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*