcggtggtca 3720gggcgctgtt catgtcgttg aactggatgc gcatctcctc gcgcagggcg gggttggtgg 3780ggtcggcctc ccactcgcgg aagctctcgg cgtagatttg gtacaggttg ctcaggccct 3840ccaggcggct gatggcctgg ttgcgggcga attcctctat gcgttggttt atcaactgct 3900cgatctgcac caggaaggcg tcccactggc tggggccgaa gatgccccag atgatgtcca 3960ccaggcccag cacgaagccg gcgccgggca cgaactcgct cagcaggaac tgggtcaggc 4020tcaggctgat gtcgatgggg gtgtagccgg tctcgatgcg ctcgccgccc agcacctcca 4080cctcggggtt gctcaggcag ttgtagggga tgcactcgtt gatgttgggg ttgttgtcca 4140tggtgggttt gcctgcgacc acaagttcag tcatagttaa ctggagatac agtgtggaga 4200gtcccttcaa ataacctgct tgcaccaccc atagtttaag aggcagttgc tttcacacac 4260tttattttgc atggcacagc caactgtccc catcattcta aaccaggctg caactgagcc 4320actacagaaa ctgctaatat tagatattcc agcaaatagt cttgacacta gagtgctagg 4380tccctaaaca cgaaagacat ttgtcaggag acccgtattg agtactagca gagtatacta 4440ccgctagata ttccagtata atcgtgcagc agctccggtc aatggcagtg gcacttgaag 4500tctgcaacct cagccaacag atccacatga gaaccaacag ggtcacgctg cagctggtgc 4560tccataatcc aagctccgcg acctaagccg ccgagagcca aattcgcaga tgaactgcag 4620ccacacgagc tacactggcg ccgctgaggt aaagatcaac cgagattcca ccgccaccgc 4680acctcgcaga ccatagatct acacagctcg atttcacacg ctacagggcg aacaaacaag 4740cacggatcca tagcggccgc gcaccacgcc agtacgccac agcctgcagc gagcacatag 4800acgaagcgcc cgacgtctag atcacagatc gtggaatccc ggccacgcag actatgtttc 4860tggctcgcaa gcgtgtcccg gccgcacgag gaatcccgat gatccgatca ggattccctc 4920cccgaggaaa accacgaatc aggccacgag gaagccgagc ggccgcgatc ccgcctgaat 4980ccagctagat ccgaagcgtt acacgagcgc tccgcgagaa ggaaacaaaa ggcccgaaat 5040caggcgcgga gccagcacgc cccgcgccga tccggggagg aagccagagc gcgcccgggg 5100gaggggaagc ggaggggtgg agggggcctt accaactcgg gcgagctggc gcggcgaaga 5160aggggacggg gacggccgag ggaggaggaa tccgccgagg aagcgaagcg aggaggggaa 5220agaggatgga tggagctggc tgctgctgtg ctgcctctgc ctgcgtgccg agtgaccagt 5280cctgcgggag acgcctcgtg ttttgatgtg gtcgccgggt tttccaccgc gtatcccccg 5340cgcgggtgtg gccgtgtggg tgacctgact gacctgcccc ttcgacggaa cggagcggcc 5400gctgccagct tccacggtcg tcggatggcg atatggacgg ccgcgatggg cgacacgtca 5460gcgcggcgcg atgttcgctg gaaggtgatg tgggccgccg gaagcgtatt cgtaactctc 5520tttttattcg ttttcttttt cgtgaaaggg atttcggaat gaaaataaat agatacattc 5580agggacgcgg aggattatca ggggaataaa aaccaaacaa aaagcagtgg catcagcgat 5640ccacaccaca ccgaccgtgg gcgatggact aatctgtgag caaagcatta gccggacaag 5700acagcagcgg cgtcgtacta ctcctgcgta tgatatgatg atgctctcaa ttcatgcagt 5760gcatccgatg cacgtacgaa cgcactcggc ggctgggcac ggattaatcg gttcttaacc 5820gtgattggtt cggtacttac agctaaaaca ccggccagta cgtgcctgtg cctaccgaat 5880tgctactaat aattggacag cacatccaca tccagcatgt gtgtgtcagt gtgtgtcgga 5940gtgggttccg tggtggatcg agagccgcgg gcgttgcttg ggccgtcatg gacagggctg 6000catctacacg acaggccaga ttgcgcgagg cccggagccc ggattgcagt tccctttcct 6060agagatggaa ctacagctgc tacacctact gcgttcaaca ttactctttc ttttatattt 6120cagacgcttc atctaaggct atctccagct catctctcat tttttttcga tttacatcta 6180aggctagagt tatggcagaa tatatagtaa aaaccacctg ttaggtgaaa acatggaaat 6240agatcacaaa acgtattttg acatttcatt tttttaaaca aaaatacttc acgcatccat 6300aatgcataga attacgtatt aacgaaaaag ttaagacaca aacttaaact aaaaatcata 6360tgaaaatgga aaatataagg cttatgtgga ataaaagatg aaactcgaga attttgtctt 6420tttatagtgc acatgaacct gttgtttgct actttcggcg cgccagctgc ttgtggggac 6480cagacaaaaa aggaatggtg cagaattgtt aggcgcacct accaaaagca tctttgcctt 6540tattgcaaag ataaagcaga ttcctctagt acaagtgggg aacaaaataa cgtggaaaag 6600agctgtcctg acagcccact cactaatgcg tatgacgaac gcagtgacga ccacaaaact 6660cgagactttt caacaaaggg taatatccgg aaacctcctc ggattccatt gcccagctat 6720ctgtcacttt attgtgaaga tagtggaaaa ggaaggtggc tcctacaaat gccatcattg 6780cgataaagga aaggctatcg ttgaagatgc ctctgccgac agtggtccca aagatggacc 6840cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt caaagcaagt 6900ggattgatgt gatatctcca ctgacgtaag ggatgacgaa caatcccact atccttcggt 6960accggaccgc gatcgcttaa ttaagcttgc atgcctgcag tgcagcgtga cccggtcgtg 7020cccctctcta gagataatga gcattgcatg tctaagttat aaaaaattac cacatatttt 7080ttttgtcaca cttgtttgaa gtgcagttta tctatcttta tacatatatt taaactttac 7140tctacgaata atataatcta tagtactaca ataatatcag tgttttagag aatcatataa 7200atgaacagtt agacatggtc taaaggacaa ttgagtattt tgacaacagg actctacagt 7260tttatctttt tagtgtgcat gtgttctcct ttttttttgc aaatagcttc acctatataa 7320tacttcatcc attttattag tacatccatt tagggtttag ggttaatggt ttttatagac 7380taattttttt agtacatcta ttttattcta ttttagcctc taaattaaga aaactaaaac 7440tctattttag tttttttatt taataattta gatataaaat agaataaaat aaagtgacta 7500aaaattaaac aaataccctt taagaaatta aaaaaactaa ggaaacattt ttcttgtttc 7560gagtagataa tgccagcctg ttaaacgccg ccgacgagtc taacggacac caaccagcga 7620accagcagcg tcgcgtcggg ccaagcgaag cagacggcac ggcatctctg tcgctgcctc 7680tggacccctc tcgagagttc cgctccaccg ttggacttgc tccgctgtcg gcatccagaa 7740attgcgtggc ggagcggcag acgtgagccg gcacggcagg cggcctcctc ctcctctcac 7800ggcaccggca gctacggggg attcctttcc caccgctcct tcgctttccc ttcctcgccc 7860gccgtaataa atagacaccc cctccacacc ctctttcccc aacctcgtgt tgttcggagc 7920gcacacacac acaaccagat ctcccccaaa tccacccgtc ggcacctccg cttcaaggta 7980cgccgctcgt cctccccccc cccccctctc taccttctct agatcggcgt tccggtccat 8040agttagggcc cggtagttct acttctgttc atgtttgtgt tagatccgtg tttgtgttag 8100atccgtgctg ttagcgttcg tacacggatg cgacctgtac gtcagacacg ttctgattgc 8160taacttgcca gtgtttctct ttggggaatc ctgggatggc tctagccgtt ccgcagacgg 8220gatcgatttc atgatttttt ttgtttcgtt gcatagggtt tggtttgccc ttttccttta 8280tttcaatata tgccgtgcac ttgtttgtcg ggtcatcttt tcatgctttt ttttgtcttg 8340gttgtgatga tgtggtctgg ttgggcggtc gttctagatc ggagtagaat tctgtttcaa 8400actacctggt ggatttatta attttggatc tgtatgtgtg tgccatacat attcatagtt 8460acgaattgaa gatgatggat ggaaatatcg atctaggata ggtatacatg ttgatgcggg 8520ttttactgat gcatatacag agatgctttt tgttcgcttg gttgtgatga tgtggtgtgg 8580ttgggcggtc gttcattcgt tctagatcgg agtagaatac tgtttcaaac tacctggtgt 8640atttattaat tttggaactg tatgtgtgtg tcatacatct tcatagttac gagtttaaga 8700tggatggaaa tatcgatcta ggataggtat acatgttgat gtgggtttta ctgatgcata 8760tacatgatgg catatgcagc atctattcat atgctctaac cttgagtacc tatctattat 8820aataaacaag tatgttttat aattattttg atcttgatat acttggatga tggcatatgc 8880agcagctata tgtggatttt tttagccctg ccttcatacg ctatttattt gcttggtact 8940gtttcttttg tcgatgctca ccctgttgtt tggtgttact tctgcaggga tccactagtc 9000caccatgtct ccggagagga gaccagttga gattaggcca gctacagcag ctgatatggc 9060cgcggtttgt gatatcgtta accattacat tgagacgtct acagtgaact ttaggacaga 9120gccacaaaca ccacaagagt ggattgatga tctagagagg ttgcaagata gatacccttg 9180gttggttgct gaggttgagg gtgttgtggc tggtattgct tacgctgggc cctggaaggc 9240taggaacgct tacgattgga cagttgagag tactgtttac gtgtcacata ggcatcaaag 9300gttgggccta ggatccacat tgtacacaca tttgcttaag tctatggagg cgcaaggttt 9360taagtctgtg gttgctgtta taggccttcc aaacgatcca tctgttaggt tgcatgaggc 9420tttgggatac acagcccggg gtacattgcg cgcagctgga tacaagcatg gtggatggca 9480tgatgttggt ttttggcaaa gggattttga gttgccagct cctccaaggc cagttaggcc 9540agttacccag atctgaacta gtgatatcgg cgccatgggt cgacctgcag atcgttcaaa 9600catttggcaa taaagtttct taagattgaa tcctgttgcc ggtcttgcga tgattatcat 9660ataatttctg ttgaattacg ttaagcatgt aataattaac atgtaatgca tgacgttatt 9720tatgagatgg gtttttatga ttagagtccc gcaattatac atttaatacg cgatagaaaa 9780caaaatatag cgcgcaaact aggataaatt atcgcgcgcg gtgtcatcta tgttactaga 9840tctgctagcc ctgcaggaaa tttaccggtg cccgggcggc cagcatggcc gtatccgcaa 9900tgtgttatta agttgtctaa gcgtcaattt gtttacacca caatatatcc tgccaccagc 9960cagccaacag ctccccgacc ggcagctcgg cacaaaatca ccactcgata caggcagccc 10020atcagaatta attctcatgt ttgacagctt atcatcgact gcacggtgca ccaatgcttc 10080tggcgtcagg cagccatcgg aagctgtggt atggctgtgc aggtcgtaaa tcactgcata 10140attcgtgtcg ctcaaggcgc actcccgttc tggataatgt tttttgcgcc gacatcataa 10200cggttctggc aaatattctg aaatgagctg ttgacaatta atcatccggc tcgtataatg 10260tgtggaattg tgagcggata acaatttcac acaggaaaca gaccatgagg gaagcgttga 10320tcgccgaagt atcgactcaa ctatcagagg tagttggcgt catcgagcgc catctcgaac 10380cgacgttgct ggccgtacat ttgtacggct ccgcagtgga tggcggcctg aagccacaca 10440gtgatattga tttgctggtt acggtgaccg taaggcttga tgaaacaacg cggcgagctt 10500tgatcaacga ccttttggaa acttcggctt cccctggaga gagcgagatt ctccgcgctg 10560tagaagtcac cattgttgtg cacgacgaca tcattccgtg gcgttatcca gctaagcgcg 10620aactgcaatt tggagaatgg cagcgcaatg acattcttgc aggtatcttc gagccagcca 10680cgatcgacat tgatctggct atcttgctga caaaagcaag agaacatagc gttgccttgg 10740taggtccagc ggcggaggaa ctctttgatc cggttcctga acaggatcta tttgaggcgc 10800taaatgaaac cttaacgcta tggaactcgc cgcccgactg ggctggcgat gagcgaaatg 10860tagtgcttac gttgtcccgc atttggtaca gcgcagtaac cggcaaaatc gcgccgaagg 10920atgtcgctgc cgactgggca atggagcgcc tgccggccca gtatcagccc gtcatacttg 10980aagctaggca ggcttatctt ggacaagaag atcgcttggc ctcgcgcgca gatcagttgg 11040aagaatttgt tcactacgtg aaaggcgaga tcaccaaagt agtcggcaaa taaagctcta 11100gtggatctcc gtacccaggg atctggctcg cggcggacgc acgacgccgg ggcgagacca 11160taggcgatct cctaaatcaa tagtagctgt aacctcgaag cgtttcactt gtaacaacga 11220ttgagaattt ttgtcataaa attgaaatac ttggttcgca tttttgtcat ccgcggtcag 11280ccgcaattct gacgaactgc ccatttagct ggagatgatt gtacatcctt cacgtgaaaa 11340tttctcaagc gctgtgaaca agggttcaga ttttagattg aaaggtgagc cgttgaaaca 11400cgttcttctt gtcgatgacg acgtcgctat gcggcatctt attattgaat accttacgat 11460ccacgccttc aaagtgaccg cggtagccga cagcacccag ttcacaagag tactctcttc 11520cgcgacggtc gatgtcgtgg ttgttgatct agatttaggt cgtgaagatg ggctcgagat 11580cgttcgtaat ctggcggcaa agtctgatat tccaatcata attatcagtg gcgaccgcct 11640tgaggagacg gataaagttg ttgcactcga gctaggagca agtgatttta tcgctaagcc 11700gttcagtatc agagagtttc tagcacgcat tcgggttgcc ttgcgcgtgc gccccaacgt 11760tgtccgctcc aaagaccgac ggtctttttg ttttactgac tggacactta atctcaggca 11820acgtcgcttg atgtccgaag ctggcggtga ggtgaaactt acggcaggtg agttcaatct 11880tctcctcgcg tttttagaga aaccccgcga cgttctatcg cgcgagcaac ttctcattgc 11940cagtcgagta cgcgacgagg aggtttatga caggagtata gatgttctca ttttgaggct 12000gcgccgcaaa cttgaggcag atccgtcaag ccctcaactg ataaaaacag caagaggtgc 12060cggttatttc tttgacgcgg acgtgcaggt ttcgcacggg gggacgatgg

cagcctgagc 12120caattcccag atccccgagg aatcggcgtg agcggtcgca aaccatccgg cccggtacaa 12180atcggcgcgg cgctgggtga tgacctggtg gagaagttga aggccgcgca ggccgcccag 12240cggcaacgca tcgaggcaga agcacgcccc ggtgaatcgt ggcaagcggc cgctgatcga 12300atccgcaaag aatcccggca accgccggca gccggtgcgc cgtcgattag gaagccgccc 12360aagggcgacg agcaaccaga ttttttcgtt ccgatgctct atgacgtggg cacccgcgat 12420agtcgcagca tcatggacgt ggccgttttc cgtctgtcga agcgtgaccg acgagctggc 12480gaggtgatcc gctacgagct tccagacggg cacgtagagg tttccgcagg gccggccggc 12540atggccagtg tgtgggatta cgacctggta ctgatggcgg tttcccatct aaccgaatcc 12600atgaaccgat accgggaagg gaagggagac aagcccggcc gcgtgttccg tccacacgtt 12660gcggacgtac tcaagttctg ccggcgagcc gatggcggaa agcagaaaga cgacctggta 12720gaaacctgca ttcggttaaa caccacgcac gttgccatgc agcgtacgaa gaaggccaag 12780aacggccgcc tggtgacggt atccgagggt gaagccttga ttagccgcta caagatcgta 12840aagagcgaaa ccgggcggcc ggagtacatc gagatcgagc tggctgattg gatgtaccgc 12900gagatcacag aaggcaagaa cccggacgtg ctgacggttc accccgatta ctttttgatc 12960gatcccggca tcggccgttt tctctaccgc ctggcacgcc gcgccgcagg caaggcagaa 13020gccagatggt tgttcaagac gatctacgaa cgcagtggca gcgccggaga gttcaagaag 13080ttctgtttca ccgtgcgcaa gctgatcggg tcaaatgacc tgccggagta cgatttgaag 13140gaggaggcgg ggcaggctgg cccgatccta gtcatgcgct accgcaacct gatcgagggc 13200gaagcatccg ccggttccta atgtacggag cagatgctag ggcaaattgc cctagcaggg 13260gaaaaaggtc gaaaaggtct ctttcctgtg gatagcacgt acattgggaa cccaaagccg 13320tacattggga accggaaccc gtacattggg aacccaaagc cgtacattgg gaaccggtca 13380cacatgtaag tgactgatat aaaagagaaa aaaggcgatt tttccgccta aaactcttta 13440aaacttatta aaactcttaa aacccgcctg gcctgtgcat aactgtctgg ccagcgcaca 13500gccgaagagc tgcaaaaagc gcctaccctt cggtcgctgc gctccctacg ccccgccgct 13560tcgcgtcggc ctatcgcggc cgctggccgc tcaaaaatgg ctggcctacg gccaggcaat 13620ctaccagggc gcggacaagc cgcgccgtcg ccactcgacc gccggcgctg aggtctgcct 13680cgtgaagaag gtgttgctga ctcataccag gcctgaatcg ccccatcatc cagccagaaa 13740gtgagggagc cacggttgat gagagctttg ttgtaggtgg accagttggt gattttgaac 13800ttttgctttg ccacggaacg gtctgcgttg tcgggaagat gcgtgatctg atccttcaac 13860tcagcaaaag ttcgatttat tcaacaaagc cgccgtcccg tcaagtcagc gtaatgctct 13920gccagtgtta caaccaatta accaattctg attagaaaaa ctcatcgagc atcaaatgaa 13980actgcaattt attcatatca ggattatcaa taccatattt ttgaaaaagc cgtttctgta 14040atgaaggaga aaactcaccg aggcagttcc ataggatggc aagatcctgg tatcggtctg 14100cgattccgac tcgtccaaca tcaatacaac ctattaattt cccctcgtca aaaataaggt 14160tatcaagtga gaaatcacca tgagtgacga ctgaatccgg tgagaatggc aaaagctctg 14220cattaatgaa tcggccaacg cgcggggaga ggcggtttgc gtattgggcg ctcttccgct 14280tcctcgctca ctgactcgct gcgctcggtc gttcggctgc ggcgagcggt atcagctcac 14340tcaaaggcgg taatacggtt atccacagaa tcaggggata acgcaggaaa gaacatgtga 14400gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc gtttttccat 14460aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag gtggcgaaac 14520ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt gcgctctcct 14580gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg aagcgtggcg 14640ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg ctccaagctg 14700ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg taactatcgt 14760cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac tggtaacagg 14820attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg gcctaactac 14880ggctacacta gaagaacagt atttggtatc tgcgctctgc tgaagccagt taccttcgga 14940aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg tggttttttt 15000gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc tttgatcttt 15060tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt ggtcatgaga 15120ttatcaaaaa ggatcttcac ctagatcctt ttgatccgga at 151623915162DNAArtificial sequencemisc_feature(1)..(15162)enhanced ZmABP3-Cry1AbG6 binary construct 39taattcctgt ggttggcatg cacatacaaa tggacgaacg gataaacctt ttcacgccct 60tttaaatatc cgattattct aataaacgct cttttctctt aggtttaccc gccaatatat 120cctgtcaaac actgatagtt taaactgaag gcgggaaacg acaatctgat catgagcgga 180gaattaaggg agtcacgtta tgacccccgc cgatgacgcg ggacaagccg ttttacgttt 240ggaactgaca gaaccgcaac gctgcaggaa ttggccgcag cggccattta aatcaattgg 300gcgcgccaca ctttctgtcg catgtgattt gcactaggag caggatagca gatgaggtca 360aacgaaacga tgatgcgctt gagatgggaa aatggctgct cgacacggtt gagaacttga 420gatggcatac gagcaatcaa gcaggggtca ctaccacttc cggctataaa taagagataa 480ataagagatg agaccattat ctcatgagac agccatgcaa tgtcgccaag gatttaggaa 540caaatagttt ttttgtcatt aacgacaaca ttgcgtcgtg gtttagttgg ctatcacgtc 600agtctaacac attgaaggat ctcctggctc aacatttttt tcccttccct taagtccgtg 660ttaaagaaac tgcatcatgc aacgctggaa attttgctaa acaaatgacg gatttgcatc 720acacagattc acactccact gtgcccacag agacactatt gctctgtttg gttaccggca 780tcctcggtgc ctaactcgag caggtcttca gtagaaacgg acgattctta cttccccacg 840cttacagacc aacaagggat ctgcacacac aacaatgtag ccaaaagaac acctaggatt 900ttccaaaaac actaaggacc tgttcgcttg gaattataat ctgcctagat tatataatct 960aacttaactt gaactcacac ttagtttaaa ataagtttct ccagacataa tcccaaacaa 1020acgaccccta agcttctcca gacaattgtc accgagacat gggaagggaa catatcgatt 1080acttatttgt agtagtaagt tgaacagcgc aacacatgtc catagtccat acataattgg 1140cagataacaa ggaattacat gatagatccg aaccttcatg gtcttctggg agccaaggga 1200ccttttttta cacagcaaca aacccgcaaa tcatcaagca gtctttcaca gcaccaagtc 1260tataatggca tacaaatcca cagtagtagg ccgagtccat gatgcatgat catgatgcga 1320gctcctagat gcggccctcg agttcctcga agatggcggc gttcacaccg gggatcacgc 1380tcagctcggg caggtaggcc tcgcgaatgc tgtgcacgcg cttgtcggcg gcgtggatca 1440tggcgatgtt ggtgtcggcc tgcaggcggt cgtactggct gttcacgaac agggcgtcca 1500cgctctcctt ggcctccttg tacacgatgt tggtctccca ctccagcttc tcgcgcttgt 1560cgcgccactt cttctcagca cgcttcacgc gggccagggc ctcgcccacc aggggcttct 1620cctccaggaa ctctagattg cccaggcggg cgtggccgtc ctgggtcttg atcttgaaga 1680tcacccacac gcccaggtcc tcgttcaggt cggtgcagcc cacgtcgatg tccaggctga 1740agtggtggct gtggtggcac ttgccgatgg ggctgggggc gctcaggggc cacaggctgc 1800cggtgccggg cacgttcacg gtctcgtgct tcgcgttgta gcggatcagg tagatttcca 1860ggtcctggct gtcctcgatg tagccgcgca gctggtagcg ggtgtaggcc ttcagcttgc 1920tctcgtcgat cttctggtac aggtaggtgg ggtagcactc gtcgaaggtg cccagcaggg 1980tcacgtagtt ctccttgaac acgtcgtcgc cgccctggat ggtgatatcg gtgctgcctc 2040gccagccgcg gtccagctgg cggttgatgc cgcggaagtt ggggtcctgc agcaggttgc 2100gctcgtcgct caggcgcttg gcgtgcttca ccttctcgct cagctccttc ttctcgtcca 2160ggcagaactc gtcgcttaag cactccacca ggttgctcac ctggtcgatg tggtagtcgg 2220tcacgtcggt cttcaggccg atctggttgc tgctggtgaa cagctcgttc acggccttct 2280gagccctctc caggtcgtac tcggcctcga aggtcacctc ggcgggcacg aactcgatgc 2340ggtcgatgta cacctcgttg ccgctgttga acacgtgggc gctcagggtg aacacgctgc 2400tgccgttgct gaagttgaag ggggtggtga agcccacggt gcggaagctg ccgctctgca 2460ggttgctgcc gctgctcatg gtggcgctga agttgccctg gttgatgggg cggccgtcga 2520tgctggtgtg gaactgcagg ttggtggtgc tggcgtagcg gatgcggacg cggtagcgct 2580ggctcagggg ggcggtgatg ttcacgcgca gggtgctgat ctggccgggg ctggtgcggc 2640gcaggatgtc gccgccggtg aagccggggc ccttcaccac gctggtgccg ctgcccaggt 2700tggtgctctt ggtcaggggg atctgggtga tctggctgct ggggatgatg ttgttgaact 2760cggcactgcg gtgaatccag ctgaacatag gtgcacggat gatgctcacg ctgctgttgc 2820tgaagccact gcggaacatg ctcacgtggc tcagacggtg gctgaagccc tgtcgaggtg 2880gcacgttgtt gttctgaggg gggatctcgt ccaggctgtc cacggtgccg ctcttgcggt 2940acacggcgct gggcaggttg ctgctggtgc cgtaggcgaa ctcggtgccg tccagcacgc 3000tcagctgctg gttgttgatg ccgatgttga aaggtcgacg gtacagggtg ctgctcaggg 3060tgcggtacac tccctggccc agctgtgcca cgatgcgctg ctgaggtgca gcgttgccca 3120tcgtgccgta cagggggaag gtgaactcgg ggccgctgaa gccgacgggg ctggccatga 3180tctggtggcc gctccagtag tactcgccgc ggtgggcgtc ggtgtagatg gtgatgctgt 3240tcaggatgtc catcaggtgg gggctgcgga tgctgccctc gatgccctgg gcgctgccgc 3300ggaagctgcc gtcgaagttc tccagcacgg ggttggtgta aatctcgcgg gtcagctggc 3360tcacggtgcg gatggggtag gtgcggctgt cgtagttggg gaacaggctc acgatgtcca 3420gcacggtcag ggtcagctcg cggcggaact ggttgtacct gatccagtcg cggctgtcgg 3480gaccccacac gcgctccagg ccggtgttgt accagcgcac ggcgtggtcg gtgtagttgc 3540cgatcaggcg ggtcaggtcg ttgtagcggc tgttgatggt ggcggcgtcg aagccccagc 3600gctggccgaa cacgctgacg tcgcgcagca cgctcaggtg caggttggcg gcctgcacgt 3660acacgctcag caggggcacc tggtagttct gcacggcgaa cagggggatg gcggtggtca 3720gggcgctgtt catgtcgttg aactggatgc gcatctcctc gcgcagggcg gggttggtgg 3780ggtcggcctc ccactcgcgg aagctctcgg cgtagatttg gtacaggttg ctcaggccct 3840ccaggcggct gatggcctgg ttgcgggcga attcctctat gcgttggttt atcaactgct 3900cgatctgcac caggaaggcg tcccactggc tggggccgaa gatgccccag atgatgtcca 3960ccaggcccag cacgaagccg gcgccgggca cgaactcgct cagcaggaac tgggtcaggc 4020tcaggctgat gtcgatgggg gtgtagccgg tctcgatgcg ctcgccgccc agcacctcca 4080cctcggggtt gctcaggcag ttgtagggga tgcactcgtt gatgttgggg ttgttgtcca 4140tggtgggttt gcctgcgacc acaagttcag tcatagttaa ctggagatac agtgtggaga 4200gtcccttcaa ataacctgct tgcaccaccc atagtttaag aggcagttgc tttcacacac 4260tttattttgc atggcacagc caactgtccc catcattcta aaccaggctg caactgagcc 4320actacagaaa ctgctaatat tagatattcc agcaaatagt cttgacacta gagtgctagg 4380tccctaaaca cgaaagacat ttgtcaggag acccgtattg agtactagca gagtatacta 4440ccgctagata ttccagtata atcgtgcagc agctccggtc aatggcagtg gcacttgaag 4500tctgcaacct cagccaacag atccacatga gaaccaacag ggtcacgctg cagctggtgc 4560tccataatcc aagctccgcg acctaagccg ccgagagcca aattcgcaga tgaactgcag 4620ccacacgagc tacactggcg ccgctgaggt aaagatcaac cgagattcca ccgccaccgc 4680acctcgcaga ccatagatct acacagctcg atttcacacg ctacagggcg aacaaacaag 4740cacggatcca tagcggccgc gcaccacgcc agtacgccac agcctgcagc gagcacatag 4800acgaagcgcc cgacgtctag atcacagatc gtggaatccc ggccacgcag actatgtttc 4860tggctcgcaa gcgtgtcccg gccgcacgag gaatcccgat gatccgatca ggattccctc 4920cccgaggaaa accacgaatc aggccacgag gaagccgagc ggccgcgatc ccgcctgaat 4980ccagctagat ccgaagcgtt acacgagcgc tccgcgagaa ggaaacaaaa ggcccgaaat 5040caggcgcgga gccagcacgc cccgcgccga tccggggagg aagccagagc gcgcccgggg 5100gaggggaagc ggaggggtgg agggggcctt accaactcgg gcgagctggc gcggcgaaga 5160aggggacggg gacggccgag ggaggaggaa tccgccgagg aagcgaagcg aggaggggaa 5220agaggatgga tggagctggc tgctgctgtg ctgcctctgc ctgcgtgccg agtgaccagt 5280cctgcgggag acgcctcgtg ttttgatgtg gtcgccgggt tttccaccgc gtatcccccg 5340cgcgggtgtg gccgtgtggg tgacctgact gacctgcccc ttcgacggaa cggagcggcc 5400gctgccagct tccacggtcg tcggatggcg atatggacgg ccgcgatggg cgacacgtca 5460gcgcggcgcg atgttcgctg gaaggtgatg tgggccgccg gaagcgtatt cgtaactctc 5520tttttattcg ttttcttttt cgtgaaaggg atttcggaat gaaaataaat agatacattc 5580agggacgcgg aggattatca ggggaataaa aaccaaacaa aaagcagtgg catcagcgat 5640ccacaccaca ccgaccgtgg gcgatggact aatctgtgag caaagcatta gccggacaag 5700acagcagcgg cgtcgtacta ctcctgcgta tgatatgatg atgctctcaa ttcatgcagt 5760gcatccgatg cacgtacgaa cgcactcggc ggctgggcac ggattaatcg gttcttaacc 5820gtgattggtt cggtacttac agctaaaaca ccggccagta cgtgcctgtg cctaccgaat 5880tgctactaat aattggacag cacatccaca tccagcatgt gtgtgtcagt gtgtgtcgga 5940gtgggttccg tggtggatcg agagccgcgg gcgttgcttg ggccgtcatg gacagggctg 6000catctacacg acaggccaga ttgcgcgagg cccggagccc ggattgcagt tccctttcct 6060agagatggaa ctacagctgc tacacctact gcgttcaaca ttactctttc ttttatattt 6120cagacgcttc atctaaggct atctccagct catctctcat tttttttcga tttacatcta 6180aggctagagt tatggcagaa tatatagtaa aaaccacctg ttaggtgaaa acatggaaat 6240agatcacaaa acgtattttg acatttcatt tttttaaaca aaaatacttc acgcatccat 6300aatgcataga attacgtatt aacgaaaaag ttaagacaca aacttaaact aaaaatcata 6360tgaaaatgga aaatataagg cttatgtgga ataaaagatg aaactcgaga attttgtctt 6420tttatagtgc acatgaacct gttgtttgct actttcggcg cgccagctgc ttgtggggac 6480cagacaaaaa aggaatggtg cagaattgtt aggcgcacct accaaaagca tctttgcctt 6540tattgcaaag ataaagcaga ttcctctagt acaagtgggg aacaaaataa cgtggaaaag 6600agctgtcctg acagcccact cactaatgcg tatgacgaac gcagtgacga ccacaaaact 6660cgagactttt caacaaaggg taatatccgg aaacctcctc ggattccatt gcccagctat 6720ctgtcacttt attgtgaaga tagtggaaaa ggaaggtggc tcctacaaat gccatcattg 6780cgataaagga aaggctatcg ttgaagatgc ctctgccgac agtggtccca aagatggacc 6840cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt caaagcaagt 6900ggattgatgt gatatctcca ctgacgtaag ggatgacgaa caatcccact atccttcggt 6960accggaccgc gatcgcttaa ttaagcttgc atgcctgcag tgcagcgtga cccggtcgtg 7020cccctctcta gagataatga gcattgcatg tctaagttat aaaaaattac cacatatttt 7080ttttgtcaca cttgtttgaa gtgcagttta tctatcttta tacatatatt taaactttac 7140tctacgaata atataatcta tagtactaca ataatatcag tgttttagag aatcatataa 7200atgaacagtt agacatggtc taaaggacaa ttgagtattt tgacaacagg actctacagt 7260tttatctttt tagtgtgcat gtgttctcct ttttttttgc aaatagcttc acctatataa 7320tacttcatcc attttattag tacatccatt tagggtttag ggttaatggt ttttatagac 7380taattttttt agtacatcta ttttattcta ttttagcctc taaattaaga aaactaaaac 7440tctattttag tttttttatt taataattta gatataaaat agaataaaat aaagtgacta 7500aaaattaaac aaataccctt taagaaatta aaaaaactaa ggaaacattt ttcttgtttc 7560gagtagataa tgccagcctg ttaaacgccg ccgacgagtc taacggacac caaccagcga 7620accagcagcg tcgcgtcggg ccaagcgaag cagacggcac ggcatctctg tcgctgcctc 7680tggacccctc tcgagagttc cgctccaccg ttggacttgc tccgctgtcg gcatccagaa 7740attgcgtggc ggagcggcag acgtgagccg gcacggcagg cggcctcctc ctcctctcac 7800ggcaccggca gctacggggg attcctttcc caccgctcct tcgctttccc ttcctcgccc 7860gccgtaataa atagacaccc cctccacacc ctctttcccc aacctcgtgt tgttcggagc 7920gcacacacac acaaccagat ctcccccaaa tccacccgtc ggcacctccg cttcaaggta 7980cgccgctcgt cctccccccc cccccctctc taccttctct agatcggcgt tccggtccat 8040agttagggcc cggtagttct acttctgttc atgtttgtgt tagatccgtg tttgtgttag 8100atccgtgctg ttagcgttcg tacacggatg cgacctgtac gtcagacacg ttctgattgc 8160taacttgcca gtgtttctct ttggggaatc ctgggatggc tctagccgtt ccgcagacgg 8220gatcgatttc atgatttttt ttgtttcgtt gcatagggtt tggtttgccc ttttccttta 8280tttcaatata tgccgtgcac ttgtttgtcg ggtcatcttt tcatgctttt ttttgtcttg 8340gttgtgatga tgtggtctgg ttgggcggtc gttctagatc ggagtagaat tctgtttcaa 8400actacctggt ggatttatta attttggatc tgtatgtgtg tgccatacat attcatagtt 8460acgaattgaa gatgatggat ggaaatatcg atctaggata ggtatacatg ttgatgcggg 8520ttttactgat gcatatacag agatgctttt tgttcgcttg gttgtgatga tgtggtgtgg 8580ttgggcggtc gttcattcgt tctagatcgg agtagaatac tgtttcaaac tacctggtgt 8640atttattaat tttggaactg tatgtgtgtg tcatacatct tcatagttac gagtttaaga 8700tggatggaaa tatcgatcta ggataggtat acatgttgat gtgggtttta ctgatgcata 8760tacatgatgg catatgcagc atctattcat atgctctaac cttgagtacc tatctattat 8820aataaacaag tatgttttat aattattttg atcttgatat acttggatga tggcatatgc 8880agcagctata tgtggatttt tttagccctg ccttcatacg ctatttattt gcttggtact 8940gtttcttttg tcgatgctca ccctgttgtt tggtgttact tctgcaggga tccactagtc 9000caccatgtct ccggagagga gaccagttga gattaggcca gctacagcag ctgatatggc 9060cgcggtttgt gatatcgtta accattacat tgagacgtct acagtgaact ttaggacaga 9120gccacaaaca ccacaagagt ggattgatga tctagagagg ttgcaagata gatacccttg 9180gttggttgct gaggttgagg gtgttgtggc tggtattgct tacgctgggc cctggaaggc 9240taggaacgct tacgattgga cagttgagag tactgtttac gtgtcacata ggcatcaaag 9300gttgggccta ggatccacat tgtacacaca tttgcttaag tctatggagg cgcaaggttt 9360taagtctgtg gttgctgtta taggccttcc aaacgatcca tctgttaggt tgcatgaggc 9420tttgggatac acagcccggg gtacattgcg cgcagctgga tacaagcatg gtggatggca 9480tgatgttggt ttttggcaaa gggattttga gttgccagct cctccaaggc cagttaggcc 9540agttacccag atctgaacta gtgatatcgg cgccatgggt cgacctgcag atcgttcaaa 9600catttggcaa taaagtttct taagattgaa tcctgttgcc ggtcttgcga tgattatcat 9660ataatttctg ttgaattacg ttaagcatgt aataattaac atgtaatgca tgacgttatt 9720tatgagatgg gtttttatga ttagagtccc gcaattatac atttaatacg cgatagaaaa 9780caaaatatag cgcgcaaact aggataaatt atcgcgcgcg gtgtcatcta tgttactaga 9840tctgctagcc ctgcaggaaa tttaccggtg cccgggcggc cagcatggcc gtatccgcaa 9900tgtgttatta agttgtctaa gcgtcaattt gtttacacca caatatatcc tgccaccagc 9960cagccaacag ctccccgacc ggcagctcgg cacaaaatca ccactcgata caggcagccc 10020atcagaatta attctcatgt ttgacagctt atcatcgact gcacggtgca ccaatgcttc 10080tggcgtcagg cagccatcgg aagctgtggt atggctgtgc aggtcgtaaa tcactgcata 10140attcgtgtcg ctcaaggcgc actcccgttc tggataatgt tttttgcgcc gacatcataa 10200cggttctggc aaatattctg aaatgagctg ttgacaatta atcatccggc tcgtataatg 10260tgtggaattg tgagcggata acaatttcac acaggaaaca gaccatgagg gaagcgttga 10320tcgccgaagt atcgactcaa ctatcagagg tagttggcgt catcgagcgc catctcgaac 10380cgacgttgct ggccgtacat ttgtacggct ccgcagtgga tggcggcctg aagccacaca 10440gtgatattga tttgctggtt acggtgaccg taaggcttga tgaaacaacg cggcgagctt 10500tgatcaacga ccttttggaa acttcggctt cccctggaga gagcgagatt ctccgcgctg 10560tagaagtcac cattgttgtg cacgacgaca tcattccgtg gcgttatcca gctaagcgcg 10620aactgcaatt tggagaatgg cagcgcaatg acattcttgc aggtatcttc gagccagcca 10680cgatcgacat tgatctggct atcttgctga caaaagcaag agaacatagc gttgccttgg 10740taggtccagc ggcggaggaa ctctttgatc cggttcctga acaggatcta tttgaggcgc 10800taaatgaaac cttaacgcta tggaactcgc cgcccgactg ggctggcgat gagcgaaatg 10860tagtgcttac gttgtcccgc atttggtaca gcgcagtaac cggcaaaatc gcgccgaagg 10920atgtcgctgc cgactgggca atggagcgcc tgccggccca gtatcagccc gtcatacttg 10980aagctaggca ggcttatctt ggacaagaag atcgcttggc ctcgcgcgca gatcagttgg 11040aagaatttgt tcactacgtg aaaggcgaga tcaccaaagt agtcggcaaa taaagctcta 11100gtggatctcc gtacccaggg atctggctcg cggcggacgc acgacgccgg ggcgagacca 11160taggcgatct cctaaatcaa tagtagctgt aacctcgaag cgtttcactt gtaacaacga 11220ttgagaattt ttgtcataaa attgaaatac ttggttcgca tttttgtcat ccgcggtcag 11280ccgcaattct gacgaactgc ccatttagct ggagatgatt gtacatcctt cacgtgaaaa 11340tttctcaagc gctgtgaaca agggttcaga ttttagattg aaaggtgagc cgttgaaaca 11400cgttcttctt gtcgatgacg acgtcgctat gcggcatctt attattgaat accttacgat 11460ccacgccttc aaagtgaccg cggtagccga cagcacccag ttcacaagag tactctcttc 11520cgcgacggtc gatgtcgtgg ttgttgatct agatttaggt cgtgaagatg ggctcgagat 11580cgttcgtaat ctggcggcaa agtctgatat tccaatcata attatcagtg gcgaccgcct 11640tgaggagacg gataaagttg ttgcactcga gctaggagca agtgatttta tcgctaagcc 11700gttcagtatc agagagtttc tagcacgcat tcgggttgcc ttgcgcgtgc gccccaacgt 11760tgtccgctcc aaagaccgac ggtctttttg ttttactgac tggacactta atctcaggca 11820acgtcgcttg atgtccgaag ctggcggtga ggtgaaactt acggcaggtg agttcaatct

11880tctcctcgcg tttttagaga aaccccgcga cgttctatcg cgcgagcaac ttctcattgc 11940cagtcgagta cgcgacgagg aggtttatga caggagtata gatgttctca ttttgaggct 12000gcgccgcaaa cttgaggcag atccgtcaag ccctcaactg ataaaaacag caagaggtgc 12060cggttatttc tttgacgcgg acgtgcaggt ttcgcacggg gggacgatgg cagcctgagc 12120caattcccag atccccgagg aatcggcgtg agcggtcgca aaccatccgg cccggtacaa 12180atcggcgcgg cgctgggtga tgacctggtg gagaagttga aggccgcgca ggccgcccag 12240cggcaacgca tcgaggcaga agcacgcccc ggtgaatcgt ggcaagcggc cgctgatcga 12300atccgcaaag aatcccggca accgccggca gccggtgcgc cgtcgattag gaagccgccc 12360aagggcgacg agcaaccaga ttttttcgtt ccgatgctct atgacgtggg cacccgcgat 12420agtcgcagca tcatggacgt ggccgttttc cgtctgtcga agcgtgaccg acgagctggc 12480gaggtgatcc gctacgagct tccagacggg cacgtagagg tttccgcagg gccggccggc 12540atggccagtg tgtgggatta cgacctggta ctgatggcgg tttcccatct aaccgaatcc 12600atgaaccgat accgggaagg gaagggagac aagcccggcc gcgtgttccg tccacacgtt 12660gcggacgtac tcaagttctg ccggcgagcc gatggcggaa agcagaaaga cgacctggta 12720gaaacctgca ttcggttaaa caccacgcac gttgccatgc agcgtacgaa gaaggccaag 12780aacggccgcc tggtgacggt atccgagggt gaagccttga ttagccgcta caagatcgta 12840aagagcgaaa ccgggcggcc ggagtacatc gagatcgagc tggctgattg gatgtaccgc 12900gagatcacag aaggcaagaa cccggacgtg ctgacggttc accccgatta ctttttgatc 12960gatcccggca tcggccgttt tctctaccgc ctggcacgcc gcgccgcagg caaggcagaa 13020gccagatggt tgttcaagac gatctacgaa cgcagtggca gcgccggaga gttcaagaag 13080ttctgtttca ccgtgcgcaa gctgatcggg tcaaatgacc tgccggagta cgatttgaag 13140gaggaggcgg ggcaggctgg cccgatccta gtcatgcgct accgcaacct gatcgagggc 13200gaagcatccg ccggttccta atgtacggag cagatgctag ggcaaattgc cctagcaggg 13260gaaaaaggtc gaaaaggtct ctttcctgtg gatagcacgt acattgggaa cccaaagccg 13320tacattggga accggaaccc gtacattggg aacccaaagc cgtacattgg gaaccggtca 13380cacatgtaag tgactgatat aaaagagaaa aaaggcgatt tttccgccta aaactcttta 13440aaacttatta aaactcttaa aacccgcctg gcctgtgcat aactgtctgg ccagcgcaca 13500gccgaagagc tgcaaaaagc gcctaccctt cggtcgctgc gctccctacg ccccgccgct 13560tcgcgtcggc ctatcgcggc cgctggccgc tcaaaaatgg ctggcctacg gccaggcaat 13620ctaccagggc gcggacaagc cgcgccgtcg ccactcgacc gccggcgctg aggtctgcct 13680cgtgaagaag gtgttgctga ctcataccag gcctgaatcg ccccatcatc cagccagaaa 13740gtgagggagc cacggttgat gagagctttg ttgtaggtgg accagttggt gattttgaac 13800ttttgctttg ccacggaacg gtctgcgttg tcgggaagat gcgtgatctg atccttcaac 13860tcagcaaaag ttcgatttat tcaacaaagc cgccgtcccg tcaagtcagc gtaatgctct 13920gccagtgtta caaccaatta accaattctg attagaaaaa ctcatcgagc atcaaatgaa 13980actgcaattt attcatatca ggattatcaa taccatattt ttgaaaaagc cgtttctgta 14040atgaaggaga aaactcaccg aggcagttcc ataggatggc aagatcctgg tatcggtctg 14100cgattccgac tcgtccaaca tcaatacaac ctattaattt cccctcgtca aaaataaggt 14160tatcaagtga gaaatcacca tgagtgacga ctgaatccgg tgagaatggc aaaagctctg 14220cattaatgaa tcggccaacg cgcggggaga ggcggtttgc gtattgggcg ctcttccgct 14280tcctcgctca ctgactcgct gcgctcggtc gttcggctgc ggcgagcggt atcagctcac 14340tcaaaggcgg taatacggtt atccacagaa tcaggggata acgcaggaaa gaacatgtga 14400gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg cgttgctggc gtttttccat 14460aggctccgcc cccctgacga gcatcacaaa aatcgacgct caagtcagag gtggcgaaac 14520ccgacaggac tataaagata ccaggcgttt ccccctggaa gctccctcgt gcgctctcct 14580gttccgaccc tgccgcttac cggatacctg tccgcctttc tcccttcggg aagcgtggcg 14640ctttctcata gctcacgctg taggtatctc agttcggtgt aggtcgttcg ctccaagctg 14700ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg ccttatccgg taactatcgt 14760cttgagtcca acccggtaag acacgactta tcgccactgg cagcagccac tggtaacagg 14820attagcagag cgaggtatgt aggcggtgct acagagttct tgaagtggtg gcctaactac 14880ggctacacta gaagaacagt atttggtatc tgcgctctgc tgaagccagt taccttcgga 14940aaaagagttg gtagctcttg atccggcaaa caaaccaccg ctggtagcgg tggttttttt 15000gtttgcaagc agcagattac gcgcagaaaa aaaggatctc aagaagatcc tttgatcttt 15060tctacggggt ctgacgctca gtggaacgaa aactcacgtt aagggatttt ggtcatgaga 15120ttatcaaaaa ggatcttcac ctagatcctt ttgatccgga at 15162406472DNAArtificial sequencemisc_feature(1)..(6472)ZmABP3-AmCyan assembly construct 40taatacgact cactataggg agaccggcct cgagcagctg aagcttgcat gcggcgcgcc 60gaaagtagca aacaacaggt tcatgtgcac tataaaaaga caaaattctc gagtttcatc 120ttttattcca cataagcctt atattttcca ttttcatatg atttttagtt taagtttgtg 180tcttaacttt ttcgttaata cgtaattcta tgcattatgg atgcgtgaag tatttttgtt 240taaaaaaatg aaatgtcaaa atacgttttg tgatctattt ccatgttttc acctaacagg 300tggtttttac tatatattct gccataactc tagccttaga tgtaaatcga aaaaaaatga 360gagatgagct ggagatagcc ttagatgaag cgtctgaaat ataaaagaaa gagtaatgtt 420gaacgcagta ggtgtagcag ctgtagttcc atctctagga aagggaactg caatccgggc 480tccgggcctc gcgcaatctg gcctgtcgtg tagatgcagc cctgtccatg acggcccaag 540caacgcccgc ggctctcgat ccaccacgga acccactccg acacacactg acacacacat 600gctggatgtg gatgtgctgt ccaattatta gtagcaattc ggtaggcaca ggcacgtact 660ggccggtgtt ttagctgtaa gtaccgaacc aatcacggtt aagaaccgat taatccgtgc 720ccagccgccg agtgcgttcg tacgtgcatc ggatgcactg catgaattga gagcatcatc 780atatcatacg caggagtagt acgacgccgc tgctgtcttg tccggctaat gctttgctca 840cagattagtc catcgcccac ggtcggtgtg gtgtggatcg ctgatgccac tgctttttgt 900ttggttttta ttcccctgat aatcctccgc gtccctgaat gtatctattt attttcattc 960cgaaatccct ttcacgaaaa agaaaacgaa taaaaagaga gttacgaata cgcttccggc 1020ggcccacatc accttccagc gaacatcgcg ccgcgctgac gtgtcgccca tcgcggccgt 1080ccatatcgcc atccgacgac cgtggaagct ggcagcggcc gctccgttcc gtcgaagggg 1140caggtcagtc aggtcaccca cacggccaca cccgcgcggg ggatacgcgg tggaaaaccc 1200ggcgaccaca tcaaaacacg aggcgtctcc cgcaggactg gtcactcggc acgcaggcag 1260aggcagcaca gcagcagcca gctccatcca tcctctttcc cctcctcgct tcgcttcctc 1320ggcggattcc tcctccctcg gccgtccccg tccccttctt cgccgcgcca gctcgcccga 1380gttggtaagg ccccctccac ccctccgctt cccctccccc gggcgcgctc tggcttcctc 1440cccggatcgg cgcggggcgt gctggctccg cgcctgattt cgggcctttt gtttccttct 1500cgcggagcgc tcgtgtaacg cttcggatct agctggattc aggcgggatc gcggccgctc 1560ggcttcctcg tggcctgatt cgtggttttc ctcggggagg gaatcctgat cggatcatcg 1620ggattcctcg tgcggccggg acacgcttgc gagccagaaa catagtctgc gtggccggga 1680ttccacgatc tgtgatctag acgtcgggcg cttcgtctat gtgctcgctg caggctgtgg 1740cgtactggcg tggtgcgcgg ccgctatgga tccgtgcttg tttgttcgcc ctgtagcgtg 1800tgaaatcgag ctgtgtagat ctatggtctg cgaggtgcgg tggcggtgga atctcggttg 1860atctttacct cagcggcgcc agtgtagctc gtgtggctgc agttcatctg cgaatttggc 1920tctcggcggc ttaggtcgcg gagcttggat tatggagcac cagctgcagc gtgaccctgt 1980tggttctcat gtggatctgt tggctgaggt tgcagacttc aagtgccact gccattgacc 2040ggagctgctg cacgattata ctggaatatc tagcggtagt atactctgct agtactcaat 2100acgggtctcc tgacaaatgt ctttcgtgtt tagggaccta gcactctagt gtcaagacta 2160tttgctggaa tatctaatat tagcagtttc tgtagtggct cagttgcagc ctggtttaga 2220atgatgggga cagttggctg tgccatgcaa aataaagtgt gtgaaagcaa ctgcctctta 2280aactatgggt ggtgcaagca ggttatttga agggactctc cacactgtat ctccagttaa 2340ctatgactga acttgtggtc gcaggcaaac ccaccatggc cctgtccaac aagttcatcg 2400gcgacgacat gaagatgacc taccacatgg acggctgcgt gaacggccac tacttcaccg 2460tgaagggcga gggcagcggc aagccctacg agggcaccca gacctccacc ttcaaggtga 2520cgatggccaa cggcggcccc ctggccttct ccttcgacat cctgtccacc gtgttcatgt 2580acggcaaccg ctgcttcacc gcctacccca ccagcatgcc cgactacttc aagcaggcct 2640tccccgacgg catgtcctac gagagaacct tcacctacga ggacggcggc gtggccaccg 2700ccagctggga gatcagcctg aagggcaact gcttcgagca caagtccacc ttccacggcg 2760tgaacttccc cgccgacggc cccgtgatgg ccaagaagac caccggctgg gacccctcct 2820tcgagaagat gaccgtgtgc gacggcatct tgaagggcga cgtgaccgcc ttcctgatgc 2880tgcagggcgg cggcaactac agatgccagt tccacacctc ctacaagacc aagaagcccg 2940tgaccatgcc ccccaaccac gtggtggagc accgcatcgc cagaaccgac ctggacaagg 3000gcggcaacag cgtgcagctg accgagcacg ccgtggccca catcacctcc gtggtgccct 3060tctgagagct cgcatcatga tcatgcatca tggactcggc ctactactgt ggatttgtat 3120gccattatag acttggtgct gtgaaagact gcttgatgat ttgcgggttt gttgctgtgt 3180aaaaaaaggt cccttggctc ccagaagacc atgaaggttc ggatctatca tgtaattcct 3240tgttatctgc caattatgta tggactatgg acatgtgttg cgctgttcaa cttactacta 3300caaataagta atcgatatgt tcccttccca tgtctcggtg acaattgtct ggagaagctt 3360aggggtcgtt tgtttgggat tatgtctgga gaaacttatt ttaaactaag tgtgagttca 3420agttaagtta gattatataa tctaggcaga ttataattcc aagcgaacag gtccttagtg 3480tttttggaaa atcctaggtg ttcttttggc tacattgttg tgtgtgcaga tcccttgttg 3540gtctgtaagc gtggggaagt aagaatcgtc cgtttctact gaagacctgc tcgagttagg 3600caccgaggat gccggtaacc aaacagagca atagtgtctc tgtgggcaca gtggagtgtg 3660aatctgtgtg atgcaaatcc gtcatttgtt tagcaaaatt tccagcgttg catgatgcag 3720tttctttaac acggacttaa gggaagggaa aaaaatgttg agccaggaga tccttcaatg 3780tgttagactg acgtgatagc caactaaacc acgacgcaat gttgtcgtta atgacaaaaa 3840aactatttgt tcctaaatcc ttggcgacat tgcatggctg tctcatgaga taatggtctc 3900atctcttatt tatctcttat ttatagccgg aagtggtagt gacccctgct tgattgctcg 3960tatgccatct caagttctca accgtgtcga gcagccattt tcccatctca agcgcatcat 4020cgtttcgttt gacctcatct gctatcctgc tcctagtgca aatcacatgc gacagaaagt 4080gtggcgcgcc actagtcccg ggcccatcga tgatatcaga tctggttcta tagtgtcacc 4140taaatcgtat gtgtatgata cataaggtta tgtattaatt gtagccgcgt tctaacgaca 4200atatgtccat atggtgcact ctcagtacaa tctgctctga tgccgcatag ttaagccagc 4260cccgacaccc gccaacaccc gctgacgcgc cctgacgggc ttgtctgctc ccggcatccg 4320cttacagaca agctgtgacc gtctccggga gctgcatgtg tcagaggttt tcaccgtcat 4380caccgaaacg cgcgagacga aagggcctcg tgatacgcct atttttatag gttaatgtca 4440tgataataat ggtttcttag acgtcaggtg gcacttttcg gggaaatgtg cgcggaaccc 4500ctatttgttt atttttctaa atacattcaa atatgtatcc gctcatgaga caataaccct 4560gataaatgct tcaataatat tgaaaaagga agagtatgag tattcaacat ttccgtgtcg 4620cccttattcc cttttttgcg gcattttgcc ttcctgtttt tgctcaccca gaaacgctgg 4680tgaaagtaaa agatgctgaa gatcagttgg gtgcacgagt gggttacatc gaactggatc 4740tcaacagcgg taagatcctt gagagttttc gccccgaaga acgttttcca atgatgagca 4800cttttaaagt tctgctatgt ggcgcggtat tatcccgtat tgacgccggg caagagcaac 4860tcggtcgccg catacactat tctcagaatg acttggttga gtactcacca gtcacagaaa 4920agcatcttac ggatggcatg acagtaagag aattatgcag tgctgccata accatgagtg 4980ataacactgc ggccaactta cttctgacaa cgatcggagg accgaaggag ctaaccgctt 5040ttttgcacaa catgggggat catgtaactc gccttgatcg ttgggaaccg gagctgaatg 5100aagccatacc aaacgacgag cgtgacacca cgatgcctgt agcaatggca acaacgttgc 5160gcaaactatt aactggcgaa ctacttactc tagcttcccg gcaacaatta atagactgga 5220tggaggcgga taaagttgca ggaccacttc tgcgctcggc ccttccggct ggctggttta 5280ttgctgataa atctggagcc ggtgagcgtg ggtctcgcgg tatcattgca gcactggggc 5340cagatggtaa gccctcccgt atcgtagtta tctacacgac ggggagtcag gcaactatgg 5400atgaacgaaa tagacagatc gctgagatag gtgcctcact gattaagcat tggtaactgt 5460cagaccaagt ttactcatat atactttaga ttgatttaaa acttcatttt taatttaaaa 5520ggatctaggt gaagatcctt tttgataatc tcatgaccaa aatcccttaa cgtgagtttt 5580cgttccactg agcgtcagac cccgtagaaa agatcaaagg atcttcttga gatccttttt 5640ttctgcgcgt aatctgctgc ttgcaaacaa aaaaaccacc gctaccagcg gtggtttgtt 5700tgccggatca agagctacca actctttttc cgaaggtaac tggcttcagc agagcgcaga 5760taccaaatac tgttcttcta gtgtagccgt agttaggcca ccacttcaag aactctgtag 5820caccgcctac atacctcgct ctgctaatcc tgttaccagt ggctgctgcc agtggcgata 5880agtcgtgtct taccgggttg gactcaagac gatagttacc ggataaggcg cagcggtcgg 5940gctgaacggg gggttcgtgc acacagccca gcttggagcg aacgacctac accgaactga 6000gatacctaca gcgtgagcta tgagaaagcg ccacgcttcc cgaagggaga aaggcggaca 6060ggtatccggt aagcggcagg gtcggaacag gagagcgcac gagggagctt ccagggggaa 6120acgcctggta tctttatagt cctgtcgggt ttcgccacct ctgacttgag cgtcgatttt 6180tgtgatgctc gtcagggggg cggagcctat ggaaaaacgc cagcaacgcg gcctttttac 6240ggttcctggc cttttgctgg ccttttgctc acatgttctt tcctgcgtta tcccctgatt 6300ctgtggataa ccgtattacc gcctttgagt gagctgatac cgctcgccgc agccgaacga 6360ccgagcgcag cgagtcagtg agcgaggaag cggaagagcg cccaatacgc aaaccgcctc 6420tccccgcgcg ttggccgatt cattaatgca ggttaacctg gcttatcgaa at 64724113200DNAArtificial sequencemisc_feature(1)..(13200)ZmABP3-AmCyan binary construct 41aattaattcc tgtggttggc atgcacatac aaatggacga acggataaac cttttcacgc 60ccttttaaat atccgattat tctaataaac gctcttttct cttaggttta cccgccaata 120tatcctgtca aacactgata gtttaaactg aaggcgggaa acgacaatct gatcatgagc 180ggagaattaa gggagtcacg ttatgacccc cgccgatgac gcgggacaag ccgttttacg 240tttggaactg acagaaccgc aacgctgcag gaattggccg cagcggccat ttaaatcaat 300tgggcgcgcc gaaagtagca aacaacaggt tcatgtgcac tataaaaaga caaaattctc 360gagtttcatc ttttattcca cataagcctt atattttcca ttttcatatg atttttagtt 420taagtttgtg tcttaacttt ttcgttaata cgtaattcta tgcattatgg atgcgtgaag 480tatttttgtt taaaaaaatg aaatgtcaaa atacgttttg tgatctattt ccatgttttc 540acctaacagg tggtttttac tatatattct gccataactc tagccttaga tgtaaatcga 600aaaaaaatga gagatgagct ggagatagcc ttagatgaag cgtctgaaat ataaaagaaa 660gagtaatgtt gaacgcagta ggtgtagcag ctgtagttcc atctctagga aagggaactg 720caatccgggc tccgggcctc gcgcaatctg gcctgtcgtg tagatgcagc cctgtccatg 780acggcccaag caacgcccgc ggctctcgat ccaccacgga acccactccg acacacactg 840acacacacat gctggatgtg gatgtgctgt ccaattatta gtagcaattc ggtaggcaca 900ggcacgtact ggccggtgtt ttagctgtaa gtaccgaacc aatcacggtt aagaaccgat 960taatccgtgc ccagccgccg agtgcgttcg tacgtgcatc ggatgcactg catgaattga 1020gagcatcatc atatcatacg caggagtagt acgacgccgc tgctgtcttg tccggctaat 1080gctttgctca cagattagtc catcgcccac ggtcggtgtg gtgtggatcg ctgatgccac 1140tgctttttgt ttggttttta ttcccctgat aatcctccgc gtccctgaat gtatctattt 1200attttcattc cgaaatccct ttcacgaaaa agaaaacgaa taaaaagaga gttacgaata 1260cgcttccggc ggcccacatc accttccagc gaacatcgcg ccgcgctgac gtgtcgccca 1320tcgcggccgt ccatatcgcc atccgacgac cgtggaagct ggcagcggcc gctccgttcc 1380gtcgaagggg caggtcagtc aggtcaccca cacggccaca cccgcgcggg ggatacgcgg 1440tggaaaaccc ggcgaccaca tcaaaacacg aggcgtctcc cgcaggactg gtcactcggc 1500acgcaggcag aggcagcaca gcagcagcca gctccatcca tcctctttcc cctcctcgct 1560tcgcttcctc ggcggattcc tcctccctcg gccgtccccg tccccttctt cgccgcgcca 1620gctcgcccga gttggtaagg ccccctccac ccctccgctt cccctccccc gggcgcgctc 1680tggcttcctc cccggatcgg cgcggggcgt gctggctccg cgcctgattt cgggcctttt 1740gtttccttct cgcggagcgc tcgtgtaacg cttcggatct agctggattc aggcgggatc 1800gcggccgctc ggcttcctcg tggcctgatt cgtggttttc ctcggggagg gaatcctgat 1860cggatcatcg ggattcctcg tgcggccggg acacgcttgc gagccagaaa catagtctgc 1920gtggccggga ttccacgatc tgtgatctag acgtcgggcg cttcgtctat gtgctcgctg 1980caggctgtgg cgtactggcg tggtgcgcgg ccgctatgga tccgtgcttg tttgttcgcc 2040ctgtagcgtg tgaaatcgag ctgtgtagat ctatggtctg cgaggtgcgg tggcggtgga 2100atctcggttg atctttacct cagcggcgcc agtgtagctc gtgtggctgc agttcatctg 2160cgaatttggc tctcggcggc ttaggtcgcg gagcttggat tatggagcac cagctgcagc 2220gtgaccctgt tggttctcat gtggatctgt tggctgaggt tgcagacttc aagtgccact 2280gccattgacc ggagctgctg cacgattata ctggaatatc tagcggtagt atactctgct 2340agtactcaat acgggtctcc tgacaaatgt ctttcgtgtt tagggaccta gcactctagt 2400gtcaagacta tttgctggaa tatctaatat tagcagtttc tgtagtggct cagttgcagc 2460ctggtttaga atgatgggga cagttggctg tgccatgcaa aataaagtgt gtgaaagcaa 2520ctgcctctta aactatgggt ggtgcaagca ggttatttga agggactctc cacactgtat 2580ctccagttaa ctatgactga acttgtggtc gcaggcaaac ccaccatggc cctgtccaac 2640aagttcatcg gcgacgacat gaagatgacc taccacatgg acggctgcgt gaacggccac 2700tacttcaccg tgaagggcga gggcagcggc aagccctacg agggcaccca gacctccacc 2760ttcaaggtga cgatggccaa cggcggcccc ctggccttct ccttcgacat cctgtccacc 2820gtgttcatgt acggcaaccg ctgcttcacc gcctacccca ccagcatgcc cgactacttc 2880aagcaggcct tccccgacgg catgtcctac gagagaacct tcacctacga ggacggcggc 2940gtggccaccg ccagctggga gatcagcctg aagggcaact gcttcgagca caagtccacc 3000ttccacggcg tgaacttccc cgccgacggc cccgtgatgg ccaagaagac caccggctgg 3060gacccctcct tcgagaagat gaccgtgtgc gacggcatct tgaagggcga cgtgaccgcc 3120ttcctgatgc tgcagggcgg cggcaactac agatgccagt tccacacctc ctacaagacc 3180aagaagcccg tgaccatgcc ccccaaccac gtggtggagc accgcatcgc cagaaccgac 3240ctggacaagg gcggcaacag cgtgcagctg accgagcacg ccgtggccca catcacctcc 3300gtggtgccct tctgagagct cgcatcatga tcatgcatca tggactcggc ctactactgt 3360ggatttgtat gccattatag acttggtgct gtgaaagact gcttgatgat ttgcgggttt 3420gttgctgtgt aaaaaaaggt cccttggctc ccagaagacc atgaaggttc ggatctatca 3480tgtaattcct tgttatctgc caattatgta tggactatgg acatgtgttg cgctgttcaa 3540cttactacta caaataagta atcgatatgt tcccttccca tgtctcggtg acaattgtct 3600ggagaagctt aggggtcgtt tgtttgggat tatgtctgga gaaacttatt ttaaactaag 3660tgtgagttca agttaagtta gattatataa tctaggcaga ttataattcc aagcgaacag 3720gtccttagtg tttttggaaa atcctaggtg ttcttttggc tacattgttg tgtgtgcaga 3780tcccttgttg gtctgtaagc gtggggaagt aagaatcgtc cgtttctact gaagacctgc 3840tcgagttagg caccgaggat gccggtaacc aaacagagca atagtgtctc tgtgggcaca 3900gtggagtgtg aatctgtgtg atgcaaatcc gtcatttgtt tagcaaaatt tccagcgttg 3960catgatgcag tttctttaac acggacttaa gggaagggaa aaaaatgttg agccaggaga 4020tccttcaatg tgttagactg acgtgatagc caactaaacc acgacgcaat gttgtcgtta 4080atgacaaaaa aactatttgt tcctaaatcc ttggcgacat tgcatggctg tctcatgaga 4140taatggtctc atctcttatt tatctcttat ttatagccgg aagtggtagt gacccctgct 4200tgattgctcg tatgccatct caagttctca accgtgtcga gcagccattt tcccatctca 4260agcgcatcat cgtttcgttt gacctcatct gctatcctgc tcctagtgca aatcacatgc 4320gacagaaagt gtggcgcgcc gaattcgagc tcggtaccgg accgcgatcg cttaattaag 4380cttgcatgcc tgcagtgcag cgtgacccgg tcgtgcccct ctctagagat aatgagcatt 4440gcatgtctaa gttataaaaa attaccacat attttttttg tcacacttgt ttgaagtgca 4500gtttatctat ctttatacat atatttaaac tttactctac gaataatata atctatagta 4560ctacaataat atcagtgttt tagagaatca tataaatgaa cagttagaca tggtctaaag 4620gacaattgag tattttgaca acaggactct acagttttat ctttttagtg tgcatgtgtt 4680ctcctttttt tttgcaaata gcttcaccta tataatactt catccatttt attagtacat 4740ccatttaggg tttagggtta atggttttta tagactaatt tttttagtac atctatttta 4800ttctatttta gcctctaaat taagaaaact aaaactctat tttagttttt ttatttaata 4860atttagatat aaaatagaat aaaataaagt gactaaaaat taaacaaata ccctttaaga 4920aattaaaaaa actaaggaaa catttttctt gtttcgagta gataatgcca gcctgttaaa 4980cgccgtcgac gagtctaacg gacaccaacc agcgaaccag cagcgtcgcg tcgggccaag 5040cgaagcagac ggcacggcat ctctgtcgct gcctctggac ccctctcgag agttccgctc

5100caccgttgga cttgctccgc tgtcggcatc cagaaattgc gtggcggagc ggcagacgtg 5160agccggcacg gcaggcggcc tcctcctcct ctcacggcac cggcagctac gggggattcc 5220tttcccaccg ctccttcgct ttcccttcct cgcccgccgt aataaataga caccccctcc 5280acaccctctt tccccaacct cgtgttgttc ggagcgcaca cacacacaac cagatctccc 5340ccaaatccac ccgtcggcac ctccgcttca aggtacgccg ctcgtcctcc cccccccccc 5400ctctctacct tctctagatc ggcgttccgg tccatggtta gggcccggta gttctacttc 5460tgttcatgtt tgtgttagat ccgtgtttgt gttagatccg tgctgctagc gttcgtacac 5520ggatgcgacc tgtacgtcag acacgttctg attgctaact tgccagtgtt tctctttggg 5580gaatcctggg atggctctag ccgttccgca gacgggatcg atttcatgat tttttttgtt 5640tcgttgcata gggtttggtt tgcccttttc ctttatttca atatatgccg tgcacttgtt 5700tgtcgggtca tcttttcatg cttttttttg tcttggttgt gatgatgtgg tctggttggg 5760cggtcgttct agatcggagt agaattctgt ttcaaactac ctggtggatt tattaatttt 5820ggatctgtat gtgtgtgcca tacatattca tagttacgaa ttgaagatga tggatggaaa 5880tatcgatcta ggataggtat acatgttgat gcgggtttta ctgatgcata tacagagatg 5940ctttttgttc gcttggttgt gatgatgtgg tgtggttggg cggtcgttca ttcgttctag 6000atcggagtag aatactgttt caaactacct ggtgtattta ttaattttgg aactgtatgt 6060gtgtgtcata catcttcata gttacgagtt taagatggat ggaaatatcg atctaggata 6120ggtatacatg ttgatgtggg ttttactgat gcatatacat gatggcatat gcagcatcta 6180ttcatatgct ctaaccttga gtacctatct attataataa acaagtatgt tttataatta 6240ttttgatctt gatatacttg gatgatggca tatgcagcag ctatatgtgg atttttttag 6300ccctgccttc atacgctatt tatttgcttg gtactgtttc ttttgtcgat gctcaccctg 6360ttgtttggtg ttacttctgc agggatcccc gatcatgcaa aaactcatta actcagtgca 6420aaactatgcc tggggcagca aaacggcgtt gactgaactt tatggtatgg aaaatccgtc 6480cagccagccg atggccgagc tgtggatggg cgcacatccg aaaagcagtt cacgagtgca 6540gaatgccgcc ggagatatcg tttcactgcg tgatgtgatt gagagtgata aatcgactct 6600gctcggagag gccgttgcca aacgctttgg cgaactgcct ttcctgttca aagtattatg 6660cgcagcacag ccactctcca ttcaggttca tccaaacaaa cacaattctg aaatcggttt 6720tgccaaagaa aatgccgcag gtatcccgat ggatgccgcc gagcgtaact ataaagatcc 6780taaccacaag ccggagctgg tttttgcgct gacgcctttc cttgcgatga acgcgtttcg 6840tgaattttcc gagattgtct ccctactcca gccggtcgca ggtgcacatc cggcgattgc 6900tcacttttta caacagcctg atgccgaacg tttaagcgaa ctgttcgcca gcctgttgaa 6960tatgcagggt gaagaaaaat cccgcgcgct ggcgatttta aaatcggccc tcgatagcca 7020gcagggtgaa ccgtggcaaa cgattcgttt aatttctgaa ttttacccgg aagacagcgg 7080tctgttctcc ccgctattgc tgaatgtggt gaaattgaac cctggcgaag cgatgttcct 7140gttcgctgaa acaccgcacg cttacctgca aggcgtggcg ctggaagtga tggcaaactc 7200cgataacgtg ctgcgtgcgg gtctgacgcc taaatacatt gatattccgg aactggttgc 7260caatgtgaaa ttcgaagcca aaccggctaa ccagttgttg acccagccgg tgaaacaagg 7320tgcagaactg gacttcccga ttccagtgga tgattttgcc ttctcgctgc atgaccttag 7380tgataaagaa accaccatta gccagcagag tgccgccatt ttgttctgcg tcgaaggcga 7440tgcaacgttg tggaaaggtt ctcagcagtt acagcttaaa ccgggtgaat cagcgtttat 7500tgccgccaac gaatcaccgg tgactgtcaa aggccacggc cgtttagcgc gtgtttacaa 7560caagctgtaa gagcttactg aaaaaattaa catctcttgc taagctggga gctcgatccg 7620tcgacctgca gatcgttcaa acatttggca ataaagtttc ttaagattga atcctgttgc 7680cggtcttgcg atgattatca tataatttct gttgaattac gttaagcatg taataattaa 7740catgtaatgc atgacgttat ttatgagatg ggtttttatg attagagtcc cgcaattata 7800catttaatac gcgatagaaa acaaaatata gcgcgcaaac taggataaat tatcgcgcgc 7860ggtgtcatct atgttactag atctgctagc cctgcaggaa atttaccggt gcccgggcgg 7920ccagcatggc cgtatccgca atgtgttatt aagttgtcta agcgtcaatt tgtttacacc 7980acaatatatc ctgccaccag ccagccaaca gctccccgac cggcagctcg gcacaaaatc 8040accactcgat acaggcagcc catcagaatt aattctcatg tttgacagct tatcatcgac 8100tgcacggtgc accaatgctt ctggcgtcag gcagccatcg gaagctgtgg tatggctgtg 8160caggtcgtaa atcactgcat aattcgtgtc gctcaaggcg cactcccgtt ctggataatg 8220ttttttgcgc cgacatcata acggttctgg caaatattct gaaatgagct gttgacaatt 8280aatcatccgg ctcgtataat gtgtggaatt gtgagcggat aacaatttca cacaggaaac 8340agaccatgag ggaagcgttg atcgccgaag tatcgactca actatcagag gtagttggcg 8400tcatcgagcg ccatctcgaa ccgacgttgc tggccgtaca tttgtacggc tccgcagtgg 8460atggcggcct gaagccacac agtgatattg atttgctggt tacggtgacc gtaaggcttg 8520atgaaacaac gcggcgagct ttgatcaacg accttttgga aacttcggct tcccctggag 8580agagcgagat tctccgcgct gtagaagtca ccattgttgt gcacgacgac atcattccgt 8640ggcgttatcc agctaagcgc gaactgcaat ttggagaatg gcagcgcaat gacattcttg 8700caggtatctt cgagccagcc acgatcgaca ttgatctggc tatcttgctg acaaaagcaa 8760gagaacatag cgttgccttg gtaggtccag cggcggagga actctttgat ccggttcctg 8820aacaggatct atttgaggcg ctaaatgaaa ccttaacgct atggaactcg ccgcccgact 8880gggctggcga tgagcgaaat gtagtgctta cgttgtcccg catttggtac agcgcagtaa 8940ccggcaaaat cgcgccgaag gatgtcgctg ccgactgggc aatggagcgc ctgccggccc 9000agtatcagcc cgtcatactt gaagctaggc aggcttatct tggacaagaa gatcgcttgg 9060cctcgcgcgc agatcagttg gaagaatttg ttcactacgt gaaaggcgag atcaccaaag 9120tagtcggcaa ataaagctct agtggatctc cgtacccggg gatctggctc gcggcggacg 9180cacgacgccg gggcgagacc ataggcgatc tcctaaatca atagtagctg taacctcgaa 9240gcgtttcact tgtaacaacg attgagaatt tttgtcataa aattgaaata cttggttcgc 9300atttttgtca tccgcggtca gccgcaattc tgacgaactg cccatttagc tggagatgat 9360tgtacatcct tcacgtgaaa atttctcaag cgctgtgaac aagggttcag attttagatt 9420gaaaggtgag ccgttgaaac acgttcttct tgtcgatgac gacgtcgcta tgcggcatct 9480tattattgaa taccttacga tccacgcctt caaagtgacc gcggtagccg acagcaccca 9540gttcacaaga gtactctctt ccgcgacggt cgatgtcgtg gttgttgatc tagatttagg 9600tcgtgaagat gggctcgaga tcgttcgtaa tctggcggca aagtctgata ttccaatcat 9660aattatcagt ggcgaccgcc ttgaggagac ggataaagtt gttgcactcg agctaggagc 9720aagtgatttt atcgctaagc cgttcagtat cagagagttt ctagcacgca ttcgggttgc 9780cttgcgcgtg cgccccaacg ttgtccgctc caaagaccga cggtcttttt gttttactga 9840ctggacactt aatctcaggc aacgtcgctt gatgtccgaa gctggcggtg aggtgaaact 9900tacggcaggt gagttcaatc ttctcctcgc gtttttagag aaaccccgcg acgttctatc 9960gcgcgagcaa cttctcattg ccagtcgagt acgcgacgag gaggtttatg acaggagtat 10020agatgttctc attttgaggc tgcgccgcaa acttgaggca gatccgtcaa gccctcaact 10080gataaaaaca gcaagaggtg ccggttattt ctttgacgcg gacgtgcagg tttcgcacgg 10140ggggacgatg gcagcctgag ccaattccca gatccccgag gaatcggcgt gagcggtcgc 10200aaaccatccg gcccggtaca aatcggcgcg gcgctgggtg atgacctggt ggagaagttg 10260aaggccgcgc aggccgccca gcggcaacgc atcgaggcag aagcacgccc cggtgaatcg 10320tggcaagcgg ccgctgatcg aatccgcaaa gaatcccggc aaccgccggc agccggtgcg 10380ccgtcgatta ggaagccgcc caagggcgac gagcaaccag attttttcgt tccgatgctc 10440tatgacgtgg gcacccgcga tagtcgcagc atcatggacg tggccgtttt ccgtctgtcg 10500aagcgtgacc gacgagctgg cgaggtgatc cgctacgagc ttccagacgg gcacgtagag 10560gtttccgcag ggccggccgg catggccagt gtgtgggatt acgacctggt actgatggcg 10620gtttcccatc taaccgaatc catgaaccga taccgggaag ggaagggaga caagcccggc 10680cgcgtgttcc gtccacacgt tgcggacgta ctcaagttct gccggcgagc cgatggcgga 10740aagcagaaag acgacctggt agaaacctgc attcggttaa acaccacgca cgttgccatg 10800cagcgtacga agaaggccaa gaacggccgc ctggtgacgg tatccgaggg tgaagccttg 10860attagccgct acaagatcgt aaagagcgaa accgggcggc cggagtacat cgagatcgag 10920ctagctgatt ggatgtaccg cgagatcaca gaaggcaaga acccggacgt gctgacggtt 10980caccccgatt actttttgat cgatcccggc atcggccgtt ttctctaccg cctggcacgc 11040cgcgccgcag gcaaggcaga agccagatgg ttgttcaaga cgatctacga acgcagtggc 11100agcgccggag agttcaagaa gttctgtttc accgtgcgca agctgatcgg gtcaaatgac 11160ctgccggagt acgatttgaa ggaggaggcg gggcaggctg gcccgatcct agtcatgcgc 11220taccgcaacc tgatcgaggg cgaagcatcc gccggttcct aatgtacgga gcagatgcta 11280gggcaaattg ccctagcagg ggaaaaaggt cgaaaaggtc tctttcctgt ggatagcacg 11340tacattggga acccaaagcc gtacattggg aaccggaacc cgtacattgg gaacccaaag 11400ccgtacattg ggaaccggtc acacatgtaa gtgactgata taaaagagaa aaaaggcgat 11460ttttccgcct aaaactcttt aaaacttatt aaaactctta aaacccgcct ggcctgtgca 11520taactgtctg gccagcgcac agccgaagag ctgcaaaaag cgcctaccct tcggtcgctg 11580cgctccctac gccccgccgc ttcgcgtcgg cctatcgcgg ccgctggccg ctcaaaaatg 11640gctggcctac ggccaggcaa tctaccaggg cgcggacaag ccgcgccgtc gccactcgac 11700cgccggcgct gaggtctgcc tcgtgaagaa ggtgttgctg actcatacca ggcctgaatc 11760gccccatcat ccagccagaa agtgagggag ccacggttga tgagagcttt gttgtaggtg 11820gaccagttgg tgattttgaa cttttgcttt gccacggaac ggtctgcgtt gtcgggaaga 11880tgcgtgatct gatccttcaa ctcagcaaaa gttcgattta ttcaacaaag ccgccgtccc 11940gtcaagtcag cgtaatgctc tgccagtgtt acaaccaatt aaccaattct gattagaaaa 12000actcatcgag catcaaatga aactgcaatt tattcatatc aggattatca ataccatatt 12060tttgaaaaag ccgtttctgt aatgaaggag aaaactcacc gaggcagttc cataggatgg 12120caagatcctg gtatcggtct gcgattccga ctcgtccaac atcaatacaa cctattaatt 12180tcccctcgtc aaaaataagg ttatcaagtg agaaatcacc atgagtgacg actgaatccg 12240gtgagaatgg caaaagctct gcattaatga atcggccaac gcgcggggag aggcggtttg 12300cgtattgggc gctcttccgc ttcctcgctc actgactcgc tgcgctcggt cgttcggctg 12360cggcgagcgg tatcagctca ctcaaaggcg gtaatacggt tatccacaga atcaggggat 12420aacgcaggaa agaacatgtg agcaaaaggc cagcaaaagg ccaggaaccg taaaaaggcc 12480gcgttgctgg cgtttttcca taggctccgc ccccctgacg agcatcacaa aaatcgacgc 12540tcaagtcaga ggtggcgaaa cccgacagga ctataaagat accaggcgtt tccccctgga 12600agctccctcg tgcgctctcc tgttccgacc ctgccgctta ccggatacct gtccgccttt 12660ctcccttcgg gaagcgtggc gctttctcat agctcacgct gtaggtatct cagttcggtg 12720taggtcgttc gctccaagct gggctgtgtg cacgaacccc ccgttcagcc cgaccgctgc 12780gccttatccg gtaactatcg tcttgagtcc aacccggtaa gacacgactt atcgccactg 12840gcagcagcca ctggtaacag gattagcaga gcgaggtatg taggcggtgc tacagagttc 12900ttgaagtggt ggcctaacta cggctacact agaagaacag tatttggtat ctgcgctctg 12960ctgaagccag ttaccttcgg aaaaagagtt ggtagctctt gatccggcaa acaaaccacc 13020gctggtagcg gtggtttttt tgtttgcaag cagcagatta cgcgcagaaa aaaaggatct 13080caagaagatc ctttgatctt ttctacgggg tctgacgctc agtggaacga aaactcacgt 13140taagggattt tggtcatgag attatcaaaa aggatcttca cctagatcct tttgatccgg 13200428961DNAArtificial sequencemisc_feature(1)..(8961)ZmABP3-AtAVP1D assembly construct 42gggacccaaa gtagcaaaca acaggttcat gtgcactata aaaagacaaa attctcgagt 60ttcatctttt attccacata agccttatat tttccatttt catatgattt ttagtttaag 120tttgtgtctt aactttttcg ttaatacgta attctatgca ttatggatgc gtgaagtatt 180tttgtttaaa aaaatgaaat gtcaaaatac gttttgtgat ctatttccat gttttcacct 240aacaggtggt ttttactata tattctgcca taactctagc cttagatgta aatcgaaaaa 300aaatgagaga tgagctggag atagccttag atgaagcgtc tgaaatataa aagaaagagt 360aatgttgaac gcagtaggtg tagcagctgt agttccatct ctaggaaagg gaactgcaat 420ccgggctccg ggcctcgcgc aatctggcct gtcgtgtaga tgcagccctg tccatgacgg 480cccaagcaac gcccgcggct ctcgatccac cacggaaccc actccgacac acactgacac 540acacatgctg gatgtggatg tgctgtccaa ttattagtag caattcggta ggcacaggca 600cgtactggcc ggtgttttag ctgtaagtac cgaaccaatc acggttaaga accgattaat 660ccgtgcccag ccgccgagtg cgttcgtacg tgcatcggat gcactgcatg aattgagagc 720atcatcatat catacgcagg agtagtacga cgccgctgct gtcttgtccg gctaatgctt 780tgctcacaga ttagtccatc gcccacggtc ggtgtggtgt ggatcgctga tgccactgct 840ttttgtttgg tttttattcc cctgataatc ctccgcgtcc ctgaatgtat ctatttattt 900tcattccgaa atccctttca cgaaaaagaa aacgaataaa aagagagtta cgaatacgct 960tccggcggcc cacatcacct tccagcgaac atcgcgccgc gctgacgtgt cgcccatcgc 1020ggccgtccat atcgccatcc gacgaccgtg gaagctggca gcggccgctc cgttccgtcg 1080aaggggcagg tcagtcaggt cacccacacg gccacacccg cgcgggggat acgcggtgga 1140aaacccggcg accacatcaa aacacgaggc gtctcccgca ggactggtca ctcggcacgc 1200aggcagaggc agcacagcag cagccagctc catccatcct ctttcccctc ctcgcttcgc 1260ttcctcggcg gattcctcct ccctcggccg tccccgtccc cttcttcgcc gcgccagctc 1320gcccgagttg gtaaggcccc ctccacccct ccgcttcccc tcccccgggc gcgctctggc 1380ttcctccccg gatcggcgcg gggcgtgctg gctccgcgcc tgatttcggg ccttttgttt 1440ccttctcgcg gagcgctcgt gtaacgcttc ggatctagct ggattcaggc gggatcgcgg 1500ccgctcggct tcctcgtggc ctgattcgtg gttttcctcg gggagggaat cctgatcgga 1560tcatcgggat tcctcgtgcg gccgggacac gcttgcgagc cagaaacata gtctgcgtgg 1620ccgggattcc acgatctgtg atctagacgt cgggcgcttc gtctatgtgc tcgctgcagg 1680ctgtggcgta ctggcgtggt gcgcggccgc tatggatccg tgcttgtttg ttcgccctgt 1740agcgtgtgaa atcgagctgt gtagatctat ggtctgcgag gtgcggtggc ggtggaatct 1800cggttgatct ttacctcagc ggcgccagtg tagctcgtgt ggctgcagtt catctgcgaa 1860tttggctctc ggcggcttag gtcgcggagc ttggattatg gagcaccagc tgcagcgtga 1920ccctgttggt tctcatgtgg atctgttggc tgaggttgca gacttcaagt gccactgcca 1980ttgaccggag ctgctgcacg attatactgg aatatctagc ggtagtatac tctgctagta 2040ctcaatacgg gtctcctgac aaatgtcttt cgtgtttagg gacctagcac tctagtgtca 2100agactatttg ctggaatatc taatattagc agtttctgta gtggctcagt tgcagcctgg 2160tttagaatga tggggacagt tggctgtgcc atgcaaaata aagtgtgtga aagcaactgc 2220ctcttaaact atgggtggtg caagcaggtt atttgaaggg actctccaca ctgtatctcc 2280agttaacttt gactgaactt gtggtcgcag gcaaacccac catggttgca ccagcattgc 2340ttccggaact gtggacggag atactggtcc caatctgcgc tgtgatcggc atagccttca 2400gcctgttcca gtggtacgtc gtgtcaaggg tgaagctcac gagcgacttg ggagccagta 2460gtagcggagg ggcgaacaac gggaagaacg gctatggcga ctatctgatc gaggaggaag 2520agggtgtgaa cgaccaatca gtggtggcga agtgtgcgga gattcagacc gccattagcg 2580agggagctac gagcttcctg tttacggagt acaagtacgt gggcgtcttc atgatcttct 2640tcgctgccgt catcttcgtg ttcctgggtt ctgtcgaagg cttctccacc gacaacaagc 2700cgtgcactta cgacaccacc agaacctgca aacctgcact ggccactgct gcgttctcca 2760ccatagcgtt cgtgcttggt gctgtgacaa gcgtcctgag tggcttcttg gggatgaaga 2820tcgctaccta cgccaatgcc agaaccacac tggaggcaag gaaaggtgtc gggaaagcct 2880tcatcgtggc ctttcggagt ggtgctgtca tgggcttcct gcttgctgcc agtggattgc 2940tcgtgctcta catcaccatc aacgtgttca agatctacta cggcgacgat tgggaagggc 3000tcttcgacgc aatcactggc tatgggttgg gtggctcttc aatggcgctc ttcggaagag 3060tgggaggtgg catctacacg aaagcggctg atgtgggagc tgacctggtc gggaagatcg 3120agcgcaacat cccggaagat gacccaagga acccagcagt gatcgccgac aatgtcggcg 3180acaatgtcgg tgacatagcg ggtatgggaa gcgacctctt tggctcatac gccgaagcca 3240gctgcgcagc gcttgttgtc gcctccatct ccagcttcgg gatcaaccac gacttcacag 3300ccatgtgcta tcccctcctg atcagcagca tgggcatact ggtgtgcctc atcaccacgc 3360tgtttgcgac cgacttcttc gagatcaagc tggtgaagga gatcgaacct gcgctgaaga 3420accagctgat catctcgacc gtgatcatga ccgttgggat cgccatcgtc tcatgggtgg 3480gtcttcctac ctcgttcacc atcttcaact ttggcactca gaaggtggtg aagaactggc 3540agctcttcct ctgcgtttgc gtcggacttt gggctgggct gatcatcggc tttgtcacgg 3600agtactacac ctccaacgcc tacagtcctg tgcaggatgt ggccgattct tgccgtactg 3660gtgctgcaac gaacgtcatc ttcggtcttg cactgggcta caagtcggtc atcatcccca 3720tcttcgccat tgccatctcc atcttcgtga gcttctcgtt cgcagccatg tacggtgttg 3780ccgttgctgc attgggcatg ctctccacca tcgctactgg cctcgctatt gacgcgtatg 3840gtccgatttc ggacaatgct ggagggattg ccgagatggc tgggatgtcg cacaggatca 3900gagagcgtac ggatgcactg gatgctgcag ggaacactac cgctgccatt ggcaagggct 3960ttgccatagg gtctgctgca ctcgttagcc tggccttgtt tggcgctttc gtgtcgagag 4020ctggcatcca cacagtggac gttctgactc ccaaggtgat catcggactt ctggtgggag 4080ctatgctccc gtactggttc tctgcgatga cgatgaagtc ggtcggatca gcagcgctga 4140agatggtcga ggaggttagg aggcagttca acacgatccc cggattgatg gagggcacag 4200ctaagccgga ctatgctacc tgcgtgaaga tctccacaga cgcctccatc aaggagatga 4260tccctccagg gtgcctggtg atgcttactc cgctgattgt gggcttcttc ttcggcgtgg 4320agacactttc cggcgtgttg gcaggaagcc tcgtgagtgg agtgcagatc gcgatcagtg 4380ccagcaatac tggaggggca tgggacaacg cgaagaagta catcgaagcc ggcgtctcag 4440aacacgcgaa gtctctgggt ccgaaagggt cagaacccca taaggccgct gtgatcggcg 4500atacgattgg cgatcccttg aaggacactt ctggcccatc cctcaacatc ctgatcaagc 4560tcatggcagt ggagagcctc gttttcgcgc ctttcttcgc gactcatggt ggcatcctgt 4620tcaagtactt ctagagctcg catcatgatc atgcatcatg gactcggcct actactgtgg 4680atttgtatgc cattatagac ttggtgctgt gaaagactgc ttgatgattt gcgggtttgt 4740tgctgtgtaa aaaaaggtcc cttggctccc agaagaccat gaaggttcgg atctatcatg 4800taattccttg ttatctgcca attatgtatg gactatggac atgtgttgcg ctgttcaact 4860tactactaca aataagtaat cgatatgttc ccttcccatg tctcggtgac aattgtctgg 4920agaagcttag gggtcgtttg tttgggatta tgtctggaga aacttatttt aaactaagtg 4980tgagttcaag ttaagttaga ttatataatc taggcagatt ataattccaa gcgaacaggt 5040ccttagtgtt tttggaaaat cctaggtgtt cttttggcta cattgttgtg tgtgcagatc 5100ccttgttggt ctgtaagcgt ggggaagtaa gaatcgtccg tttctactga agacctgctc 5160gagttaggca ccgaggatgc cggtaaccaa acagagcaat agtgtctctg tgggcacagt 5220ggagtgtgaa tctgtgtgat gcaaatccgt catttgttta gcaaaatttc cagcgttgca 5280tgatgcagtt tctttaacac ggacttaagg gaagggaaaa aaatgttgag ccaggagatc 5340cttcaatgtg ttagactgac gtgatagcca actaaaccac gacgcaatgt tgtcgttaat 5400gacaaaaaaa ctatttgttc ctaaatcctt ggcgacattg catggctgtc tcatgagata 5460atggtctcat ctcttattta tctcttattt atagccggaa gtggtagtga cccctgcttg 5520attgctcgta tgccatctca agttctcaac cgtgtcgagc agccattttc ccatctcaag 5580cgcatcatcg tttcgtttga cctcatctgc tatcctgctc ctagtgcaaa tcacatgcga 5640cagaaagtgt cggaccgcag ctccagcttt tgttcccttt agtgagggtt aattgcgcgc 5700ttggcgtaat catggtcata gctgtttcct gtgtgaaatt gttatccgct cacaattcca 5760cacaacatac gagccggaag cataaagtgt aaagcctggg gtgcctaatg agtgagctaa 5820ctcacattaa ttgcgttgcg ctcactgccc gctttccagt cgggaaacct gtcgtgccag 5880ctgcattaat gaatcggcca acgcgcgggg agaggcggtt tgcgtattgg gcgctcttcc 5940gcttcctcgc tcactgactc gctgcgctcg gtcgttcggc tgcggcgagc ggtatcagct 6000cactcaaagg cggtaatacg gttatccaca gaatcagggg ataacgcagg aaagaacatg 6060tgagcaaaag gccagcaaaa ggccaggaac cgtaaaaagg ccgcgttgct ggcgtttttc 6120cataggctcc gcccccctga cgagcatcac aaaaatcgac gctcaagtca gaggtggcga 6180aacccgacag gactataaag ataccaggcg tttccccctg gaagctccct cgtgcgctct 6240cctgttccga ccctgccgct taccggatac ctgtccgcct ttctcccttc gggaagcgtg 6300gcgctttctc atagctcacg ctgtaggtat ctcagttcgg tgtaggtcgt tcgctccaag 6360ctgggctgtg tgcacgaacc ccccgttcag cccgaccgct gcgccttatc cggtaactat 6420cgtcttgagt ccaacccggt aagacacgac ttatcgccac tggcagcagc cactggtaac 6480aggattagca gagcgaggta tgtaggcggt gctacagagt tcttgaagtg gtggcctaac 6540tacggctaca ctagaaggac agtatttggt atctgcgctc tgctgaagcc agttaccttc 6600ggaaaaagag ttggtagctc ttgatccggc aaacaaacca ccgctggtag cggtggtttt 6660tttgtttgca agcagcagat tacgcgcaga aaaaaaggat ctcaagaaga tcctttgatc 6720ttttctacgg ggtctgacgc tcagtggaac gaaaactcac gttaagggat tttggtcatg 6780agattatcaa aaaggatctt cacctagatc cttttcgacc gaataaatac ctgtgacgga 6840agatcacttc gcagaataaa taaatcctgg tgtccctgtt

gataccggga agccctgggc 6900caacttttgg cgaaaatgag acgttgatcg gcacgtaaga ggttccaact ttcaccataa 6960tgaaataaga tcactaccgg gcgtattttt tgagttgtcg agattttcag gagctaagga 7020agctaaaatg gagaaaaaaa tcactggata taccaccgtt gatatatccc aatggcatcg 7080taaagaacat tttgaggcat ttcagtcagt tgctcaatgt acctataacc agaccgttca 7140gctggatatt acggcctttt taaagaccgt aaagaaaaat aagcacaagt tttatccggc 7200ctttattcac attcttgccc gcctgatgaa tgctcatccg gaattacgta tggcaatgaa 7260agacggtgag ctggtgatat gggatagtgt tcacccttgt tacaccgttt tccatgagca 7320aactgaaacg ttttcatcgc tctggagtga ataccacgac gatttccggc agtttctaca 7380catatattcg caagatgtgg cgtgttacgg tgaaaacctg gcctatttcc ctaaagggtt 7440tattgagaat atgtttttcg tctcagccaa tccctgggtg agtttcacca gttttgattt 7500aaacgtggcc aatatggaca acttcttcgc ccccgttttc actatgggca aatattatac 7560gcaaggcgac aaggtgctga tgccgctggc gattcaggtt catcatgccg tttgtgatgg 7620cttccatgtc ggcagaatgc ttaatgaatt acaacagtac tgcgatgagt ggcagggcgg 7680ggcgtaattt ttttaaggca gttattggtg cccttaaacg cctggttgct acgcctgaat 7740aagtgataat aagcggatga atggcagaaa ttcgaaagca aattcgaccc ggtcgtcggt 7800tcagggcagg gtcgttaaat agccgcttat gtctattgct ggtttaccgg tttattgact 7860accggaagca gtgtgaccgt gtgcttctca aatgcctgag gccagtttgc tcaggctctc 7920cccgtggagg taataattga cgatatgatc ctttttttct gatcaaaagt gctcatcatt 7980ggaaaacgtt cttcggggcg aaaactctca aggatcttac cgctgttgag atccagttcg 8040atgtaaccca ctcgtgcacc caactgatct tcagcatctt ttactttcac cagcgtttct 8100gggtgagcaa aaacaggaag gcaaaatgcc gcaaaaaagg gaataagggc gacacggaaa 8160tgttgaatac tcatactctt cctttttcaa tattattgaa gcatttatca agggttattg 8220tctcatgagc ggatacatat ttgaatgtat ttagaaaaat aaacaaatag gggttccgcg 8280cacatttccc cgaaaagtgc cacctaaatt gtaagcgtta atattttgtt aaaattcgcg 8340ttaaattttt gttaaatcag ctcatttttt aaccaatagg ccgaaatcgg caaaatccct 8400tataaatcaa aagaatagac cgagataggg ttgagtgttg ttccagtttg gaacaagagt 8460ccactattaa agaacgtgga ctccaacgtc aaagggcgaa aaaccgtcta tcagggcgat 8520ggcccactac gtgaaccatc accctaatca agttttttgg ggtcgaggtg ccgtaaagca 8580ctaaatcgga accctaaagg gagcccccga tttagagctt gacggggaaa gccggcgaac 8640gtggcgagaa aggaagggaa gaaagcgaaa ggagcgggcg ctagggcgct ggcaagtgta 8700gcggtcacgc tgcgcgtaac caccacaccc gccgcgctta atgcgccgct acagggcgcg 8760tcccattcgc cattcaggct gcgcaactgt tgggaagggc gatcggtgcg ggcctcttcg 8820ctattacgcc agctggcgaa agggggatgt gctgcaaggc gattaagttg ggtaacgcca 8880gggttttccc agtcacgacg ttgtaaaacg acggccagtg agcgcgcgta atacgactca 8940ctatagggcg aattgggtac g 89614315301DNAArtificial sequencemisc_feature(1)..(15301)ZmABP3-AtAVP1D binary construct 43aattcctgtg gttggcatgc acatacaaat ggacgaacgg ataaaccttt tcacgccctt 60ttaaatatcc gattattcta ataaacgctc ttttctctta ggtttacccg ccaatatatc 120ctgtcaaaca ctgatagttt aaactgaagg cgggaaacga caatctgatc atgagcggag 180aattaaggga gtcacgttat gacccccgcc gatgacgcgg gacaagccgt tttacgtttg 240gaactgacag aaccgcaacg ctgcaggaat tggccgcagc ggccatttaa atcaattggg 300cgcgccagct gcttgtgggg accagacaaa aaaggaatgg tgcagaattg ttaggcgcac 360ctaccaaaag catctttgcc tttattgcaa agataaagca gattcctcta gtacaagtgg 420ggaacaaaat aacgtggaaa agagctgtcc tgacagccca ctcactaatg cgtatgacga 480acgcagtgac gaccacaaaa ctcgagactt ttcaacaaag ggtaatatcc ggaaacctcc 540tcggattcca ttgcccagct atctgtcact ttattgtgaa gatagtggaa aaggaaggtg 600gctcctacaa atgccatcat tgcgataaag gaaaggctat cgttgaagat gcctctgccg 660acagtggtcc caaagatgga cccccaccca cgaggagcat cgtggaaaaa gaagacgttc 720caaccacgtc ttcaaagcaa gtggattgat gtgatatctc cactgacgta agggatgacg 780aacaatccca ctatccttcg gtaccggacc caaagtagca aacaacaggt tcatgtgcac 840tataaaaaga caaaattctc gagtttcatc ttttattcca cataagcctt atattttcca 900ttttcatatg atttttagtt taagtttgtg tcttaacttt ttcgttaata cgtaattcta 960tgcattatgg atgcgtgaag tatttttgtt taaaaaaatg aaatgtcaaa atacgttttg 1020tgatctattt ccatgttttc acctaacagg tggtttttac tatatattct gccataactc 1080tagccttaga tgtaaatcga aaaaaaatga gagatgagct ggagatagcc ttagatgaag 1140cgtctgaaat ataaaagaaa gagtaatgtt gaacgcagta ggtgtagcag ctgtagttcc 1200atctctagga aagggaactg caatccgggc tccgggcctc gcgcaatctg gcctgtcgtg 1260tagatgcagc cctgtccatg acggcccaag caacgcccgc ggctctcgat ccaccacgga 1320acccactccg acacacactg acacacacat gctggatgtg gatgtgctgt ccaattatta 1380gtagcaattc ggtaggcaca ggcacgtact ggccggtgtt ttagctgtaa gtaccgaacc 1440aatcacggtt aagaaccgat taatccgtgc ccagccgccg agtgcgttcg tacgtgcatc 1500ggatgcactg catgaattga gagcatcatc atatcatacg caggagtagt acgacgccgc 1560tgctgtcttg tccggctaat gctttgctca cagattagtc catcgcccac ggtcggtgtg 1620gtgtggatcg ctgatgccac tgctttttgt ttggttttta ttcccctgat aatcctccgc 1680gtccctgaat gtatctattt attttcattc cgaaatccct ttcacgaaaa agaaaacgaa 1740taaaaagaga gttacgaata cgcttccggc ggcccacatc accttccagc gaacatcgcg 1800ccgcgctgac gtgtcgccca tcgcggccgt ccatatcgcc atccgacgac cgtggaagct 1860ggcagcggcc gctccgttcc gtcgaagggg caggtcagtc aggtcaccca cacggccaca 1920cccgcgcggg ggatacgcgg tggaaaaccc ggcgaccaca tcaaaacacg aggcgtctcc 1980cgcaggactg gtcactcggc acgcaggcag aggcagcaca gcagcagcca gctccatcca 2040tcctctttcc cctcctcgct tcgcttcctc ggcggattcc tcctccctcg gccgtccccg 2100tccccttctt cgccgcgcca gctcgcccga gttggtaagg ccccctccac ccctccgctt 2160cccctccccc gggcgcgctc tggcttcctc cccggatcgg cgcggggcgt gctggctccg 2220cgcctgattt cgggcctttt gtttccttct cgcggagcgc tcgtgtaacg cttcggatct 2280agctggattc aggcgggatc gcggccgctc ggcttcctcg tggcctgatt cgtggttttc 2340ctcggggagg gaatcctgat cggatcatcg ggattcctcg tgcggccggg acacgcttgc 2400gagccagaaa catagtctgc gtggccggga ttccacgatc tgtgatctag acgtcgggcg 2460cttcgtctat gtgctcgctg caggctgtgg cgtactggcg tggtgcgcgg ccgctatgga 2520tccgtgcttg tttgttcgcc ctgtagcgtg tgaaatcgag ctgtgtagat ctatggtctg 2580cgaggtgcgg tggcggtgga atctcggttg atctttacct cagcggcgcc agtgtagctc 2640gtgtggctgc agttcatctg cgaatttggc tctcggcggc ttaggtcgcg gagcttggat 2700tatggagcac cagctgcagc gtgaccctgt tggttctcat gtggatctgt tggctgaggt 2760tgcagacttc aagtgccact gccattgacc ggagctgctg cacgattata ctggaatatc 2820tagcggtagt atactctgct agtactcaat acgggtctcc tgacaaatgt ctttcgtgtt 2880tagggaccta gcactctagt gtcaagacta tttgctggaa tatctaatat tagcagtttc 2940tgtagtggct cagttgcagc ctggtttaga atgatgggga cagttggctg tgccatgcaa 3000aataaagtgt gtgaaagcaa ctgcctctta aactatgggt ggtgcaagca ggttatttga 3060agggactctc cacactgtat ctccagttaa ctttgactga acttgtggtc gcaggcaaac 3120ccaccatggt tgcaccagca ttgcttccgg aactgtggac ggagatactg gtcccaatct 3180gcgctgtgat cggcatagcc ttcagcctgt tccagtggta cgtcgtgtca agggtgaagc 3240tcacgagcga cttgggagcc agtagtagcg gaggggcgaa caacgggaag aacggctatg 3300gcgactatct gatcgaggag gaagagggtg tgaacgacca atcagtggtg gcgaagtgtg 3360cggagattca gaccgccatt agcgagggag ctacgagctt cctgtttacg gagtacaagt 3420acgtgggcgt cttcatgatc ttcttcgctg ccgtcatctt cgtgttcctg ggttctgtcg 3480aaggcttctc caccgacaac aagccgtgca cttacgacac caccagaacc tgcaaacctg 3540cactggccac tgctgcgttc tccaccatag cgttcgtgct tggtgctgtg acaagcgtcc 3600tgagtggctt cttggggatg aagatcgcta cctacgccaa tgccagaacc acactggagg 3660caaggaaagg tgtcgggaaa gccttcatcg tggcctttcg gagtggtgct gtcatgggct 3720tcctgcttgc tgccagtgga ttgctcgtgc tctacatcac catcaacgtg ttcaagatct 3780actacggcga cgattgggaa gggctcttcg acgcaatcac tggctatggg ttgggtggct 3840cttcaatggc gctcttcgga agagtgggag gtggcatcta cacgaaagcg gctgatgtgg 3900gagctgacct ggtcgggaag atcgagcgca acatcccgga agatgaccca aggaacccag 3960cagtgatcgc cgacaatgtc ggcgacaatg tcggtgacat agcgggtatg ggaagcgacc 4020tctttggctc atacgccgaa gccagctgcg cagcgcttgt tgtcgcctcc atctccagct 4080tcgggatcaa ccacgacttc acagccatgt gctatcccct cctgatcagc agcatgggca 4140tactggtgtg cctcatcacc acgctgtttg cgaccgactt cttcgagatc aagctggtga 4200aggagatcga acctgcgctg aagaaccagc tgatcatctc gaccgtgatc atgaccgttg 4260ggatcgccat cgtctcatgg gtgggtcttc ctacctcgtt caccatcttc aactttggca 4320ctcagaaggt ggtgaagaac tggcagctct tcctctgcgt ttgcgtcgga ctttgggctg 4380ggctgatcat cggctttgtc acggagtact acacctccaa cgcctacagt cctgtgcagg 4440atgtggccga ttcttgccgt actggtgctg caacgaacgt catcttcggt cttgcactgg 4500gctacaagtc ggtcatcatc cccatcttcg ccattgccat ctccatcttc gtgagcttct 4560cgttcgcagc catgtacggt gttgccgttg ctgcattggg catgctctcc accatcgcta 4620ctggcctcgc tattgacgcg tatggtccga tttcggacaa tgctggaggg attgccgaga 4680tggctgggat gtcgcacagg atcagagagc gtacggatgc actggatgct gcagggaaca 4740ctaccgctgc cattggcaag ggctttgcca tagggtctgc tgcactcgtt agcctggcct 4800tgtttggcgc tttcgtgtcg agagctggca tccacacagt ggacgttctg actcccaagg 4860tgatcatcgg acttctggtg ggagctatgc tcccgtactg gttctctgcg atgacgatga 4920agtcggtcgg atcagcagcg ctgaagatgg tcgaggaggt taggaggcag ttcaacacga 4980tccccggatt gatggagggc acagctaagc cggactatgc tacctgcgtg aagatctcca 5040cagacgcctc catcaaggag atgatccctc cagggtgcct ggtgatgctt actccgctga 5100ttgtgggctt cttcttcggc gtggagacac tttccggcgt gttggcagga agcctcgtga 5160gtggagtgca gatcgcgatc agtgccagca atactggagg ggcatgggac aacgcgaaga 5220agtacatcga agccggcgtc tcagaacacg cgaagtctct gggtccgaaa gggtcagaac 5280cccataaggc cgctgtgatc ggcgatacga ttggcgatcc cttgaaggac acttctggcc 5340catccctcaa catcctgatc aagctcatgg cagtggagag cctcgttttc gcgcctttct 5400tcgcgactca tggtggcatc ctgttcaagt acttctagag ctcgcatcat gatcatgcat 5460catggactcg gcctactact gtggatttgt atgccattat agacttggtg ctgtgaaaga 5520ctgcttgatg atttgcgggt ttgttgctgt gtaaaaaaag gtcccttggc tcccagaaga 5580ccatgaaggt tcggatctat catgtaattc cttgttatct gccaattatg tatggactat 5640ggacatgtgt tgcgctgttc aacttactac tacaaataag taatcgatat gttcccttcc 5700catgtctcgg tgacaattgt ctggagaagc ttaggggtcg tttgtttggg attatgtctg 5760gagaaactta ttttaaacta agtgtgagtt caagttaagt tagattatat aatctaggca 5820gattataatt ccaagcgaac aggtccttag tgtttttgga aaatcctagg tgttcttttg 5880gctacattgt tgtgtgtgca gatcccttgt tggtctgtaa gcgtggggaa gtaagaatcg 5940tccgtttcta ctgaagacct gctcgagtta ggcaccgagg atgccggtaa ccaaacagag 6000caatagtgtc tatgtgggca cagtggagtg tgaatctgtg tgatgcaaat ccgtcatttg 6060tttagcaaaa tttccagcgt tgcatgatgc agtttcttta acacggactt aagggaaggg 6120aaaaaaatgt tgagccagga gatccttcaa tgtgttagac tgacgtgata gccaactaaa 6180ccacgacgca atgttgtcgt taatgacaaa aaaactattt gttcctaaat ccttggcgac 6240attgcatggc tgtctcatga gataatggtc tcatctctta tttatctctt atttatagcc 6300ggaagtggta gtgacccctg cttgattgct cgtatgccat ctcaagttct caaccgtgtc 6360gagcagccat tttcccatct caagcgcatc atcgtttcgt ttgacctcat ctgctatcct 6420gctcctagtg caaatcacat gcgacagaaa gtgtcggacc gcgatcgctt aattaagctt 6480gcatgcctgc agtgcagcgt gacccggtcg tgcccctctc tagagataat gagcattgca 6540tgtctaagtt ataaaaaatt accacatatt ttttttgtca cacttgtttg aagtgcagtt 6600tatctatctt tatacatata tttaaacttt actctacgaa taatataatc tatagtacta 6660caataatatc agtgttttag agaatcatat aaatgaacag ttagacatgg tctaaaggac 6720aattgagtat tttgacaaca ggactctaca gttttatctt tttagtgtgc atgtgttctc 6780cttttttttt gcaaatagct tcacctatat aatacttcat ccattttatt agtacatcca 6840tttagggttt agggttaatg gtttttatag actaattttt ttagtacatc tattttattc 6900tattttagcc tctaaattaa gaaaactaaa actctatttt agttttttta tttaataatt 6960tagatataaa atagaataaa ataaagtgac taaaaattaa acaaataccc tttaagaaat 7020taaaaaaact aaggaaacat ttttcttgtt tcgagtagat aatgccagcc tgttaaacgc 7080cgtcgacgag tctaacggac accaaccagc gaaccagcag cgtcgcgtcg ggccaagcga 7140agcagacggc acggcatctc tgtcgctgcc tctggacccc tctcgagagt tccgctccac 7200cgttggactt gctccgctgt cggcatccag aaattgcgtg gcggagcggc agacgtgagc 7260cggcacggca ggcggcctcc tcctcctctc acggcaccgg cagctacggg ggattccttt 7320cccaccgctc cttcgctttc ccttcctcgc ccgccgtaat aaatagacac cccctccaca 7380ccctctttcc ccaacctcgt gttgttcgga gcgcacacac acacaaccag atctccccca 7440aatccacccg tcggcacctc cgcttcaagg tacgccgctc gtcctccccc cccccccctc 7500tctaccttct ctagatcggc gttccggtcc atggttaggg cccggtagtt ctacttctgt 7560tcatgtttgt gttagatccg tgtttgtgtt agatccgtgc tgctagcgtt cgtacacgga 7620tgcgacctgt acgtcagaca cgttctgatt gctaacttgc cagtgtttct ctttggggaa 7680tcctgggatg gctctagccg ttccgcagac gggatcgatt tcatgatttt ttttgtttcg 7740ttgcataggg tttggtttgc ccttttcctt tatttcaata tatgccgtgc acttgtttgt 7800cgggtcatct tttcatgctt ttttttgtct tggttgtgat gatgtggtct ggttgggcgg 7860tcgttctaga tcggagtaga attctgtttc aaactacctg gtggatttat taattttgga 7920tctgtatgtg tgtgccatac atattcatag ttacgaattg aagatgatgg atggaaatat 7980cgatctagga taggtataca tgttgatgcg ggttttactg atgcatatac agagatgctt 8040tttgttcgct tggttgtgat gatgtggtgt ggttgggcgg tcgttcattc gttctagatc 8100ggagtagaat actgtttcaa actacctggt gtatttatta attttggaac tgtatgtgtg 8160tgtcatacat cttcatagtt acgagtttaa gatggatgga aatatcgatc taggataggt 8220atacatgttg atgtgggttt tactgatgca tatacatgat ggcatatgca gcatctattc 8280atatgctcta accttgagta cctatctatt ataataaaca agtatgtttt ataattattt 8340tgatcttgat atacttggat gatggcatat gcagcagcta tatgtggatt tttttagccc 8400tgccttcata cgctatttat ttgcttggta ctgtttcttt tgtcgatgct caccctgttg 8460tttggtgtta cttctgcagg gatccccgat catgcaaaaa ctcattaact cagtgcaaaa 8520ctatgcctgg ggcagcaaaa cggcgttgac tgaactttat ggtatggaaa atccgtccag 8580ccagccgatg gccgagctgt ggatgggcgc acatccgaaa agcagttcac gagtgcagaa 8640tgccgccgga gatatcgttt cactgcgtga tgtgattgag agtgataaat cgactctgct 8700cggagaggcc gttgccaaac gctttggcga actgcctttc ctgttcaaag tattatgcgc 8760agcacagcca ctctccattc aggttcatcc aaacaaacac aattctgaaa tcggttttgc 8820caaagaaaat gccgcaggta tcccgatgga tgccgccgag cgtaactata aagatcctaa 8880ccacaagccg gagctggttt ttgcgctgac gcctttcctt gcgatgaacg cgtttcgtga 8940attttccgag attgtctccc tactccagcc ggtcgcaggt gcacatccgg cgattgctca 9000ctttttacaa cagcctgatg ccgaacgttt aagcgaactg ttcgccagcc tgttgaatat 9060gcagggtgaa gaaaaatccc gcgcgctggc gattttaaaa tcggccctcg atagccagca 9120gggtgaaccg tggcaaacga ttcgtttaat ttctgaattt tacccggaag acagcggtct 9180gttctccccg ctattgctga atgtggtgaa attgaaccct ggcgaagcga tgttcctgtt 9240cgctgaaaca ccgcacgctt acctgcaagg cgtggcgctg gaagtgatgg caaactccga 9300taacgtgctg cgtgcgggtc tgacgcctaa atacattgat attccggaac tggttgccaa 9360tgtgaaattc gaagccaaac cggctaacca gttgttgacc cagccggtga aacaaggtgc 9420agaactggac ttcccgattc cagtggatga ttttgccttc tcgctgcatg accttagtga 9480taaagaaacc accattagcc agcagagtgc cgccattttg ttctgcgtcg aaggcgatgc 9540aacgttgtgg aaaggttctc agcagttaca gcttaaaccg ggtgaatcag cgtttattgc 9600cgccaacgaa tcaccggtga ctgtcaaagg ccacggccgt ttagcgcgtg tttacaacaa 9660gctgtaagag cttactgaaa aaattaacat ctcttgctaa gctgggagct cgatccgtcg 9720acctgcagat cgttcaaaca tttggcaata aagtttctta agattgaatc ctgttgccgg 9780tcttgcgatg attatcatat aatttctgtt gaattacgtt aagcatgtaa taattaacat 9840gtaatgcatg acgttattta tgagatgggt ttttatgatt agagtcccgc aattatacat 9900ttaatacgcg atagaaaaca aaatatagcg cgcaaactag gataaattat cgcgcgcggt 9960gtcatctatg ttactagatc tgctagccct gcaggaaatt taccggtgcc cgggcggcca 10020gcatggccgt atccgcaatg tgttattaag ttgtctaagc gtcaatttgt ttacaccaca 10080atatatcctg ccaccagcca gccaacagct ccccgaccgg cagctcggca caaaatcacc 10140actcgataca ggcagcccat cagaattaat tctcatgttt gacagcttat catcgactgc 10200acggtgcacc aatgcttctg gcgtcaggca gccatcggaa gctgtggtat ggctgtgcag 10260gtcgtaaatc actgcataat tcgtgtcgct caaggcgcac tcccgttctg gataatgttt 10320tttgcgccga catcataacg gttctggcaa atattctgaa atgagctgtt gacaattaat 10380catccggctc gtataatgtg tggaattgtg agcggataac aatttcacac aggaaacaga 10440ccatgaggga agcgttgatc gccgaagtat cgactcaact atcagaggta gttggcgtca 10500tcgagcgcca tctcgaaccg acgttgctgg ccgtacattt gtacggctcc gcagtggatg 10560gcggcctgaa gccacacagt gatattgatt tgctggttac ggtgaccgta aggcttgatg 10620aaacaacgcg gcgagctttg atcaacgacc ttttggaaac ttcggcttcc cctggagaga 10680gcgagattct ccgcgctgta gaagtcacca ttgttgtgca cgacgacatc attccgtggc 10740gttatccagc taagcgcgaa ctgcaatttg gagaatggca gcgcaatgac attcttgcag 10800gtatcttcga gccagccacg atcgacattg atctggctat cttgctgaca aaagcaagag 10860aacatagcgt tgccttggta ggtccagcgg cggaggaact ctttgatccg gttcctgaac 10920aggatctatt tgaggcgcta aatgaaacct taacgctatg gaactcgccg cccgactggg 10980ctggcgatga gcgaaatgta gtgcttacgt tgtcccgcat ttggtacagc gcagtaaccg 11040gcaaaatcgc gccgaaggat gtcgctgccg actgggcaat ggagcgcctg ccggcccagt 11100atcagcccgt catacttgaa gctaggcagg cttatcttgg acaagaagat cgcttggcct 11160cgcgcgcaga tcagttggaa gaatttgttc actacgtgaa aggcgagatc accaaagtag 11220tcggcaaata aagctctagt ggatctccgt acccggggat ctggctcgcg gcggacgcac 11280gacgccgggg cgagaccata ggcgatctcc taaatcaata gtagctgtaa cctcgaagcg 11340tttcacttgt aacaacgatt gagaattttt gtcataaaat tgaaatactt ggttcgcatt 11400tttgtcatcc gcggtcagcc gcaattctga cgaactgccc atttagctgg agatgattgt 11460acatccttca cgtgaaaatt tctcaagcgc tgtgaacaag ggttcagatt ttagattgaa 11520aggtgagccg ttgaaacacg ttcttcttgt cgatgacgac gtcgctatgc ggcatcttat 11580tattgaatac cttacgatcc acgccttcaa agtgaccgcg gtagccgaca gcacccagtt 11640cacaagagta ctctcttccg cgacggtcga tgtcgtggtt gttgatctag atttaggtcg 11700tgaagatggg ctcgagatcg ttcgtaatct ggcggcaaag tctgatattc caatcataat 11760tatcagtggc gaccgccttg aggagacgga taaagttgtt gcactcgagc taggagcaag 11820tgattttatc gctaagccgt tcagtatcag agagtttcta gcacgcattc gggttgcctt 11880gcgcgtgcgc cccaacgttg tccgctccaa agaccgacgg tctttttgtt ttactgactg 11940gacacttaat ctcaggcaac gtcgcttgat gtccgaagct ggcggtgagg tgaaacttac 12000ggcaggtgag ttcaatcttc tcctcgcgtt tttagagaaa ccccgcgacg ttctatcgcg 12060cgagcaactt ctcattgcca gtcgagtacg cgacgaggag gtttatgaca ggagtataga 12120tgttctcatt ttgaggctgc gccgcaaact tgaggcagat ccgtcaagcc ctcaactgat 12180aaaaacagca agaggtgccg gttatttctt tgacgcggac gtgcaggttt cgcacggggg 12240gacgatggca gcctgagcca attcccagat ccccgaggaa tcggcgtgag cggtcgcaaa 12300ccatccggcc cggtacaaat cggcgcggcg ctgggtgatg acctggtgga gaagttgaag 12360gccgcgcagg ccgcccagcg gcaacgcatc gaggcagaag cacgccccgg tgaatcgtgg 12420caagcggccg ctgatcgaat ccgcaaagaa tcccggcaac cgccggcagc cggtgcgccg 12480tcgattagga agccgcccaa gggcgacgag caaccagatt ttttcgttcc gatgctctat 12540gacgtgggca cccgcgatag tcgcagcatc atggacgtgg ccgttttccg tctgtcgaag 12600cgtgaccgac gagctggcga ggtgatccgc tacgagcttc cagacgggca cgtagaggtt 12660tccgcagggc cggccggcat ggccagtgtg tgggattacg acctggtact gatggcggtt 12720tcccatctaa ccgaatccat gaaccgatac cgggaaggga agggagacaa gcccggccgc 12780gtgttccgtc cacacgttgc ggacgtactc aagttctgcc ggcgagccga tggcggaaag

12840cagaaagacg acctggtaga aacctgcatt cggttaaaca ccacgcacgt tgccatgcag 12900cgtacgaaga aggccaagaa cggccgcctg gtgacggtat ccgagggtga agccttgatt 12960agccgctaca agatcgtaaa gagcgaaacc gggcggccgg agtacatcga gatcgagcta 13020gctgattgga tgtaccgcga gatcacagaa ggcaagaacc cggacgtgct gacggttcac 13080cccgattact ttttgatcga tcccggcatc ggccgttttc tctaccgcct ggcacgccgc 13140gccgcaggca aggcagaagc cagatggttg ttcaagacga tctacgaacg cagtggcagc 13200gccggagagt tcaagaagtt ctgtttcacc gtgcgcaagc tgatcgggtc aaatgacctg 13260ccggagtacg atttgaagga ggaggcgggg caggctggcc cgatcctagt catgcgctac 13320cgcaacctga tcgagggcga agcatccgcc ggttcctaat gtacggagca gatgctaggg 13380caaattgccc tagcagggga aaaaggtcga aaaggtctct ttcctgtgga tagcacgtac 13440attgggaacc caaagccgta cattgggaac cggaacccgt acattgggaa cccaaagccg 13500tacattggga accggtcaca catgtaagtg actgatataa aagagaaaaa aggcgatttt 13560tccgcctaaa actctttaaa acttattaaa actcttaaaa cccgcctggc ctgtgcataa 13620ctgtctggcc agcgcacagc cgaagagctg caaaaagcgc ctacccttcg gtcgctgcgc 13680tccctacgcc ccgccgcttc gcgtcggcct atcgcggccg ctggccgctc aaaaatggct 13740ggcctacggc caggcaatct accagggcgc ggacaagccg cgccgtcgcc actcgaccgc 13800cggcgctgag gtctgcctcg tgaagaaggt gttgctgact cataccaggc ctgaatcgcc 13860ccatcatcca gccagaaagt gagggagcca cggttgatga gagctttgtt gtaggtggac 13920cagttggtga ttttgaactt ttgctttgcc acggaacggt ctgcgttgtc gggaagatgc 13980gtgatctgat ccttcaactc agcaaaagtt cgatttattc aacaaagccg ccgtcccgtc 14040aagtcagcgt aatgctctgc cagtgttaca accaattaac caattctgat tagaaaaact 14100catcgagcat caaatgaaac tgcaatttat tcatatcagg attatcaata ccatattttt 14160gaaaaagccg tttctgtaat gaaggagaaa actcaccgag gcagttccat aggatggcaa 14220gatcctggta tcggtctgcg attccgactc gtccaacatc aatacaacct attaatttcc 14280cctcgtcaaa aataaggtta tcaagtgaga aatcaccatg agtgacgact gaatccggtg 14340agaatggcaa aagctctgca ttaatgaatc ggccaacgcg cggggagagg cggtttgcgt 14400attgggcgct cttccgcttc ctcgctcact gactcgctgc gctcggtcgt tcggctgcgg 14460cgagcggtat cagctcactc aaaggcggta atacggttat ccacagaatc aggggataac 14520gcaggaaaga acatgtgagc aaaaggccag caaaaggcca ggaaccgtaa aaaggccgcg 14580ttgctggcgt ttttccatag gctccgcccc cctgacgagc atcacaaaaa tcgacgctca 14640agtcagaggt ggcgaaaccc gacaggacta taaagatacc aggcgtttcc ccctggaagc 14700tccctcgtgc gctctcctgt tccgaccctg ccgcttaccg gatacctgtc cgcctttctc 14760ccttcgggaa gcgtggcgct ttctcatagc tcacgctgta ggtatctcag ttcggtgtag 14820gtcgttcgct ccaagctggg ctgtgtgcac gaaccccccg ttcagcccga ccgctgcgcc 14880ttatccggta actatcgtct tgagtccaac ccggtaagac acgacttatc gccactggca 14940gcagccactg gtaacaggat tagcagagcg aggtatgtag gcggtgctac agagttcttg 15000aagtggtggc ctaactacgg ctacactaga agaacagtat ttggtatctg cgctctgctg 15060aagccagtta ccttcggaaa aagagttggt agctcttgat ccggcaaaca aaccaccgct 15120ggtagcggtg gtttttttgt ttgcaagcag cagattacgc gcagaaaaaa aggatctcaa 15180gaagatcctt tgatcttttc tacggggtct gacgctcagt ggaacgaaaa ctcacgttaa 15240gggattttgg tcatgagatt atcaaaaagg atcttcacct agatcctttt gatccggaat 15300t 15301448342DNAArtificial sequencemisc_feature(1)..(8342)plasmid 15772 ZmABT Assembly 44ccccgaccag cgcgacatgc atggcatggc aaactatata tcgtcatcat cattattatc 60atctgaccct cttttttttt cactctcact cccatgtttt tattcccggg cggggccgtg 120tgggtgtggg ttgggatggc cggattgggc tcccggggtg gagaaatgac aaatccaggc 180ccgcaggcgg ccacccacca aatcggacga cgcagggtgc ccaaatcagg aaggatttta 240aggttaaccg gccaccggcg gtgaccgacg ccccacccca ctctccttct cctattctat 300ctatatatca cccgcctctt ttttctccct cactccgcca caccttccct cttcttcctc 360agctccgtcg cccaccgccg gagcaccgaa aggccccgcg cccgccgcct ttcctgtaaa 420aaacccaacc tttagctagc taaccgctcc tcttctcccc ctactcccct tgcccaaatc 480agagaagata tttaacggag gaggggaagg agaggatatt tagctgattg ttgattggtg 540gtccggggta cggtgttctt gagtcgtgaa gcgaccgtac agtggctagg gccgtctccg 600ggttgcgtgc aggatggtcg tcagagatcg ggagtgagga ggcagctcgt ggtcgtggag 660gctaaatgta ccgcaagaac gactcggcac tctcctgttt ctacctcttc ctcctctggt 720tcttcttctt gaaatagacc agcgccagcc accaggtagc tacctactag ctagcagccc 780agttgcgact ggggacgggc tgctgcttgc aagttggaat cttggagcag gagcagagga 840gcgggagatg gagctggatc tgaacgtggc cgaggtggcg ccggagaagc catcggcggc 900gctggaggcg agcgactcgg ggtcctcggg ctcgtcggtg ctgaacgcgg aggcggcatc 960ggcgggcggc ggggggcccg cgccggggga ggaggggtca agctcgacgc cggccgtgct 1020cgagttcagc atcctcagga gcgacagcga cgcggccggc gcggacgccg acgacggcga 1080cgccacgccg tcgccacctc gccaccacca gcagcagctc gtcacccggg agcacttccc 1140ggcgccgcag cattgggccg agcacggctt cttccgcgcc ggcccgcagc agcagccgga 1200catcagggtc ctgccgcacc cgcacccgta cccgcccccg ccgccgcccg cgcagccgca 1260gcaggccaag aagagccgcc gcggcccgcg ctcccgcagc tcgcagtacc gcggcgtcac 1320cttctaccgc cgcaccggcc gctgggagtc ccacatctgg tcagtagcac tgcaagctca 1380ccatgcgccc tttcacctac cgaccaataa tcgcttgtga ttctgacacc caaatgtttc 1440gtcttcctgt gctgtcctgt tcctcggaaa tggcagggat tgcgggaagc aggtgtactt 1500aggtgagcag caataagcag atcgatctgc agcataaatt tcccgttatt aactagttcg 1560tgatctcgat cgaatggcct aattaaccga ttcggtgatc tggccgatgg ccaatctacg 1620caggtggatt cgacactgct catgccgctg caaggtaacg atcaatccat ccatccaccc 1680ttgtctagct accccaccga ccggccggat taatggaccg ctagctctcg ggacgggctt 1740gctgcagggc gtacgaccga gcggcgatca agttccgcgg cgtcgacgcc gacataaact 1800tcaacctcag cgactacgac gacgatatga agcaggtaca tacacgagtg ttcttgcagc 1860tagcaccgac tgaaacatct gctgaacgta cacgcatggc cctgtgcacc agatgaagag 1920cctgtccaag gaggagttcg ttcacgccct gcggcggcag agcaccggct tctcccgcgg 1980cagctccaag tacaggggcg tcaccctgca caagtgcggc cgctgggagg cgcgcaaggg 2040gcagttcctc ggcaagaagt aagaaacaac acttcgtttg caggcgctgt actttgctgc 2100agattatttc atttcatcct tgcatgtgcc tttcctttcc atccactcac ttgatggctg 2160tagtctcgat agagttcgtt cgttcgtact tcgcaccaga tgaactccca cgcacatgat 2220ttagtactag ttttaccatg cattgttcag taaaagtata tgcttgcttg atcagtggtt 2280gtttcaatca gaagattaaa aaaacggaat attaatataa aaaaaagggg aagtggctag 2340ggaattcctc agtcctagct agctagctca ccggtgggaa cgccatgctt ggcttgggtg 2400caggtacata tatcttgggc tattcgacag cgaagtagag gctgcaaggt tgttcacctc 2460ggacgattct gccatttgtt catatacacc atgccttttg atttctctct tgcaatttct 2520cttcttttat catggctttt gattcccaaa gggttgagta ccgactcgat attcgattct 2580ccctgccgtt tcgtgacccc agggcgtacg acaaggcccc accatggtac gtcctgtaga 2640aaccccaacc cgtgaaatca aaaaactcga cggcctgtgg gcattcagtc tggatcgcga 2700aaactgtgga attgatcagc gttggtggga aagcgcgtta caagaaagcc gggcaattgc 2760tgtgccaggc agttttaacg atcagttcgc cgatgcagat attcgtaatt atgcgggcaa 2820cgtctggtat cagcgcgaag tctttatacc gaaaggttgg gcaggccagc gtatcgtgct 2880gcgtttcgat gcggtcactc attacggcaa agtgtgggtc aataatcagg aagtgatgga 2940gcatcagggc ggctatacgc catttgaagc cgatgtcacg ccgtatgtta ttgccgggaa 3000aagtgtacgt atcaccgttt gtgtgaacaa cgaactgaac tggcagacta tcccgccggg 3060aatggtgatt accgacgaaa acggcaagaa aaagcagtct tacttccatg atttctttaa 3120ctatgccgga atccatcgca gcgtaatgct ctacaccacg ccgaacacct gggtggacga 3180tatcaccgtg gtgacgcatg tcgcgcaaga ctgtaaccac gcgtctgttg actggcaggt 3240accaagctgc gaatcttcgt ttttttaagg aattctcgat ctttatggtg tataggctct 3300gggttttctg ttttttgtat ctcttaggat tttgtaaatt ccagatcttt ctatggccac 3360ttagtagtat atttcaaaaa ttctccaatc gagttcttca ttcgcatttt cagtcatttt 3420ctcttcgacg ttgtttttaa gcctgggtat tactcctatt tagttgaact ctgcagcaat 3480cttagaaaat tagggttttg aggtttcgat ttctctaggt aaccgatcta ttgcattcat 3540ctgaatttct gcatatatgt cttagatttc tgataagctt acgatacgtt aggtgtaatt 3600gaagtttatt tttcaagagt gttatttttt gtttctgaat ttttcaggtg gtggccaatg 3660gtgatgtcag cgttgaactg cgtgatgcgg atcaacaggt ggttgcaact ggacaaggca 3720ctagcgggac tttgcaagtg gtgaatccgc acctctggca accgggtgaa ggttatctct 3780atgaactgtg cgtcacagcc aaaagccaga cagagtgtga tatctacccg cttcgcgtcg 3840gcatccggtc agtggcagtg aagggcgaac agttcctgat taaccacaaa ccgttctact 3900ttactggctt tggtcgtcat gaagatgcgg acttgcgtgg caaaggattc gataacgtgc 3960tgatggtgca cgaccacgca ttaatggact ggattggggc caactcctac cgtacctcgc 4020attaccctta cgctgaagag atgctcgact gggcagatga acatggcatc gtggtgattg 4080atgaaactgc tgctgtcggc tttaacctct ctttaggcat tggtttcgaa gcgggcaaca 4140agccgaaaga actgtacagc gaagaggcag tcaacgggga aactcagcaa gcgcacttac 4200aggcgattaa agagctgata gcgcgtgaca aaaaccaccc aagcgtggtg atgtggagta 4260ttgccaacga accggatacc cgtccgcaag gtgcacggga atatttcgcg ccactggcgg 4320aagcaacgcg taaactcgac ccgacgcgtc cgatcacctg cgtcaatgta atgttctgcg 4380acgctcacac cgataccatc agcgatctct ttgatgtgct gtgcctgaac cgttattacg 4440gatggtatgt ccaaagcggc gatttggaaa cggcagagaa ggtactggaa aaagaacttc 4500tggcctggca ggagaaactg catcagccga ttatcatcac cgaatacggc gtggatacgt 4560tagccgggct gcactcaatg tacaccgaca tgtggagtga agagtatcag tgtgcatggc 4620tggatatgta tcaccgcgtc tttgatcgcg tcagcgccgt cgtcggtgaa caggtatgga 4680atttcgccga ttttgcgacc tcgcaaggca tattgcgcgt tggcggtaac aagaaaggga 4740tcttcactcg cgaccgcaaa ccgaagtcgg cggcttttct gctgcaaaaa cgctggactg 4800gcatgaactt cggtgaaaaa ccgcagcagg gaggcaaaca atgagagctc gaatcgaaga 4860agccacactg taaatctgcc gggaagcggc tggtggcatc cggcccgctc ctccctccgg 4920gcgccgcaac ttttttcgat cggttttgcg ccgcccggga cgggttgtag ttgatcgatt 4980ggattcttca taactgtatt tgcgtactgc ttacactacc caagtgaaat cgaaaatggc 5040gccttctctc gttgaataaa ttgcacgtac gctactcgat ccgctgcggc tcttgctgga 5100gtggccgccg ccgctataga tagaaggatc aagccaagga atctgtcatg catgggcatg 5160tgaaggagga gcctcctgca atgtttagtc ttttttggtc gacgcccacc agagatatac 5220gcactagatt tcatatagct gagctagatc gattccgttg catgcatgct gcatggcgtc 5280gagattcgag ctagcaccgc ctgttcatca tcgaccgatc cattctgatc gattcccctc 5340tcgagctttc acgaactgaa cctacctagt gagggtgacg cctaacgcct agtgcgcgcg 5400cgtgggtctc cgatgtcagt ggccgcacgc gcgcgcgcgt tctcgagatc gcatgtggtc 5460atagcgcagc aggtttgccc tcagaaccta cagcaactcg accaccggtt tggatttctt 5520cttttttcaa ggatatgatc ggagagagag agctacctag gcgtcgtcct tgttttcttg 5580tatcgcatgt ggtgtgggtc tctctcctcc tttcgtacgc acgcatgatt ccattcttac 5640cccccctcga gatcgagagg aaatatattg ctattttata cacacacggc gcccccagct 5700atacgtcact gcttacgtta attcccccac cggatagtag ttgtttaatg gcccaaacaa 5760accttgttgt tgcatgcatc atggaccaaa caaaatacat agttagttaa atattactgt 5820tatatataca actaataata attatattat tagttaaaac aaagcaaggc atatgcagca 5880gctgctggtc ggaccgggcc catcgatgat atcagatctg gttctatagt gtcacctaaa 5940tcgtatgtgt atgatacata aggttatgta ttaattgtag ccgcgttcta acgacaatat 6000gtccatatgg tgcactctca gtacaatctg ctctgatgcc gcatagttaa gccagccccg 6060acacccgcca acacccgctg acgcgccctg acgggcttgt ctgctcccgg catccgctta 6120cagacaagct gtgaccgtct ccgggagctg catgtgtcag aggttttcac cgtcatcacc 6180gaaacgcgcg agacgaaagg gcctcgtgat acgcctattt ttataggtta atgtcatgat 6240aataatggtt tcttagacgt caggtggcac ttttcgggga aatgtgcgcg gaacccctat 6300ttgtttattt ttctaaatac attcaaatat gtatccgctc atgagacaat aaccctgata 6360aatgcttcaa taatattgaa aaaggaagag tatgagtatt caacatttcc gtgtcgccct 6420tattcccttt tttgcggcat tttgccttcc tgtttttgct cacccagaaa cgctggtgaa 6480agtaaaagat gctgaagatc agttgggtgc acgagtgggt tacatcgaac tggatctcaa 6540cagcggtaag atccttgaga gttttcgccc cgaagaacgt tttccaatga tgagcacttt 6600taaagttctg ctatgtggcg cggtattatc ccgtattgac gccgggcaag agcaactcgg 6660tcgccgcata cactattctc agaatgactt ggttgagtac tcaccagtca cagaaaagca 6720tcttacggat ggcatgacag taagagaatt atgcagtgct gccataacca tgagtgataa 6780cactgcggcc aacttacttc tgacaacgat cggaggaccg aaggagctaa ccgctttttt 6840gcacaacatg ggggatcatg taactcgcct tgatcgttgg gaaccggagc tgaatgaagc 6900cataccaaac gacgagcgtg acaccacgat gcctgtagca atggcaacaa cgttgcgcaa 6960actattaact ggcgaactac ttactctagc ttcccggcaa caattaatag actggatgga 7020ggcggataaa gttgcaggac cacttctgcg ctcggccctt ccggctggct ggtttattgc 7080tgataaatct ggagccggtg agcgtgggtc tcgcggtatc attgcagcac tggggccaga 7140tggtaagccc tcccgtatcg tagttatcta cacgacgggg agtcaggcaa ctatggatga 7200acgaaataga cagatcgctg agataggtgc ctcactgatt aagcattggt aactgtcaga 7260ccaagtttac tcatatatac tttagattga tttaaaactt catttttaat ttaaaaggat 7320ctaggtgaag atcctttttg ataatctcat gaccaaaatc ccttaacgtg agttttcgtt 7380ccactgagcg tcagaccccg tagaaaagat caaaggatct tcttgagatc ctttttttct 7440gcgcgtaatc tgctgcttgc aaacaaaaaa accaccgcta ccagcggtgg tttgtttgcc 7500ggatcaagag ctaccaactc tttttccgaa ggtaactggc ttcagcagag cgcagatacc 7560aaatactgtt cttctagtgt agccgtagtt aggccaccac ttcaagaact ctgtagcacc 7620gcctacatac ctcgctctgc taatcctgtt accagtggct gctgccagtg gcgataagtc 7680gtgtcttacc gggttggact caagacgata gttaccggat aaggcgcagc ggtcgggctg 7740aacggggggt tcgtgcacac agcccagctt ggagcgaacg acctacaccg aactgagata 7800cctacagcgt gagctatgag aaagcgccac gcttcccgaa gggagaaagg cggacaggta 7860tccggtaagc ggcagggtcg gaacaggaga gcgcacgagg gagcttccag ggggaaacgc 7920ctggtatctt tatagtcctg tcgggtttcg ccacctctga cttgagcgtc gatttttgtg 7980atgctcgtca ggggggcgga gcctatggaa aaacgccagc aacgcggcct ttttacggtt 8040cctggccttt tgctggcctt ttgctcacat gttctttcct gcgttatccc ctgattctgt 8100ggataaccgt attaccgcct ttgagtgagc tgataccgct cgccgcagcc gaacgaccga 8160gcgcagcgag tcagtgagcg aggaagcgga agagcgccca atacgcaaac cgcctctccc 8220cgcgcgttgg ccgattcatt aatgcaggtt aacctggctt atcgaaatta atacgactca 8280ctatagggag accggcctcg agcagctgaa gcttgcatgc ctgcaggtcg actctagagg 8340ga 83424515544DNAArtificial sequencemisc_feature(1)..(15544)plasmid 15773 45attcctgtgg ttggcatgca catacaaatg gacgaacgga taaacctttt cacgcccttt 60taaatatccg attattctaa taaacgctct tttctcttag gtttacccgc caatatatcc 120tgtcaaacac tgatagttta aactgaaggc gggaaacgac aatctgatca tgagcggaga 180attaagggag tcacgttatg acccccgccg atgacgcggg acaagccgtt ttacgtttgg 240aactgacaga accgcaacgc tgcaggaatt ggccgcagcg gccatttaaa tcaattgggc 300gcgccagctg cttgtgggga ccagacaaaa aaggaatggt gcagaattgt taggcgcacc 360taccaaaagc atctttgcct ttattgcaaa gataaagcag attcctctag tacaagtggg 420gaacaaaata acgtggaaaa gagctgtcct gacagcccac tcactaatgc gtatgacgaa 480cgcagtgacg accacaaaac tcgagacttt tcaacaaagg gtaatatccg gaaacctcct 540cggattccat tgcccagcta tctgtcactt tattgtgaag atagtggaaa aggaaggtgg 600ctcctacaaa tgccatcatt gcgataaagg aaaggctatc gttgaagatg cctctgccga 660cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag aagacgttcc 720aaccacgtct tcaaagcaag tggattgatg tgatatctcc actgacgtaa gggatgacga 780acaatcccac tatccttcgg taccggaccc cgaccagcgc gacatgcatg gcatggcaaa 840ctatatatcg tcatcatcat tattatcatc tgaccctctt tttttttcac tctcactccc 900atgtttttat tcccgggcgg ggccgtgtgg gtgtgggttg ggatggccgg attgggctcc 960cggggtggag aaatgacaaa tccaggcccg caggcggcca cccaccaaat cggacgacgc 1020agggtgccca aatcaggaag gattttaagg ttaaccggcc accggcggtg accgacgccc 1080caccccactc tccttctcct attctatcta tatatcaccc gcctcttttt tctccctcac 1140tccgccacac cttccctctt cttcctcagc tccgtcgccc accgccggag caccgaaagg 1200ccccgcgccc gccgcctttc ctgtaaaaaa cccaaccttt agctagctaa ccgctcctct 1260tctcccccta ctccccttgc ccaaatcaga gaagatattt aacggaggag gggaaggaga 1320ggatatttag ctgattgttg attggtggtc cggggtacgg tgttcttgag tcgtgaagcg 1380accgtacagt ggctagggcc gtctccgggt tgcgtgcagg atggtcgtca gagatcggga 1440gtgaggaggc agctcgtggt cgtggaggct aaatgtaccg caagaacgac tcggcactct 1500cctgtttcta cctcttcctc ctctggttct tcttcttgaa atagaccagc gccagccacc 1560aggtagctac ctactagcta gcagcccagt tgcgactggg gacgggctgc tgcttgcaag 1620ttggaatctt ggagcaggag cagaggagcg ggagatggag ctggatctga acgtggccga 1680ggtggcgccg gagaagccat cggcggcgct ggaggcgagc gactcggggt cctcgggctc 1740gtcggtgctg aacgcggagg cggcatcggc gggcggcggg gggcccgcgc cgggggagga 1800ggggtcaagc tcgacgccgg ccgtgctcga gttcagcatc ctcaggagcg acagcgacgc 1860ggccggcgcg gacgccgacg acggcgacgc cacgccgtcg ccacctcgcc accaccagca 1920gcagctcgtc acccgggagc acttcccggc gccgcagcat tgggccgagc acggcttctt 1980ccgcgccggc ccgcagcagc agccggacat cagggtcctg ccgcacccgc acccgtaccc 2040gcccccgccg ccgcccgcgc agccgcagca ggccaagaag agccgccgcg gcccgcgctc 2100ccgcagctcg cagtaccgcg gcgtcacctt ctaccgccgc accggccgct gggagtccca 2160catctggtca gtagcactgc aagctcacca tgcgcccttt cacctaccga ccaataatcg 2220cttgtgattc tgacacccaa atgtttcgtc ttcctgtgct gtcctgttcc tcggaaatgg 2280cagggattgc gggaagcagg tgtacttagg tgagcagcaa taagcagatc gatctgcagc 2340ataaatttcc cgttattaac tagttcgtga tctcgatcga atggcctaat taaccgattc 2400ggtgatctgg ccgatggcca atctacgcag gtggattcga cactgctcat gccgctgcaa 2460ggtaacgatc aatccatcca tccacccttg tctagctacc ccaccgaccg gccggattaa 2520tggaccgcta gctctcggga cgggcttgct gcagggcgta cgaccgagcg gcgatcaagt 2580tccgcggcgt cgacgccgac ataaacttca acctcagcga ctacgacgac gatatgaagc 2640aggtacatac acgagtgttc ttgcagctag caccgactga aacatctgct gaacgtacac 2700gcatggccct gtgcaccaga tgaagagcct gtccaaggag gagttcgttc acgccctgcg 2760gcggcagagc accggcttct cccgcggcag ctccaagtac aggggcgtca ccctgcacaa 2820gtgcggccgc tgggaggcgc gcaaggggca gttcctcggc aagaagtaag aaacaacact 2880tcgtttgcag gcgctgtact ttgctgcaga ttatttcatt tcatccttgc atgtgccttt 2940cctttccatc cactcacttg atggctgtag tctcgataga gttcgttcgt tcgtacttcg 3000caccagatga actcccacgc acatgattta gtactagttt taccatgcat tgttcagtaa 3060aagtatatgc ttgcttgatc agtggttgtt tcaatcagaa gattaaaaaa acggaatatt 3120aatataaaaa aaaggggaag tggctaggga attcctcagt cctagctagc tagctcaccg 3180gtgggaacgc catgcttggc ttgggtgcag gtacatatat cttgggctat tcgacagcga 3240agtagaggct gcaaggttgt tcacctcgga cgattctgcc atttgttcat atacaccatg 3300ccttttgatt tctctcttgc aatttctctt cttttatcat ggcttttgat tcccaaaggg 3360ttgagtaccg actcgatatt cgattctccc tgccgtttcg tgaccccagg gcgtacgaca 3420aggccccacc atggtacgtc ctgtagaaac cccaacccgt gaaatcaaaa aactcgacgg 3480cctgtgggca ttcagtctgg atcgcgaaaa ctgtggaatt gatcagcgtt ggtgggaaag 3540cgcgttacaa gaaagccggg caattgctgt gccaggcagt tttaacgatc agttcgccga 3600tgcagatatt cgtaattatg cgggcaacgt ctggtatcag cgcgaagtct ttataccgaa 3660aggttgggca ggccagcgta tcgtgctgcg tttcgatgcg gtcactcatt acggcaaagt 3720gtgggtcaat aatcaggaag tgatggagca tcagggcggc tatacgccat ttgaagccga 3780tgtcacgccg tatgttattg ccgggaaaag tgtacgtatc accgtttgtg tgaacaacga 3840actgaactgg cagactatcc cgccgggaat ggtgattacc gacgaaaacg gcaagaaaaa 3900gcagtcttac ttccatgatt tctttaacta tgccggaatc catcgcagcg taatgctcta 3960caccacgccg aacacctggg

tggacgatat caccgtggtg acgcatgtcg cgcaagactg 4020taaccacgcg tctgttgact ggcaggtacc aagctgcgaa tcttcgtttt tttaaggaat 4080tctcgatctt tatggtgtat aggctctggg ttttctgttt tttgtatctc ttaggatttt 4140gtaaattcca gatctttcta tggccactta gtagtatatt tcaaaaattc tccaatcgag 4200ttcttcattc gcattttcag tcattttctc ttcgacgttg tttttaagcc tgggtattac 4260tcctatttag ttgaactctg cagcaatctt agaaaattag ggttttgagg tttcgatttc 4320tctaggtaac cgatctattg cattcatctg aatttctgca tatatgtctt agatttctga 4380taagcttacg atacgttagg tgtaattgaa gtttattttt caagagtgtt attttttgtt 4440tctgaatttt tcaggtggtg gccaatggtg atgtcagcgt tgaactgcgt gatgcggatc 4500aacaggtggt tgcaactgga caaggcacta gcgggacttt gcaagtggtg aatccgcacc 4560tctggcaacc gggtgaaggt tatctctatg aactgtgcgt cacagccaaa agccagacag 4620agtgtgatat ctacccgctt cgcgtcggca tccggtcagt ggcagtgaag ggcgaacagt 4680tcctgattaa ccacaaaccg ttctacttta ctggctttgg tcgtcatgaa gatgcggact 4740tgcgtggcaa aggattcgat aacgtgctga tggtgcacga ccacgcatta atggactgga 4800ttggggccaa ctcctaccgt acctcgcatt acccttacgc tgaagagatg ctcgactggg 4860cagatgaaca tggcatcgtg gtgattgatg aaactgctgc tgtcggcttt aacctctctt 4920taggcattgg tttcgaagcg ggcaacaagc cgaaagaact gtacagcgaa gaggcagtca 4980acggggaaac tcagcaagcg cacttacagg cgattaaaga gctgatagcg cgtgacaaaa 5040accacccaag cgtggtgatg tggagtattg ccaacgaacc ggatacccgt ccgcaaggtg 5100cacgggaata tttcgcgcca ctggcggaag caacgcgtaa actcgacccg acgcgtccga 5160tcacctgcgt caatgtaatg ttctgcgacg ctcacaccga taccatcagc gatctctttg 5220atgtgctgtg cctgaaccgt tattacggat ggtatgtcca aagcggcgat ttggaaacgg 5280cagagaaggt actggaaaaa gaacttctgg cctggcagga gaaactgcat cagccgatta 5340tcatcaccga atacggcgtg gatacgttag ccgggctgca ctcaatgtac accgacatgt 5400ggagtgaaga gtatcagtgt gcatggctgg atatgtatca ccgcgtcttt gatcgcgtca 5460gcgccgtcgt cggtgaacag gtatggaatt tcgccgattt tgcgacctcg caaggcatat 5520tgcgcgttgg cggtaacaag aaagggatct tcactcgcga ccgcaaaccg aagtcggcgg 5580cttttctgct gcaaaaacgc tggactggca tgaacttcgg tgaaaaaccg cagcagggag 5640gcaaacaatg agagctcgaa tcgaagaagc cacactgtaa atctgccggg aagcggctgg 5700tggcatccgg cccgctcctc cctccgggcg ccgcaacttt tttcgatcgg ttttgcgccg 5760cccgggacgg gttgtagttg atcgattgga ttcttcataa ctgtatttgc gtactgctta 5820cactacccaa gtgaaatcga aaatggcgcc ttctctcgtt gaataaattg cacgtacgct 5880actcgatccg ctgcggctct tgctggagtg gccgccgccg ctatagatag aaggatcaag 5940ccaaggaatc tgtcatgcat gggcatgtga aggaggagcc tcctgcaatg tttagtcttt 6000tttggtcgac gcccaccaga gatatacgca ctagatttca tatagctgag ctagatcgat 6060tccgttgcat gcatgctgca tggcgtcgag attcgagcta gcaccgcctg ttcatcatcg 6120accgatccat tctgatcgat tcccctctcg agctttcacg aactgaacct acctagtgag 6180ggtgacgcct aacgcctagt gcgcgcgcgt gggtctccga tgtcagtggc cgcacgcgcg 6240cgcgcgttct cgagatcgca tgtggtcata gcgcagcagg tttgccctca gaacctacag 6300caactcgacc accggtttgg atttcttctt ttttcaagga tatgatcgga gagagagagc 6360tacctaggcg tcgtccttgt tttcttgtat cgcatgtggt gtgggtctct ctcctccttt 6420cgtacgcacg catgattcca ttcttacccc ccctcgagat cgagaggaaa tatattgcta 6480ttttatacac acacggcgcc cccagctata cgtcactgct tacgttaatt cccccaccgg 6540atagtagttg tttaatggcc caaacaaacc ttgttgttgc atgcatcatg gaccaaacaa 6600aatacatagt tagttaaata ttactgttat atatacaact aataataatt atattattag 6660ttaaaacaaa gcaaggcata tgcagcagct gctggtcgga ccgcgatcgc ttaattaagc 6720ttgcatgcct gcagtgcagc gtgacccggt cgtgcccctc tctagagata atgagcattg 6780catgtctaag ttataaaaaa ttaccacata ttttttttgt cacacttgtt tgaagtgcag 6840tttatctatc tttatacata tatttaaact ttactctacg aataatataa tctatagtac 6900tacaataata tcagtgtttt agagaatcat ataaatgaac agttagacat ggtctaaagg 6960acaattgagt attttgacaa caggactcta cagttttatc tttttagtgt gcatgtgttc 7020tccttttttt ttgcaaatag cttcacctat ataatacttc atccatttta ttagtacatc 7080catttagggt ttagggttaa tggtttttat agactaattt ttttagtaca tctattttat 7140tctattttag cctctaaatt aagaaaacta aaactctatt ttagtttttt tatttaataa 7200tttagatata aaatagaata aaataaagtg actaaaaatt aaacaaatac cctttaagaa 7260attaaaaaaa ctaaggaaac atttttcttg tttcgagtag ataatgccag cctgttaaac 7320gccgtcgacg agtctaacgg acaccaacca gcgaaccagc agcgtcgcgt cgggccaagc 7380gaagcagacg gcacggcatc tctgtcgctg cctctggacc cctctcgaga gttccgctcc 7440accgttggac ttgctccgct gtcggcatcc agaaattgcg tggcggagcg gcagacgtga 7500gccggcacgg caggcggcct cctcctcctc tcacggcacc ggcagctacg ggggattcct 7560ttcccaccgc tccttcgctt tcccttcctc gcccgccgta ataaatagac accccctcca 7620caccctcttt ccccaacctc gtgttgttcg gagcgcacac acacacaacc agatctcccc 7680caaatccacc cgtcggcacc tccgcttcaa ggtacgccgc tcgtcctccc cccccccccc 7740tctctacctt ctctagatcg gcgttccggt ccatggttag ggcccggtag ttctacttct 7800gttcatgttt gtgttagatc cgtgtttgtg ttagatccgt gctgctagcg ttcgtacacg 7860gatgcgacct gtacgtcaga cacgttctga ttgctaactt gccagtgttt ctctttgggg 7920aatcctggga tggctctagc cgttccgcag acgggatcga tttcatgatt ttttttgttt 7980cgttgcatag ggtttggttt gcccttttcc tttatttcaa tatatgccgt gcacttgttt 8040gtcgggtcat cttttcatgc ttttttttgt cttggttgtg atgatgtggt ctggttgggc 8100ggtcgttcta gatcggagta gaattctgtt tcaaactacc tggtggattt attaattttg 8160gatctgtatg tgtgtgccat acatattcat agttacgaat tgaagatgat ggatggaaat 8220atcgatctag gataggtata catgttgatg cgggttttac tgatgcatat acagagatgc 8280tttttgttcg cttggttgtg atgatgtggt gtggttgggc ggtcgttcat tcgttctaga 8340tcggagtaga atactgtttc aaactacctg gtgtatttat taattttgga actgtatgtg 8400tgtgtcatac atcttcatag ttacgagttt aagatggatg gaaatatcga tctaggatag 8460gtatacatgt tgatgtgggt tttactgatg catatacatg atggcatatg cagcatctat 8520tcatatgctc taaccttgag tacctatcta ttataataaa caagtatgtt ttataattat 8580tttgatcttg atatacttgg atgatggcat atgcagcagc tatatgtgga tttttttagc 8640cctgccttca tacgctattt atttgcttgg tactgtttct tttgtcgatg ctcaccctgt 8700tgtttggtgt tacttctgca gggatccccg atcatgcaaa aactcattaa ctcagtgcaa 8760aactatgcct ggggcagcaa aacggcgttg actgaacttt atggtatgga aaatccgtcc 8820agccagccga tggccgagct gtggatgggc gcacatccga aaagcagttc acgagtgcag 8880aatgccgccg gagatatcgt ttcactgcgt gatgtgattg agagtgataa atcgactctg 8940ctcggagagg ccgttgccaa acgctttggc gaactgcctt tcctgttcaa agtattatgc 9000gcagcacagc cactctccat tcaggttcat ccaaacaaac acaattctga aatcggtttt 9060gccaaagaaa atgccgcagg tatcccgatg gatgccgccg agcgtaacta taaagatcct 9120aaccacaagc cggagctggt ttttgcgctg acgcctttcc ttgcgatgaa cgcgtttcgt 9180gaattttccg agattgtctc cctactccag ccggtcgcag gtgcacatcc ggcgattgct 9240cactttttac aacagcctga tgccgaacgt ttaagcgaac tgttcgccag cctgttgaat 9300atgcagggtg aagaaaaatc ccgcgcgctg gcgattttaa aatcggccct cgatagccag 9360cagggtgaac cgtggcaaac gattcgttta atttctgaat tttacccgga agacagcggt 9420ctgttctccc cgctattgct gaatgtggtg aaattgaacc ctggcgaagc gatgttcctg 9480ttcgctgaaa caccgcacgc ttacctgcaa ggcgtggcgc tggaagtgat ggcaaactcc 9540gataacgtgc tgcgtgcggg tctgacgcct aaatacattg atattccgga actggttgcc 9600aatgtgaaat tcgaagccaa accggctaac cagttgttga cccagccggt gaaacaaggt 9660gcagaactgg acttcccgat tccagtggat gattttgcct tctcgctgca tgaccttagt 9720gataaagaaa ccaccattag ccagcagagt gccgccattt tgttctgcgt cgaaggcgat 9780gcaacgttgt ggaaaggttc tcagcagtta cagcttaaac cgggtgaatc agcgtttatt 9840gccgccaacg aatcaccggt gactgtcaaa ggccacggcc gtttagcgcg tgtttacaac 9900aagctgtaag agcttactga aaaaattaac atctcttgct aagctgggag ctcgatccgt 9960cgacctgcag atcgttcaaa catttggcaa taaagtttct taagattgaa tcctgttgcc 10020ggtcttgcga tgattatcat ataatttctg ttgaattacg ttaagcatgt aataattaac 10080atgtaatgca tgacgttatt tatgagatgg gtttttatga ttagagtccc gcaattatac 10140atttaatacg cgatagaaaa caaaatatag cgcgcaaact aggataaatt atcgcgcgcg 10200gtgtcatcta tgttactaga tctgctagcc ctgcaggaaa tttaccggtg cccgggcggc 10260cagcatggcc gtatccgcaa tgtgttatta agttgtctaa gcgtcaattt gtttacacca 10320caatatatcc tgccaccagc cagccaacag ctccccgacc ggcagctcgg cacaaaatca 10380ccactcgata caggcagccc atcagaatta attctcatgt ttgacagctt atcatcgact 10440gcacggtgca ccaatgcttc tggcgtcagg cagccatcgg aagctgtggt atggctgtgc 10500aggtcgtaaa tcactgcata attcgtgtcg ctcaaggcgc actcccgttc tggataatgt 10560tttttgcgcc gacatcataa cggttctggc aaatattctg aaatgagctg ttgacaatta 10620atcatccggc tcgtataatg tgtggaattg tgagcggata acaatttcac acaggaaaca 10680gaccatgagg gaagcgttga tcgccgaagt atcgactcaa ctatcagagg tagttggcgt 10740catcgagcgc catctcgaac cgacgttgct ggccgtacat ttgtacggct ccgcagtgga 10800tggcggcctg aagccacaca gtgatattga tttgctggtt acggtgaccg taaggcttga 10860tgaaacaacg cggcgagctt tgatcaacga ccttttggaa acttcggctt cccctggaga 10920gagcgagatt ctccgcgctg tagaagtcac cattgttgtg cacgacgaca tcattccgtg 10980gcgttatcca gctaagcgcg aactgcaatt tggagaatgg cagcgcaatg acattcttgc 11040aggtatcttc gagccagcca cgatcgacat tgatctggct atcttgctga caaaagcaag 11100agaacatagc gttgccttgg taggtccagc ggcggaggaa ctctttgatc cggttcctga 11160acaggatcta tttgaggcgc taaatgaaac cttaacgcta tggaactcgc cgcccgactg 11220ggctggcgat gagcgaaatg tagtgcttac gttgtcccgc atttggtaca gcgcagtaac 11280cggcaaaatc gcgccgaagg atgtcgctgc cgactgggca atggagcgcc tgccggccca 11340gtatcagccc gtcatacttg aagctaggca ggcttatctt ggacaagaag atcgcttggc 11400ctcgcgcgca gatcagttgg aagaatttgt tcactacgtg aaaggcgaga tcaccaaagt 11460agtcggcaaa taaagctcta gtggatctcc gtacccgggg atctggctcg cggcggacgc 11520acgacgccgg ggcgagacca taggcgatct cctaaatcaa tagtagctgt aacctcgaag 11580cgtttcactt gtaacaacga ttgagaattt ttgtcataaa attgaaatac ttggttcgca 11640tttttgtcat ccgcggtcag ccgcaattct gacgaactgc ccatttagct ggagatgatt 11700gtacatcctt cacgtgaaaa tttctcaagc gctgtgaaca agggttcaga ttttagattg 11760aaaggtgagc cgttgaaaca cgttcttctt gtcgatgacg acgtcgctat gcggcatctt 11820attattgaat accttacgat ccacgccttc aaagtgaccg cggtagccga cagcacccag 11880ttcacaagag tactctcttc cgcgacggtc gatgtcgtgg ttgttgatct agatttaggt 11940cgtgaagatg ggctcgagat cgttcgtaat ctggcggcaa agtctgatat tccaatcata 12000attatcagtg gcgaccgcct tgaggagacg gataaagttg ttgcactcga gctaggagca 12060agtgatttta tcgctaagcc gttcagtatc agagagtttc tagcacgcat tcgggttgcc 12120ttgcgcgtgc gccccaacgt tgtccgctcc aaagaccgac ggtctttttg ttttactgac 12180tggacactta atctcaggca acgtcgcttg atgtccgaag ctggcggtga ggtgaaactt 12240acggcaggtg agttcaatct tctcctcgcg tttttagaga aaccccgcga cgttctatcg 12300cgcgagcaac ttctcattgc cagtcgagta cgcgacgagg aggtttatga caggagtata 12360gatgttctca ttttgaggct gcgccgcaaa cttgaggcag atccgtcaag ccctcaactg 12420ataaaaacag caagaggtgc cggttatttc tttgacgcgg acgtgcaggt ttcgcacggg 12480gggacgatgg cagcctgagc caattcccag atccccgagg aatcggcgtg agcggtcgca 12540aaccatccgg cccggtacaa atcggcgcgg cgctgggtga tgacctggtg gagaagttga 12600aggccgcgca ggccgcccag cggcaacgca tcgaggcaga agcacgcccc ggtgaatcgt 12660ggcaagcggc cgctgatcga atccgcaaag aatcccggca accgccggca gccggtgcgc 12720cgtcgattag gaagccgccc aagggcgacg agcaaccaga ttttttcgtt ccgatgctct 12780atgacgtggg cacccgcgat agtcgcagca tcatggacgt ggccgttttc cgtctgtcga 12840agcgtgaccg acgagctggc gaggtgatcc gctacgagct tccagacggg cacgtagagg 12900tttccgcagg gccggccggc atggccagtg tgtgggatta cgacctggta ctgatggcgg 12960tttcccatct aaccgaatcc atgaaccgat accgggaagg gaagggagac aagcccggcc 13020gcgtgttccg tccacacgtt gcggacgtac tcaagttctg ccggcgagcc gatggcggaa 13080agcagaaaga cgacctggta gaaacctgca ttcggttaaa caccacgcac gttgccatgc 13140agcgtacgaa gaaggccaag aacggccgcc tggtgacggt atccgagggt gaagccttga 13200ttagccgcta caagatcgta aagagcgaaa ccgggcggcc ggagtacatc gagatcgagc 13260tagctgattg gatgtaccgc gagatcacag aaggcaagaa cccggacgtg ctgacggttc 13320accccgatta ctttttgatc gatcccggca tcggccgttt tctctaccgc ctggcacgcc 13380gcgccgcagg caaggcagaa gccagatggt tgttcaagac gatctacgaa cgcagtggca 13440gcgccggaga gttcaagaag ttctgtttca ccgtgcgcaa gctgatcggg tcaaatgacc 13500tgccggagta cgatttgaag gaggaggcgg ggcaggctgg cccgatccta gtcatgcgct 13560accgcaacct gatcgagggc gaagcatccg ccggttccta atgtacggag cagatgctag 13620ggcaaattgc cctagcaggg gaaaaaggtc gaaaaggtct ctttcctgtg gatagcacgt 13680acattgggaa cccaaagccg tacattggga accggaaccc gtacattggg aacccaaagc 13740cgtacattgg gaaccggtca cacatgtaag tgactgatat aaaagagaaa aaaggcgatt 13800tttccgccta aaactcttta aaacttatta aaactcttaa aacccgcctg gcctgtgcat 13860aactgtctgg ccagcgcaca gccgaagagc tgcaaaaagc gcctaccctt cggtcgctgc 13920gctccctacg ccccgccgct tcgcgtcggc ctatcgcggc cgctggccgc tcaaaaatgg 13980ctggcctacg gccaggcaat ctaccagggc gcggacaagc cgcgccgtcg ccactcgacc 14040gccggcgctg aggtctgcct cgtgaagaag gtgttgctga ctcataccag gcctgaatcg 14100ccccatcatc cagccagaaa gtgagggagc cacggttgat gagagctttg ttgtaggtgg 14160accagttggt gattttgaac ttttgctttg ccacggaacg gtctgcgttg tcgggaagat 14220gcgtgatctg atccttcaac tcagcaaaag ttcgatttat tcaacaaagc cgccgtcccg 14280tcaagtcagc gtaatgctct gccagtgtta caaccaatta accaattctg attagaaaaa 14340ctcatcgagc atcaaatgaa actgcaattt attcatatca ggattatcaa taccatattt 14400ttgaaaaagc cgtttctgta atgaaggaga aaactcaccg aggcagttcc ataggatggc 14460aagatcctgg tatcggtctg cgattccgac tcgtccaaca tcaatacaac ctattaattt 14520cccctcgtca aaaataaggt tatcaagtga gaaatcacca tgagtgacga ctgaatccgg 14580tgagaatggc aaaagctctg cattaatgaa tcggccaacg cgcggggaga ggcggtttgc 14640gtattgggcg ctcttccgct tcctcgctca ctgactcgct gcgctcggtc gttcggctgc 14700ggcgagcggt atcagctcac tcaaaggcgg taatacggtt atccacagaa tcaggggata 14760acgcaggaaa gaacatgtga gcaaaaggcc agcaaaaggc caggaaccgt aaaaaggccg 14820cgttgctggc gtttttccat aggctccgcc cccctgacga gcatcacaaa aatcgacgct 14880caagtcagag gtggcgaaac ccgacaggac tataaagata ccaggcgttt ccccctggaa 14940gctccctcgt gcgctctcct gttccgaccc tgccgcttac cggatacctg tccgcctttc 15000tcccttcggg aagcgtggcg ctttctcata gctcacgctg taggtatctc agttcggtgt 15060aggtcgttcg ctccaagctg ggctgtgtgc acgaaccccc cgttcagccc gaccgctgcg 15120ccttatccgg taactatcgt cttgagtcca acccggtaag acacgactta tcgccactgg 15180cagcagccac tggtaacagg attagcagag cgaggtatgt aggcggtgct acagagttct 15240tgaagtggtg gcctaactac ggctacacta gaagaacagt atttggtatc tgcgctctgc 15300tgaagccagt taccttcgga aaaagagttg gtagctcttg atccggcaaa caaaccaccg 15360ctggtagcgg tggttttttt gtttgcaagc agcagattac gcgcagaaaa aaaggatctc 15420aagaagatcc tttgatcttt tctacggggt ctgacgctca gtggaacgaa aactcacgtt 15480aagggatttt ggtcatgaga ttatcaaaaa ggatcttcac ctagatcctt ttgatccgga 15540atta 15544467127DNAZea mays 46agagaggaga tattttcgac cagcgcgaca tgcatggcat ggcaaactat atatcgtcat 60catcattatt atcatctgac cctctttttt tttcactctc actcccatgt ttttattccc 120gggcggggcc gtgtgggtgt gggttgggat ggccggattg gggtcccggg gtggagaaat 180gacaaatcca ggcccgcagg cggccaccca ccaaatcgga cgacgcaggg tgcccaaatc 240aggaaggatt ttaaggttaa ccggccaccg gcggtgaccg acgccccacc ccactctcct 300tctcctattc tatctatata tcacccgcct cttttttctc cctcactccg ccacaccttc 360cctcttcttc ctcagctccg tcgcccaccg ccggagctcc gaaaggcccc gcgcccgccg 420cctttcctgt aaaaaaccca acctttagct agctaaccgc tcctcttctc cccctactcc 480ccttgcccaa atcagagaag atatttaacg gaggagggga aggagaggat atttagctga 540ttgttgattg gtggtccggg gtacggtgtt cttgagtcgt gaagcgaccg tacagtggct 600agggccgtct ccgggttgcg tgcaggatgg tcgtcagaga tcgggagtga ggaggcagct 660cgtggtcgtg gaggctaaat gtaccgcaag aacgactcgg cactctcctg tttctacctc 720ttcctcctct ggttcttctt cttgaaatag accagcgcca gccaccaggt agctacctac 780tagctagcag cccagttgcg actggggacg ggctgctgct tgcaagttgg aatcttggag 840caggagcaga ggagcgggag atggagctgg atctgaacgt ggccgaggtg gcgccggaga 900agccatcggc ggcgctggag gcgagcgact cggggtcctc gggctcgtcg gtgctgaacg 960cggaggcggc atcggcgggc ggcggggggc ccgcgccggg ggaggagggg tcaagctcga 1020cgccggccgt gctcgagttc agcatcctca ggagcgacag cgacgcggcc ggcgcggacg 1080ccgacgacgg cgacgccacg ccgtcgccac ctcgccacca ccagcagcag ctcgtcaccc 1140gggagctctt cccggcgccg cagcattggg ccgagctcgg cttcttccgc gccggcccgc 1200agcagcagcc ggacatcagg gtcctgccgc acccgcaccc gtacccgccc ccgccgccgc 1260ccgcgcagcc gcagcaggcc aagaagagcc gccgcggccc gcgctcccgc agctcgcagt 1320accgcggcgt caccttctac cgccgcaccg gccgctggga gtcccacatc tggtcagtag 1380cactgcaagc tcaccatgcg ccctttcacc taccgaccaa taatcgcttg tgattctgac 1440acccaaatgt ttcgtcttcc tgtgctgtcc tgttcctcgg aaatggcagg gattgcggga 1500agcaggtgta cttaggtgag cagcaataag cagatcgatc tgcagcataa atttcccgtt 1560attaactagt tcgtgatctc gatcgaatgg cctaattaac cgattcggtg atctggccga 1620tggccaatct acgcaggtgg attcgacact gctcatgccg ctgcaaggta acgatcaatc 1680catccatcca cccttgtcta gctaccccac cgaccggccg gattaatgga ccgctagctc 1740tcgggacggg cttgctgcag ggcgtacgac cgagcggcga tcaagttccg cggcgtcgac 1800gccgacataa acttcaacct cagcgactac gacgacgata tgaagcaggt acatacacga 1860gtgttcttgc agctagcacc gactgaaaca tctgctgaac gtacacgcat ggccctgtgc 1920accagatgaa gagcctgtcc aaggaggagt tcgttcacgc cctgcggcgg cagagcaccg 1980gcttctcccg cggcagctcc aagtacaggg gcgtcaccct gcacaagtgc ggccgctggg 2040aggcgcgcat ggggcagttc ctcggcaaga agtaagaaac aacacttcgt ttgcaggcgc 2100tgtactttgc tgcagattat ttcatttcat ccttgcatgt gcctttcctt tccatccact 2160cacttgatgg ctgtagtctc gatagagttc gttcgttcgt acttcgcacc agatgaactc 2220ccacgcacat gatttagtac tagttttacc atgcattgtt cagtaaaagt atatgcttgc 2280ttgatcagtg gttgtttcaa tcagaagatt aaaaaaacgg aatattaata taaaaaaaag 2340gggaagtggc tagggaattc ctcagtccta gctagctagc tcaccggtgg gaacgccatg 2400cttggcttgg gtgcaggtac atatatcttg ggctattcga cagcgaagta gaggctgcaa 2460ggttgttcac ctcggacgat tctgccattt gttcatatac accatgcctt ttgatttctc 2520tcttgcaatt tctcttcttt tatcatggct tttgattccc aaagggttga gtaccgactc 2580gatattcgat tctccctgcc gtttcgtgac cccagggcgt acgacaaggc cgcgatcaaa 2640tgcaacggta gagaggccgt gacgaacttc gagcccagca cgtacgacgg ggagctgctg 2700ctgactgctg aagctagcgc agaaggtaat taagtagctg ctcgctgcca tgtaatcttc 2760agatgacgcc gctgttaatt attagctcat cagctttcgg acgatgccct tgtttttcgg 2820ttgaaccggg gtgaactttc tgaatttgag atttgatttt ttttgtttct gcttctgcag 2880ttgctgacga cgttgatctg aacttgagca tctcgcaacc ggcatcgtcc cagagcccca 2940aaagagacaa gaactgcctt ggtccgcagc tccaccacca ccatgggcgg ccgtttgacg 3000gctccgccgt tctgaagaaa accaaggcaa gcgctaagta ataacgctac gtaccttgac 3060aagtatcaaa atcagtaaaa ctttcctctt cgtcaaaccc tatctctacc gacggctgtt 3120agttgcccgg ttttgatcat ttgacaatta aacacatacc ctctcgcaag tcgggatcat 3180ttttagctag gcggactagt ttatcgccaa gcagcgagtt tctctttcgg ggtgggtgat 3240cgcgacagct gagcagaata cttcttcttc gtctactttt tctccttcct cctaccaaaa 3300ttgaattgtt taaggaaaat ttatacagag agcggcgtgg acagctttgg atggagctgc 3360cgataattca actgaaaatc tctcgcttct tcttcttctc atgcagatcg atgctccgtc

3420tgagctgtcg tcggcgggcc gccctcaccg gtcgttcctc cctcatctcg tggctgccga 3480gcatctaccg cctcggtctc accccttctt catcacacac catgaggtta gacgacacta 3540tacagtactg aatcatttgc aaaggtttgt caagctagct agattggcat cataatacac 3600ggatcaggtg tcagattgtt catgcagtgc agtatgcagc ctgaaggtgt atgcagtttc 3660agatagcaga tttttagcag ctggttaatt tctctcttgc gtgcggctgt cagtcagtgt 3720agctctcgtc gtcgcccgct ttatttcctt ggattctagc tagagtccgc ctgtcacccg 3780tcgatttcag tgaagttaat gggatgcgcg aatttttttt ctcccccgta taggccggct 3840gttgaatata tgtgtctatc ttgaattggc ctaatatggg aataatagta ctagcagctt 3900tatggctaga tcagaatatg tacatgtgtt tgattttttt tctctctctc ccttagcttc 3960cttgaaaagg aaaggtccta gacctagcta ccggccagca gcgacacttc aactctaagg 4020gcatgtacag tggagagacg ccaaaacggt tctccaagca taggagacaa ctaagagact 4080ctattgtaca atggagtgtc tctaaacgta gtctattaat aaatacagaa ttaaatgtat 4140ttgtatagca tcagatcgat agaacagacg acaaattcgt acagtgggaa gtgaggcgtc 4200tgttgttact tggtttacga gccagaggcg tctcttcacg gagagacggc tctaagattt 4260ttttgcaaat aaccccctaa aacaccttaa gagcccccac attaaacacc actgtacatg 4320ccctaagccc tgcctggcct gcctaatcaa accctctcgg tcaactatgc tatgcctgcc 4380tgcctgcttt caacacgtac tgttcctttt tcaaaccttc cctggaaacg aaaacagaag 4440atgcatggta tttatgcttg gggatttgcc ttcttttcag tgtactaata agcttggggt 4500ttgtttagtc gttcagcaat caacttggac gagtgttgat aaataaaact cgatctccaa 4560cctttcgttc ataaatgggt cagctaactt tgaggtcggt ctcactctca caccagtgtc 4620gctttctgat tgtattgtat tggacgggaa gagctgaggt cgacgctttt ctgcccccag 4680ctgaactgat gggaaacgct aagctaatta tattggtgga acgagtctcc tgccgtttgc 4740tctctttttt gttttgtttc tcttaaaaaa aacatgcttc catgcatcag aaagcgttat 4800tacttaggat gattaatttg aactgttcat cagttcgttg aattggtcct agggtgaatg 4860aactttcagt ttatttgttg accatgcatg cagagtgatg catcaagaag agatcccagc 4920tgggcagcag cagcagcatg gaaggtgacc gcagctgcac ctcctcctcc taccaccacc 4980ctgttgccgt tgccgctgcc gtcgacgtcg tccgctgcag catcatcagg attctccaat 5040accgccacga cagctgccgc cgccccatcg gccgcctcct cccgccggtt cgacccgccg 5100ccaccgtcgt cgtcctcctc ctcgagccat caccaccacc accaccgccg ctgagaatcg 5160aagaagccac actgtaaatc tgccgggaag cggctggtgg catccggccc gctcctccct 5220ccgggcgccg caactttttt cgatcggttt tgcgccgccc gggacgggtt gtagttgatc 5280gattggattc ttcataactg tatttgcgta ctgcttacac tacccaagtg aaatcgaaaa 5340tggcgccttc tctcgttgaa taaattgcac gtacgctact cgatccgctg cggctcttgc 5400tggagtggcc gccgccgcta tagatagaag gatcaagcca aggaatctgt catgcatggg 5460catgtgaagg aggagcctcc tgcaatgttt agtctttttt ggtcgacgcc caccagagat 5520atacgcacta gatttcatat agctgagcta gatcgattcc gttgcatgca tgctccatgg 5580cgtcgagatt cgagctagca ccgcctgttc atcatcgacc gatccattct gatcgattcc 5640cctctcgagc tttcacgaac tgaacctacc tagtgagggt gacgcctaac gcctagtgcg 5700cgcgcgtggg tctccgatgt cagtggccgc acgcgcgcgc gcgttctcga gatcgcatgt 5760ggtcatagcg cagcaggttt gccctcagaa cctacagcaa ctcgaccacc ggtttggatt 5820tcttcttttt tcaaggatat gatcggagag agagagctac ctaggcgtcg tccttgtttt 5880cttgtatcgc atgtggtgtg ggtctctctc ctcctttcgt acgcacgcat gattccattc 5940ttaccccccc tcgagatcga gaggaaatat attgctattt tatacacaca cggcgccccc 6000agctatacgt cactgcttac gttaattccc ccaccggata gtagttgttt aatggcccaa 6060acaaaccttg ttgttgcatg catcatggac caaacaaaat acatagttag ttaaatatta 6120ctgttatata tacaactaat aataattata ttattagtta aaacaaagca aggcatatgc 6180agcagctgct ggtactaccc agtacatggc acatgcgttt gtttaatccc ctgttgctgt 6240gtgtgtgatt gattccttgt attagctaat aattagttag gtcggtcgtc gtctcccctc 6300taatccctct tcgatttaga attagtagtc ttgtacgttg tttaatatgc ttggacgacg 6360acgctctttg ttgggtgtgc acttcatctt tccatctaca ctagctagct agacacacat 6420gtactatagc tagctacttg ttttagtatg ctgctcttct aattaactaa ccaacatgat 6480tgcactgcta agcaaggcta cctttggtac ggtcttaaac tttgtgtggc ccatatgctg 6540ctatactata tcatgcatgt agattcttcc tgccaaggtg catggttttt ttatgttaat 6600aggtacggtt agttgtcgta gtacatacta aggcatcgat cgtccactta tatatatcaa 6660accctgcagc tcaaacaagc tgcaaataaa aaaaaaactg aagctggtat atgagtgtat 6720attgtatatg aaataataat gcatatgcgg ctgcatgcat cagggagctg agtcagatga 6780caggtgtagg tttgaagcag cttgctgtac gtgtgcaatt tttttctctc cataatgatg 6840tctcagattg gtgatctgat gacgctgtga ttattctatt ctattcatct ttggttgtag 6900acactccttt tcatttgtta atagttttct ggtccagttg atagatagag gttaaataaa 6960agccagttgt agtctacctt aactagtacg atagtacaac aggattggcc ggcggcgtta 7020gtaaatttat aatttcgtat acaagctgtt attgttatta catacactag ccggttactc 7080gtgcttttct atagttgtta tatattatat actcgaggcg tctagag 712747439DNAZea mays 47tattaaggct gcttctgagg gcccactcaa gggtattatg ggctacgtgg aggaggatct 60ggtttccacc gacttcaccg gtgacagcag gtcgagcatc ttcgacgcca aggccgggat 120tgccctgaac gaccacttca tcaagctcgt ctcttggtac gacaacgagt ggggctacag 180caaccgcgtc gtcgacctga tccgccacat gttcaagacc cagtagagag agatatttct 240gcctccctat cgagggtcgt ccccgatggc ctttggtcgc agaccatctt tgctgcttgt 300ctatgctgag aataaatgtg aacggtgccc ctggacgctg gatccatgct ggttttggac 360acggttgtct ttttgtgttt aacttatctg ctgccgtccg tcctgtaacg aattcgctaa 420gttttagttc ttttgtgct 43948391DNAZea mays 48catgtccttg attattggtg tctacgacga gccaatgact ccagggcaat gcaacatggt 60ggtggagagg ctcggcgatt acctgatcga gcagggcttc taaaagttcg tcatgttctg 120ttttggtcat ttgggcacca aagtttgcgc ctcatttggt tctgtaatcc gtgagctcgt 180gcatgtactt ggcgtattgc atgcagtgaa taatttagct tgggtttgtt tgttgggggc 240agtgttgggg acggatttgg attggggttt atgcttggca tcgcgtcgta tcgaaactca 300gctgctgttt cgctgagtaa tgtacatttc cctggtaatg gtacttgtgg actctgatgc 360ttttatggga acgagtgcat tttactgcaa a 39149136DNAZea mays 49attgggttac aagaattatg gcgtttgtca atatggtcgt aatgtcgtag gatggtggaa 60tgtggtcaca aactttgcgt atgttgggtc tactggtggt gtctgaatct atgtatggat 120gtcatgagtt tgtcta 1365063DNAZea mays 50ggtgtatccg cgttagaacc ttttgttggt gaacaatatt atcgtggcac gcgttttaag 60taa 6351632DNAZea mays 51cgctgtgaat gacgagtgca tgctcaagtt cggcgagctg cagtcgaaga ggctgcaccg 60cttcctaact ttcaagatgg acgacaagtt caaggagatc gttgtggacc aggtcgggga 120tcgcgctacc agctacgagg acttcacaaa cagcctcccc gagaatgact gccgatacgc 180gatctatgat ttcgactttg tcactgcaga agatgtccag aagagcagga tcttctatat 240cctatggtcc ccatcctccg ccaaggtgaa gagcaagatg ctttatgcaa gctcaaacca 300aaaattcaag agtgggctca atggcattca ggtggaactg caggctactg atgcaagtga 360aatcagcctt gatgagatca aggatcgggc tcgctaggca tcatgatcat gcatcatgga 420ctcggcctac tactgtggat ttgtatgcca ttatagactt ggtgctgtga aagactgctt 480gatgatttgc gggtttgttg ctgtgtaaaa aaaggtccca tggctcccag aagaccatga 540aggttcggat ctatcatgta attccttgtt atctgccaat tatgtatgga ctatggacat 600gtgttgcgct gttcaactta ctactacaaa ta 63252598DNAZea mays 52gggttgaact atgagcgccg tggcggtttc gtcgtcgctg aacccggacg cgccgctctt 60catcccggcg gcgctgctgc aggtggagga cttctcgccg cagtggtggg acctcatcac 120caccactgcc tggttccgcg accactggtc ccgcgagcgc gcccacctgg acgagatggc 180cgagcagatc gacgcggccg gcctcctccc cgacgacgag gacctcttct acgacgacca 240gctcgagcag ggccccgtcg ccgccgccct taagacagat tcggtgctca aggcgctgaa 300catgacctcc ccgaagggcg gcggcgacgc cccgcggggg ttccgggaga aacccaggaa 360cgccgagaag ccgaccaagt acgccggcag ccccaagagc agcgcccccc gcgtgatcca 420ccagcctcgc taggttcgct gggggaactc atcaggaagg ctgctgcccc tcttgcagcc 480ttgctcctgg ctgccgcccg ctgtcgtggt ctgctctttc aagtcgaagt aacggtggtt 540cgagctagtg gatagtgtgg ctcaactgta gaagttcctt ttgtatagca agcaagta 59853516DNAZea mays 53atggctgtcc gcatcatcaa gcataccctg gagatcatcc acctgctcac cgatgccaac 60cccatccagg tcgtcgtcga cgcgatcatc aacagtggcc cccgtgagga tgccacccgt 120attggttccg ctggtgttgt gaggaggcag gccgtggata tctcacccct gaggagggtg 180aaccaggcca tctacctcct caccactggt gccagggaga gtgctttccg gaacatcaaa 240accattgccg agtgccttgc agatgagctg atcaacgctg ccaagggctc atccaacagt 300tacgccatca agaagaagga cgagattgag cgtgttgcca aggccaaccg ttgaactgag 360cttgtatcct ggtgcactct gcgctggaaa cttttatgtc gctggcagtc gtatcggttc 420ttgttttacc aatgtttaga gttttttgag acctatatgc ggttttggtt ttcagtgcac 480aattaaaatt actgagtaat gtagttgatt gggaac 5165464DNAZea mays 54gtgttcggtg aaatcagagt cgtcagtcat ctacatagct tttcttggtt gatagactgt 60tatt 6455195DNAZea mays 55ataaaatagc atgccgtctc tgtcactggc aatggacggt ggtgcctagc gcaactcagc 60gcacaactgt gtgtcttgat ttttcttctg tttatcacgg cattagtgcc atgccgtttt 120atgttacagt gttgtgtgct cgcaagcatc cgaaaatatg cgtctgagtt tagggttggg 180tcaaacttgt cgaat 1955652DNAZea mays 56gagaaccatc gcctgcattt cgatctgttt caccgcaatt cgcattgtta gt 525790DNAZea mays 57ctatgttgta taaggctagt gcagctgtgc aggttactct atattcttac tctatatcac 60tatttgtagt ctactcatca attaataaat 9058549DNAZea mays 58tggtcaacgt gcacgcggtc cacagggacc ccgcggtgtg ggacgacccg gacaggttcg 60tgccggagcg gttcgagggc gccggcggca aggccgaggg gcgcctgctg aagccgttcg 120ggatggggcg gcgcaagtgc cccggggaga cgctcgcgct gcggaccgtc gggctggtgc 180tcgccacgct gctccagtgc ttcgactggg acacggttga tggagctcag gttgacatga 240aggctagcgg cgggctgacc atgccccggg ccgtcccgtt ggaggccatg tgcaggccgc 300gtacagctat gcgtggtgtt cttaagaggc tctgaaaacc tcatggatcg aattgctggc 360atcgtctgaa gggtgtatga cgtagcttcc gagttccgag catatatatt cacttgcctt 420gtactagttg attttcgccg agtgtatgga atggattttc tttttttttc ttgcaatgga 480tgtgaatttt gtttttctcg acgttacaag aagtgaatca acctagcttc tctttgagcg 540acagcaacg 54959538DNAZea mays 59cgacttgttt cattgattct tcaagagatc gagcttcttt tgcaccacaa ggtcgaggat 60gtcttgcagc tgcggatcaa gctgcggctg cggctcaagc tgcaagtgcg gcaagaagta 120ccctgacctg gaggagacga gcaccgccgc gcagcccacc gtcgtcctcg gggtggcccc 180ggagaagaag gccgcgcccg agttcgtcga ggccgcggcg gagtccggcg aggcggccca 240cggctgcagc tgcggtagcg gctgcaagtg cgacccctgc aactgctgat cacatcgatc 300gacgaccatg gatgattatt atctatctag cttgtggtgg tggttgaaca ataataagcg 360aggccgagct ggctgccata cataggtatt gtgtggtgtg tgtgtgagag agagagaaac 420agagttcttc agtttgctat ctctctctgc atgtttggcg tcagtctttg tgctcatgta 480cgtgtgtcta catgcatgtt ggttgatccg attgcgtctg ctgtaaccat atattaat 53860228DNAZea mays 60tctacccgcc cgagaaggtc tacgacttcg tctgcgggat gaagaagagg ctgggcatcg 60agtagagcat ccatcggtcg gccggtggct ggccgggagt aataatgacg aaccaataat 120ctagttttgg ttttagtgtg ctcagcagag cagttcgtgt tcatgagttc gtcgtcgttg 180tattttctat tgtcagcggt ggcagcgccg tacgtgttgc ctcgtaca 22861737DNAZea mays 61ccgccgagct cgaccgcgtg attggggcac ggccgctggg tcacagagcg cgacctcccg 60gacctcccct acatcgacgc cgtcgtgaag gagacgatgc ggctgcaccc ggtcggcccg 120ctcctcgtcc cgcaccacgc ccgcgagcac acggtggtgg ccggctacga cgtccccgcc 180ggtgcgcgcg tgctggtgaa cgtgtgggcc atcgctcgcg accccgcgtc atggcctgac 240gcgcctgacg cgttccggcc ggagcggttc ttgaacggca gctccggcgc cagcgtcgac 300gtgcgcggcg cgcactttga gctgctgccg ttcggggccg ggcggcggat gtgccccgcg 360cacggcctcg cgatgaagct ggtgaccgct ggcgtggcga acctggtgca cgggttcgcg 420tggcggctgc cggacggtat ggcgccggag gatgtgagca tggaggagct atttgggctt 480tccacgcgcc ggaaggttcc gctcgtcgcc gtcgcggagc ccaggctgcc ggcgcacctc 540tacactaatg tcacgccgcc acagcaggtc gcgggctcca cgattgcgaa cttgtccacc 600aggccggagt acaagctcgt gttctgaatc attcaccgcc actaaaaata aagcaggaaa 660aactacactt cctgcgtgct agacgtccgg gcggaacaca acagtgcttg ctcacgttct 720tctattggtt gtactaa 73762141DNAZea mays 62gcgcaatcgt atcgtacgtg catgatacgc atacatctgg aaactactat accaatgcaa 60acagagatct atacgtacga gtatgtataa cgacgagtga tgtttgtatg gatctacgta 120tgtaacaagg acctctcgta g 14163672DNAZea mays 63ctccaagcac ttgttagccg gcgtacagca agaagaacct cggacgcgac cgacatggtc 60gctctctcag gcgctcacac aatcgggcag gcccagtgct cgagcttcaa cggccacatc 120tacaacgaca cgaacatcaa cgcggccttc gcgacgtcgc tcaaggccaa ctgccccatg 180tccggcggca gcagcctggc gccgctggac accatgaccc cgaccgtgtt cgacaacgac 240tactacaaga acctgctgtc gcagaagggg ctgctgcact cggaccagga gctgttcaac 300aacggcagca ccgacagcac ggtcagcaac tttgcgtcca gctcggccgc cttcaccagc 360gccttcacgg cggccatggt gaagatgggg aacctcggcc cgctcaccgg gaccagtggg 420cagatcaggc tcacctgctg gaagctcaac tcgtcctaat aattaaggac ggacgtccga 480tagacgatcc tgcgcaatcg tatcgtacgt gcatgatacg catacatctg gaaactacta 540taccaatgca aacagagatc tatacgtacg agtatgtata acgacgagtg atgtttgtat 600ggatctacgt atgtaacaag gacctctcgt agcgcaaagg cgcgcgttgg gagattaatt 660aggtacacaa gc 6726483DNAZea mays 64tacgtatact aaagacctta ctaggtacct cgcgtgattg ttgttcaagt gtactagcta 60ccaagctagt gacaagaatg ttg 8365640DNAZea mays 65tgaggttgcg acagcgtggc taaacaacaa tagcgtcaga tccgctatcc atgccgaacc 60agtcagttca atcggaccct gggaattatg cacggataaa ctggattttg atcatgatgc 120cggcagcatg atcatctatc acaagaacct cacgagtcag ggctaccgtg ctttcatcta 180cagcggcgac catgacatgt gtgtacctta caccgggact gaagcatgga ctgcgtcttt 240aggctacgcc gtcgttgatc cgtggcgaca gtggattgtc gacgaacaag ttgccgggta 300cacccaagga tatgaaaagg gccttacttt tgccactatt aagggtgctg ggcacacagt 360tcctgagtac aaaccacagg aagcactagc tttctacagc cgttggcttg ccggtgctaa 420actgtgagga ggcctatttt gtgtgcaaag gtcatgcagt actgaatcaa acagaagttg 480gataaagcat gcagcaataa ggcagtcgaa ggatcaaagt atccaacgcg ccaactacaa 540tgttgcattc attttcacat gttataccaa tgcagttgct aattacctgc attgttcatg 600agttcacagt ccatctaatt ggttgaccac accgtcctat 64066125DNAZea mays 66tatcactctc attgtggcta catatctata tctctgaggc caaatgcttg ggtgtccagt 60actaattaat aataattcag tgcgtatgca agatttgtgg gcaaatattg gtttacgatt 120tcgga 12567136DNAZea mays 67gcaccacctt ggtttgagca aacgcgcggc gccgtgtttt ggcatctgtc accgtaggtg 60ggcggggata cagtgaagtg ataatgcgct tgtgttaggc gcatgtatat atataataat 120tagatggata cccgtg 13668142DNAZea mays 68gcaccacctt ggtttgagca aacgcgcggc gccgtgtttt ggcatctgtc accgtaggtg 60ggcggggata cagtgaagtg ataatgcgct tgtgttaggc gcatgtatat atataataat 120tagatggata cccgtgcgtt ac 14269154DNAZea mays 69gagcggccgc ggatctgttc aagaaccacg acctcgcttt cgcctcccgc ccacgcagcg 60tgggagggga taagctgatg tatgagtgca gcaacgtgtc gttcgcgcct tacggcgaga 120actggcgccg gggcaagaag atcgctgtgg tcca 15470289DNAZea mays 70gagcggccgc ggatctgttc aagaaccacg acctcgcttt cgcctcccgc ccacgcagcg 60tgggagggga taagctgatg tatgagtgca gcaacgtgtc gttcgcgcct tacggcgaga 120actggcgccg gggcaagaag atcgctgtgg tccacctcct ctctccacgg cgcgtggaat 180cgttcgcgcc cgtaagggcc gccgaggtag ccgcgctcgt cgcacggaca cgccgcaccg 240cggaggctgg ggaggccgtg gagttgaggg agctcctgaa cggctacgc 28971686DNAZea mays 71gtagccaggc tctttttgca agatcagact cgaggcatca caaaccacat cgttgggaca 60ttcggctaca tgtctcccga gtatgtgatg cgtggacaat actccataaa atctagatgt 120atttagtttc ggcatccttg ttatagagat tgtaacagga caaaagaaca atgggcatta 180cttcgacgag caaaacgagg atgttgtgag cattgtatgg aagcactgga gcgagggaac 240acttgcagag attatagatg attctttagg gagaaactac tcagagactg aggtgctaaa 300atgtgttaac attggcttgt ggtgccttca acagaatcca atggaccgac ctacaatgtc 360agatgtcatg gtgatgctca atgatgatga tactagttct ctacctgctg ctgcaaaacc 420aacttttttc ttggatgcaa gctcaggcta ctcttacacc tcgggcacca tttcacatcc 480ttctgcaagg tagtgtaggc taaggcctaa tgcacacctt tatatgaata tcgacatatt 540gttgcttgtt tgtttcttat tgtgtattgg ttgaaagaaa catggaattc accctgaatt 600gtaatagctt gtgctcatta ttagtttctt ccaaatcctc aaatataaat tttctcttac 660tagatgtcct acaagctttc agaaag 68672337DNAZea mays 72tcaccaccat cctgcgcaag aagatgggcg acgcgcagct cgtcgaggtc gccgaggaca 60agaagaagga ggagaagaag cccgaccccg tcgccgaagc tgcggcggcg tactacaacc 120agtactacta ccactaccca ccgccggccg ccgtcgttta cgacccctac ccacggccgg 180gcaacacctg ctccataatg tagactcagc ctgtggacat atgcaagtta agttttgtgt 240gtagcggtgc gtgtgtgggg gaggcgcgca agtgtagttt ctatacggaa ttcttctctt 300atctcccttt tgaggttaag ggcatgtgca gtcccag 33773186DNAZea mays 73ggttccgcgg ccagtagctg ctgcttgggg ctggtgcacg acctgacgcg ctgcttggcc 60acgctgggca ccgccctcca ctaccgtggt tactacaatg gttgacgttg taacgcggga 120agcttggaaa ttatgcgtgc atagccatag catcggcact ctggagatgg atctcccagc 180tctgaa 18674187DNAZea mays 74accaccgccg ctgagaatcg aagaagccac actgtaaatc tgccgggaag cggctggtgg 60catccggccc gctcctccct ccgggcgccg caactttttt cgatcggttt tgcgccgccc 120gggacgggtt gtagttgatc gattggattc ttcataactg tatttgcgta ctgcttacac 180tacccaa 18775238DNAZea maysvariation184nucleotide a at this position can be substituted with any nucleotide c, g, or t 75tggtcgttgg gtccgggtgc cacggcgggg accagaccgt gtacgtgctc cgcgaggagg 60gcgggagacc tgcgtcctgg tcgcgcgcgc cgccgccgcc gccggagttc gccgggcacg 120tgcaggcctc ctacttcctt gaactctgaa ctctgaagtg gagggtgtgt acctacacgt 180accagtggtg gctgtgcata catgacggaa ctacgctacc gtacttgttg tgccactg 23876169DNAZea mays 76cttgtttcat tgattcttga agagatcgag cttcttttgc accacaaggt cgagatgtct 60tgcaactgcg gtggcaactg caagtgcgac ccctgcaact gctgatcaca tcgatcgacg 120accatggata tgattattat ctatctagct tgtggtggtg gttgaacaa 16977114DNAZea mays 77cgagaacgat ttcgcaggtg tatcagtgta gtatgtatag ccgtatagca agtgcgcatc 60tcatctcgtg tacgtgaaat tagttggtta ggacgaacag cagcgtgtga tgtt 11478916DNAZea mays 78gccattcggc gccacgattg cagagccaga gcgagacgcg actgcttttc tgcttcatcc 60acattggtag ctagctagct tacacgttca cgcatcgctt tccgggccgt ctccggtggt

120ttagctcagc agagcgggga aggaagaaga tgacctccgt gagcgcgagg cccgttggcg 180tggggtactg cttcggcggg gcgaggtgcc agccacggtc gcgggtgcgg gtttcggccg 240cggcctcggc agtggccgcg cccgcgcccg cgatggcggc gacgatgtac gagctgctcg 300ccgtcgagga gacggcgggg cccgacgaga tcaaggcggc gtaccggcgc gccgcgcggc 360ggtggcaccc ggacgcgtgc cccggcggcg ccgaccgctt catggcggcg cgggaggcct 420acgaggtgct gtccgacccc gagcgcaggc gcggctacga catccagctc cgctgcggcg 480cccacttcgg cgacgccggg taccgcgcgg cacgccgcgc cgggttcgcc gactgggagg 540cgcagctgac cgggctgcag tggcgcgcgg cggggcggcg cgggcgcgcc ggcggggaga 600cttggggcag caggatgcgc caggcggccg cgcagccgtc cttgtagcgg cgtcgccggt 660ggctggcctt tgatagttca tacttcgtag tactagtgta ctaccctacc ttcccctttc 720ctcttcgaca atcgaatggc ccgagaagct gtaattgcgc tgttctgcag cgttttctct 780tgccaacacg tcatcctcgt cgcactgttc ggagtgcaga cgagcttgaa gtctagaagc 840agtagacatt ttccccccct ttgaagtgta gtactgtcaa cttttagttc ccactcggtt 900acatacggtt cgaatc 91679446DNAZea mays 79tgctccatga agaagtcggt ccacccaatc tcgctgcggc gggcgtctgt agagcctgcg 60ttacgtgtac ggcgcgtgta cgtatacggc cgtagcgtac atgctcgcct ttgcactcag 120atgcacaata taacacacag tcacacacac acacacacac acacgacaca cgctgtatac 180actggatcct aggtgttttt ttagcttagc taggaatgca aatttcttga ttcgttggag 240ggtttttttt ctagcacgcg gcgcggccgg tgcccatctg tctcgcaccg tcgcacgcct 300cttcatacac tctctcctgt actcggctac tagtgctact gcatgtagac atgtagtgaa 360tgtgaagtac aaagaataca atacacggag tatagtagtg tagtcttgta tgcatatgta 420aactactata ctctgtttta cgaaat 446809651DNAArtificial sequencemisc_feature(1)..(9651)Vector 15289 80aattaattcc tgtggttggc atgcacatac aaatggacga acggataaac cttttcacgc 60ccttttaaat atccgattat tctaataaac gctcttttct cttaggttta cccgccaata 120tatcctgtca aacactgata gtttaaactg aaggcgggaa acgacaatct gatcatgagc 180ggagaattaa gggagtcacg ttatgacccc cgccgatgac gcgggacaag ccgttttacg 240tttggaactg acagaaccgc aacgctgcag gaattggccg cagcggccat ttaaatcaat 300tgggcgcgcc agctgcttgt ggggaccaga caaaaaagga atggtgcaga attgttaggc 360gcacctacca aaagcatctt tgcctttatt gcaaagataa agcagattcc tctagtacaa 420gtggggaaca aaataacgtg gaaaagagct gtcctgacag cccactcact aatgcgtatg 480acgaacgcag tgacgaccac aaaactcgag acttttcaac aaagggtaat atccggaaac 540ctcctcggat tccattgccc agctatctgt cactttattg tgaagatagt ggaaaaggaa 600ggtggctcct acaaatgcca tcattgcgat aaaggaaagg ctatcgttga agatgcctct 660gccgacagtg gtcccaaaga tggaccccca cccacgagga gcatcgtgga aaaagaagac 720gttccaacca cgtcttcaaa gcaagtggat tgatgtgata tctccactga cgtaagggat 780gacgaacaat cccactatcc ttcggtaccg gaccgcgatc gcttaattaa gcttgcatgc 840ctgcagtgca gcgtgacccg gtcgtgcccc tctctagaga taatgagcat tgcatgtcta 900agttataaaa aattaccaca tatttttttt gtcacacttg tttgaagtgc agtttatcta 960tctttataca tatatttaaa ctttactcta cgaataatat aatctatagt actacaataa 1020tatcagtgtt ttagagaatc atataaatga acagttagac atggtctaaa ggacaattga 1080gtattttgac aacaggactc tacagtttta tctttttagt gtgcatgtgt tctccttttt 1140ttttgcaaat agcttcacct atataatact tcatccattt tattagtaca tccatttagg 1200gtttagggtt aatggttttt atagactaat ttttttagta catctatttt attctatttt 1260agcctctaaa ttaagaaaac taaaactcta ttttagtttt tttatttaat aatttagata 1320taaaatagaa taaaataaag tgactaaaaa ttaaacaaat accctttaag aaattaaaaa 1380aactaaggaa acatttttct tgtttcgagt agataatgcc agcctgttaa acgccgtcga 1440cgagtctaac ggacaccaac cagcgaacca gcagcgtcgc gtcgggccaa gcgaagcaga 1500cggcacggca tctctgtcgc tgcctctgga cccctctcga gagttccgct ccaccgttgg 1560acttgctccg ctgtcggcat ccagaaattg cgtggcggag cggcagacgt gagccggcac 1620ggcaggcggc ctcctcctcc tctcacggca ccggcagcta cgggggattc ctttcccacc 1680gctccttcgc tttcccttcc tcgcccgccg taataaatag acaccccctc cacaccctct 1740ttccccaacc tcgtgttgtt cggagcgcac acacacacaa ccagatctcc cccaaatcca 1800cccgtcggca cctccgcttc aaggtacgcc gctcgtcctc cccccccccc cctctctacc 1860ttctctagat cggcgttccg gtccatggtt agggcccggt agttctactt ctgttcatgt 1920ttgtgttaga tccgtgtttg tgttagatcc gtgctgctag cgttcgtaca cggatgcgac 1980ctgtacgtca gacacgttct gattgctaac ttgccagtgt ttctctttgg ggaatcctgg 2040gatggctcta gccgttccgc agacgggatc gatttcatga ttttttttgt ttcgttgcat 2100agggtttggt ttgccctttt cctttatttc aatatatgcc gtgcacttgt ttgtcgggtc 2160atcttttcat gctttttttt gtcttggttg tgatgatgtg gtctggttgg gcggtcgttc 2220tagatcggag tagaattctg tttcaaacta cctggtggat ttattaattt tggatctgta 2280tgtgtgtgcc atacatattc atagttacga attgaagatg atggatggaa atatcgatct 2340aggataggta tacatgttga tgcgggtttt actgatgcat atacagagat gctttttgtt 2400cgcttggttg tgatgatgtg gtgtggttgg gcggtcgttc attcgttcta gatcggagta 2460gaatactgtt tcaaactacc tggtgtattt attaattttg gaactgtatg tgtgtgtcat 2520acatcttcat agttacgagt ttaagatgga tggaaatatc gatctaggat aggtatacat 2580gttgatgtgg gttttactga tgcatataca tgatggcata tgcagcatct attcatatgc 2640tctaaccttg agtacctatc tattataata aacaagtatg ttttataatt attttgatct 2700tgatatactt ggatgatggc atatgcagca gctatatgtg gattttttta gccctgcctt 2760catacgctat ttatttgctt ggtactgttt cttttgtcga tgctcaccct gttgtttggt 2820gttacttctg cagggatccc cgatcatgca aaaactcatt aactcagtgc aaaactatgc 2880ctggggcagc aaaacggcgt tgactgaact ttatggtatg gaaaatccgt ccagccagcc 2940gatggccgag ctgtggatgg gcgcacatcc gaaaagcagt tcacgagtgc agaatgccgc 3000cggagatatc gtttcactgc gtgatgtgat tgagagtgat aaatcgactc tgctcggaga 3060ggccgttgcc aaacgctttg gcgaactgcc tttcctgttc aaagtattat gcgcagcaca 3120gccactctcc attcaggttc atccaaacaa acacaattct gaaatcggtt ttgccaaaga 3180aaatgccgca ggtatcccga tggatgccgc cgagcgtaac tataaagatc ctaaccacaa 3240gccggagctg gtttttgcgc tgacgccttt ccttgcgatg aacgcgtttc gtgaattttc 3300cgagattgtc tccctactcc agccggtcgc aggtgcacat ccggcgattg ctcacttttt 3360acaacagcct gatgccgaac gtttaagcga actgttcgcc agcctgttga atatgcaggg 3420tgaagaaaaa tcccgcgcgc tggcgatttt aaaatcggcc ctcgatagcc agcagggtga 3480accgtggcaa acgattcgtt taatttctga attttacccg gaagacagcg gtctgttctc 3540cccgctattg ctgaatgtgg tgaaattgaa ccctggcgaa gcgatgttcc tgttcgctga 3600aacaccgcac gcttacctgc aaggcgtggc gctggaagtg atggcaaact ccgataacgt 3660gctgcgtgcg ggtctgacgc ctaaatacat tgatattccg gaactggttg ccaatgtgaa 3720attcgaagcc aaaccggcta accagttgtt gacccagccg gtgaaacaag gtgcagaact 3780ggacttcccg attccagtgg atgattttgc cttctcgctg catgacctta gtgataaaga 3840aaccaccatt agccagcaga gtgccgccat tttgttctgc gtcgaaggcg atgcaacgtt 3900gtggaaaggt tctcagcagt tacagcttaa accgggtgaa tcagcgttta ttgccgccaa 3960cgaatcaccg gtgactgtca aaggccacgg ccgtttagcg cgtgtttaca acaagctgta 4020agagcttact gaaaaaatta acatctcttg ctaagctggg agctcgatcc gtcgacctgc 4080agatcgttca aacatttggc aataaagttt cttaagattg aatcctgttg ccggtcttgc 4140gatgattatc atataatttc tgttgaatta cgttaagcat gtaataatta acatgtaatg 4200catgacgtta tttatgagat gggtttttat gattagagtc ccgcaattat acatttaata 4260cgcgatagaa aacaaaatat agcgcgcaaa ctaggataaa ttatcgcgcg cggtgtcatc 4320tatgttacta gatctgctag ccctgcagga aatttaccgg tgcccgggcg gccagcatgg 4380ccgtatccgc aatgtgttat taagttgtct aagcgtcaat ttgtttacac cacaatatat 4440cctgccacca gccagccaac agctccccga ccggcagctc ggcacaaaat caccactcga 4500tacaggcagc ccatcagaat taattctcat gtttgacagc ttatcatcga ctgcacggtg 4560caccaatgct tctggcgtca ggcagccatc ggaagctgtg gtatggctgt gcaggtcgta 4620aatcactgca taattcgtgt cgctcaaggc gcactcccgt tctggataat gttttttgcg 4680ccgacatcat aacggttctg gcaaatattc tgaaatgagc tgttgacaat taatcatccg 4740gctcgtataa tgtgtggaat tgtgagcgga taacaatttc acacaggaaa cagaccatga 4800gggaagcgtt gatcgccgaa gtatcgactc aactatcaga ggtagttggc gtcatcgagc 4860gccatctcga accgacgttg ctggccgtac atttgtacgg ctccgcagtg gatggcggcc 4920tgaagccaca cagtgatatt gatttgctgg ttacggtgac cgtaaggctt gatgaaacaa 4980cgcggcgagc tttgatcaac gaccttttgg aaacttcggc ttcccctgga gagagcgaga 5040ttctccgcgc tgtagaagtc accattgttg tgcacgacga catcattccg tggcgttatc 5100cagctaagcg cgaactgcaa tttggagaat ggcagcgcaa tgacattctt gcaggtatct 5160tcgagccagc cacgatcgac attgatctgg ctatcttgct gacaaaagca agagaacata 5220gcgttgcctt ggtaggtcca gcggcggagg aactctttga tccggttcct gaacaggatc 5280tatttgaggc gctaaatgaa accttaacgc tatggaactc gccgcccgac tgggctggcg 5340atgagcgaaa tgtagtgctt acgttgtccc gcatttggta cagcgcagta accggcaaaa 5400tcgcgccgaa ggatgtcgct gccgactggg caatggagcg cctgccggcc cagtatcagc 5460ccgtcatact tgaagctagg caggcttatc ttggacaaga agatcgcttg gcctcgcgcg 5520cagatcagtt ggaagaattt gttcactacg tgaaaggcga gatcaccaaa gtagtcggca 5580aataaagctc tagtggatct ccgtacccgg ggatctggct cgcggcggac gcacgacgcc 5640ggggcgagac cataggcgat ctcctaaatc aatagtagct gtaacctcga agcgtttcac 5700ttgtaacaac gattgagaat ttttgtcata aaattgaaat acttggttcg catttttgtc 5760atccgcggtc agccgcaatt ctgacgaact gcccatttag ctggagatga ttgtacatcc 5820ttcacgtgaa aatttctcaa gcgctgtgaa caagggttca gattttagat tgaaaggtga 5880gccgttgaaa cacgttcttc ttgtcgatga cgacgtcgct atgcggcatc ttattattga 5940ataccttacg atccacgcct tcaaagtgac cgcggtagcc gacagcaccc agttcacaag 6000agtactctct tccgcgacgg tcgatgtcgt ggttgttgat ctagatttag gtcgtgaaga 6060tgggctcgag atcgttcgta atctggcggc aaagtctgat attccaatca taattatcag 6120tggcgaccgc cttgaggaga cggataaagt tgttgcactc gagctaggag caagtgattt 6180tatcgctaag ccgttcagta tcagagagtt tctagcacgc attcgggttg ccttgcgcgt 6240gcgccccaac gttgtccgct ccaaagaccg acggtctttt tgttttactg actggacact 6300taatctcagg caacgtcgct tgatgtccga agctggcggt gaggtgaaac ttacggcagg 6360tgagttcaat cttctcctcg cgtttttaga gaaaccccgc gacgttctat cgcgcgagca 6420acttctcatt gccagtcgag tacgcgacga ggaggtttat gacaggagta tagatgttct 6480cattttgagg ctgcgccgca aacttgaggc agatccgtca agccctcaac tgataaaaac 6540agcaagaggt gccggttatt tctttgacgc ggacgtgcag gtttcgcacg gggggacgat 6600ggcagcctga gccaattccc agatccccga ggaatcggcg tgagcggtcg caaaccatcc 6660ggcccggtac aaatcggcgc ggcgctgggt gatgacctgg tggagaagtt gaaggccgcg 6720caggccgccc agcggcaacg catcgaggca gaagcacgcc ccggtgaatc gtggcaagcg 6780gccgctgatc gaatccgcaa agaatcccgg caaccgccgg cagccggtgc gccgtcgatt 6840aggaagccgc ccaagggcga cgagcaacca gattttttcg ttccgatgct ctatgacgtg 6900ggcacccgcg atagtcgcag catcatggac gtggccgttt tccgtctgtc gaagcgtgac 6960cgacgagctg gcgaggtgat ccgctacgag cttccagacg ggcacgtaga ggtttccgca 7020gggccggccg gcatggccag tgtgtgggat tacgacctgg tactgatggc ggtttcccat 7080ctaaccgaat ccatgaaccg ataccgggaa gggaagggag acaagcccgg ccgcgtgttc 7140cgtccacacg ttgcggacgt actcaagttc tgccggcgag ccgatggcgg aaagcagaaa 7200gacgacctgg tagaaacctg cattcggtta aacaccacgc acgttgccat gcagcgtacg 7260aagaaggcca agaacggccg cctggtgacg gtatccgagg gtgaagcctt gattagccgc 7320tacaagatcg taaagagcga aaccgggcgg ccggagtaca tcgagatcga gctagctgat 7380tggatgtacc gcgagatcac agaaggcaag aacccggacg tgctgacggt tcaccccgat 7440tactttttga tcgatcccgg catcggccgt tttctctacc gcctggcacg ccgcgccgca 7500ggcaaggcag aagccagatg gttgttcaag acgatctacg aacgcagtgg cagcgccgga 7560gagttcaaga agttctgttt caccgtgcgc aagctgatcg ggtcaaatga cctgccggag 7620tacgatttga aggaggaggc ggggcaggct ggcccgatcc tagtcatgcg ctaccgcaac 7680ctgatcgagg gcgaagcatc cgccggttcc taatgtacgg agcagatgct agggcaaatt 7740gccctagcag gggaaaaagg tcgaaaaggt ctctttcctg tggatagcac gtacattggg 7800aacccaaagc cgtacattgg gaaccggaac ccgtacattg ggaacccaaa gccgtacatt 7860gggaaccggt cacacatgta agtgactgat ataaaagaga aaaaaggcga tttttccgcc 7920taaaactctt taaaacttat taaaactctt aaaacccgcc tggcctgtgc ataactgtct 7980ggccagcgca cagccgaaga gctgcaaaaa gcgcctaccc ttcggtcgct gcgctcccta 8040cgccccgccg cttcgcgtcg gcctatcgcg gccgctggcc gctcaaaaat ggctggccta 8100cggccaggca atctaccagg gcgcggacaa gccgcgccgt cgccactcga ccgccggcgc 8160tgaggtctgc ctcgtgaaga aggtgttgct gactcatacc aggcctgaat cgccccatca 8220tccagccaga aagtgaggga gccacggttg atgagagctt tgttgtaggt ggaccagttg 8280gtgattttga acttttgctt tgccacggaa cggtctgcgt tgtcgggaag atgcgtgatc 8340tgatccttca actcagcaaa agttcgattt attcaacaaa gccgccgtcc cgtcaagtca 8400gcgtaatgct ctgccagtgt tacaaccaat taaccaattc tgattagaaa aactcatcga 8460gcatcaaatg aaactgcaat ttattcatat caggattatc aataccatat ttttgaaaaa 8520gccgtttctg taatgaagga gaaaactcac cgaggcagtt ccataggatg gcaagatcct 8580ggtatcggtc tgcgattccg actcgtccaa catcaataca acctattaat ttcccctcgt 8640caaaaataag gttatcaagt gagaaatcac catgagtgac gactgaatcc ggtgagaatg 8700gcaaaagctc tgcattaatg aatcggccaa cgcgcgggga gaggcggttt gcgtattggg 8760cgctcttccg cttcctcgct cactgactcg ctgcgctcgg tcgttcggct gcggcgagcg 8820gtatcagctc actcaaaggc ggtaatacgg ttatccacag aatcagggga taacgcagga 8880aagaacatgt gagcaaaagg ccagcaaaag gccaggaacc gtaaaaaggc cgcgttgctg 8940gcgtttttcc ataggctccg cccccctgac gagcatcaca aaaatcgacg ctcaagtcag 9000aggtggcgaa acccgacagg actataaaga taccaggcgt ttccccctgg aagctccctc 9060gtgcgctctc ctgttccgac cctgccgctt accggatacc tgtccgcctt tctcccttcg 9120ggaagcgtgg cgctttctca tagctcacgc tgtaggtatc tcagttcggt gtaggtcgtt 9180cgctccaagc tgggctgtgt gcacgaaccc cccgttcagc ccgaccgctg cgccttatcc 9240ggtaactatc gtcttgagtc caacccggta agacacgact tatcgccact ggcagcagcc 9300actggtaaca ggattagcag agcgaggtat gtaggcggtg ctacagagtt cttgaagtgg 9360tggcctaact acggctacac tagaagaaca gtatttggta tctgcgctct gctgaagcca 9420gttaccttcg gaaaaagagt tggtagctct tgatccggca aacaaaccac cgctggtagc 9480ggtggttttt ttgtttgcaa gcagcagatt acgcgcagaa aaaaaggatc tcaagaagat 9540cctttgatct tttctacggg gtctgacgct cagtggaacg aaaactcacg ttaagggatt 9600ttggtcatga gattatcaaa aaggatcttc acctagatcc ttttgatccg g 96518121593DNAArtificial sequencemisc_feature(1)..(21593)ZmABP-948-binary 81ttcctgtggt tggcatgcac atacaaatgg acgaacggat aaaccttttc acgccctttt 60aaatatccga ttattctaat aaacgctctt ttctcttagg tttacccgcc aatatatcct 120gtcaaacact gatagtttaa actgaaggcg ggaaacgaca atctgatcat gagcggagaa 180ttaagggagt cacgttatga cccccgccga tgacgcggga caagccgttt tacgtttgga 240actgacagaa ccgcaacgct gcaggaattg gccgcagcgg ccatttaaat caattgggcg 300cgccagctgc ttgtggggac cagacaaaaa aggaatggtg cagaattgtt aggcgcacct 360accaaaagca tctttgcctt tattgcaaag ataaagcaga ttcctctagt acaagtgggg 420aacaaaataa cgtggaaaag agctgtcctg acagcccact cactaatgcg tatgacgaac 480gcagtgacga ccacaaaact cgagactttt caacaaaggg taatatccgg aaacctcctc 540ggattccatt gcccagctat ctgtcacttt attgtgaaga tagtggaaaa ggaaggtggc 600tcctacaaat gccatcattg cgataaagga aaggctatcg ttgaagatgc ctctgccgac 660agtggtccca aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca 720accacgtctt caaagcaagt ggattgatgt gatatctcca ctgacgtaag ggatgacgaa 780caatcccact atccttcggt accggaccct atagaatagc tcactatcct atttattata 840gtttaagtat atagccaata ttttaaattt actatttatt aaattctagg gaagatagtc 900tcaattcata actttattat aatacgtttg aaattttaaa tctttaggaa attttcttaa 960ttcacctaga tacgattctg gagtgttaca agctgcgaat atactggtgc cattgagtat 1020acataaatgg atttaggtgg tgctcaatag gtgaaaatga gatactaatc acttaaattt 1080caaaatttct atggtgccac tgtactcgga taggtctatc tagggctgga caaaatgctc 1140gtggctcgct ggctcgctcg tttcgtggtc agctcggctc ggctcggatc ggctcatttg 1200aattttgtca cgagctgagc tgacattcta gctcggttcg ttaacgagcc agctcgcgag 1260ctaaacgagc taccatattc tagtaaaacg aaattatatt catatcattt atagaataat 1320tgatgaacat gttatatata tgtgagatgt ctatggccta tgaattaaac taatgattaa 1380tgaactatgc ctatgtgtta atttggtcta tgcaaatata attatgggtt aaactgatga 1440acatgcatgt gaattgtgaa ttaatgagtg atgaattgtg ctaatttggt gttatattga 1500catggtttgt gaaactatga gtataattac tattttctat tgttaaatta gtttgaaatt 1560aactaaaaaa taattattat atacatttta ttttttttct gctctggctc gcgagctaaa 1620cgagccagct cgacctcgta aacgagccga gccgagctga ctctgtggct cgttacctta 1680acgagccgag ccgagctggc tcgttagctt aacgagccag ctcgaactcg gacgagccga 1740gccgagctgg ctcgttatcc acccctaggt ctatctagct tctgatgttt gcaaacctta 1800gagttggagt gttcagccag ctactccttt gctttgctga ataaccatac caaacacgcc 1860catattaata cccgctcggc ggtggttctg caatcaaacg caggccgcag tcgcgtgcgg 1920aactagaggt ccttcagaga agtgccgtgc cagtgccacc gccggccgca tcatcgttcc 1980gcccccctgg tacgagcact tcgcagagct gcaacctaca tcccttttac ataaatctat 2040tgtctcgtat tgccgttgac gccggaatag tcttcgcatc ccttttacat aaatccgatg 2100ttttctttct ccgattcctt tgaggaatca tcacgggtca gggcaggtgt tctgccgttt 2160gcccttttct ttatattctc cttagaagaa atatttagtt ggaggctgga catagccgga 2220ggagctaact aatcgagcgg tgtactggca aaacaaaagg agcggagcaa gaaaggggag 2280aaaaaactag ccactgccgg agcgctattg gccgtgttgg gcctggaagc ttgcatcaat 2340acttccctcg ccccgatttg gttccaaaat catacaagtc ccaaagttgt caagatattg 2400gaggtatgca agcgacttgg atctcaaaat agaagaaatt tcggatctga gcacaaatct 2460gagttgaaaa aactgcaact caaaatcatc aaaaaaagaa gaagaaagaa acgaatatat 2520tcgctcctct tctcagccga acccaaagga attgaatcca aaccctgggt aggcagacag 2580tgagatatgg aggagagcag gaggcgaaca agagaggctg cggccacgaa tatctcacga 2640acaagcacat catgggtcca cggagcgggc agggtgacgg gctcccgacg gcgagctaca 2700tctcggaaga gcaccagggc agcatgtcgt gttgggcagg ttggccgtct ggcggacggc 2760ggacggtgac tcgtggtcag ggtgcacctg ctcgattaag gcgcctgact actcatgtct 2820tcgtctcttt gcttgtgttt gctatatgct gctcgtacct catgagcata ctaagttgac 2880tgctcagtct gctgagtctg tttttctagg gtatagtgct gagcacaagg gatatcattg 2940ttgggatatg attgctcgtt ggatgagggt ctcttgggat gttgtctttg atgaggctca 3000ttctttttat tcttgtcctt ctttcgatgc tttgtcaaca tccttggttg atcccatctc 3060ttttctatat tttctagatg cccgtgttac tattggacct gcctcacgct tggtgcgccc 3120acgatagtag ccttagctcc ttctgacatg ttcatctctc tttcggtgcc ttcctttgtg 3180gtgccttcta tagtgttttc tttggagcct gctgctttag cccctgacta cgctatgaac 3240acttgtctac acccgccggg tcatcaattc ttttggtaca ccatcatcct ctcatgcgtt 3300gccctcttat gatgtgcgct cttctgcaac tcattcattt tcttgcgatt tacctttgac 3360tgatgctccc tattcatctc tggatccagc ttcctcagtt gactctttgc tggagccacc 3420tcttagacgg agtcatcgtt ttcgtcagcc acctaatggg tactctcctt caggtttagt 3480cgctaccgtt ctttctgagc tgacttctta tcatgatgct attcttcatc tgtaacgaca 3540acatgcgatt tctgaggaga ttgctactct tgagcgcact agcacgttgg aacttgttcc 3600ttgtccatca cgtgtttgtc ctatcaccag tatgtgggtc tataaggtca agacccgttc 3660tgatggttct cttgatcgct ataaatctcg tctagttgcc caaggcttcc agtaggaaca 3720tggttgtggc tatgatgaga tttttgcacc tgttgctcat atgaccactg ttcgcactct 3780tcttgctatg gcctctgttc gtgcgtggtc catctctcat cttgatgtca agaatacctt 3840tcttgatggt aagctacttg agttctatat gtagccatcg cctaggtatt ctatttctgc 3900ttgtatggtt tgttgtcttc

gccgttcccc ttatggcctc aagcaggctc cacattcttg 3960gtttcagctc tttgcttcta tgataactgt tgttggtttt tctaccagta atcatggtcc 4020tgcactcttt gtgtactacc tcctctcggg gtcggactct tctttatgtt gatgatataa 4080ttatcactgg agataacctt gagtatgttg actttgttaa ggcacgtctt agttatcatt 4140ttctcatgtc tgatcttggt cctctgtgtt actttcttgg gacaaaggtt tcttctttgt 4200ctcagggcct ttatctatct caagaggagt acattcaaga ttttcttcat cgggcttctc 4260ttaccgatca ctagattgtt gagactccca agcagctcaa tcttcacctt agtgccgatg 4320atggcgagtc ttttcccgac catactcgtt atcgtcaaca tactgtagga agttttgttt 4380atctctgtgt cactcgtctt gacatttcat atgttgtgtg tatcctgagt tagtttgctt 4440cagatcccat ccaggtacac tatagtcact tgctttgtgt cctacaatat ctttgtggaa 4500ccatatctag atgtatgttc tttccacatt ctagctcgtt gcaactgcaa tcttgttctg 4560atgctacttg ggctagtgat tttttcgata gttggtctct ttctcaatat tgtgtttttc 4620ttggtggttc tctcattgct cggaagacta agtagcaggt agcagtttct cgtttgagta 4680ccgaggctga gttgcgtgct atggcccttg tgactgcaga ggttacttgg ttacgatagt 4740tgcttgagga ttttcatgtt tctgtttcca tgacgactcc ttttgtctga cagtacaggt 4800gttatcagta ttgctcgtga tgcggtgaag catgaggtca ccaagcatat tggagttgat 4860gtttcgtata cacgagctga agtctaggat gatgttatct tgatttggta tgtgccttta 4920gagcttcagt tggctaattt cttcacgagg gcacaggctc gcgctgagca taaatttttc 4980ctctcaaaac tcagtgttat agatccacct tgagtttgag ggagtattag atagatatgg 5040gtttatttgt atttttccat tttataaggg tattagatag ataggcaacg actgctatgc 5100aagtagtcat tctgtgcaag cgtgcaagca aaccatctga tccattatat cgtgatccaa 5160ccgtgggtca catttaacac ttaaaccctt ccaccaccaa ctcaataatc tttataaaaa 5220aacccctaac aaacaatggt tatatctgtg gttggatcgt aatctaatag atcagatggt 5280ttgcttgtac gcttgcacag aatgactgct tgcatagcag ttgttgccta gatagatatg 5340ggtttatttg tatttttctc ttaagggttt ttgtgtatat ttgtactcat gtacctatat 5400atttgtgcta gttgacccca taatgaatag acctgctatt cataatattt gcaaaccatg 5460aaaatttgat tattacgaac tatccaaata ctcgaacaca tgggcattat agctcacaaa 5520aatggaaggt tgagctgctg cttgaagaac ctcaacatct ttgaacaaca acctcaacga 5580aacttgtata tgaaccaact tccaaacaat cccttgtgga aggatagtaa tgacttcagg 5640gcattgatca cacatatccg acggtggaac tactgtaaca accctctttt ctgtggaata 5700tagttgaaac tctacaactt gaccaaaacc aagatgacga catatggtgg aactaacaaa 5760acaagaggac tacactacct cattagctta ttaagcacaa tctcttggca ccacaacaac 5820gaacaacaaa accatcattt ggatgctctg tgggcgacta aatgcaaatt ctttgcatgg 5880ttgatcatcc caaattggtg gcacttagct ataggctagc agtgagagga tggccgaaca 5940acatgcattg tccactatgt tggtgtagcc atgagaccaa ccaccacata aatgccaaac 6000gttcattcac caaaaaaatc taggcaacaa tggcttggat ttcttacctg cagctccacc 6060aagctaactg gagttcaatt aggtcaacgt atgggtggtg gtcgagtata gcagtcacaa 6120atgatgttct aaagatgggg ttgtgttaac acatcttgct tgtagcacga gaacactgga 6180aggagtgaaa ccaaagaatc tttcaacaca aggacctatc aacgctatcc atgattggga 6240aattcaagga cgaaactaga atttgggtga acacatgcac aaggcaccta ggagagcctt 6300tcttttgtac tgttaatccc tttttaaact ctctctgtcc ttaggagttc gtttcttccg 6360ctctattcaa tgaagttagg cacaatcttg tgtgatttca ttagaaaaac acaagtaaat 6420tgcatggtca gtacttgaag tattacagga atctcgtctg cccccaaact attaaacctt 6480atatttggct ccctaatgta cttaactgat ctcattctgg tcaaactaaa catggtgatg 6540gcaaggagcc gatatggtcg cccatgtgga tgtgatttaa gcaaaaaatc tcatggtcca 6600tagctgtgtc aacaagccaa catgccatcg cttccttatg ccgagactgc ccatgtcgct 6660cgcttttact gtcatcatca tcaaactgcc tgtcatgtct acggatgcca tgaccgctgt 6720cacacatgat gtggagatga acctgtccat caacttccac gtgctgccac tatcgctagc 6780tgacaccgtc ttggtcattg ctgtgtaggg ctaggctaag agtcgctgaa tgatcctttc 6840gctctccttt acaggaacat gctgtttact ttgtgtcgcc aaggcgtgct agagtacctc 6900ttctacacct ccagcaccag tagccttatt gttagcttgc acatcccaca taagcaggcc 6960gatgtgaatg ataacttcag ggacgtcgac ggcatgtcac tgccaagagt catttggtgg 7020gaagcgttgt catgccatct gtcgtgccat tttgtcctca gttcgaccgc cattaccgtg 7080agcacaacct ttgcgcatgg ttggccgctt ccatcaccct tattccgttt cctcgtgttg 7140gtcttgcccc aaggctatgg ttagcagacc gtgcatatgg ccggcaaaag actattttgc 7200actgtagatt gcactcttta tatagtgaag tttaaaatag gagatgagat gaataaggct 7260gctggagata gcctaaaccc ttgcagctcg tgcttgcatc gggggagcca aaaggcgtcc 7320acctccacca tcgccgaagc actgagcact actctggctt gtgtttcagc accacaccgc 7380agagtgctta gggccaccaa cctcctcttg cctctgtgcc cagagcacca tcagctctgc 7440tgcctccctc tgttccttgt gcttgctagg caggcaattc cgagctgggg cccaacttgt 7500aacgctgatt tcaccatctt gccactgccg ggcaccaagt ggacacattt gacttggcct 7560agtgggtttt ctgcataaat cacatacatg tggatgccat atcaggctct ttggtgttgt 7620cgtgtctact ttcgacaagg atgagatcac ttaaacatat tagggagcca agtatgtaat 7680ttcatagttt agggacctac acaaaaatcg tataatactt tagaacagcc gtgcagttta 7740ctcaatcaac acatacaaag tcagatctta agctctgata cttcaaagga atggttgagc 7800ccagttgaca aacaatcttg cttcattcat tgaattgttt ataggagtgg ctatgtaact 7860actgggtggt tttgtttgac ctgtcatcca aattgtgtag tcaaccataa acatacacgt 7920cacacaatac attttggatg tgacagatag gatttaggcg agagaatgta caatgtcact 7980gaaaaattac cactgtatgg aaaggacaat ctaagtgaaa agagaaccag ggcctaatgg 8040tttcaggact tcaaactccg gccaaatgaa tttacagtgc ttaaattaac tcatgttaat 8100catgatagcc aaagcatggg caaaagagaa actatgaata aatcgacaat gtattctata 8160tagcagtaat ataccatgtc acgagctttt acactaatgg gctgtatttt tctgcagtta 8220ttttaactgg caatattcta tgtcacagta atatttgtta aattttttcc agaatagcaa 8280ctgaactaga agtctagtat ttcttaattg gataacaaaa ggaattagtg tgcatttggc 8340ttacgaacaa tcagtcaccc aacattgaat ttgaagttct gtttcctctt tgttcagacg 8400acactctcca aatgaatgcc ttatattttg tgttgctcct cttttctgca gagtgttcag 8460taacttcttc cgatgtaaac catggtacgt cctgtagaaa ccccaacccg tgaaatcaaa 8520aaactcgacg gcctgtgggc attcagtctg gatcgcgaaa actgtggaat tgatcagcgt 8580tggtgggaaa gcgcgttaca agaaagccgg gcaattgctg tgccaggcag ttttaacgat 8640cagttcgccg atgcagatat tcgtaattat gcgggcaacg tctggtatca gcgcgaagtc 8700tttataccga aaggttgggc aggccagcgt atcgtgctgc gtttcgatgc ggtcactcat 8760tacggcaaag tgtgggtcaa taatcaggaa gtgatggagc atcagggcgg ctatacgcca 8820tttgaagccg atgtcacgcc gtatgttatt gccgggaaaa gtgtacgtat caccgtttgt 8880gtgaacaacg aactgaactg gcagactatc ccgccgggaa tggtgattac cgacgaaaac 8940ggcaagaaaa agcagtctta cttccatgat ttctttaact atgccggaat ccatcgcagc 9000gtaatgctct acaccacgcc gaacacctgg gtggacgata tcaccgtggt gacgcatgtc 9060gcgcaagact gtaaccacgc gtctgttgac tggcaggtac caagctgcga atcttcgttt 9120ttttaaggaa ttctcgatct ttatggtgta taggctctgg gttttctgtt ttttgtatct 9180cttaggattt tgtaaattcc agatctttct atggccactt agtagtatat ttcaaaaatt 9240ctccaatcga gttcttcatt cgcattttca gtcattttct cttcgacgtt gtttttaagc 9300ctgggtatta ctcctattta gttgaactct gcagcaatct tagaaaatta gggttttgag 9360gtttcgattt ctctaggtaa ccgatctatt gcattcatct gaatttctgc atatatgtct 9420tagatttctg ataagcttac gatacgttag gtgtaattga agtttatttt tcaagagtgt 9480tattttttgt ttctgaattt ttcaggtggt ggccaatggt gatgtcagcg ttgaactgcg 9540tgatgcggat caacaggtgg ttgcaactgg acaaggcact agcgggactt tgcaagtggt 9600gaatccgcac ctctggcaac cgggtgaagg ttatctctat gaactgtgcg tcacagccaa 9660aagccagaca gagtgtgata tctacccgct tcgcgtcggc atccggtcag tggcagtgaa 9720gggcgaacag ttcctgatta accacaaacc gttctacttt actggctttg gtcgtcatga 9780agatgcggac ttgcgtggca aaggattcga taacgtgctg atggtgcacg accacgcatt 9840aatggactgg attggggcca actcctaccg tacctcgcat tacccttacg ctgaagagat 9900gctcgactgg gcagatgaac atggcatcgt ggtgattgat gaaactgctg ctgtcggctt 9960taacctctct ttaggcattg gtttcgaagc gggcaacaag ccgaaagaac tgtacagcga 10020agaggcagtc aacggggaaa ctcagcaagc gcacttacag gcgattaaag agctgatagc 10080gcgtgacaaa aaccacccaa gcgtggtgat gtggagtatt gccaacgaac cggatacccg 10140tccgcaaggt gcacgggaat atttcgcgcc actggcggaa gcaacgcgta aactcgaccc 10200gacgcgtccg atcacctgcg tcaatgtaat gttctgcgac gctcacaccg ataccatcag 10260cgatctcttt gatgtgctgt gcctgaaccg ttattacgga tggtatgtcc aaagcggcga 10320tttggaaacg gcagagaagg tactggaaaa agaacttctg gcctggcagg agaaactgca 10380tcagccgatt atcatcaccg aatacggcgt ggatacgtta gccgggctgc actcaatgta 10440caccgacatg tggagtgaag agtatcagtg tgcatggctg gatatgtatc accgcgtctt 10500tgatcgcgtc agcgccgtcg tcggtgaaca ggtatggaat ttcgccgatt ttgcgacctc 10560gcaaggcata ttgcgcgttg gcggtaacaa gaaagggatc ttcactcgcg accgcaaacc 10620gaagtcggcg gcttttctgc tgcaaaaacg ctggactggc atgaacttcg gtgaaaaacc 10680gcagcaggga ggcaaacaat gagagctcga ggtacaaatc tcatctgtgc cttgctctag 10740tttcccaaat ggaattaact atgcatgatt tgtttggaaa ctcttattgc atccatccag 10800ataatgcatc caccataagg taatatcttg atgacatctg tgcctgatgg tgtaccaaat 10860gtctctatct ctgcattgag ccacgagtag gaggatagcc taggggtgcc ttgactccaa 10920agttgtattg aaaaagatgg atgaagcagg caaatgctgc ctgaatccat gactcagggc 10980acagattttc cactcaaagg aagataagat tgcattactt catgatcttt tgaactgcct 11040ctgcaagacg ggactcggat agtggatgca aagatctaat actggcctca ggcaacgagt 11100tgtttcactc gaaagtctag aaatgaccgg gctcaaattt tgcaccccaa ggaaagtgag 11160tttgcattac ttcatgacct tttgaactgc ctctgcaaga ctggactcag attacgcttg 11220attggttgcc ggcctcacct tcgcctggct tgcgcgagcc tgcgtctata gaaatgcgcc 11280ggactcacgt ctccgtcgat gcaggcattc gactgaaaaa acatttaaac tgcacccatg 11340cgtgcgggct gagcttatgt catacaagta accaatcaca ggcttaagtt cagtcaacgc 11400atgcgctaag cttggatgtg gctgaccggg caaccaatca cacagatagt ggatgcacgg 11460atctaatatt ggctaatttg gttaaacttg tctaacctta gacgtggcaa gtgagtcagc 11520ggatcaaatc tgctctaaaa ttgtctgcct cctagatgtc cttggtgttc caagatttaa 11580tcatcactgc actatttctt tgcgttgctt cgctgcagct tcgcgttact tgcattcgct 11640taatcaggat tactttgatc aactaggttt ctaacttcta ctaccttcac ttgcacaggg 11700tgcccgtcct gctagccggt gtgcttgctg tgcgatcgtt tggcatgtgc ttgttgaggg 11760gttgctaggg gattggagag gattgaaggg attaaatctc ctcctattca attttgaata 11820ggaggggatt taatcccctt caatccccct caaaccacta gtaaccgaac gtggcctgag 11880ggggcgggcg agtctttata ttgaatgaaa ctacataaaa tagcatgccg tctctgtcac 11940tggcaatgga cggtggtgcc tagcgcaact cagcgcacaa ctgtgtgtct tgatttttct 12000tctgtttatc acggcattag tgccatgccg ttttatgtta cagtgttgtg tgctcgcaag 12060catccgaaaa tatgcgtctg agtttagggt tgggtcaaac ttgtcgaatt tggggttctg 12120ttataatatg ttgagcatga ataaagatgg atgctggtga ctctgtcgcc atcgccgtcc 12180atcatgagtg tcctgtaatt caacttatat ctatcatgta tgtatgtatg tatgtatgta 12240tgtatgtata tgctgtctac tatgcttctt tgttttaact gaaatgtgtg ttacagtgtt 12300acttctctgg ggtccattta aaacggcatt tcgtttacga taggaaccag ccattataat 12360ctttaaccaa taatttcgct aaccaatttc aactattgca atgcgaactt aatattatca 12420gatttataac cgaatgcgct atcaaataat cataaggttg taatcataat aatataatat 12480aaaataaatg agtgctcgaa gtgaaatttt agagagcgtt ataagaaaaa ttgatgtgat 12540ctccaagaat aatagcccct cccggctccc ggtacaaaca tagggcttct ttagaatgca 12600ggattgtgag aacataggaa taggaaaaat ataggaattc tataggaatg tatatggaaa 12660acagaggatt gaaaaacaca gaaaaaatgt gaaagcaagt ctttggatga agcgtaggaa 12720acttatagga ataggaattc ataacggacc gcgatcgctt aattaagctt gcatgcctgc 12780agtgcagcgt gacccggtcg tgcccctctc tagagataat gagcattgca tgtctaagtt 12840ataaaaaatt accacatatt ttttttgtca cacttgtttg aagtgcagtt tatctatctt 12900tatacatata tttaaacttt actctacgaa taatataatc tatagtacta caataatatc 12960agtgttttag agaatcatat aaatgaacag ttagacatgg tctaaaggac aattgagtat 13020tttgacaaca ggactctaca gttttatctt tttagtgtgc atgtgttctc cttttttttt 13080gcaaatagct tcacctatat aatacttcat ccattttatt agtacatcca tttagggttt 13140agggttaatg gtttttatag actaattttt ttagtacatc tattttattc tattttagcc 13200tctaaattaa gaaaactaaa actctatttt agttttttta tttaataatt tagatataaa 13260atagaataaa ataaagtgac taaaaattaa acaaataccc tttaagaaat taaaaaaact 13320aaggaaacat ttttcttgtt tcgagtagat aatgccagcc tgttaaacgc cgtcgacgag 13380tctaacggac accaaccagc gaaccagcag cgtcgcgtcg ggccaagcga agcagacggc 13440acggcatctc tgtcgctgcc tctggacccc tctcgagagt tccgctccac cgttggactt 13500gctccgctgt cggcatccag aaattgcgtg gcggagcggc agacgtgagc cggcacggca 13560ggcggcctcc tcctcctctc acggcaccgg cagctacggg ggattccttt cccaccgctc 13620cttcgctttc ccttcctcgc ccgccgtaat aaatagacac cccctccaca ccctctttcc 13680ccaacctcgt gttgttcgga gcgcacacac acacaaccag atctccccca aatccacccg 13740tcggcacctc cgcttcaagg tacgccgctc gtcctccccc cccccccctc tctaccttct 13800ctagatcggc gttccggtcc atggttaggg cccggtagtt ctacttctgt tcatgtttgt 13860gttagatccg tgtttgtgtt agatccgtgc tgctagcgtt cgtacacgga tgcgacctgt 13920acgtcagaca cgttctgatt gctaacttgc cagtgtttct ctttggggaa tcctgggatg 13980gctctagccg ttccgcagac gggatcgatt tcatgatttt ttttgtttcg ttgcataggg 14040tttggtttgc ccttttcctt tatttcaata tatgccgtgc acttgtttgt cgggtcatct 14100tttcatgctt ttttttgtct tggttgtgat gatgtggtct ggttgggcgg tcgttctaga 14160tcggagtaga attctgtttc aaactacctg gtggatttat taattttgga tctgtatgtg 14220tgtgccatac atattcatag ttacgaattg aagatgatgg atggaaatat cgatctagga 14280taggtataca tgttgatgcg ggttttactg atgcatatac agagatgctt tttgttcgct 14340tggttgtgat gatgtggtgt ggttgggcgg tcgttcattc gttctagatc ggagtagaat 14400actgtttcaa actacctggt gtatttatta attttggaac tgtatgtgtg tgtcatacat 14460cttcatagtt acgagtttaa gatggatgga aatatcgatc taggataggt atacatgttg 14520atgtgggttt tactgatgca tatacatgat ggcatatgca gcatctattc atatgctcta 14580accttgagta cctatctatt ataataaaca agtatgtttt ataattattt tgatcttgat 14640atacttggat gatggcatat gcagcagcta tatgtggatt tttttagccc tgccttcata 14700cgctatttat ttgcttggta ctgtttcttt tgtcgatgct caccctgttg tttggtgtta 14760cttctgcagg gatccccgat catgcaaaaa ctcattaact cagtgcaaaa ctatgcctgg 14820ggcagcaaaa cggcgttgac tgaactttat ggtatggaaa atccgtccag ccagccgatg 14880gccgagctgt ggatgggcgc acatccgaaa agcagttcac gagtgcagaa tgccgccgga 14940gatatcgttt cactgcgtga tgtgattgag agtgataaat cgactctgct cggagaggcc 15000gttgccaaac gctttggcga actgcctttc ctgttcaaag tattatgcgc agcacagcca 15060ctctccattc aggttcatcc aaacaaacac aattctgaaa tcggttttgc caaagaaaat 15120gccgcaggta tcccgatgga tgccgccgag cgtaactata aagatcctaa ccacaagccg 15180gagctggttt ttgcgctgac gcctttcctt gcgatgaacg cgtttcgtga attttccgag 15240attgtctccc tactccagcc ggtcgcaggt gcacatccgg cgattgctca ctttttacaa 15300cagcctgatg ccgaacgttt aagcgaactg ttcgccagcc tgttgaatat gcagggtgaa 15360gaaaaatccc gcgcgctggc gattttaaaa tcggccctcg atagccagca gggtgaaccg 15420tggcaaacga ttcgtttaat ttctgaattt tacccggaag acagcggtct gttctccccg 15480ctattgctga atgtggtgaa attgaaccct ggcgaagcga tgttcctgtt cgctgaaaca 15540ccgcacgctt acctgcaagg cgtggcgctg gaagtgatgg caaactccga taacgtgctg 15600cgtgcgggtc tgacgcctaa atacattgat attccggaac tggttgccaa tgtgaaattc 15660gaagccaaac cggctaacca gttgttgacc cagccggtga aacaaggtgc agaactggac 15720ttcccgattc cagtggatga ttttgccttc tcgctgcatg accttagtga taaagaaacc 15780accattagcc agcagagtgc cgccattttg ttctgcgtcg aaggcgatgc aacgttgtgg 15840aaaggttctc agcagttaca gcttaaaccg ggtgaatcag cgtttattgc cgccaacgaa 15900tcaccggtga ctgtcaaagg ccacggccgt ttagcgcgtg tttacaacaa gctgtaagag 15960cttactgaaa aaattaacat ctcttgctaa gctgggagct cgatccgtcg acctgcagat 16020cgttcaaaca tttggcaata aagtttctta agattgaatc ctgttgccgg tcttgcgatg 16080attatcatat aatttctgtt gaattacgtt aagcatgtaa taattaacat gtaatgcatg 16140acgttattta tgagatgggt ttttatgatt agagtcccgc aattatacat ttaatacgcg 16200atagaaaaca aaatatagcg cgcaaactag gataaattat cgcgcgcggt gtcatctatg 16260ttactagatc tgctagccct gcaggaaatt taccggtgcc cgggcggcca gcatggccgt 16320atccgcaatg tgttattaag ttgtctaagc gtcaatttgt ttacaccaca atatatcctg 16380ccaccagcca gccaacagct ccccgaccgg cagctcggca caaaatcacc actcgataca 16440ggcagcccat cagaattaat tctcatgttt gacagcttat catcgactgc acggtgcacc 16500aatgcttctg gcgtcaggca gccatcggaa gctgtggtat ggctgtgcag gtcgtaaatc 16560actgcataat tcgtgtcgct caaggcgcac tcccgttctg gataatgttt tttgcgccga 16620catcataacg gttctggcaa atattctgaa atgagctgtt gacaattaat catccggctc 16680gtataatgtg tggaattgtg agcggataac aatttcacac aggaaacaga ccatgaggga 16740agcgttgatc gccgaagtat cgactcaact atcagaggta gttggcgtca tcgagcgcca 16800tctcgaaccg acgttgctgg ccgtacattt gtacggctcc gcagtggatg gcggcctgaa 16860gccacacagt gatattgatt tgctggttac ggtgaccgta aggcttgatg aaacaacgcg 16920gcgagctttg atcaacgacc ttttggaaac ttcggcttcc cctggagaga gcgagattct 16980ccgcgctgta gaagtcacca ttgttgtgca cgacgacatc attccgtggc gttatccagc 17040taagcgcgaa ctgcaatttg gagaatggca gcgcaatgac attcttgcag gtatcttcga 17100gccagccacg atcgacattg atctggctat cttgctgaca aaagcaagag aacatagcgt 17160tgccttggta ggtccagcgg cggaggaact ctttgatccg gttcctgaac aggatctatt 17220tgaggcgcta aatgaaacct taacgctatg gaactcgccg cccgactggg ctggcgatga 17280gcgaaatgta gtgcttacgt tgtcccgcat ttggtacagc gcagtaaccg gcaaaatcgc 17340gccgaaggat gtcgctgccg actgggcaat ggagcgcctg ccggcccagt atcagcccgt 17400catacttgaa gctaggcagg cttatcttgg acaagaagat cgcttggcct cgcgcgcaga 17460tcagttggaa gaatttgttc actacgtgaa aggcgagatc accaaagtag tcggcaaata 17520aagctctagt ggatctccgt acccggggat ctggctcgcg gcggacgcac gacgccgggg 17580cgagaccata ggcgatctcc taaatcaata gtagctgtaa cctcgaagcg tttcacttgt 17640aacaacgatt gagaattttt gtcataaaat tgaaatactt ggttcgcatt tttgtcatcc 17700gcggtcagcc gcaattctga cgaactgccc atttagctgg agatgattgt acatccttca 17760cgtgaaaatt tctcaagcgc tgtgaacaag ggttcagatt ttagattgaa aggtgagccg 17820ttgaaacacg ttcttcttgt cgatgacgac gtcgctatgc ggcatcttat tattgaatac 17880cttacgatcc acgccttcaa agtgaccgcg gtagccgaca gcacccagtt cacaagagta 17940ctctcttccg cgacggtcga tgtcgtggtt gttgatctag atttaggtcg tgaagatggg 18000ctcgagatcg ttcgtaatct ggcggcaaag tctgatattc caatcataat tatcagtggc 18060gaccgccttg aggagacgga taaagttgtt gcactcgagc taggagcaag tgattttatc 18120gctaagccgt tcagtatcag agagtttcta gcacgcattc gggttgcctt gcgcgtgcgc 18180cccaacgttg tccgctccaa agaccgacgg tctttttgtt ttactgactg gacacttaat 18240ctcaggcaac gtcgcttgat gtccgaagct ggcggtgagg tgaaacttac ggcaggtgag 18300ttcaatcttc tcctcgcgtt tttagagaaa ccccgcgacg ttctatcgcg cgagcaactt 18360ctcattgcca gtcgagtacg cgacgaggag gtttatgaca ggagtataga tgttctcatt 18420ttgaggctgc gccgcaaact tgaggcagat ccgtcaagcc ctcaactgat aaaaacagca 18480agaggtgccg gttatttctt tgacgcggac gtgcaggttt cgcacggggg gacgatggca 18540gcctgagcca attcccagat ccccgaggaa tcggcgtgag cggtcgcaaa ccatccggcc 18600cggtacaaat cggcgcggcg ctgggtgatg acctggtgga gaagttgaag gccgcgcagg 18660ccgcccagcg gcaacgcatc gaggcagaag cacgccccgg tgaatcgtgg caagcggccg 18720ctgatcgaat ccgcaaagaa tcccggcaac cgccggcagc cggtgcgccg tcgattagga 18780agccgcccaa gggcgacgag caaccagatt ttttcgttcc gatgctctat gacgtgggca 18840cccgcgatag tcgcagcatc atggacgtgg ccgttttccg tctgtcgaag cgtgaccgac 18900gagctggcga ggtgatccgc tacgagcttc cagacgggca cgtagaggtt tccgcagggc 18960cggccggcat ggccagtgtg

tgggattacg acctggtact gatggcggtt tcccatctaa 19020ccgaatccat gaaccgatac cgggaaggga agggagacaa gcccggccgc gtgttccgtc 19080cacacgttgc ggacgtactc aagttctgcc ggcgagccga tggcggaaag cagaaagacg 19140acctggtaga aacctgcatt cggttaaaca ccacgcacgt tgccatgcag cgtacgaaga 19200aggccaagaa cggccgcctg gtgacggtat ccgagggtga agccttgatt agccgctaca 19260agatcgtaaa gagcgaaacc gggcggccgg agtacatcga gatcgagcta gctgattgga 19320tgtaccgcga gatcacagaa ggcaagaacc cggacgtgct gacggttcac cccgattact 19380ttttgatcga tcccggcatc ggccgttttc tctaccgcct ggcacgccgc gccgcaggca 19440aggcagaagc cagatggttg ttcaagacga tctacgaacg cagtggcagc gccggagagt 19500tcaagaagtt ctgtttcacc gtgcgcaagc tgatcgggtc aaatgacctg ccggagtacg 19560atttgaagga ggaggcgggg caggctggcc cgatcctagt catgcgctac cgcaacctga 19620tcgagggcga agcatccgcc ggttcctaat gtacggagca gatgctaggg caaattgccc 19680tagcagggga aaaaggtcga aaaggtctct ttcctgtgga tagcacgtac attgggaacc 19740caaagccgta cattgggaac cggaacccgt acattgggaa cccaaagccg tacattggga 19800accggtcaca catgtaagtg actgatataa aagagaaaaa aggcgatttt tccgcctaaa 19860actctttaaa acttattaaa actcttaaaa cccgcctggc ctgtgcataa ctgtctggcc 19920agcgcacagc cgaagagctg caaaaagcgc ctacccttcg gtcgctgcgc tccctacgcc 19980ccgccgcttc gcgtcggcct atcgcggccg ctggccgctc aaaaatggct ggcctacggc 20040caggcaatct accagggcgc ggacaagccg cgccgtcgcc actcgaccgc cggcgctgag 20100gtctgcctcg tgaagaaggt gttgctgact cataccaggc ctgaatcgcc ccatcatcca 20160gccagaaagt gagggagcca cggttgatga gagctttgtt gtaggtggac cagttggtga 20220ttttgaactt ttgctttgcc acggaacggt ctgcgttgtc gggaagatgc gtgatctgat 20280ccttcaactc agcaaaagtt cgatttattc aacaaagccg ccgtcccgtc aagtcagcgt 20340aatgctctgc cagtgttaca accaattaac caattctgat tagaaaaact catcgagcat 20400caaatgaaac tgcaatttat tcatatcagg attatcaata ccatattttt gaaaaagccg 20460tttctgtaat gaaggagaaa actcaccgag gcagttccat aggatggcaa gatcctggta 20520tcggtctgcg attccgactc gtccaacatc aatacaacct attaatttcc cctcgtcaaa 20580aataaggtta tcaagtgaga aatcaccatg agtgacgact gaatccggtg agaatggcaa 20640aagctctgca ttaatgaatc ggccaacgcg cggggagagg cggtttgcgt attgggcgct 20700cttccgcttc ctcgctcact gactcgctgc gctcggtcgt tcggctgcgg cgagcggtat 20760cagctcactc aaaggcggta atacggttat ccacagaatc aggggataac gcaggaaaga 20820acatgtgagc aaaaggccag caaaaggcca ggaaccgtaa aaaggccgcg ttgctggcgt 20880ttttccatag gctccgcccc cctgacgagc atcacaaaaa tcgacgctca agtcagaggt 20940ggcgaaaccc gacaggacta taaagatacc aggcgtttcc ccctggaagc tccctcgtgc 21000gctctcctgt tccgaccctg ccgcttaccg gatacctgtc cgcctttctc ccttcgggaa 21060gcgtggcgct ttctcatagc tcacgctgta ggtatctcag ttcggtgtag gtcgttcgct 21120ccaagctggg ctgtgtgcac gaaccccccg ttcagcccga ccgctgcgcc ttatccggta 21180actatcgtct tgagtccaac ccggtaagac acgacttatc gccactggca gcagccactg 21240gtaacaggat tagcagagcg aggtatgtag gcggtgctac agagttcttg aagtggtggc 21300ctaactacgg ctacactaga agaacagtat ttggtatctg cgctctgctg aagccagtta 21360ccttcggaaa aagagttggt agctcttgat ccggcaaaca aaccaccgct ggtagcggtg 21420gtttttttgt ttgcaagcag cagattacgc gcagaaaaaa aggatctcaa gaagatcctt 21480tgatcttttc tacggggtct gacgctcagt ggaacgaaaa ctcacgttaa gggattttgg 21540tcatgagatt atcaaaaagg atcttcacct agatcctttt gatccggaat taa 215938215097DNAArtificial sequencemisc_feature(1)..(15097)ZmABT-990-binary 82attcctgtgg ttggcatgca catacaaatg gacgaacgga taaacctttt cacgcccttt 60taaatatccg attattctaa taaacgctct tttctcttag gtttacccgc caatatatcc 120tgtcaaacac tgatagttta aactgaaggc gggaaacgac aatctgatca tgagcggaga 180attaagggag tcacgttatg acccccgccg atgacgcggg acaagccgtt ttacgtttgg 240aactgacaga accgcaacgc tgcaggaatt ggccgcagcg gccatttaaa tcaattgggc 300gcgccagctg cttgtgggga ccagacaaaa aaggaatggt gcagaattgt taggcgcacc 360taccaaaagc atctttgcct ttattgcaaa gataaagcag attcctctag tacaagtggg 420gaacaaaata acgtggaaaa gagctgtcct gacagcccac tcactaatgc gtatgacgaa 480cgcagtgacg accacaaaac tcgagacttt tcaacaaagg gtaatatccg gaaacctcct 540cggattccat tgcccagcta tctgtcactt tattgtgaag atagtggaaa aggaaggtgg 600ctcctacaaa tgccatcatt gcgataaagg aaaggctatc gttgaagatg cctctgccga 660cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag aagacgttcc 720aaccacgtct tcaaagcaag tggattgatg tgatatctcc actgacgtaa gggatgacga 780acaatcccac tatccttcgg taccggaccc ggtctgagtt gttaggtgaa ttttactact 840atccagcgac aactaaaaaa gaaacagagt gagtactaag gaagactata tattttgtat 900attaacgaga agagatagtt agttacagca catccattgg agcgccggcc aaagcagata 960tatagtgtcg ttacgtttgt aatcatagtt ctggtttttc tactatgtat aattaaacat 1020aatgcaacct tcttaagacg gatgtatcaa ttcgatgggc tcattccctt ctttttttta 1080tttatcgcaa tttagtttaa aaaagatcta gcggacgata aatatttaag aatgaagata 1140gtaattatct tcagtcaata caatagtttc tcaacaatat ataatatata tttgcgcgcc 1200tgtggggtgt gtgtttttac aacacaaaca accgacaggg aattctaacg caaatgcttc 1260cgtttgtact tgattatcaa gacataaaga cgaagatggt tacgttacga tgcttctagt 1320tggcatctgc acataacatg catgcatgcg ccgggtttaa tgcataatgc tgtgtacata 1380cattatttgc agcacacacg cgtattgctc atgtgacgtg ccgcctgtct gtctatcctt 1440gaccggcact tggtaccaac cattatgttc gttgtattgc gagctagcta gctgcctgta 1500ctatataact gcagaaaggt acactacaga atgcagatgc tgcgccactg gttcgcatac 1560actattctat tccactggcc acctataaac atatgcatga caattgacaa acaagctagc 1620gtctctagaa agttggtgcc ggccatagca attattcccg actggagtga agaaaagaaa 1680ctaccatttc catgtgggtt tcctttgcat atcatagaat caagatgtaa atatctatga 1740gataccatta tagaattttg ctgacgtggc tgcattgtat gatatagtgt tgcggacagc 1800ctcagcagcc agctggagct gacaggggag ttcaaaagaa acacacgtac accaaccagc 1860tagtatctcc tcaacgacat cggctaaatt atcttgtcgg tatgcatact tttcttcgcg 1920cgcggggggc ctttcattag atgcttgcac ataaaactgc gctagctgat gctgaatctc 1980agcctaacat atatactcct atatatatat attctcttgt attttatgcc aattaatgta 2040acgcaattca gatgtgctgg ctggtcaaca cactgtgtgc atatgctggc tttcggagac 2100taaacctgga ccaagtttgg cgcccgattt ggatggtttc tggtccccta gcggcatgca 2160ggcatcagtg ggccctataa atatgcatgg agtagagcaa cctctatgca caccacacaa 2220cacaacacaa taatacagca aaggaggcta gcagaagtgc aggattaata agctaagcta 2280gtagaaatta agcaaagcat aggcacagcc ttggctacct cctctggttc ttgccttatt 2340attagcctgt tggtggtggt ggtggcggcg gcgctgtcgg cctcaacggc gtcggcacag 2400ctgtcgtcga cgttctacga cacgtcgtgc cccagcgcgt tgtccaccat cagcagcggc 2460gtgaactccg ccgtggcgca gcaggctcgt gtgggggcgt cgctgctccg gctccacttc 2520cacgactgct tcgtccaagc aagtctagct gtctcagatg catctatcta tctacttata 2580tataagcatg atttcctttc tagctagcta gcatcgtcgt gcattttaat ttgaagataa 2640aagattagca cgtcgtatat gcatgcgatt aattaaccag gaggcatcaa ggtgaaattt 2700ctggtggtcc accagggctg cgacgcgtcc attctgctga acgacacgtc cggggagcag 2760acccagccgc cgaacctaac tctgaacccg agggccttcg acgtcgtcaa cagcatcaag 2820gcgcaggtgg aggcggcgtg cgcgggcgtc gtctcctgcg ccgacatcct cgccgtcgcc 2880gcccgcgacg gagttgacgc ggtacgtagc tacatcaccg tgcctattaa tttgctggct 2940agtagcttgt tggtttgcaa actaactaac taattccgat cgtatgcgtg gtgcatatgc 3000agctcggcgg gccttcgtaa accatggtac gtcctgtaga aaccccaacc cgtgaaatca 3060aaaaactcga cggcctgtgg gcattcagtc tggatcgcga aaactgtgga attgatcagc 3120gttggtggga aagcgcgtta caagaaagcc gggcaattgc tgtgccaggc agttttaacg 3180atcagttcgc cgatgcagat attcgtaatt atgcgggcaa cgtctggtat cagcgcgaag 3240tctttatacc gaaaggttgg gcaggccagc gtatcgtgct gcgtttcgat gcggtcactc 3300attacggcaa agtgtgggtc aataatcagg aagtgatgga gcatcagggc ggctatacgc 3360catttgaagc cgatgtcacg ccgtatgtta ttgccgggaa aagtgtacgt atcaccgttt 3420gtgtgaacaa cgaactgaac tggcagacta tcccgccggg aatggtgatt accgacgaaa 3480acggcaagaa aaagcagtct tacttccatg atttctttaa ctatgccgga atccatcgca 3540gcgtaatgct ctacaccacg ccgaacacct gggtggacga tatcaccgtg gtgacgcatg 3600tcgcgcaaga ctgtaaccac gcgtctgttg actggcaggt accaagctgc gaatcttcgt 3660ttttttaagg aattctcgat ctttatggtg tataggctct gggttttctg ttttttgtat 3720ctcttaggat tttgtaaatt ccagatcttt ctatggccac ttagtagtat atttcaaaaa 3780ttctccaatc gagttcttca ttcgcatttt cagtcatttt ctcttcgacg ttgtttttaa 3840gcctgggtat tactcctatt tagttgaact ctgcagcaat cttagaaaat tagggttttg 3900aggtttcgat ttctctaggt aaccgatcta ttgcattcat ctgaatttct gcatatatgt 3960cttagatttc tgataagctt acgatacgtt aggtgtaatt gaagtttatt tttcaagagt 4020gttatttttt gtttctgaat ttttcaggtg gtggccaatg gtgatgtcag cgttgaactg 4080cgtgatgcgg atcaacaggt ggttgcaact ggacaaggca ctagcgggac tttgcaagtg 4140gtgaatccgc acctctggca accgggtgaa ggttatctct atgaactgtg cgtcacagcc 4200aaaagccaga cagagtgtga tatctacccg cttcgcgtcg gcatccggtc agtggcagtg 4260aagggcgaac agttcctgat taaccacaaa ccgttctact ttactggctt tggtcgtcat 4320gaagatgcgg acttgcgtgg caaaggattc gataacgtgc tgatggtgca cgaccacgca 4380ttaatggact ggattggggc caactcctac cgtacctcgc attaccctta cgctgaagag 4440atgctcgact gggcagatga acatggcatc gtggtgattg atgaaactgc tgctgtcggc 4500tttaacctct ctttaggcat tggtttcgaa gcgggcaaca agccgaaaga actgtacagc 4560gaagaggcag tcaacgggga aactcagcaa gcgcacttac aggcgattaa agagctgata 4620gcgcgtgaca aaaaccaccc aagcgtggtg atgtggagta ttgccaacga accggatacc 4680cgtccgcaag gtgcacggga atatttcgcg ccactggcgg aagcaacgcg taaactcgac 4740ccgacgcgtc cgatcacctg cgtcaatgta atgttctgcg acgctcacac cgataccatc 4800agcgatctct ttgatgtgct gtgcctgaac cgttattacg gatggtatgt ccaaagcggc 4860gatttggaaa cggcagagaa ggtactggaa aaagaacttc tggcctggca ggagaaactg 4920catcagccga ttatcatcac cgaatacggc gtggatacgt tagccgggct gcactcaatg 4980tacaccgaca tgtggagtga agagtatcag tgtgcatggc tggatatgta tcaccgcgtc 5040tttgatcgcg tcagcgccgt cgtcggtgaa caggtatgga atttcgccga ttttgcgacc 5100tcgcaaggca tattgcgcgt tggcggtaac aagaaaggga tcttcactcg cgaccgcaaa 5160ccgaagtcgg cggcttttct gctgcaaaaa cgctggactg gcatgaactt cggtgaaaaa 5220ccgcagcagg gaggcaaaca atgagagctc ccgcgtacag caagaagaac ctcgacgcga 5280ccgacatggt cgctctctca ggcgctcaca caatcgggca ggcccagtgc tccagcttca 5340acggccacat ctacaacgac acgaacatca acgcggcctt cgcgacgtcg ctcaaggcca 5400actgccccat gtccggcggc agcagcctgg cgccgctgga caccatgacc ccgaccgtgt 5460tcgacaacga ctactacaag aacctgctgt cgcagaaggg gctgctgcac tcggaccagg 5520agctgttcaa caacggcagc accgacagca cggtcagcaa ctttgcgtcc agctcggccg 5580ccttcaccag cgccttcacg gcggccttgg tgaagatggg gaacctcggc ccgctcaccg 5640ggaccagtgg gcagatcagg ctcacctgct ggaagctcaa ctcgtcctaa taattaagga 5700cggacgtccg atagacgatc ctgcgcaatc gtatcgtacg tgcatgatac gcatacatct 5760ggaaactact ataccaatgc aaacagagat ctatacgtac gagtatgtat aacgacgagt 5820gatgtttgta tggatctacg tatgtaacaa ggacctctcg tagcgcaaag gcgcgcgttg 5880ggagattaat taggtacaca agctattacc acattatata tcactctcat tgtggctaca 5940tatctatatc tctgaggcca aatgcttggg tgtccagtac taattaataa taattcagtg 6000cgtatgcaag atttgtgggc aaatattggt ttacgatttc ggaaaaaaca aatttcggcc 6060cccggcgaaa aacaagaaat ttccgaattt tcggaaattc taggtcaaaa tcaaatagat 6120tcaatacttt ttaaaacaaa gaatgatata atttatatta aaaataccaa ttttggaagc 6180atatattttt tcggacccca ccaaaatcaa ggcaatttcg gaaattttcg tccgaaattg 6240taaaccctgc ggaccgcgat cgcttaatta agcttgcatg cctgcagtgc agcgtgaccc 6300ggtcgtgccc ctctctagag ataatgagca ttgcatgtct aagttataaa aaattaccac 6360atattttttt tgtcacactt gtttgaagtg cagtttatct atctttatac atatatttaa 6420actttactct acgaataata taatctatag tactacaata atatcagtgt tttagagaat 6480catataaatg aacagttaga catggtctaa aggacaattg agtattttga caacaggact 6540ctacagtttt atctttttag tgtgcatgtg ttctcctttt tttttgcaaa tagcttcacc 6600tatataatac ttcatccatt ttattagtac atccatttag ggtttagggt taatggtttt 6660tatagactaa tttttttagt acatctattt tattctattt tagcctctaa attaagaaaa 6720ctaaaactct attttagttt ttttatttaa taatttagat ataaaataga ataaaataaa 6780gtgactaaaa attaaacaaa taccctttaa gaaattaaaa aaactaagga aacatttttc 6840ttgtttcgag tagataatgc cagcctgtta aacgccgtcg acgagtctaa cggacaccaa 6900ccagcgaacc agcagcgtcg cgtcgggcca agcgaagcag acggcacggc atctctgtcg 6960ctgcctctgg acccctctcg agagttccgc tccaccgttg gacttgctcc gctgtcggca 7020tccagaaatt gcgtggcgga gcggcagacg tgagccggca cggcaggcgg cctcctcctc 7080ctctcacggc accggcagct acgggggatt cctttcccac cgctccttcg ctttcccttc 7140ctcgcccgcc gtaataaata gacaccccct ccacaccctc tttccccaac ctcgtgttgt 7200tcggagcgca cacacacaca accagatctc ccccaaatcc acccgtcggc acctccgctt 7260caaggtacgc cgctcgtcct cccccccccc ccctctctac cttctctaga tcggcgttcc 7320ggtccatggt tagggcccgg tagttctact tctgttcatg tttgtgttag atccgtgttt 7380gtgttagatc cgtgctgcta gcgttcgtac acggatgcga cctgtacgtc agacacgttc 7440tgattgctaa cttgccagtg tttctctttg gggaatcctg ggatggctct agccgttccg 7500cagacgggat cgatttcatg attttttttg tttcgttgca tagggtttgg tttgcccttt 7560tcctttattt caatatatgc cgtgcacttg tttgtcgggt catcttttca tgcttttttt 7620tgtcttggtt gtgatgatgt ggtctggttg ggcggtcgtt ctagatcgga gtagaattct 7680gtttcaaact acctggtgga tttattaatt ttggatctgt atgtgtgtgc catacatatt 7740catagttacg aattgaagat gatggatgga aatatcgatc taggataggt atacatgttg 7800atgcgggttt tactgatgca tatacagaga tgctttttgt tcgcttggtt gtgatgatgt 7860ggtgtggttg ggcggtcgtt cattcgttct agatcggagt agaatactgt ttcaaactac 7920ctggtgtatt tattaatttt ggaactgtat gtgtgtgtca tacatcttca tagttacgag 7980tttaagatgg atggaaatat cgatctagga taggtataca tgttgatgtg ggttttactg 8040atgcatatac atgatggcat atgcagcatc tattcatatg ctctaacctt gagtacctat 8100ctattataat aaacaagtat gttttataat tattttgatc ttgatatact tggatgatgg 8160catatgcagc agctatatgt ggattttttt agccctgcct tcatacgcta tttatttgct 8220tggtactgtt tcttttgtcg atgctcaccc tgttgtttgg tgttacttct gcagggatcc 8280ccgatcatgc aaaaactcat taactcagtg caaaactatg cctggggcag caaaacggcg 8340ttgactgaac tttatggtat ggaaaatccg tccagccagc cgatggccga gctgtggatg 8400ggcgcacatc cgaaaagcag ttcacgagtg cagaatgccg ccggagatat cgtttcactg 8460cgtgatgtga ttgagagtga taaatcgact ctgctcggag aggccgttgc caaacgcttt 8520ggcgaactgc ctttcctgtt caaagtatta tgcgcagcac agccactctc cattcaggtt 8580catccaaaca aacacaattc tgaaatcggt tttgccaaag aaaatgccgc aggtatcccg 8640atggatgccg ccgagcgtaa ctataaagat cctaaccaca agccggagct ggtttttgcg 8700ctgacgcctt tccttgcgat gaacgcgttt cgtgaatttt ccgagattgt ctccctactc 8760cagccggtcg caggtgcaca tccggcgatt gctcactttt tacaacagcc tgatgccgaa 8820cgtttaagcg aactgttcgc cagcctgttg aatatgcagg gtgaagaaaa atcccgcgcg 8880ctggcgattt taaaatcggc cctcgatagc cagcagggtg aaccgtggca aacgattcgt 8940ttaatttctg aattttaccc ggaagacagc ggtctgttct ccccgctatt gctgaatgtg 9000gtgaaattga accctggcga agcgatgttc ctgttcgctg aaacaccgca cgcttacctg 9060caaggcgtgg cgctggaagt gatggcaaac tccgataacg tgctgcgtgc gggtctgacg 9120cctaaataca ttgatattcc ggaactggtt gccaatgtga aattcgaagc caaaccggct 9180aaccagttgt tgacccagcc ggtgaaacaa ggtgcagaac tggacttccc gattccagtg 9240gatgattttg ccttctcgct gcatgacctt agtgataaag aaaccaccat tagccagcag 9300agtgccgcca ttttgttctg cgtcgaaggc gatgcaacgt tgtggaaagg ttctcagcag 9360ttacagctta aaccgggtga atcagcgttt attgccgcca acgaatcacc ggtgactgtc 9420aaaggccacg gccgtttagc gcgtgtttac aacaagctgt aagagcttac tgaaaaaatt 9480aacatctctt gctaagctgg gagctcgatc cgtcgacctg cagatcgttc aaacatttgg 9540caataaagtt tcttaagatt gaatcctgtt gccggtcttg cgatgattat catataattt 9600ctgttgaatt acgttaagca tgtaataatt aacatgtaat gcatgacgtt atttatgaga 9660tgggttttta tgattagagt cccgcaatta tacatttaat acgcgataga aaacaaaata 9720tagcgcgcaa actaggataa attatcgcgc gcggtgtcat ctatgttact agatctgcta 9780gccctgcagg aaatttaccg gtgcccgggc ggccagcatg gccgtatccg caatgtgtta 9840ttaagttgtc taagcgtcaa tttgtttaca ccacaatata tcctgccacc agccagccaa 9900cagctccccg accggcagct cggcacaaaa tcaccactcg atacaggcag cccatcagaa 9960ttaattctca tgtttgacag cttatcatcg actgcacggt gcaccaatgc ttctggcgtc 10020aggcagccat cggaagctgt ggtatggctg tgcaggtcgt aaatcactgc ataattcgtg 10080tcgctcaagg cgcactcccg ttctggataa tgttttttgc gccgacatca taacggttct 10140ggcaaatatt ctgaaatgag ctgttgacaa ttaatcatcc ggctcgtata atgtgtggaa 10200ttgtgagcgg ataacaattt cacacaggaa acagaccatg agggaagcgt tgatcgccga 10260agtatcgact caactatcag aggtagttgg cgtcatcgag cgccatctcg aaccgacgtt 10320gctggccgta catttgtacg gctccgcagt ggatggcggc ctgaagccac acagtgatat 10380tgatttgctg gttacggtga ccgtaaggct tgatgaaaca acgcggcgag ctttgatcaa 10440cgaccttttg gaaacttcgg cttcccctgg agagagcgag attctccgcg ctgtagaagt 10500caccattgtt gtgcacgacg acatcattcc gtggcgttat ccagctaagc gcgaactgca 10560atttggagaa tggcagcgca atgacattct tgcaggtatc ttcgagccag ccacgatcga 10620cattgatctg gctatcttgc tgacaaaagc aagagaacat agcgttgcct tggtaggtcc 10680agcggcggag gaactctttg atccggttcc tgaacaggat ctatttgagg cgctaaatga 10740aaccttaacg ctatggaact cgccgcccga ctgggctggc gatgagcgaa atgtagtgct 10800tacgttgtcc cgcatttggt acagcgcagt aaccggcaaa atcgcgccga aggatgtcgc 10860tgccgactgg gcaatggagc gcctgccggc ccagtatcag cccgtcatac ttgaagctag 10920gcaggcttat cttggacaag aagatcgctt ggcctcgcgc gcagatcagt tggaagaatt 10980tgttcactac gtgaaaggcg agatcaccaa agtagtcggc aaataaagct ctagtggatc 11040tccgtacccg gggatctggc tcgcggcgga cgcacgacgc cggggcgaga ccataggcga 11100tctcctaaat caatagtagc tgtaacctcg aagcgtttca cttgtaacaa cgattgagaa 11160tttttgtcat aaaattgaaa tacttggttc gcatttttgt catccgcggt cagccgcaat 11220tctgacgaac tgcccattta gctggagatg attgtacatc cttcacgtga aaatttctca 11280agcgctgtga acaagggttc agattttaga ttgaaaggtg agccgttgaa acacgttctt 11340cttgtcgatg acgacgtcgc tatgcggcat cttattattg aataccttac gatccacgcc 11400ttcaaagtga ccgcggtagc cgacagcacc cagttcacaa gagtactctc ttccgcgacg 11460gtcgatgtcg tggttgttga tctagattta ggtcgtgaag atgggctcga gatcgttcgt 11520aatctggcgg caaagtctga tattccaatc ataattatca gtggcgaccg ccttgaggag 11580acggataaag ttgttgcact cgagctagga gcaagtgatt ttatcgctaa gccgttcagt 11640atcagagagt ttctagcacg cattcgggtt gccttgcgcg tgcgccccaa cgttgtccgc 11700tccaaagacc gacggtcttt ttgttttact gactggacac ttaatctcag gcaacgtcgc 11760ttgatgtccg aagctggcgg tgaggtgaaa cttacggcag gtgagttcaa tcttctcctc 11820gcgtttttag agaaaccccg cgacgttcta tcgcgcgagc aacttctcat tgccagtcga 11880gtacgcgacg aggaggttta tgacaggagt atagatgttc tcattttgag gctgcgccgc 11940aaacttgagg cagatccgtc aagccctcaa ctgataaaaa cagcaagagg tgccggttat 12000ttctttgacg cggacgtgca ggtttcgcac ggggggacga tggcagcctg agccaattcc 12060cagatccccg aggaatcggc gtgagcggtc gcaaaccatc cggcccggta caaatcggcg 12120cggcgctggg tgatgacctg gtggagaagt tgaaggccgc gcaggccgcc cagcggcaac 12180gcatcgaggc agaagcacgc cccggtgaat cgtggcaagc ggccgctgat cgaatccgca 12240aagaatcccg gcaaccgccg gcagccggtg cgccgtcgat taggaagccg cccaagggcg 12300acgagcaacc agattttttc gttccgatgc tctatgacgt gggcacccgc gatagtcgca 12360gcatcatgga cgtggccgtt

ttccgtctgt cgaagcgtga ccgacgagct ggcgaggtga 12420tccgctacga gcttccagac gggcacgtag aggtttccgc agggccggcc ggcatggcca 12480gtgtgtggga ttacgacctg gtactgatgg cggtttccca tctaaccgaa tccatgaacc 12540gataccggga agggaaggga gacaagcccg gccgcgtgtt ccgtccacac gttgcggacg 12600tactcaagtt ctgccggcga gccgatggcg gaaagcagaa agacgacctg gtagaaacct 12660gcattcggtt aaacaccacg cacgttgcca tgcagcgtac gaagaaggcc aagaacggcc 12720gcctggtgac ggtatccgag ggtgaagcct tgattagccg ctacaagatc gtaaagagcg 12780aaaccgggcg gccggagtac atcgagatcg agctagctga ttggatgtac cgcgagatca 12840cagaaggcaa gaacccggac gtgctgacgg ttcaccccga ttactttttg atcgatcccg 12900gcatcggccg ttttctctac cgcctggcac gccgcgccgc aggcaaggca gaagccagat 12960ggttgttcaa gacgatctac gaacgcagtg gcagcgccgg agagttcaag aagttctgtt 13020tcaccgtgcg caagctgatc gggtcaaatg acctgccgga gtacgatttg aaggaggagg 13080cggggcaggc tggcccgatc ctagtcatgc gctaccgcaa cctgatcgag ggcgaagcat 13140ccgccggttc ctaatgtacg gagcagatgc tagggcaaat tgccctagca ggggaaaaag 13200gtcgaaaagg tctctttcct gtggatagca cgtacattgg gaacccaaag ccgtacattg 13260ggaaccggaa cccgtacatt gggaacccaa agccgtacat tgggaaccgg tcacacatgt 13320aagtgactga tataaaagag aaaaaaggcg atttttccgc ctaaaactct ttaaaactta 13380ttaaaactct taaaacccgc ctggcctgtg cataactgtc tggccagcgc acagccgaag 13440agctgcaaaa agcgcctacc cttcggtcgc tgcgctccct acgccccgcc gcttcgcgtc 13500ggcctatcgc ggccgctggc cgctcaaaaa tggctggcct acggccaggc aatctaccag 13560ggcgcggaca agccgcgccg tcgccactcg accgccggcg ctgaggtctg cctcgtgaag 13620aaggtgttgc tgactcatac caggcctgaa tcgccccatc atccagccag aaagtgaggg 13680agccacggtt gatgagagct ttgttgtagg tggaccagtt ggtgattttg aacttttgct 13740ttgccacgga acggtctgcg ttgtcgggaa gatgcgtgat ctgatccttc aactcagcaa 13800aagttcgatt tattcaacaa agccgccgtc ccgtcaagtc agcgtaatgc tctgccagtg 13860ttacaaccaa ttaaccaatt ctgattagaa aaactcatcg agcatcaaat gaaactgcaa 13920tttattcata tcaggattat caataccata tttttgaaaa agccgtttct gtaatgaagg 13980agaaaactca ccgaggcagt tccataggat ggcaagatcc tggtatcggt ctgcgattcc 14040gactcgtcca acatcaatac aacctattaa tttcccctcg tcaaaaataa ggttatcaag 14100tgagaaatca ccatgagtga cgactgaatc cggtgagaat ggcaaaagct ctgcattaat 14160gaatcggcca acgcgcgggg agaggcggtt tgcgtattgg gcgctcttcc gcttcctcgc 14220tcactgactc gctgcgctcg gtcgttcggc tgcggcgagc ggtatcagct cactcaaagg 14280cggtaatacg gttatccaca gaatcagggg ataacgcagg aaagaacatg tgagcaaaag 14340gccagcaaaa ggccaggaac cgtaaaaagg ccgcgttgct ggcgtttttc cataggctcc 14400gcccccctga cgagcatcac aaaaatcgac gctcaagtca gaggtggcga aacccgacag 14460gactataaag ataccaggcg tttccccctg gaagctccct cgtgcgctct cctgttccga 14520ccctgccgct taccggatac ctgtccgcct ttctcccttc gggaagcgtg gcgctttctc 14580atagctcacg ctgtaggtat ctcagttcgg tgtaggtcgt tcgctccaag ctgggctgtg 14640tgcacgaacc ccccgttcag cccgaccgct gcgccttatc cggtaactat cgtcttgagt 14700ccaacccggt aagacacgac ttatcgccac tggcagcagc cactggtaac aggattagca 14760gagcgaggta tgtaggcggt gctacagagt tcttgaagtg gtggcctaac tacggctaca 14820ctagaagaac agtatttggt atctgcgctc tgctgaagcc agttaccttc ggaaaaagag 14880ttggtagctc ttgatccggc aaacaaacca ccgctggtag cggtggtttt tttgtttgca 14940agcagcagat tacgcgcaga aaaaaaggat ctcaagaaga tcctttgatc ttttctacgg 15000ggtctgacgc tcagtggaac gaaaactcac gttaagggat tttggtcatg agattatcaa 15060aaaggatctt cacctagatc cttttgatcc ggaatta 150978335DNAArtificial sequencemisc_feature(1)..(35)5' Bfr1 primer 83cctggtggag tgcttaagcg acgagttctg cctgg 358436DNAArtificial sequencemisc_feature(1)..(36)3'Xba1 primer 84gggcttctcc tccaggaact ctagattgcc caggcg 368537DNAArtificial sequencemisc_feature(1)..(37)5'Gfix primer 85catcggcaag tgccaccaca gccaccactt cagcctg 378630DNAArtificial sequencemisc_feature(1)..(30)3'Gfix primer 86gctgtggtgg cacttgccga tggggctggg 308733DNAArtificial sequencemisc_feature(1)..(33)5'1Ab5XbaI primer 87gcccgcctgg gcaatctaga gttcctggag gag 338837DNAArtificial sequencemisc_feature(1)..(37)3'1Ab3d6 primer 88gcgagctcct agatgcggcc ctcgagttcc tcgaaga 378929DNAArtificial sequencemisc_feature(1)..(29)oligonucleotide cy2' 89ccctgtacgg cacgatgggc aacgctgca 299030DNAArtificial sequencemisc_feature(1)..(30)oligonucleotide cy1 90atatatccac catggacaac aaccccaaca 309131DNAArtificial sequencemisc_feature(1)..(31)oligonucleotide cy2 91tatatagagc tcctagatgc ggccctcgag t 31

Claims

1. An isolated polynucleotide comprising a promoter sequence operably-linked to a Cry1Ab coding sequence comprising nucleotides 2325-5142 of SEQ ID NO:37.

2. The isolated polynucleotide according to claim 1, wherein the promoter is functional in a transgenic plant leaf tissue and not in pollen.

3. A transgenic plant comprising the polynucleotide according to claim 2.

4. The transgenic plant according to claim 2, wherein the Cry1Ab coding sequence is transcribed in leaf tissue and not in pollen.

5. The transgenic plant according to claim 4, wherein a Cry1Ab protein encoded by the Cry1Ab coding sequence is expressed in leaf tissue at a level that is at least 50 ng/mg extractable protein.

6. The transgenic plant according to claim 5, wherein the plant is Zea mays.

7. The transgenic plant according to claim 6, wherein the leaf tissue is active against corn earworm or European corn borer.

8. The transgenic plant according to claim 3, wherein the plant comprises SEQ ID NO:37.

9. A transgenic plant according to claim 3, wherein the concentration of a Cry1Ab protein in pollen is such that no insecticidal activity can be detected in an insect pollen feeding bioassay.

10. A method of controlling target insect pests feeding on vegetative plant tissues and protecting non-target pests feeding on pollen comprising growing the transgenic plant according to claim 3 in an area that is infested with the target pest.

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