Genesisolated from barley cvMorex by physical mapping and BAC sequencing

1-SST

Genomic sequence (promoter region in red, exons in black, and intronsin light blue); Yellow highlighting represents binding sites of TaMYB13(non-underlined and underlined text represent binding sites on forward and reverse strands, respectively).

CTGCTGTTGCTTCACTGGAGGACCGGAATCTCGCCAGTTGATTCCGGGCGGGTGGCTGCTGGCCGTCCGTCCACATGCGTCCACAGTAACCAAAGGCGACCCGTGGCCCACACGCATGTCTGCTTTTCTCGCCAGCAAGTTTCCAGGAGCAGGAGCAGGCATGTGGTGCATCATGTCCAGTAACTGTCCTAAGAGTTCCACCAAGCTAAATTTCCGGTGTTTCCTATCTGTAATCCTCTGGGTGTGTGGGTTATGTAAGATCTCGCGATAACCATTTCCCCGAAAAGGTCGCCGCCGACAACGGCACAATAGTTGTTGTTGACAAAATCATTGTGCGTAGCCGCGTTGAAGAAATATCCAAGTCGGCCGAGAGCGCTGCACGAAACTTGATCGCCCACCTCTCGTATAGGATCACAGAAGGTGGGGTTTGGGAGGTATGCTATCTCACTTTGCGGTGCATGTCGACGATAAATATGGCTTGACAACAGGCTGTCCAATGACTTTCCTCCTGGTATGTTTTCACCGGGCTTGAAGCGGTATCCGCGACCTCTGGGTCAACTGGTTCTTGTCCAGTAACATCCCGCCAACCTTAGGGTTCTCAGCCTTTTTCGAATCATTGCCAGTCGCCTTATTGGTTCTTGCGTCTGTTCGTGACTTGCTAGGAATATCGGCATAGATCCAATCCCCGAACTTGAGCCACTTCTCATCGTGAACCCCCAGTTCAGATTCTTTGTGTTCGTGACCAATGAGGCCACACATCTTACAAAAACCTAGGAAGCTTTTCATAGCGAACCAGGTATACCTGACATTCCTTAGCCCGGACACGAGAGCCTGTCGGATGTCATGTTTCACCCTCACCCTAACATAATCACCTCGTGTGTTCCCCGTCCAGACGCATCTCCATTATCTCCTAGCTCCTTTCAACAACTTCTTCATAATATTCTGCTTACAGTATGGGTTTGGTAACTTGTGAATCTGCAACCATATTGGCATATTAAAGAAGTCTACTTCCTCAGCTTTGCTGAAGCCATCATATGGGCACAAGAGCACAACCATATTGCAGAACAACCAAGGACCTTGCAGCATGATGCGTTCCCAGTCTCCCAAACAGGATGCTTGGACGACAAAACGATTAGGGTCGACGGGCCGAAATCTCACTCTTTGTGCCGGATTCCACGCAGCTCTCATATCCTTGTAGAAGGCCGACGGGCTGAAGTTTTTGTATGTATGAACCCTAGCTAGGGCAAGCCAGCAAACACTTTTCTAAATCTCGGGGTCATCATTATCAATTTCTACGTCAGCGAAATCTTCATCATTCAGATCCAGTTGATCGAAGAAGTCACCCAGATCCGATTTCGCAGTTGCGGCGACGCCGCCGCCACTCGTGGCGGAGTGGGCATCGGAGAGAGACGCCATCACCGATTCCTGAAGCCGCGTGAGCGACACAGCAGGCTTGGTGAAGGCGGACGTAGCTCGGGGGCGATCGGAGGGAAGATGTGTTTGGGTAGGACTCAGAGACGATCGGGATCGCTTAAAAGGAGAGAAACCCTAGCCAGACGAGCATACGGGATAATGCGAGGGATACGCATACGCTGATAATAACTTGTACAAGGAAATGTTTTGCGATGAGAATAGACCCGACCTATCGTCCACCCATTCTGTCACATCCAGCACCACAACCGTAGATCTCGAGACTGGCCATTAGCACAAGAGCAATAATGCCTTCTCATTACCATTAGAACAAGAACAAAGATGAGCATGTGCAACTAAGTGTGAGGTGTTTTTTGTTTTGTACTCGTACAACGGGACGGTAGATGCCAAAACCCTACGCAAAACCCCACAGCTGGTTCCGTTCCACCCCCCAAATAAAAATGCCATATTTACCCCCGAAACCCAGCTATAAAATCTGCCCCAAACTGAAGCCACCACCCATCCATCCATCGGCCAGGAAACAATCTACCCACCCACCTCGGGATCATCGGGCCTGCACCGGCGGCGCCATGGATTCCTCTCGCGTCATTCTCATCCCCGGCACGCCGCCGCTGCCCTACGCCTACGAGCAGCTGCCCTCCTCCTCCGCCGACGCCAATGGCCAGGAGGAGCAGCGGGCCGGCGGTGGCCTGAGGTGGCGCGTGTGCGCCGCCGTGCTTGCCGCCTCGGCCGTGCTGGCGCTCGTCGTCGCCGCCGCGGTCTTCGGGGCCGGTGTGGCGGGCCGTGACGCGGTGGCCGGCTCCGTGCCGGCCATTCCGGCGACGGAGTTCCCGAGGAGCAGGGGCAAGGAGCACGGCGTGTCGGAGAAGACATCGGGGGCCTACTCCGCCAACGGCGGCTTCCCGTGGAGCAACGCCATGCTGCAGTGGCAGCGCACCGGCTTCCATTTCCAGCCGGACAAGTACTACCAGAACGGTACCTACCGTCCCACTTCAGATCCACATTTCTTTTCCTTTTTCCCCGCTTGGTTTGATCGAGAAACTGACCTCTGCTACCTGTTCGCTCCCCGGCGGCGGCATTCTCCGGCGACATCACGCAGATCCCAACGGTCAGCACCACCCACCACATAATAACTATTCTACGGGTCGAATATTCTCGTCAAGAGATTCCTCACCTGTGGAATCTTTTTTTCTTAAAGCTTTGGAATACATTGACTGAAGCGCATTGTGTGCGTGCATCCATGGCAGGTCCGGTGTACTACGGCGGATGGTACCACTTCTTCTACCAGTACAACCCGTCGGGGTCGGTGTGGGAGCCGCAGATAGTGTGGGGCCACGCCGTGTCCAAGGACCTGATCCACTGGCGCCACCTCCCGCCGGCCTTGGTGCCGGACCAGTGGTACGACATCAAGGGCGTGCTCACCGGCTCCATCACCGTGCTCCCCGACGGCAAGGTCATCCTCCTCTACACCGGCAACACCGAGACCTTCGCTCAGGTGACCTGCCTCGCCGAGCCGGCCGACCCGAGCGACCCGCTCCTCCGCGAGTGGGTGAAGCACCCGGCGAACCCCGTCGTGTTCCCGCCGCCGGGCATCGGGATGAAGGACTTCCGCGACCCCACGACGGCGTGGTTCGACGCCTCCGACGGCACGTGGCGCACCATCATCGGGTCCAAGAACGACACCGACCACTCGGGCATCGTCTTCTCGTACAAGACGAAGGACTTCGTGAGCTACGAGCTGATGCCAGGGTACATGTACCGCGGGCCCAAGGGCACCGGCGAGTACGAGTGCATCGACCTCTACGCCGTCGGGGGCGGCAGCAAGGCCAGCGACATGTACAACTCGACGGCGGAGGACGTGCTGTACGTGCTCAAGGAGAGCAGCGACGACGACCGGCACGACTGGTACTCGCTCGGCCGGTTCGACGCCGCCGCCAACAAGTGGACGCCGATCGACGACGAGCTCGAGCTCGGCGTCGGGCTACGGTACGACTGGGGAAAGTACTACGCGTCCAAGTCATTCTACGACCCCGTGAAGAAGCGGCGCGTCGTGTGGGCGTACGTCGGCGAGACCGACTCGGAGCGCGCCGACATCACCAAGGGCTGGGCCAACCTCCAGGTAAAGAAACCATCACCCACACTTACTTAAAGTGCATGCATTGACATGATGATTGTCCTAATTACCATACGAATTATTATGATCGCATTGATCTTCATCATTGTTGGGTGGGGTAGATCGTGACAGCCATGGGCCAGTAACAACAGTACAGTGCGTAGGCAGGGTGGCTAGCTGTGCAGTGATGGTGTGGTTTGTCGTTTTTGTTGGGTGTAAAAAAACAAATAACGGACGGCTGATCTAGGGTGTGGGCTGCTGTCTAGCTGAGCTGTCAAAAGCTTCAGATCTGGAGAACGTGGTCGGTCCCTTGCTGGCTGCACCCTCGATTTGGTATCTAGTTAATTACTTAATTAATTCCCCAGAAGCATGGAAGCATCTGCCTACTTTCATCACCAAATGACAAACACATAGTACTGCTACAACTGATACTAGGTAATTATGTAAGTATTGTTGCGGTAATGAATTTGTGTCACAAAAATTAGATAGCAATAACAAAGTAAGCGTTGGTCAAAAGTTTATGCCAACCAAGCATGGTACACGGTGCATTTTGAAACGGAGATAATATGTAAGAGTAGTATGTTTTTCCCTCTTCTTCCTAGTAGTAGTATATTAACCATCAAGGTATGTGAGGTGAATGATGGTTAATTAATATTTACTTGTCTGTCGATAGGCCGGCCGGCAGGGCGGCTGAATTAGGAGTAGTTTTCTTTGGTCACTTTCACTAGTATCTCTCTGCAACTTCCAAGTTGCAAAAGCCAATGCACTGTCGTTCAAGAGCTCGTTTCACCATCTCTAGCGTAGCTCAACTATTATCATTATCACATATACAAAAACACATCATGTGCATGCCTAGTCAGTAGCACGTGGAGAGATTTGTCCGGTCCTAGCTAACAAACCACACCAAATCAAATCACGACTTTCTTCCTTCAAATCTTTGATGTTGTTTATGTCAACCTTTTTGTTCCTGTGGTGTTTTCTTTAATGGAAATAAGTAGAGGGCGCGGGACCCTTTATATTAATTAAACAGGAGCCAATTTTTGGTCATGTCTTCTTTTCAAGGTCTTGATTTTGATGTGCACTCATGATTGGTGGATGTACTTAAGCTTAACTATTTAAATTATTATTCTAAAGACACTATTTGAATTATTGAACCAACTGAATTAATGGTGTACGATGTGTGCGCAGTCGATTCCGAGGACGGTGGAGCTTGACGAGAAGACCCGGACGAACCTCATCCAATGGCCGGTGGAGGAACTCGACACCCTCCGCATCAACACCACCGATCTCAGTGGCATCACTGTCGGCGCCGGCTCCGTTGTCCCCCTCCACCTCCACCAGACCGCTCAGCTCGACATCGAGGCAACCTTCCACATTGACGCCTCCGCCATCGAGGCCGTCAATGAGGCAGATGTCAGCTACAACTGCACCACCAGCAGTGGCGCCGCCACCCGCGGTGCCCTTGGACCCTTCGGTCTCCTCGTCCTCGCCAACCGCGCCCTGACCGAACAGACGGGGGTGTACTTCTATGTGTCCAAGGGCCTCGACGGCGCTCTTCGGACTCACTTCTGCCACGACGAGTTGCGATCATCACATGCTAGCGATGTGGTGAAGCGGGTGGTGGGTAGCACAGTGCCGGTGCTCGACGGCGAGGACTTTTCTGTCCGGGTGCTCGTGGACCACTCCATTGTCCAAAGCTTCGCGATGGGTGGGAGGTTGACGGCGACGTCGAGGGCGTACCCGACCGAGGCCATCTATGCGGCGGCGGGGGTCTACCTGTTCAACAATGCCACCGGCACGAGCGTCACCGCTGAGAAACTCATCGTGCACGATATGGACTCGTCGTACAACCATATATACACAGACGACGACTTGGTAGTCGTCGGTTAG

Predictedcoding sequence

ATGGATTCCTCTCGCGTCATTCTCATCCCCGGCACGCCGCCGCTGCCCTACGCCTACGAGCAGCTGCCCTCCTCCTCCGCCGACGCCAATGGCCAGGAGGAGCAGCGGGCCGGCGGTGGCCTGAGGTGGCGCGTGTGCGCCGCCGTGCTTGCCGCCTCGGCCGTGCTGGCGCTCGTCGTCGCCGCCGCGGTCTTCGGGGCCGGTGTGGCGGGCCGTGACGCGGTGGCCGGCTCCGTGCCGGCCATTCCGGCGACGGAGTTCCCGAGGAGCAGGGGCAAGGAGCACGGCGTGTCGGAGAAGACATCGGGGGCCTACTCCGCCAACGGCGGCTTCCCGTGGAGCAACGCCATGCTGCAGTGGCAGCGCACCGGCTTCCATTTCCAGCCGGACAAGTACTACCAGAACGATCCCAACGGTCCGGTGTACTACGGCGGATGGTACCACTTCTTCTACCAGTACAACCCGTCGGGGTCGGTGTGGGAGCCGCAGATAGTGTGGGGCCACGCCGTGTCCAAGGACCTGATCCACTGGCGCCACCTCCCGCCGGCCTTGGTGCCGGACCAGTGGTACGACATCAAGGGCGTGCTCACCGGCTCCATCACCGTGCTCCCCGACGGCAAGGTCATCCTCCTCTACACCGGCAACACCGAGACCTTCGCTCAGGTGACCTGCCTCGCCGAGCCGGCCGACCCGAGCGACCCGCTCCTCCGCGAGTGGGTGAAGCACCCGGCGAACCCCGTCGTGTTCCCGCCGCCGGGCATCGGGATGAAGGACTTCCGCGACCCCACGACGGCGTGGTTCGACGCCTCCGACGGCACGTGGCGCACCATCATCGGGTCCAAGAACGACACCGACCACTCGGGCATCGTCTTCTCGTACAAGACGAAGGACTTCGTGAGCTACGAGCTGATGCCAGGGTACATGTACCGCGGGCCCAAGGGCACCGGCGAGTACGAGTGCATCGACCTCTACGCCGTCGGGGGCGGCAGCAAGGCCAGCGACATGTACAACTCGACGGCGGAGGACGTGCTGTACGTGCTCAAGGAGAGCAGCGACGACGACCGGCACGACTGGTACTCGCTCGGCCGGTTCGACGCCGCCGCCAACAAGTGGACGCCGATCGACGACGAGCTCGAGCTCGGCGTCGGGCTACGGTACGACTGGGGAAAGTACTACGCGTCCAAGTCATTCTACGACCCCGTGAAGAAGCGGCGCGTCGTGTGGGCGTACGTCGGCGAGACCGACTCGGAGCGCGCCGACATCACCAAGGGCTGGGCCAACCTCCAGTCGATTCCGAGGACGGTGGAGCTTGACGAGAAGACCCGGACGAACCTCATCCAATGGCCGGTGGAGGAACTCGACACCCTCCGCATCAACACCACCGATCTCAGTGGCATCACTGTCGGCGCCGGCTCCGTTGTCCCCCTCCACCTCCACCAGACCGCTCAGCTCGACATCGAGGCAACCTTCCACATTGACGCCTCCGCCATCGAGGCCGTCAATGAGGCAGATGTCAGCTACAACTGCACCACCAGCAGTGGCGCCGCCACCCGCGGTGCCCTTGGACCCTTCGGTCTCCTCGTCCTCGCCAACCGCGCCCTGACCGAACAGACGGGGGTGTACTTCTATGTGTCCAAGGGCCTCGACGGCGCTCTTCGGACTCACTTCTGCCACGACGAGTTGCGATCATCACATGCTAGCGATGTGGTGAAGCGGGTGGTGGGTAGCACAGTGCCGGTGCTCGACGGCGAGGACTTTTCTGTCCGGGTGCTCGTGGACCACTCCATTGTCCAAAGCTTCGCGATGGGTGGGAGGTTGACGGCGACGTCGAGGGCGTACCCGACCGAGGCCATCTATGCGGCGGCGGGGGTCTACCTGTTCAACAATGCCACCGGCACGAGCGTCACCGCTGAGAAACTCATCGTGCACGATATGGACTCGTCGTACAACCATATATACACAGACGACGACTTGGTAGTCGTCGGTTAG

Predictedprotein sequence

MDSSRVILIPGTPPLPYAYEQLPSSSADANGQEEQRAGGGLRWRVCAAVLAASAVLALVVAAAVFGAGVAGRDAVAGSVPAIPATEFPRSRGKEHGVSEKTSGAYSANGGFPWSNAMLQWQRTGFHFQPDKYYQNDPNGPVYYGGWYHFFYQYNPSGSVWEPQIVWGHAVSKDLIHWRHLPPALVPDQWYDIKGVLTGSITVLPDGKVILLYTGNTETFAQVTCLAEPADPSDPLLREWVKHPANPVVFPPPGIGMKDFRDPTTAWFDASDGTWRTIIGSKNDTDHSGIVFSYKTKDFVSYELMPGYMYRGPKGTGEYECIDLYAVGGGSKASDMYNSTAEDVLYVLKESSDDDRHDWYSLGRFDAAANKWTPIDDELELGVGLRYDWGKYYASKSFYDPVKKRRVVWAYVGETDSERADITKGWANLQSIPRTVELDEKTRTNLIQWPVEELDTLRINTTDLSGITVGAGSVVPLHLHQTAQLDIEATFHIDASAIEAVNEADVSYNCTTSSGAATRGALGPFGLLVLANRALTEQTGVYFYVSKGLDGALRTHFCHDELRSSHASDVVKRVVGSTVPVLDGEDFSVRVLVDHSIVQSFAMGGRLTATSRAYPTEAIYAAAGVYLFNNATGTSVTAEKLIVHDMDSSYNHIYTDDDLVVVG*

1-FFT

Genomic sequence (promoter region in red, exons in black, and intronsin light blue); Yellow highlighting represents binding sites of TaMYB13(non-underlined and underlined text represent binding sites on forward and reverse strands, respectively).

GGCTGGCAGTGCTACCTCATCACCTTGCATTGCATGGTTCAACGGAATGTTTTGTTCAGTTGTTGCTTTCCGTAGAAAGTGAGACGAAAGCCAAATTCTGATCAAAGATGACATACAATACACGGCTGTGGCACAGCCGAGTCAGCGTCGGCCACCATGCGCTCCGCACACGTGTACGGTGTGCCACGGCTCACCCGGAGCGACGGAGCAGCAGCCTCCCCTGTGTATGAAGAGCTTTGCTACGGATACGGGAATATTTTACAAAGGATTACGGATGAGCTGGTGTATCCAGATTTAATTGGTTGTTAGATGGAAGCCGACCCCACCATGAAAATGGGGGGGGGGGGGAAGATTAGTTGTGGGGAGAGAAGGATCTGTAAAACATCCGTAATTATCCGTACGTCTAGCATTTTTGATGTATGAAACAAAGAGAGTGAAAGCCTCTTTGATATAGTACTCCCTCCGTTTTTAAATATACGTTTTTATAAAAAAATTATTAAAAAATCACATACGAATATATATATAGACATATTTTAGAATGTATATTCATTTATTTTATTTTGTATGCAGTTTTCTAATAAAACCTCTATATAAACTTATGCTTAGGAATGGAAGGAGTAAATGATATGACGAGTGAGCGAACTATTATTGCTGATTCCATTCCATGGCTGTGCTTCCTCTGTTGTAGTGTGGCTACACTATTATTGCTGATTTTATTTGGATCTCCCGGCATTCTGCTGCTCCACATGTGTGCTGCTGCGTGATTGATTGGAGCATGCACTCACTTAATCCCGGTTGGTGGCTCTCGACATGCATCGATGGCTAAGAAAAGTAACCATTGCCCATCACATCTGGCTGTCGACATGCATTCGGCTTATATGGTTTTCAGTACTATGTATGATACTGATACTTTGGTAAATACACTATAAAGTCAAGGCATTGTTTGCCTTTCATATATATGGTATGAAATTAAAACCAGAAGACTTGGCCAAAATAAAAAAATCAATGTAGTTGATCATAACCTCTTGACAAAAATCTTATGCGACGACAAAACCAGGATATAGACCCACGCTATCATCCACCCATTCTGAGGAGCCAACACAGAGGACCATATGACAGTGGTCACCTTTTGCGTCTACATACTCCCTTTTACAAAACAACCATTGTTTCCTTCTTAACTTACTTAGCGATAATCTCTGGGACATGCAATCTTCAAAAGGCAGATGAGGCGGCAAATTCTTGAAAAAGGTTAAGTTAATGCCCTAACAACGATAAAACAAAATATCCATGCTCTATAAAGTCATTTTTAAAAGCATGCATGGAACTTGTTTTTTAACACTTTGCACAAAAGTTGGTTTGTTTCCTTGGATATCTATGTGAACTAAGAGCATCAGCAGACATAGCAAAAATAACCCCTAAATGCTTGCGAACGAGTCCGGTCAATGATTGGACATGTTTTTTATTTATCTGTTCGCGTAGACACAATTTTTTATTTTTCTTCTCATATGTCTCATCATCTGTACGTGATCGATGGAGAAGAAGAGAAAAATAAAATGTGAATAAAAAAGAAAATGTGGTCTGAGGTGGGGGCGTGTCCTGCATGACGGACTAACCGGACGCGTGCGAGCCCTCATATTATTTCTATATTTGAGATGAATAGATGGTTCGCAAACAACAAGGATGTATAAGGATGATATGAAGGGTCCGGTTGAATTATATTTATTTTTCTTTTCTTCTATGTGATCATTGATCGGATACGCCCACGATCGGTACGAGGGATTGTTTGAGGCGTCCGGTTAGATATGCTCTAAGCGTGAGGTGTTTCTCCTATTGAAATTCCCATCTTTAAACCCAAACCCCAGCTACAAATCTCCCTCTTGTGTGAAGAAAAGCTCGTGTATAAATCTCCCTCGCGCCCCCACTCAACCCACCACCCACCGTCGGTGTGAAAAAATCTAGCACCAAATTCCTACGGGATTCTCCTGGCGAGCGGCGGCGCCATGGCATCGTCACGCGGCATCCTCATCCCCGGCACGTACGAGCCGCTGCCCTTCGCCGACGCCAACGGCCAGGACGACCGGCCGACCAGCGGCGGCGTGAGGTGGCGCGCGTGGGCCGCCGCGCTGGCCGCCTCGGCCGTGGCGATGCTCGTCGTCGCCGCCGCGGTCTTTGGGGCCAGACGGGTGGATCCGGACGCGGTGGCCTCCTCCGTACCGGCTACGTCGGAGCACGGCGTGTCGGAGAAGACGCCGGGCACCTACTCCGGCAACGGCGGCTACCCGTGGAGCAACGCCATGCTGCAGTGGCAGCGCACCGGCTTCCACTTCCAGCCGGAGAAGAACTACATGAACGGTACTGACCGAGTTCATCCGTGGGACTAAAATTTTCAGATTCGGTTTCCGTATTATTTTCTCGGGCGTGGTTTGATCCAGAAACTGACCTCCTGCCTCTGCTTCCTGTTTGCTCGCCGCCGGTGGCATTCTCCGGCGACGTCCGTGCAGATCCCAACGGTTAGTACTACTACACGCTCCACCCCGAATCCTCCCAATCGATTATTCATGTTCAGTAATTCTGTGTCCTGTGCGGAATATATGAACTGAAACTCAGACAGAGTTCCAAATTGCACCAGGTTGAACAGTAAATATTAGAAAAAAATCAACAAATTCTGGATTGTTTTTTATGAACATTGATGAATGTTTTACCTCCGTACGAAAACTCAGGGTGAAATTATATTTGATTTGAGGAGGTCAGGGCAAAAAAAAGATAAAATTGATGCTTCAAAAAGACTAGTTTTCAGACCATTTTGGAGTATCGATTTACCGTTTATCCGGGTGCATATATGCTCAGGATTAGAAGACCATTTTCGCTGAAATGCATCGTCGTCCTCTGCAGGTCCGGTGTACTACAGAGGATGGTACCACTTCTTCTACCAGCACAACCCCGGGGGCACTGGATGGGGCAACATCTCATGGGGCCACGCCGTGTCACGGGACATGGTCCACTGGCGCCACCTCCCGCTGGCCATGGTGCCCGACCACTGGTACGACATCGAGGGCGTCCTCACCGGCTCCATCACGGTGCTCCCCGACGGCAGGGTCATCCTCCTCTACACCGGCAACACCGAGACCTTCGCGCAGGTGACCTGCCTCGCAGAGGCCGCCGACCCAAGCGACCCCCTCCTCCGCGAATGGGTGAAGCACCCGGCCAACCCCGTCGTGTTCCCGCCGCCCGGCATCGGCATGAAGGACTACCGCGACCCAACGACGGCGTGGTTCGACAGCTCCGACAACACGTGGCGCATCATCATCGGGTCCAAGAACGACTCCGACCACTCCGGCGTCGTCTTCACGTACAAGACCAAGGACTTCGTCAGCTACGAGATGATCCCAGGGTACCTGTACCGCGGCCTCGCCGGCACCGGCATGTACGAGTGCATCGACATGTACGCCGTGGGCGGCGGCCGCAAGGCCAGCGACATGTACAACTCGACGGCGGAGGGCGTGCTGTACGTGCTGAAAGAGAGCAGCGACGACGACCGGCGAGACTATTACGCGCTCGGGAGGTTCGACGCGGCGGCCAACACATGGACGCCCATCGACGCCGGGCTGGAGCTCGGTGTCGCCCTGCGCTACGACTATGGCAGGTACGACGCGTCCAAGTCCTTCTACGACCCCGTGAAGCAGCGGCGGATCGTGTGGGGGTACGTCGTCGAGACCGACTCCTGGACCGCCGACGCCGCCAAGGGCTGGGCCAACCTCCAGGTAACCATCATCGACATCACTGTTAGTCGTCATTTGCTGCACCGTTGGATTATATTGGATTAATGGTGTGTGATGTGTTTGCAGTCGATTCCGAGGACGGTGGAGCTTGACGAGAAGACACGGGCGAACCTCATCCAATGGCCGGTGGAGGAGCTCGACACCCTCCGCATCAACACCACCGATCTGAGCGGCATCACTGTCGGCGCCGGCTCCGTCGTCTCCCTCCCCCTCCACCAGACCTCCCAACTCGACATCGAGGCATCCTTCCGCCTCAACGCCTCAACAATTGAGGCCCTCAACGAGGCCGACGTCGGCTACAACTGCACCACCAACGGCGGCGCTGCCACCCGCGGCGCACTTGGCCCCTTCGGCATTCTCGTCCTCGCCAACGCCGCCCTGACCGAACAGACGGCGGTGTACTTTTATGTGTCCAAGGGCCTCGACGGCGGCCTTCGAACGCACTTCTGCCACGATGAGTTGCGGTCGTCGCATGCTACCGATGTGGCGAAGGAGGTGGTGGGTAGCACGGTGCCGGTGCTCGACGGCGAGGATTTTTCCGTCAGGGTGCTCGTGGATCACTCCATCGTGCAGAGCTTCGTGATGGGCGGGAGGTTGACGGCGACGTCGAGGGCGTACCCGACGGAGGCCATTTACGCGGCGGCGGGGGTCTACCTGTTCAACAATGCCACCAGCGCCGCCGTCATCGCTGAGAAGCTCGTCGTGCACGACATGGACTCGTCGTACAACCAGATATTCACAGACGACGACTTGGTACTCGTCGATTAG

Predictedcoding sequence

ATGGCATCGTCACGCGGCATCCTCATCCCCGGCACGTACGAGCCGCTGCCCTTCGCCGACGCCAACGGCCAGGACGACCGGCCGACCAGCGGCGGCGTGAGGTGGCGCGCGTGGGCCGCCGCGCTGGCCGCCTCGGCCGTGGCGATGCTCGTCGTCGCCGCCGCGGTCTTTGGGGCCAGACGGGTGGATCCGGACGCGGTGGCCTCCTCCGTACCGGCTACGTCGGAGCACGGCGTGTCGGAGAAGACGCCGGGCACCTACTCCGGCAACGGCGGCTACCCGTGGAGCAACGCCATGCTGCAGTGGCAGCGCACCGGCTTCCACTTCCAGCCGGAGAAGAACTACATGAACGATCCCAACGGTCCGGTGTACTACAGAGGATGGTACCACTTCTTCTACCAGCACAACCCCGGGGGCACTGGATGGGGCAACATCTCATGGGGCCACGCCGTGTCACGGGACATGGTCCACTGGCGCCACCTCCCGCTGGCCATGGTGCCCGACCACTGGTACGACATCGAGGGCGTCCTCACCGGCTCCATCACGGTGCTCCCCGACGGCAGGGTCATCCTCCTCTACACCGGCAACACCGAGACCTTCGCGCAGGTGACCTGCCTCGCAGAGGCCGCCGACCCAAGCGACCCCCTCCTCCGCGAATGGGTGAAGCACCCGGCCAACCCCGTCGTGTTCCCGCCGCCCGGCATCGGCATGAAGGACTACCGCGACCCAACGACGGCGTGGTTCGACAGCTCCGACAACACGTGGCGCATCATCATCGGGTCCAAGAACGACTCCGACCACTCCGGCGTCGTCTTCACGTACAAGACCAAGGACTTCGTCAGCTACGAGATGATCCCAGGGTACCTGTACCGCGGCCTCGCCGGCACCGGCATGTACGAGTGCATCGACATGTACGCCGTGGGCGGCGGCCGCAAGGCCAGCGACATGTACAACTCGACGGCGGAGGGCGTGCTGTACGTGCTGAAAGAGAGCAGCGACGACGACCGGCGAGACTATTACGCGCTCGGGAGGTTCGACGCGGCGGCCAACACATGGACGCCCATCGACGCCGGGCTGGAGCTCGGTGTCGCCCTGCGCTACGACTATGGCAGGTACGACGCGTCCAAGTCCTTCTACGACCCCGTGAAGCAGCGGCGGATCGTGTGGGGGTACGTCGTCGAGACCGACTCCTGGACCGCCGACGCCGCCAAGGGCTGGGCCAACCTCCAGTCGATTCCGAGGACGGTGGAGCTTGACGAGAAGACACGGGCGAACCTCATCCAATGGCCGGTGGAGGAGCTCGACACCCTCCGCATCAACACCACCGATCTGAGCGGCATCACTGTCGGCGCCGGCTCCGTCGTCTCCCTCCCCCTCCACCAGACCTCCCAACTCGACATCGAGGCATCCTTCCGCCTCAACGCCTCAACAATTGAGGCCCTCAACGAGGCCGACGTCGGCTACAACTGCACCACCAACGGCGGCGCTGCCACCCGCGGCGCACTTGGCCCCTTCGGCATTCTCGTCCTCGCCAACGCCGCCCTGACCGAACAGACGGCGGTGTACTTTTATGTGTCCAAGGGCCTCGACGGCGGCCTTCGAACGCACTTCTGCCACGATGAGTTGCGGTCGTCGCATGCTACCGATGTGGCGAAGGAGGTGGTGGGTAGCACGGTGCCGGTGCTCGACGGCGAGGATTTTTCCGTCAGGGTGCTCGTGGATCACTCCATCGTGCAGAGCTTCGTGATGGGCGGGAGGTTGACGGCGACGTCGAGGGCGTACCCGACGGAGGCCATTTACGCGGCGGCGGGGGTCTACCTGTTCAACAATGCCACCAGCGCCGCCGTCATCGCTGAGAAGCTCGTCGTGCACGACATGGACTCGTCGTACAACCAGATATTCACAGACGACGACTTGGTACTCGTCGATTAG

Predictedprotein sequence

MASSRGILIPGTYEPLPFADANGQDDRPTSGGVRWRAWAAALAASAVAMLVVAAAVFGARRVDPDAVASSVPATSEHGVSEKTPGTYSGNGGYPWSNAMLQWQRTGFHFQPEKNYMNDPNGPVYYRGWYHFFYQHNPGGTGWGNISWGHAVSRDMVHWRHLPLAMVPDHWYDIEGVLTGSITVLPDGRVILLYTGNTETFAQVTCLAEAADPSDPLLREWVKHPANPVVFPPPGIGMKDYRDPTTAWFDSSDNTWRIIIGSKNDSDHSGVVFTYKTKDFVSYEMIPGYLYRGLAGTGMYECIDMYAVGGGRKASDMYNSTAEGVLYVLKESSDDDRRDYYALGRFDAAANTWTPIDAGLELGVALRYDYGRYDASKSFYDPVKQRRIVWGYVVETDSWTADAAKGWANLQSIPRTVELDEKTRANLIQWPVEELDTLRINTTDLSGITVGAGSVVSLPLHQTSQLDIEASFRLNASTIEALNEADVGYNCTTNGGAATRGALGPFGILVLANAALTEQTAVYFYVSKGLDGGLRTHFCHDELRSSHATDVAKEVVGSTVPVLDGEDFSVRVLVDHSIVQSFVMGGRLTATSRAYPTEAIYAAAGVYLFNNATSAAVIAEKLVVHDMDSSYNQIFTDDDLVLVD*

6-SFT

Genomic sequence (promoter region in red, exons in black, and intronsin light blue); Yellow highlighting represents binding sites of TaMYB13(non-underlined and underlined text represent binding sites on forward and reverse strands, respectively).

GGTCTCTGCTTATGGAGAAAGGACTGCATCGTTTTCCAAGGCCACTGACTGCTCCTCCAAGTTCGTCGCGTCAGCCAACTCCACCCCACCACCCTGACACGGAGCGCCGCACTAGTCCGCCACCACGTCAACCGACTCCATCCCACCCTGACATGGAGCCCAGCGCGAGTCCGCTGCCGTGTCAGCCGACTCCACCCCGCCTCCCCGAGGCGGAGCCCAGGGATAGTACGCGGTCATTTCATTTTCTGATGAGGAACCAAAGTCCAAAGCGGAAGAGATCACCAAGGAAGAAACCCTCCCCTCCTCCCCAAAATAAGTTGGCTTACGAGAAGAGCATGGAGGAAAGAGACGCCCAAGTGGCTAAGGAATTGAAGGCCCATTTTGGACCAAAACCACCCCCGCTGCCAAAGGAGATAGTATGTGTGGAAACCGTGCAATGCGTTCTGGCAAATCTTGCTAAACCGCCTCCAAAGAAGAGTTGATCAGACTATGAACGCTCTATTAGCAAGTCATATCAGAAAGGGCTAACGAAGGAGTCGGTCCGTAGTAAAAGAAACAGGAAAACCATTCCCCATCTGGGAGAACAATCAGTGCAATGAATCCCGTCGCTCAAGGTAGGTACCGAGGTCATAATCGATCCCGCTGCTGCAAAAGAGATGTATGAAAATATGGCTAGAGAGGCCGCTGTCATCGTTGAACAACTTCGAGGCGACAAGGAAATTCCCACGGTGGAAGGGGAGAAACTAACATGTACATTTGCCCCTGGGCGACCTCTCGTCAGGCCTGGGCTTGTCGAGGAGCTACCAACACAAATGTACAGATTGCATACCTGGTACATGAGGAAAGCAAAACTCGGCGAGAGACCCTCATGGTGAAAGTCAAGGCAGAGAATTTTTTCAATAAGAAGGAACTGTACATTCAAAATCCAGAATTGTGGCCGTTATTCATGAAGGGTATTTTTGGCAATGATCGCGTGCATGTTCAGGTGCGCTATTTGTCTTTTATCATTACTTGCATGGAATTTGTTGCAAATTTTCACTATATGTTAGGTATTTGTTGTGAAATAGATGAAAAAAGGCTACATTTGTGAGGCAAAACATGATCATCAGCCAATCAACTCGATAATTAACATGGAATAATGTGGCAATTAGCTACAACATGATAACTTATATCTATCAAGCTTTAACTATGAAATCCTTAATGTTGGGCATTTTAGTCATTTATCTCCAAAGCCACAATTCACGCCGCTAGTTACCAAATGGCTTTGAAGCTTTCTCACAGCATACAACACACAACTGCCAGTTATTCAGACACTTTCTTAGCCGCCTGTTGATGAAGGGTTATTTTGACCATATATACGAGGATAGCTGTACTGTGTTTTTAGCCTTAGGTGAGACCCCCCTCAGGTGACTACACTAGCTCTACAGCTTCACCTCAGCGCACAACCCATAACTGTTTTCGTCGGCTACTTTCCACAGCTGTTTTATGGTAAATCACAGCCGAGCCTAACACAATCCTGATCGTCCATCGATAAAGAGTAGTTTTGGCTACATGAGTATATACAGTGTTGCACACGCATTTTTACACACATGGCACGCCAAAACCTCTGACATGAGTATAGTTTGCTCTACAGCTTTCTCGCAGCGCACAACCCATAGCTATTTTTTGTCGACTAGTTTCACAAAGCTGTTTTGTGAAAAATGACAGTGCAGCCTAACACACTCCTAGCCGTCCGTCGATGAAGGGTAGTTTTGGCTACACTCGCGTCCACCTGTATGCTAGCTATTTGGAGTTTTGGACTATGTTGGTAGGCTCATGTGAGTTGTGACACGCCAAAACCTCAGTGAAAACCCGGCCCACGACACGATGACCGCTCCCATCTTACCGCCGCCCAACTATGAAGTATCTATAAATGGCGCTAGCTCGCCGGCTCCAGAACCCACGCCCATCCACCACTCAGAATCTACCAAACCCTCTCGGAGTTGACGAGCGGCGCCGCCATGGGGTCACACGGCAAGCCACCGCTACCGTATGCCTACAAGCCGCTGCCCTCGGACGCCGCCGACGGTAAGCGGACCGGCTGCATGAGGTGGTCCGCGTGTGCCACCGTGCTGACGGCCTCGGCCATGGCGGTGGTGGTGGTCGGCGCCACGCTCCTGGCGGGATTGAGGATGGAGCAGGCCGTCGACGAGGAGGCGGCGGCGGGCGGGTTCCCGTGGAGCAACGAGATGCTGCAGTGGCAGCGCAGCGGTTACCATTTCCAGACGGCCAAGAACTACATGAGCGGTACGTGCATTTGTTGCTCCATCCGTTTCTTTTTCTCTGGCGTTTCTTTTTCTCAAGTTGAAACTGACGTCGCTGCCTTTGCTCTCTGTTTGCCGGCGGTCGGCGACGGCGGCGGGCTACTCCGGCGACATCATGCAGATCCCAACGGTTAGTACCCTGAGCAGTAAGATCTTGCGGGGCAAAAGACGGGATCTCTAGACATAATCCAAGTTGTTAAACCCACACCAAATTTGGGCTAAACCATTGGCAGCAAAACAGGGGAAAACAGAGTTTCCATAGATTGGATACGTTCATAATGTGCCCCCCCTTCCCAAAATGCAAAGCATATAAATTTTTGTCCGACGGTTAAACTTTTTTAAGTTTCAATGTGTCCATTGTGAAATATCTTATAGTAAACTTACTGCCACGCATACTTTAATTTGTAGATGTACACGTTTTTATACTTTATTCAGTAAGGAGGGAGTAAGATACACAATGAAGCTCAAGAGTGATGTGTCATACCCCAACCACTAGAAAAATAACAAGGTTAAAAACATCTGACCAACCAATACAGTACACAAACTTGTGAGGCGCCATCAGTTTCTTTCTCAACCAAACAGAAAGAACAAACATGCAAACAAAAAAACAATTAAGCAAGTGTGGGGGGGTGAAACTTGGCGAGATAATTGGTTTGGTTTGACCCATATCTGATTACGATTAACTGAAACCACTGCAGGCCTGATGTATTACCGTGGATGGTACCACATGTTCTACCAGTACAACCCGGTGGGCACCGACTGGGACGACGGCATGGAGTGGGGCCACGCCGTGTCCCGGAACCTTGTCCAATGGCGCACCCTCCCTATCGCCATGGTTGCCGACCAGTGGTACGACATCCTCGGAGTCCTCTCCGGCTCTATGACGGTGCTACCCAACGGGACGGTCATCATGATCTACACGGGCGCCACCAACGCCTCCGCCGTCGAGGTCCAGTGCATCGCCACCCCGGCCGACCCCAACGACCCCCTCCTCCGCCGGTGGACCAAGCACCCCGCCAACCCCGTCATCTGGTCGCCGCCGGGGGTGGGCACCAAGGATTTCCGAGACCCGATGACCGCCTGGTACGACGAGTCCGACGACACATGGCGCACCCTGCTCGGGTCCAAGGACGACCACGACGGCCACCACGACGGCATCGCCATGATGTACAAGACCAAGGACTTCCTCAACTACGAGCTCATCCCGGGCATCTTGCACCGGGTGGTGCGCACCGGCGAGTGGGAGTGCATCGACTTCTACCCCGTCGGCCGGAGAAGCAGCGACAACTCGTCGGAGATGCTGCACGTGTTGAAGGCGAGCATGGACGACGAACGGCACGACTACTACTCGCTGGGCACGTACGACTCGGCGGCCAACACCTGGACGCCCATCGACCCGGAGCTCGACTTGGGGATCGGGCTGAGATACGACTGGGGTAAGTTTTATGCGTCCACCTCCTTCTATGATCCGGCCAAGAAGCGGCGCGTGCTCATGGGGTACGTCGGCGAGGTCGACTCCAAGCGGGCTGATGTCGTCAAGGGATGGGCTTCCATTCAGGTATATATATATCCATCTATCTATATCTATACAATACATAGATACATAGATGGATTATGATTGTTTGACCTTGCATCTATCATCACTTGTTCATTATACAATACATATATGTTCATCACTAACTAATGGTGTTTGACATGCGTGCGTGCAGTCAGTTCCTAGGACGGTGGCTCTGGATGAGAAGACCCGGACGAACCTCCTGCTGTGGCCCGTGGAGGAGATCGAGACCCTCCGCCTCAATGCCACGGAACTGACCGACGTTACCATTAACACTGGCTCCGTCATCCATATCCCGCTCCGCCAAGGCACTCAGCTCGACATCGAGGCCTCTTTCCACCTTGATGCTTCCGCCGTGGCTGCCCTCAACGAGGCCGATGTGGGCTACAACTGCAGTAGCAGCGGCGGCGCCGTTAACCGCGGCGCGCTAGGCCCCTTCGGCCTCCTCGTCCTCGCCGCCGGTGACCGCCGTGGCGAGCAAACGGCGGTCTACTTCTACGTGTCTAGGGGCCTTGACGGAGGCCTCCACACCAGCTTCTGCCAAGATGAGTTGAGATCGTCTCGAGCCAAGGATGTGACCAAGCGTGTCATCGGGAGCACGGTGCCGGTGCTCGACGGTGAGGCTTTGTCAATGAGGGTGCTCGTGGATCACTCCATCGTGCAGGGCTTCGCCATGGGCGGGAGGACCACGATGACCTCGCGGGTGTACCCGATGGAGTCGTATCAGGAGGCAAGAGTCTACTTGTTCAACAACGCCACCGGTGCCAGCGTCACGGCGGAAAGGCTTGTGGTGCACGAGATGGACTCAGCACACAACCAGCTCTCCAATGAGGACGATGGCATGTATCTTCAATCAAGTTCTTGA

Predictedcoding sequence

ATGGGGTCACACGGCAAGCCACCGCTACCGTATGCCTACAAGCCGCTGCCCTCGGACGCCGCCGACGGTAAGCGGACCGGCTGCATGAGGTGGTCCGCGTGTGCCACCGTGCTGACGGCCTCGGCCATGGCGGTGGTGGTGGTCGGCGCCACGCTCCTGGCGGGATTGAGGATGGAGCAGGCCGTCGACGAGGAGGCGGCGGCGGGCGGGTTCCCGTGGAGCAACGAGATGCTGCAGTGGCAGCGCAGCGGTTACCATTTCCAGACGGCCAAGAACTACATGAGCGATCCCAACGGCCTGATGTATTACCGTGGATGGTACCACATGTTCTACCAGTACAACCCGGTGGGCACCGACTGGGACGACGGCATGGAGTGGGGCCACGCCGTGTCCCGGAACCTTGTCCAATGGCGCACCCTCCCTATCGCCATGGTTGCCGACCAGTGGTACGACATCCTCGGAGTCCTCTCCGGCTCTATGACGGTGCTACCCAACGGGACGGTCATCATGATCTACACGGGCGCCACCAACGCCTCCGCCGTCGAGGTCCAGTGCATCGCCACCCCGGCCGACCCCAACGACCCCCTCCTCCGCCGGTGGACCAAGCACCCCGCCAACCCCGTCATCTGGTCGCCGCCGGGGGTGGGCACCAAGGATTTCCGAGACCCGATGACCGCCTGGTACGACGAGTCCGACGACACATGGCGCACCCTGCTCGGGTCCAAGGACGACCACGACGGCCACCACGACGGCATCGCCATGATGTACAAGACCAAGGACTTCCTCAACTACGAGCTCATCCCGGGCATCTTGCACCGGGTGGTGCGCACCGGCGAGTGGGAGTGCATCGACTTCTACCCCGTCGGCCGGAGAAGCAGCGACAACTCGTCGGAGATGCTGCACGTGTTGAAGGCGAGCATGGACGACGAACGGCACGACTACTACTCGCTGGGCACGTACGACTCGGCGGCCAACACCTGGACGCCCATCGACCCGGAGCTCGACTTGGGGATCGGGCTGAGATACGACTGGGGTAAGTTTTATGCGTCCACCTCCTTCTATGATCCGGCCAAGAAGCGGCGCGTGCTCATGGGGTACGTCGGCGAGGTCGACTCCAAGCGGGCTGATGTCGTCAAGGGATGGGCTTCCATTCAGTCAGTTCCTAGGACGGTGGCTCTGGATGAGAAGACCCGGACGAACCTCCTGCTGTGGCCCGTGGAGGAGATCGAGACCCTCCGCCTCAATGCCACGGAACTGACCGACGTTACCATTAACACTGGCTCCGTCATCCATATCCCGCTCCGCCAAGGCACTCAGCTCGACATCGAGGCCTCTTTCCACCTTGATGCTTCCGCCGTGGCTGCCCTCAACGAGGCCGATGTGGGCTACAACTGCAGTAGCAGCGGCGGCGCCGTTAACCGCGGCGCGCTAGGCCCCTTCGGCCTCCTCGTCCTCGCCGCCGGTGACCGCCGTGGCGAGCAAACGGCGGTCTACTTCTACGTGTCTAGGGGCCTTGACGGAGGCCTCCACACCAGCTTCTGCCAAGATGAGTTGAGATCGTCTCGAGCCAAGGATGTGACCAAGCGTGTCATCGGGAGCACGGTGCCGGTGCTCGACGGTGAGGCTTTGTCAATGAGGGTGCTCGTGGATCACTCCATCGTGCAGGGCTTCGCCATGGGCGGGAGGACCACGATGACCTCGCGGGTGTACCCGATGGAGTCGTATCAGGAGGCAAGAGTCTACTTGTTCAACAACGCCACCGGTGCCAGCGTCACGGCGGAAAGGCTTGTGGTGCACGAGATGGACTCAGCACACAACCAGCTCTCCAATGAGGACGATGGCATGTATCTTCAATCAAGTTCTTGA

Predicted protein sequence

MGSHGKPPLPYAYKPLPSDAADGKRTGCMRWSACATVLTASAMAVVVVGATLLAGLRMEQAVDEEAAAGGFPWSNEMLQWQRSGYHFQTAKNYMSDPNGLMYYRGWYHMFYQYNPVGTDWDDGMEWGHAVSRNLVQWRTLPIAMVADQWYDILGVLSGSMTVLPNGTVIMIYTGATNASAVEVQCIATPADPNDPLLRRWTKHPANPVIWSPPGVGTKDFRDPMTAWYDESDDTWRTLLGSKDDHDGHHDGIAMMYKTKDFLNYELIPGILHRVVRTGEWECIDFYPVGRRSSDNSSEMLHVLKASMDDERHDYYSLGTYDSAANTWTPIDPELDLGIGLRYDWGKFYASTSFYDPAKKRRVLMGYVGEVDSKRADVVKGWASIQSVPRTVALDEKTRTNLLLWPVEEIETLRLNATELTDVTINTGSVIHIPLRQGTQLDIEASFHLDASAVAALNEADVGYNCSSSGGAVNRGALGPFGLLVLAAGDRRGEQTAVYFYVSRGLDGGLHTSFCQDELRSSRAKDVTKRVIGSTVPVLDGEALSMRVLVDHSIVQGFAMGGRTTMTSRVYPMESYQEARVYLFNNATGASVTAERLVVHEMDSAHNQLSNEDDGMYLQSSS*

WIVRV1

Genomic sequence (promoter region in red, exons in black, and intronsin light blue); Yellow highlighting represents binding sites of TaMYB13(non-underlined and underlined text represent binding sites on forward and reverse strands, respectively).

ATCCCGCAACTTACACTAAGTTACATTGCTTGCAAGGCTTATGTGTGATGTTGTATTACCGAGTGGGCCCCGAGATACCTCTCCGTCACACGGAGTGACAAATCCCAGTCTTGATCCATACTAACTCAACTAACACCTTCGGAGATACCTGTAGAGCATCTTTATAGTCACCCAGTTACGTTGCGACGTTTGATACACACAAAGCATTCCTCCGGTGTCAGTGAGTTATATGATCTCATGGTCATAGGAATAAATACTTGACACGCAGAAAACAGTAGCAACAAAATGACACGATCAACATGCTACGTCTATTAGTTTGGGTCTAGTCCATCACATGATTCTCCTAATGATGTGATCCCGTTATCAAGTGACAACACTTGCCTATGGCCAGGAAACCTTGACCATCTTTGATCAACGAGCTAGTCAACTAGAGGCTTACTAGGGACAGTGTTTTGTCTATGTATCCACACAAGTATTGTGTTTCCAATCAATACAATTATAGCATGGATAATAAACGATTATCATGAACTAAGAAATATAATAATAACTAATTTATTATTGCCTCTAGGGCATATTTCCAACAGATACATCATTTGCATGTCGGCCTCTACCACTTTCTTACTTCTTCTAGTGAAAGGATGAACTCTCGGAGCTTTGTTGGCTACATTCTTTCTTCCTGATGTGTTATCGCCGGATGGGTGGCAGTCCAGTTCCGGTCAAGCTTCTGAAACATCTTCTGCATGTGCTCTAGTGGAGATAGCGCAACGGATCCGCCGCCCTAAGTGGTTCCTCCTCGGTGGCAACGGCTCTGGTCTTCCGCTGGTACCGTTTAGCTAGATTGTATTGCATTTCTATTTTTCGTTCTGGACTCCTCAATGGACGATGCAAGTTAAAAATAAGTTCACTTGTGATGCATACAGATCACCTATGTAAAGGAGTTGATGTAGCTATCCAACATGTCCTAAATCAAACAAAACTCACTTGCAGAAATGTCTTACATGAGATTAAGCCGGTCCGCGTGGATTGATGACTAGTTTATCATTAAAAAAAATTGGATAATATGTTAAATAACATATTGTAGCACTTACCCCTCACTCACCATCACACTCACATAGTGAAGCAAGCACCCCCTCCCACTCTTTCTATCTTTATATTTCATACACTGGTTGTCATTTGTTTGCATCCGTCATCTTTGTTGTACTCTTTAGTTGGAGTGTTGGATATTGTGATAAATGTGGTTGGTATCACTCGCTAGTCTTCAGCGGCGAGGTTAGTACTCTCTTTTGTTTTCTTCTATATAAGGCACACATCATATTAATAACTTTATTGTCTCCCTCTACCTACCTCCCCCTCCTCTCTCGTCTCTCTTCATCTCCCTTCCATATACCTTTTTTAATAGGGTTGGGTCCCAAAAGAGCCAGAAACCATAGATAAGCATGACAATACATTTTATAAAAATACCCTATAGAAATTGAAAATTGCAACCTAGTCCTAACAGTTTACAGCAAGGACCCCATATCATCATGATGGATTGCAATTATGCCCTGCCTAACCGCATCACCAAGGTCCAAGACTTCCACGGGATGAACCACTTGGGATGGAGGCCTCGCCATAGGAGCTCCTCCAGCTCATCGTTCATGGATAGAGTTGCAGGCGCTTGATGGACACTGGACTGCCTCCCTTATCGCGTGAAGCCAGGAGGACTATGAGGAGCTGGTGCCAAAGTCGCTAGAAATGTCTTCCTACGTTGGCTGTGGTCAACGTCATTTTCGTTGTCATGTAGTAGTAGTATTAGCGGTCGATATCGATGATCCCTAGGCAACCGATAGATGTCTCAAGCTCTTGCCACTCTTGTTCTAGAGTCTCCATATCCATAGTATGTAATTTCACAAAAAATATATACCTAGTATGTATATATACATACGTGTGTGTATCCAATTTAATGGTAGAGTGGTAACGTTCTTCTTGAGAACAGAAGGAACACGCGATACGGCACAAAAATGGCTCCACGAGGCCGCAGGACGAGCCGATCAAAAGATTTCCTCTTGAGCTCCGGAACAGCGGCCGTGGCCGTGAAGCCACGCGGCGCCGTCCTGGACACGCCGCCGGTCCCGTTGGCGTACGGGGTGCTGAAGTACCAGCAAAGCGGCGGCGGCACGAGGTGGCGCGAGTGCACCGTCGTGCTGGGCGCCGTGGCCATGGTGGCGCTCTTCGTCACCCACGCGCTCGCCCCAAGGGCCAGCGTGTTGTCCGAGGAGACGCGCGGGGCGGCACGACCGGAGCAGAACATCATGGTCGCCGCCGGCTCCGATGCCGACGGGTTCCCGTGGAGCAACGAGATGCTGCAGTGGCAGCGCACCGGGTTCCATTTCCAGCCGGAGAAGAACTACATGAACGGTATGTAATGGAATTCATTGTCATTATCTCATTCAAATGGTTGAATTTGGAGATTCTAGTATATCTTCAAACGATGATGCACGATCACCTTGTTCCATGCACGGCGAAAGAAAGAAACTGACCGCTTTTTTCCGTGTTGGGGACTGACATGGCTACGTACCGTGGCGACACGCACGCACGCACCCATGCATGCATGCAGATCCAAACGGTGAGTACGTCGGTCAAGCGTCCATTTTCATTTTTGACGGCTAACTAAAAGCGGTCCGTCTGTCTGTACGTACGTGCTTAACCGGAACAAAACATGCGTGCAGCTCCAATGTATTACCGTGGACGGCACCACTTCTTCTACCAGTACAACCCTACGGGCGTCGTCTGGGGCAACATCACATGGGGCCACGCCGTGTCGAGGGACCTGGTCCACTGGCGCCACCTCCCCCTCGCCATGGTGCCGGATCAATGGTACGACATCCACGGCGTCTTGACGGGCTCCGCCACCATTCTCCCCAACGGCACCGTCATCGTGCTTTACACGGGTAAAACCGACACCTCTGCTCAAGTTCAGTGCCTCGCCATGCCCACTGACCCGGATGACCCACTCCTTGTCAACTGGACCAAGCATCCTGCCAACCCCGTCATCCTCCCACCCCCCGGCATCGGCCTCCAGGACTTCCGCGACCCCACCACCGCATGGTTCGATAATTCCGACCTGACATGGCGCACCATCATCGGCTCCAAGGACGACAACGGCCATGCCGGCATCGCCTTGATGTACAAGACCAAAGACTTCATCAGGTACGAGCTCATCCAGGGGGTGCTCCACCGCGTCGAGGGCACCGGAATGTGGGAGTGCGTCGACTTCTACCCTGTCGGCGGCGGCAACAGCTCCTCGGAGGAGGAGGCGATGTATGTGTTGAAGGCGAGCATGGACGATGAACGCCATGACTACTACGCGTTGGGGAGGTATGATGCGGCGACCAACACGTGGACGCCATTGGACCCGGAGCTGGACGTGGGGATCGGGCTGAGGTACGATTGGGGAAAGTTTTTTGCTGCCACCTCTTTCTATGACCCGGTGAAACGGCGGCGCGTGATGTGGGCTTATGTCGGCGAGACCGACTCCTTGAGTGCCGACGTTGCCAAGGGATGGGCTTCGGTCCAGGTATATCTTTACGATACATCGATATGATTTCTTCCTACCTTGCGTTTACCATTAACCATTCGTTTCATTCATTTATTACGCAATGCTACTGTGCTGCCTCCATCATGTTTCTAGGGCATGCACAGGTTTGTACTACATCCTTAATTTGAATAAGGAAGATTGTGCGACATGTCATCAAAAGCAAATCATCTGATTTGTATTCGATCGAAGTTTTTAAACATATATTCCCTCCGTCCCATTATATAAAAGTGCTTTTAAAAACGCTCTTATATTGTTGGACAGTGAGAGTATTACTTTCAGAGTTATATGACGCATACTTTCTCTGTACCTAAATAATTATAGTTAAAAAAACTAGTCTAATTTTTCCCTAATTATAATTATTTAGATACAAAGGAAGTATTTGTTAGTCAAAATGAGAAATTAAAAACATGGGCTCGCCCTACAAAGCTAGCTAAATGGAGTATATAGACCATGGATCTCCTCTTGGAGGCGGGAATGATTTTGTTATCCGTCTTCTCTGCTGTGAAATGCAGCCTGCTTAAGATGTTGGTGCGTGCTTAATGCTTTCATCATCCTTTTGCATCTTCTCAGAGCTAGTGAGTCCTGATCAAGTGTCCATTATTCTTGTGTGATGGCTAATTAACAAGCATAGCTCAATTATCATGCATGAGTGAGTGGAACCATGTGCCTTTGGCTCAAATTATCATGTATTGAACTTTATTATAATGTGGTGTATAGGAAAATAGCTTTCAGAACAGAGAAAGTTTATTTAACTAACCGGCAAAGGATTAAAACTTGTTTCGAAAACTAGATTAACATAATCCACAGCAATGCCAAACGTGGCCGGCATAAATATGGTGGGTGTTGTGTTCGGGGCACGGGTTAGCTTAATTTGTCCAGTCCAATTAAACACACCAATTGTGGTGTGCACAAACATATGCATAGGTCGGAGGTTTACTCTTTTTCTTCTAAAACAAGCTAAGCACACAAAATCAGGAGTTTCTTCCTTCATTTCTATCTTCTATAGTGTCATGTAAGTTTTTTCATTATTTATGTGAAGCTTGTTGGCGTCGCCTCCTCTTGCAACGCCGCTTTTCTTCTTCCTCACAATCTCCAGCTCTCTTGGTTTCTCTCCACAACACACATCATGAAGAAAACACACACACACGTACCAGGGAAGAAAGCCAAGTAGCTTTGCCGGAAGAAAGCCAAGTCTGTGCTCACCCTTCGTTTTGACAAGATTAAACCTAACAAAGCTTTCGATATCAGATTTGTTTCTGAGGTCACTTTTTAAAGAAAATCACTGGAGCCTGCAAGACCCTTTATTTATATCGTTTTTATTTGAAGTTCTTATCAATGTGCATTCATAATCAAAGGACTCACGTATCTTACATGTGTGCAGACAATTCCGAGGACGGTGGTGTTGGATGAGAAGACCCGGACGAACCTCCTCCAATGGCCGGTGGAGGAGATCGAGACGCTCCGCTTCAACAGCACTGACTTTGGCGTCATCACCATCCACACTGGATCCATCATCCCTCTCTGCCTCCGTCAAGCAACTCAGCTTGATATCGAGGCGTCCTTTCGCCTAGACGATTCCGCCATTGCCATGATCAACGAGGCCGACGTGAACTACAACTGCAGCACGAGTAGCGGAGCCTCAACCATGGGCGCACTTGGTCCCTTCGGCCTCCTCATCCACGCCGCTGCCAACGGTGGCAGCGAACAACTAGCGGTTTACTTCCATGTGTCAAGGGGCCTCGATGGGGCACTCCGAACCCACTTCTGCCATGACGAGCTGTTGTCGTCCCGGGCGAGTGATGTCATGAAGCGGGTGGTTGGCAGCACTGTGCCGGTGCTCGACGGTGAGGCTCTATGTGTGAGGGTGCTCGTGGACCATTCCATCGTAGAGAGCTTTGCGATGGGCGGTAGGTTGACAGCGACGTCACGGGTGTACCCGATGGAAGCCATCCACACGGCGGCGGGGGTGTACCTTTTCAACAACGCCACTGGATCCTCCATCACCGTCGAGAAGCTTGTAGTTCATGAGATGGCCTCGACGTCTTAG

Predicted coding sequence

ATGGCTCCACGAGGCCGCAGGACGAGCCGATCAAAAGATTTCCTCTTGAGCTCCGGAACAGCGGCCGTGGCCGTGAAGCCACGCGGCGCCGTCCTGGACACGCCGCCGGTCCCGTTGGCGTACGGGGTGCTGAAGTACCAGCAAAGCGGCGGCGGCACGAGGTGGCGCGAGTGCACCGTCGTGCTGGGCGCCGTGGCCATGGTGGCGCTCTTCGTCACCCACGCGCTCGCCCCAAGGGCCAGCGTGTTGTCCGAGGAGACGCGCGGGGCGGCACGACCGGAGCAGAACATCATGGTCGCCGCCGGCTCCGATGCCGACGGGTTCCCGTGGAGCAACGAGATGCTGCAGTGGCAGCGCACCGGGTTCCATTTCCAGCCGGAGAAGAACTACATGAACGATCCAAACGCTCCAATGTATTACCGTGGACGGCACCACTTCTTCTACCAGTACAACCCTACGGGCGTCGTCTGGGGCAACATCACATGGGGCCACGCCGTGTCGAGGGACCTGGTCCACTGGCGCCACCTCCCCCTCGCCATGGTGCCGGATCAATGGTACGACATCCACGGCGTCTTGACGGGCTCCGCCACCATTCTCCCCAACGGCACCGTCATCGTGCTTTACACGGGTAAAACCGACACCTCTGCTCAAGTTCAGTGCCTCGCCATGCCCACTGACCCGGATGACCCACTCCTTGTCAACTGGACCAAGCATCCTGCCAACCCCGTCATCCTCCCACCCCCCGGCATCGGCCTCCAGGACTTCCGCGACCCCACCACCGCATGGTTCGATAATTCCGACCTGACATGGCGCACCATCATCGGCTCCAAGGACGACAACGGCCATGCCGGCATCGCCTTGATGTACAAGACCAAAGACTTCATCAGGTACGAGCTCATCCAGGGGGTGCTCCACCGCGTCGAGGGCACCGGAATGTGGGAGTGCGTCGACTTCTACCCTGTCGGCGGCGGCAACAGCTCCTCGGAGGAGGAGGCGATGTATGTGTTGAAGGCGAGCATGGACGATGAACGCCATGACTACTACGCGTTGGGGAGGTATGATGCGGCGACCAACACGTGGACGCCATTGGACCCGGAGCTGGACGTGGGGATCGGGCTGAGGTACGATTGGGGAAAGTTTTTTGCTGCCACCTCTTTCTATGACCCGGTGAAACGGCGGCGCGTGATGTGGGCTTATGTCGGCGAGACCGACTCCTTGAGTGCCGACGTTGCCAAGGGATGGGCTTCGGTCCAGACAATTCCGAGGACGGTGGTGTTGGATGAGAAGACCCGGACGAACCTCCTCCAATGGCCGGTGGAGGAGATCGAGACGCTCCGCTTCAACAGCACTGACTTTGGCGTCATCACCATCCACACTGGATCCATCATCCCTCTCTGCCTCCGTCAAGCAACTCAGCTTGATATCGAGGCGTCCTTTCGCCTAGACGATTCCGCCATTGCCATGATCAACGAGGCCGACGTGAACTACAACTGCAGCACGAGTAGCGGAGCCTCAACCATGGGCGCACTTGGTCCCTTCGGCCTCCTCATCCACGCCGCTGCCAACGGTGGCAGCGAACAACTAGCGGTTTACTTCCATGTGTCAAGGGGCCTCGATGGGGCACTCCGAACCCACTTCTGCCATGACGAGCTGTTGTCGTCCCGGGCGAGTGATGTCATGAAGCGGGTGGTTGGCAGCACTGTGCCGGTGCTCGACGGTGAGGCTCTATGTGTGAGGGTGCTCGTGGACCATTCCATCGTAGAGAGCTTTGCGATGGGCGGTAGGTTGACAGCGACGTCACGGGTGTACCCGATGGAAGCCATCCACACGGCGGCGGGGGTGTACCTTTTCAACAACGCCACTGGATCCTCCATCACCGTCGAGAAGCTTGTAGTTCATGAGATGGCCTCGACGTCTTAG

Predicted protein sequence

MAPRGRRTSRSKDFLLSSGTAAVAVKPRGAVLDTPPVPLAYGVLKYQQSGGGTRWRECTVVLGAVAMVALFVTHALAPRASVLSEETRGAARPEQNIMVAAGSDADGFPWSNEMLQWQRTGFHFQPEKNYMNDPNAPMYYRGRHHFFYQYNPTGVVWGNITWGHAVSRDLVHWRHLPLAMVPDQWYDIHGVLTGSATILPNGTVIVLYTGKTDTSAQVQCLAMPTDPDDPLLVNWTKHPANPVILPPPGIGLQDFRDPTTAWFDNSDLTWRTIIGSKDDNGHAGIALMYKTKDFIRYELIQGVLHRVEGTGMWECVDFYPVGGGNSSSEEEAMYVLKASMDDERHDYYALGRYDAATNTWTPLDPELDVGIGLRYDWGKFFAATSFYDPVKRRRVMWAYVGETDSLSADVAKGWASVQTIPRTVVLDEKTRTNLLQWPVEEIETLRFNSTDFGVITIHTGSIIPLCLRQATQLDIEASFRLDDSAIAMINEADVNYNCSTSSGASTMGALGPFGLLIHAAANGGSEQLAVYFHVSRGLDGALRTHFCHDELLSSRASDVMKRVVGSTVPVLDGEALCVRVLVDHSIVESFAMGGRLTATSRVYPMEAIHTAAGVYLFNNATGSSITVEKLVVHEMASTS*

WIVRV2

Genomic sequence (promoter region in red, exons in black, and intronsin light blue); Yellow highlighting represents binding sites of TaMYB13(non-underlined and underlined text represent binding sites on forward and reverse strands, respectively).

ATCTCACTAATACCTTAGAAATCTTTACATTTTGAGTTTTCGTTTATATATTTATTATTATTGTTCCATTTTTTCTTAAAGGGTAATATGAATGCCACTAATTCGTTTTTACTTAGAAAACTTAATTATTTGGATTTTCTTTGTTTCTACTGCATTTCATTTCTTATGTAGGTAGAATACCAATACAATTAATTATTTCCTTCTTAGGAAACTATTGTTTTTTGAAACTCCACTACTATATGCTAATTCTTTCTTATTATAGAAAAACAGAATTTCTAAGTAAATTGTGTGTCTATTTTCTCTTTATTTCCTTTATTTTTTACTTCTTATTAAAGGGTGATACCAATGCCACTAGTGCATGCTTTCTTAGAGAATCTTTTAGATTAAATACAAATGCAACTAATTCATTCATTCTTTGGAAAACTTCCTCTTTTACTAAAATTCCACTATTCCATTTTTATTCTTACATATTATAACAAAGTGCAATTTGTGTGAGAATTTTGTAATTTTATGTTTTTCCTTTGTCCTTTTTCTTTGTACGGGTAATATCAAAGCCGCTAATTCATATTTTCTTAGGAAACTTCCTTTTGCAAAGAAATCACTATGATATGTTTATCCTTGCGTATTATAAAAAAGTATAACCGCTGTGTAAATTGTGTGCAAATTTTGTCATTTATTATTTATTATTTATTTATTTTCTTTTTTCTTAAATGGTAGTATCAATGGACTTCATTCCAAATACTGTAATTTTGATTCGGACAAATCTCTTGTCTAGCAGCATATGTTGTGGGGTATGTATATTGCAGTATTAATATTCGTTTTATAAAATCTCTCGTCTTAACTGGAGTACAAAATATGATCGATTTGGACAATCTTTTAGGGTGGATCTCGAAAGATACGAAAGGAGTGATCTTCCTCCAAGCCGTAGGTACAACTTTTATTGAATACGGCTTTTGACGGGATTCTGTGGGGATTTATGAGATTGAGTATGCCTATGAGCATTACAGTATCAAATATCTCGTCATAATTATATTGGAGTACTATTTATGATTTTGATAATGTTTTTGGACGTCGGAAGACAGAAAGATCTTCCTCCAAACCGTACATACGATTATTATCAAATACCCATTTAATTTACAGGGATATACTAGATCGAGTATGGCTAGCATATTTGATTTCGTTAATCTCTCGGCCTGGGGCATTGTGGAAGCATTACTAATATTCGGCTGGTCAAATCTCATTGCATTATTGCCCGCACCCAAGTTCATTACAAATCTCTCTCCAAGCCGTGCCTACAACATTTATCGAATACGGTTTTTGACGTCATTCTTTAGGGTTCTATGAGATTAAGTATGCCCTAGGAGTATTACAGTACTTCCTCTGTTTCTTTTTAATCTGCATATAAGATTTGCTCGAAGTCAAGTGATACAAAGTTTGACCAAATATATGTTAAAAGATATCAACGTTTATAATACTAAACCTATATGTTATGAAAATTAATATCATTATGCATCTATTAATAATGATTTCATATTATAAATGATCATATTTTGTTTTATAAATTTAGTTAAAGTTTATGAAGTTTGACTATGACCAAATTTTACATGCGCACTAAAAAAGAAACGGAGGGAGTATCAGATATCTCGTCATAATTGGAGTACGTACTATTTATGATTTGGACAATCTTTTTGGATATCGGAAGATAGAAAGATCTTCCTTAAAACCGAGTACATACAATTATTATCAAATACCCATTTTGGATATACGAGATCGAGTATGGCTACCAGATTTGATTTGTTTAATCTCTCGGTCTGGAGCATTTTAAAAGCATTACTAATATTGCGTTGGTCGAATCTATTGGCATTATTGCCCGCGCCCAAAATTCACTATAAATATCCTCCGCTTGGTTGAATTGCCAAACACATTCTTTGCTGTAGGTGAGCTGAAGTAATAAGAGTGGAACAAATCCTCTTTGTTCGAACTGTCGTTGGCCTGGCGTGATGGAGTCACACGCCATGCCTTACCGGACTAGTGGCGGGGTGAGGTGGCGCGTGTGCGCCGCCGTCTTGGCCGTCTCGGCCGTGGCAGCGCTCCTAGTCGCCCACACGCTCACCGGGGCCAGGGTGTCCGGCGACGGGCACGTCCGAGCCCGTGTCCTGGCAGAGACGGAGATCACCACCGGGGAAGGTGGCGGCGGCGACAAGGACCGGTTCCCGTGGAGCAAAGCCATGCTGCGGTGGCAGCGCACCGGCTTCCATTTCCAGCCGGACAAGCACTACATGAACGGTGGATATATAACCACTACTTCAGCTTATTCATTTTTCTAAAGTTTTGATGTATCCATGGAGAAGGAAGCTGACATGGCTGCTTTCTTGTTTATTTGTTTGTCTGCTGGTGCCCCGGCGGCGTTCGTGCTTGCATGCATGCAGATCCCAACGGTAAGTACGTTCATCAATCAACTACTTCTTCCGTTTCTAAATATAAGTCTTTTAAAAGATTTCATTAAATGTCTACATACGAAACAAAATGAATGAATCTACACTTTTAAATATGTCTATATACATTTGTATGTAGTGTACTAATGAAACCTTTATAAAGACTTATATTTAGGAATGAAGGAGTAGTACTATCTTTCTTGCCGTGTAAGTATTTGTTTGTCTGCCGTGGAACCATCAGTTAATTCAAATGCAACATGCAGCTCCGATGTACTACCGTGGATGGTACCACTTCTTCTACCAGTACAACCCGAGGGGCGAAACGTGGGGCAACATCTCATGGGGCCACGCCGTGTCCCGTGACATGCTCAACTGGCGCAGCCTTCCCCTGGCCATGGTCCCCGAGCACTGGTACGAGAGCAACGGGGTCTTGACGGGCTCGGCCACCTTGCTTCCCAACGGCAAGGTCGTCGTGCTCTATACGGGGAACACCGACAACCTCGCCCAAGTCCAGTGCCTTGCCGAACCTGCAGACCCTAATGATCCCCTTCTCCGCACCTGGACCAAGTACCCTGGCAACCCCGTCCTCTTCCCGCCACCCGGAACCTATAAGAAAGACTTCCGCGACCCCATGACAGCATGGTTCGATAAGTCCGATAACACATGGCGCACCATTATTGGGTCCAAGGACGACCATGGGCATGCGGGCATCGCCCTCATGTACAAGACGAAAGACTTTATCCACTTCGAGCTCATCCCGCACCCGGTCCACCGTGTTGAAGGCACCGGTATGTGGGAGTGCGTCGACTTATATCCCGTCGGTGACAACAAGAACTCATCAGAGAAGACATTGTATGTGTTGAAGGCGAGTATGGACGATGAACGACATGACTACTACGCGCTGGGGAGGTTCGATGCGGCAGCCAACAAGTGGACGCCGTTGGACCCGGAATTGGATGTGGGGATCGGCCTAAGGTACAACTGGGGAAAGTTATTTGCGTCCACATCGTTCTATGATCCTGTGAAGCAACGGCGCGTGAGCTGGGGGTATGTCGGCGAGACCGACTCCAACCACACCGACATCGCCAAAGGATGGGCAAACCTCCAGGTATCATTATTGTACATCAATAAAAAAAATTTATGTTGTATTTACCATCTATCATTAGTTCTATTCCTTTGTTATGCATGCTTAGATATATCATGCATCGCCTCTTGATGATTAACTATATCACAACATGCGTTGTATCAATGCGATCATCATCAAACAGTGCATGCCAATTGAATGCCCTTAATTTGCATCTTCCAAGAGGTTAAATTTTCTAGTGTTTGCTAACCACACCAAATCAGGCCATTTTCCTTCCTCTCTCCTTGCTGCAGTATATGCCGTGCCATTGTTACTTATAAACAAGAATTATTGTTGGTACAGTTTCTTCTCAAATTATTGACGTCAGTGTGCATTCATACTTGAGGGACATACTTCCTTGAAGAACTAACCAATGAATGGTGTATGATGGTCGTGTAGGCAATTCCTAGGACGGTGGCGTTGGATGAAATGACCCGGACGAACCTCCTCCAATGGCCGGTGGAGGAGATCGATGTTCTCCGCTATAACACAACCAACTTCAATGGCATCACCATTAGGGCCGGCTCTGTCATCCCCCTCCACTTGCACCAAGCTGCTCAGCTCGACATCGAGGCCTCCTTCCGCCTCAATGCTTCCGCCGTCGCTGCCCTAAACGAGGCTGACGTTAGCTACAACTGCAGTACCAGTGGCGGTGCTGCCAATCGTGGCGTGCTTGGACCCTTTGGCCTCCTAATCCATGCCACAAAAAGTCGCAGTGAACAAATGGCAGTGTACTTCTACGTTTCCAGGGGCCTCGATGGGGGCCTCCGGACCCACTTCTGCCACGACGAGTTGCGGTCGTCTCGGGCCCAGGAGCCGGTGAAGCGGGTAGTCGGAAGCACCGTGCCGGTCCTTCATGGCGAGGGATTATCTGCTAGGGTTCTTGTGGATCATTCGATAGTGGAGAGCTTTGTGATGGGAGGGAGGTTGACTGCAACATCGCGGGTTTACCCGACAGAGGCAATTTACGCAGCAGGTGGGGTGTATGTTTTCAACAATGCCACCGGCTCCAGTGTTACCATTGAGAAGCTGGTGGTGCACGATATGGCATCATCAACATTAAAGCCATATGTTGAAGGACGAGATTAA

Predicted coding sequence

ATGGAGTCACACGCCATGCCTTACCGGACTAGTGGCGGGGTGAGGTGGCGCGTGTGCGCCGCCGTCTTGGCCGTCTCGGCCGTGGCAGCGCTCCTAGTCGCCCACACGCTCACCGGGGCCAGGGTGTCCGGCGACGGGCACGTCCGAGCCCGTGTCCTGGCAGAGACGGAGATCACCACCGGGGAAGGTGGCGGCGGCGACAAGGACCGGTTCCCGTGGAGCAAAGCCATGCTGCGGTGGCAGCGCACCGGCTTCCATTTCCAGCCGGACAAGCACTACATGAACGATCCCAACGCTCCGATGTACTACCGTGGATGGTACCACTTCTTCTACCAGTACAACCCGAGGGGCGAAACGTGGGGCAACATCTCATGGGGCCACGCCGTGTCCCGTGACATGCTCAACTGGCGCAGCCTTCCCCTGGCCATGGTCCCCGAGCACTGGTACGAGAGCAACGGGGTCTTGACGGGCTCGGCCACCTTGCTTCCCAACGGCAAGGTCGTCGTGCTCTATACGGGGAACACCGACAACCTCGCCCAAGTCCAGTGCCTTGCCGAACCTGCAGACCCTAATGATCCCCTTCTCCGCACCTGGACCAAGTACCCTGGCAACCCCGTCCTCTTCCCGCCACCCGGAACCTATAAGAAAGACTTCCGCGACCCCATGACAGCATGGTTCGATAAGTCCGATAACACATGGCGCACCATTATTGGGTCCAAGGACGACCATGGGCATGCGGGCATCGCCCTCATGTACAAGACGAAAGACTTTATCCACTTCGAGCTCATCCCGCACCCGGTCCACCGTGTTGAAGGCACCGGTATGTGGGAGTGCGTCGACTTATATCCCGTCGGTGACAACAAGAACTCATCAGAGAAGACATTGTATGTGTTGAAGGCGAGTATGGACGATGAACGACATGACTACTACGCGCTGGGGAGGTTCGATGCGGCAGCCAACAAGTGGACGCCGTTGGACCCGGAATTGGATGTGGGGATCGGCCTAAGGTACAACTGGGGAAAGTTATTTGCGTCCACATCGTTCTATGATCCTGTGAAGCAACGGCGCGTGAGCTGGGGGTATGTCGGCGAGACCGACTCCAACCACACCGACATCGCCAAAGGATGGGCAAACCTCCAGGCAATTCCTAGGACGGTGGCGTTGGATGAAATGACCCGGACGAACCTCCTCCAATGGCCGGTGGAGGAGATCGATGTTCTCCGCTATAACACAACCAACTTCAATGGCATCACCATTAGGGCCGGCTCTGTCATCCCCCTCCACTTGCACCAAGCTGCTCAGCTCGACATCGAGGCCTCCTTCCGCCTCAATGCTTCCGCCGTCGCTGCCCTAAACGAGGCTGACGTTAGCTACAACTGCAGTACCAGTGGCGGTGCTGCCAATCGTGGCGTGCTTGGACCCTTTGGCCTCCTAATCCATGCCACAAAAAGTCGCAGTGAACAAATGGCAGTGTACTTCTACGTTTCCAGGGGCCTCGATGGGGGCCTCCGGACCCACTTCTGCCACGACGAGTTGCGGTCGTCTCGGGCCCAGGAGCCGGTGAAGCGGGTAGTCGGAAGCACCGTGCCGGTCCTTCATGGCGAGGGATTATCTGCTAGGGTTCTTGTGGATCATTCGATAGTGGAGAGCTTTGTGATGGGAGGGAGGTTGACTGCAACATCGCGGGTTTACCCGACAGAGGCAATTTACGCAGCAGGTGGGGTGTATGTTTTCAACAATGCCACCGGCTCCAGTGTTACCATTGAGAAGCTGGTGGTGCACGATATGGCATCATCAACATTAAAGCCATATGTTGAAGGACGAGATTAA

Predicted protein sequence

MESHAMPYRTSGGVRWRVCAAVLAVSAVAALLVAHTLTGARVSGDGHVRARVLAETEITTGEGGGGDKDRFPWSKAMLRWQRTGFHFQPDKHYMNDPNAPMYYRGWYHFFYQYNPRGETWGNISWGHAVSRDMLNWRSLPLAMVPEHWYESNGVLTGSATLLPNGKVVVLYTGNTDNLAQVQCLAEPADPNDPLLRTWTKYPGNPVLFPPPGTYKKDFRDPMTAWFDKSDNTWRTIIGSKDDHGHAGIALMYKTKDFIHFELIPHPVHRVEGTGMWECVDLYPVGDNKNSSEKTLYVLKASMDDERHDYYALGRFDAAANKWTPLDPELDVGIGLRYNWGKLFASTSFYDPVKQRRVSWGYVGETDSNHTDIAKGWANLQAIPRTVALDEMTRTNLLQWPVEEIDVLRYNTTNFNGITIRAGSVIPLHLHQAAQLDIEASFRLNASAVAALNEADVSYNCSTSGGAANRGVLGPFGLLIHATKSRSEQMAVYFYVSRGLDGGLRTHFCHDELRSSRAQEPVKRVVGSTVPVLHGEGLSARVLVDHSIVESFVMGGRLTATSRVYPTEAIYAAGGVYVFNNATGSSVTIEKLVVHDMASSTLKPYVEGRD*