CsGy2G000030 (gene) Cucumber (Gy14) v2

Overview
NameCsGy2G000030
Typegene
OrganismCucumis sativus (Cucumber (Gy14) v2)
DescriptionAuxin response factor
LocationChr2 : 36104 .. 53078 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: five_prime_UTRexonCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
AAAAAAAAAAAAAAAAAAATCCAAGTCCCTCACACTATTCACTGGAATCAATCATTTCCCTTCTTTTATTTCTGGGTTATGTTATTAATATCATAATGAGATGGATCTTATTTTAAAAAAAGAAAAATATATAATTTGTATTGTATACCCCTTTTCCTTGTTCCGTCAGTCCAGTTGATGTCGGCCTCTGTCTTCCTTCCTCTTTTTCTCCCAAACCTTTTTGCTTTAGCTTTACCTTAGGCCTTTGATTTCCCGGCGACAAGTCTGTGCTGTTTCATCCCCGCCACAATTTCGCTACCCACTTCTTTCCTTCACAAGCCAAACTGTAACACTATACCACTTCTGTCTCCCCCTTTTTGCTTCTTTCATTTAATTTTTCCTACGTCTGACGCGGTGGACTTGCCGGCGACTTTTGTCTTCAAGGAGCTGAGCTGAGGTAGGCAGAGTCCGACTTTGCTTTTTTTTTTCTTCTGTGGAGGAAGCATGTCAAGATTTGGACTCTGGGATGGACTTGGACGCAAAAAGCGTTTATTGTAATTTCCGCGGATTTAACAAGCTCCATCTTTTTTAGTTCAATCCCATTACTTAAATCTCTGGTTGGTTGGAACTTCAACGAAACCTGTTGTTTACACTCGTAATTACTATTTACAGCCATTTGTTTGGCGCCTTAATGTCTGTACATCCTGGATGCGCTACTTGGGAAGACTCTTTTGCACCTAAGTTCTCCTATATGAACTAGTTGAAATTGCTGCAAAACTGATAATTCTACTAAGGACTTGGTTTCACTCAGCTACATCCTTAGGGTTTGAGTAAAGGCTTTTTATACATAGTAAAGAGGAGGAGGCTTCTATCTTGGGATCGGAATAGAATAGCGATGCCGCTCCTTGATGTCTTGTCAATTTGGTGTACTAATGATTTGCAAAATGGGCTAGGCCTCTCCTTCATATAATATCTACTTCTGCTGCGCTGCATGGGTTTGTTCTTGCTGGTACGAAGGTGGTGATCGGATTTCCTTTTAGATTTGTCGGTTTTATCTTACAATATGAAAGCTCCCTCAAATGGGTTTCTAGCCAATTCTGGAGAAGGTAACTCTTATCCTCAATTTGTATTCAATATCTGCTTTCTGATTTCCTTTCTCCCTTATTTCTACCACTTCTTTAATTTCTAATCACGGATCAAAAACTTATTTTTTACACTGAAATGGTATATTTGGGATTCTTTTCTTTCTCGGATGCAGTAACGTAGCATCTTGATCATGCCCCAGTTTAACACCGACTTTTGTCTGAACTAAGTGAGCAAATAAAGTTCGTTTTTCTCCCATTTTTTGTTGAAGTGAATGAAAAATGCAGCATGATTTTACCTTGACCTCTTTGATTTCCTTTTATGTCGGGACCATCCTTAATATCACATTGCAATTGGCCACATTGTTGCAAATCTTAGCAATCATTGAATTGACCTTCCATGCTGATCTCCTCTATTATGTTCAAGAACACGATTGATGAGAGATCCTGAAGTTGTGTTATGCTTCGCACTTTCTAAAAATTTGCTTATTCGTTCCCTTTGTTTGACGGAATAAGTTTGATTTTCCGTCTTGAGTGAACCAATTCATTATGGTTCTTGAAATCGGAAGTGCTTTTTGAACAAGAAACATACTTTTCATCATTAAAGACATAAATTGTTTGGGGATACAATCTCCCAGAGGGAGAGAATAAAACAAGAACAAGGGATTTCATCTCTTTAGTGGAATGTTTTCCATTGTCCTAGAGGCCTTGGGATTTTGGATATTCAACTAAGGAACATCTCTTGGCTCTCTCTTGGCTAAATGGAAATGGCGTACCATGAAAAGAAGGCTCCTTAGCATTGGGTTATTGCCTCCAAATATGGACACACTCCCTTCAACCTTAAACCCGATGCCAAAACCATATACTCTTCCACATGCTCTTGGAAATTGGTTGATAAATTGAAACAGTGTATGCTCGTACAACTGTAAAGGTGGGAAATGGAATAACACCTCTTTTTGGAAGGTTATGTGGCTTGGGAACTCTACTCTACAACATATCTTCCCTCAACCTTACCACCTTTCAAACGATAAGGATGCCTTCATTGCTGAGTTTTAGTGTTCAGATTCTGAATCTTGGGTGCTCCCACCTGAGAAGAAACCTCTTGGAGGTTGAGTTGATAATTGGGCCATTTTATCCACTTTTTTTACAGCCTACAAGCTACAGCTAGAGAAGACTCAGGGTGCTAGTCTCTAGAACTAAATGGCATTCTCATTTCAAAATCAAAGTCAAAGCCCTATCCTCCAGTGAAAATTTTCATTTGGCTGTGTATCAACAGGTTTGGTCCGGTTGTTTACCTAAAAATGTAAAAATTTTCCTTTGGGAGGTCAGGCACTCTTGCATCAACCCCCTTTATACAAGATGCTTTTGGCTGGGAATTTCCGCAATCAGTAATACTCTTTCTTATCTCTGTTTTTGCTTTTAGAGCACCTCTTTAGAAAACACAAAAAGATTCTTTGGTTATATTGTGTTCATGCCTTTTTTTGGAATCTCTGGTTGTATGCTTGCATCTTCATGGATAAGAATTGTGACTGGTTATTTTATTGATTCTACTCCTCTTTTAGCCATTACTTGGAGCAAGCAGTCTCCTCTCTTTTGGGATTACGGTATTACTATCCTCGTTAGTCAATGAAGGTGCTTTTTGTAATTATCTAAGTGTCTAGTGGACACCTATCAGACACTTGTTAGTGCAACAAATGCATTAGACATGCATAGAACACTCGTTGAGTAGACTAAAAAGACATATATATGACAATAATAATAACTTTTGAGCGTGGAATACATCAAGCTAAGTCGCATGTAAATACATCAATCCATTTACTATAAAAATGAGATATATTTTGAAAAATGAATATTTTAGTAAACGTGTCCTTGCCTTGTTGTGTCCAAGAATTTTAAAAAAATTTGTGTCATCATGTCTGTCTCGTGTCGTATCCATGTACATGCTTCTTAGGTAATTATTATCCAACAGGAACTTCTTTTGTACCCCATTTCATAATAAAATGAATGGTCATGGTTCCTTTTTATTTTTTCTTTTTGGATAAAATAACATTTCATTAATCAAGCATCCCCCCCTCCCCTGGGGTTTCTCTGAAAGGCAATGAGTTTTATTTGGTTTGAGAACAGGTGAAAGGAAGAATATTAATTCTGAGTTATGGCATGCTTGTGCTGGGCCTCTTGTTTCGTTACCTCCAGTAGGAAGTCTTGTGGTTTACTTCCCTCAAGGCCACAGTGAACAAGTATGCACTTTGTCTTTCAATTTATTTGAACGTGTACTCGTGTATAGTGGTTGCTGATTTTACTTTTCCTTTTAAACCTTTCAGGTTGCAGCATCGATGAATAAGGAGACTGATTTCATTCCAAACTACCCTAACCTTCCTTCAAAGTTGATCTGCATGCTACACAATGTCACATTACATGTACAGCTACGAGGGCTTTGCCCCTTAGATCTAATGAAATCTCTTAAGTTGAACTAATAAATATTTAAAGAATAAATCAGCAGTTCGATTTAATCCTTTGTCAGCACTTGAATCACGATAATTTGTTTTTCATGGCCTTTGTAACTACTGCACTCAACCATTATCTTTTATTAGAAGCTATAAGATTCATGCTAACAGGCCATTGGCAGGCTGAAAAGAAATGAACGTTCTGTGGATGATTGCCAAAATATTACAAAAGAAAAAAAGAAAAAATAATAAAGAAAAGGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAGGACCTGTTAATAAATATGTGAGCACAAGATGAGATGATTGTTTTGTGTTTTGAACCAGGCTGATCCTGAGACTGATGAGGTGTATGCACAAATGACCCTTCAACCAGTGAATAAAGTACGTTAACCAGTCAAACAATCTTCTACACTGCATATTGGATTCATTTATACATTAGAAAATCTTGCAAAAGAATATTCTGACTTTATGTTTTACAGTATGAAAAAGAAGCTTTGTTGGCATCTGATATTGGCCTCAAGCAAAGTAGGCAGCCTGCAGAATTCTTCTGCAAAACTCTAACAGCTAGTGACACTAGCACCCACGGTGGATTTTCTGTGCCTCGTCGTGCAGCCGAGAAGATTTTCCCCCCATTAGTGCGCATCTCATCTCATATTTTCAGAATTGTTTTCATTTATTATGTTGGTTAGGATGCTGCAATATCTTTTTATTAAGAAATACAAGGGCATTAAACCCCCTTCCCCCCCAAATTACACAATGTGTATATCTGCCTGTTATATGGTGTTGGTACAAATATCGAAAATTGGTTACTGTTAGTACTTTGGCTGGGAGGTTTAGGTTGGTATCGAGGACCAGCTAGTCTACATCATTAGGAATTAGGAATTAGCGGCTGGAATAAAGGAGGGAGTTAATTAGTTTTCAGCTATCAACTTAAATTGTATTAATACTAGTTGTTTTTGTTAATAAAGACATCTTATGTGATTTGAAGTTGCAATGTATATGTTTAGTTTAAGCTTTAAAGACAAATTTGAAATGGATCAACGGCTTAGAGACTAAATAAAGATCTTCACCAAAAATTTCTTGAACTTCATATTTGTTTTTTTGTACGTGTATATTTCTTATAAGCTCATATTGAAGACTTTTAATTATAGGACTACTCGATGCAACCCCCTGCTCAGGAACTAGTGGCTAGAGATTTGCATGATAATTCATGGACATTCAGACATATTTACCGTGGTATGGAACCCTTCATTTCTTTTCCTTAGCCTTTTCAGTTGAAGATGTCTGCTAATATTTCCTTGTCTGACTGACAGTTTACATTCTTTTTGGCCTTCCATCATGAAAAATTTTGGGGATTTCTGATGGAACTCGTAGCCAATCGAACTGAGAATTCAATCTTATTGATTTTATATAGCAGAAAGTTAACACTTCTCTGTTTCCCTCTCTTCCAAGAAATAACAGAAAGATTCAAATACTGCAAAAATAATCCATCTCCCTCCCTCCCTTAACAAACTTATTTATATGACTAACCAACCTATCCCTAACCAACCAATTACTCACACGTGTCTCCCTCCTTAACAAACTTATTTATATGACTAACCAACCTATCACTAACCAACCTATCACTAACCAACCTATCACTCACACGTGTCTCCCCCCTTAACAAACTTATTTCCCCTCCTCCTGTACTGATATAATATTGGAGGTCTAACAATTTCCTCTCTGGTTCATATTAATATGTTTTTACGATATCAAATGGAACATTTACATATCAATCTTTGGCGATGGTGTAGTGGTGTTTCCATATAGAACTTTAATTTGTTTTATTTTTCAGTGAGTGGATAGATAATAAGAACCAGCTGTAGATTGAAAGAAAATTACTATAACCCAAGCACTTTGAGCAGTTCGTATTCACTTCTCTTTTGCTTTCTTGCCGATCTTTGCAAATTTTGGGTGCATTGGTGGTTTAAGATGGTATAGAGCAGATGATCCATGGAGGTCCTATGTTCAAGCCCTTACATTGTTGTTTCCTCCCCATTTAAATTGATTTCCACTCGATGAGTCTCTCTTCATATTTCAAGCCTGGGAGAGTGTTAGATATCATATTAAATTTGCCTTCACCCATCGGTTTAAGCGTTTGGGTTAACTGGTGATTTAAGATATTCTGAAACAACACACACGAACCTCGTTGTGCTTCTTACTCTTCCATGAAACCAAATTGTCTCCAACAAAAACACAACGGCCAGAAGCCGATCTTCTGTCTTTTTCTTTTTATCCTGCCTAATCAACATCTGAAATGCTTCAATCTTCATATGACCATCATCTTCATATAAGATCCCATGTCCAGAAGCCTTCATATAGCATAGAACTTGTGGCACTTAAACCCAAGGATTGGTGAGGTTGTAAACTGACTCACTTACAAAATTAGTTAAGTATGGTCATGTTACTGTAAGGTAATTCAACTTTCCAACCAATCTTCTATATCTCTCAGTATTTGTCAATGGCTTGCTATCTTTCAAAAGTTGCTGACTAGGCATCATCAGAGTACTGCATGGCTTGACTTCCAATTTTTTGGTCTCCAACAACAAACCAAGCACATAGTTTCTCTGGACATAAAAATATATCCTTCTTGCTTCTCATTATTTTAATACTCAAGAATTACTTTAGCACTCCCAAGAAGTATGCATTGACTTTGGAGGAAGGATTTGAGAGACAATATACCTAATATATCACTTCCAGCTATGAGAATATCGTCAACATATACAAGTAAAATAATACAAATTCATAGATTGTTGGTAGAAGACTGAGTGATTCAATTTTCTTTTCTTCATTCCAAACTGCTCAAGTTTTTGACTAAAATTTTCAAACCATGCCTGTGGACTTTTTTTTAACCCATACAATAGTTTGTGAAGGCGAAACGTTTATCATTCTATCCCTAAGCAACAAATTAGTTGCTCCACACACACTTCTTCCTGAAGATCGCCATGGAGGGCATTTTTAATGTTAAGGTGATGCAAAGGCCAAATTTTAAATGCTGCCACAGAATTGAATAATCTGTTCTGCTTGGATCTGAAGAAGGTCAAGAGAGTCAAATTTTGTTTGCTCAATCTAATCTTTTCACAATGTAAGGATTATACATGAATAGAAGCTAGTCCATTCTTTATAATCTGTGTTTTAGAAATGAATAACCTGATAGTAGTGAGCTTAGCAATAGTCTATCACATACATCTGAGCATTACCTTTGGCCACATGACACACTTTTTAATGAGCAACCAATCCATCAAAATTAACCTTTTTTTTCTTTTTTTTTTTTCTGAAAAGGAAATTGATCTCTTTGTTGATAATAATAACTCAAAGTACAAAAGGTTTATACAGAGAGCAAAACAAAAAGAGAACATGGGATCAGGAGGTGCATCCGACCATCTCAACTAGGTTGACACCCCCTTAGCGCCCTCATCATATCCAAATAAATATACAGTTCAAGATACAAAGTAAAAGCTTTCTGAAGTACATCAAAGCAGAGGCTGAAAAGCCGTTAAAATAAAATAAGATGAGCAACAAAAAGGGCAGTGCAAATGAGGCGTGAAAAGCCTGAGAAAGCAAAGATAAAAATCCTCTAGTGATGGCTTCAACAATGTGATTCATGAAGAAGGTGACTGCATTGTCTGGGAAAATGAAGGCCTGCCAGTTAAGATAACTTGGATGGAGAAAGCTTCAAAATCTTTGTGTAAAGTACACCAATGACCAAACTGACGCATTTCTGTTAGCTATTTCAAAATGGTCTAACCAAATGCCTCCTTATTATGAAAAATTCTTTGGTTTCATTCAAACCGAATTCCGCCAAAACAGCCTTTGATAAGTTTTCCCAGATTATTCTCAGATTAAAGGTATGTGATTTGGCCCTGGGATTTTCTTGTACTCATGAAATTCCCAGATTAGACTATCTCTTCTGAAATTAAGTTCCTTTTTTTTCTCTCTCTCTTTTTTCCAGCCAAGAACCTGTGGAAGAACCCTGAGTTCTCATCCCCTTCTCTTGGAATTAAGGTTAATCTTGTAAACAAACACCCATTTGCACCGGATAGCCTTTTTTCCTGCAAGAAGAGATAGTAAATTCATAGTACTATTATATCCAAGACATTCATCTCTTTAAATCATTGGAGTGCGGCATCTAGAATGAGACAAAGCTTCACGAGCTGTCTTAGCAATCAAGACAGAAGCAAGAGAACATGTAACAAATGATAAACAGTCATAGGGACACAAAAATCAATACGATAAGTGCAAGAACATTTATGCTAGTCATGGGAAATGGATCTAGGTATAGGAGAAGATATTTTCTTATTCCTTTAGTGATTGAGAAAGACTGACATATAAAAGAGGATTATCAATTGATGTGATAAAATTAAGCTTTCAATCTAATCCTATATGGAAAGAATAAAACACAAGGAAATAATCTTGAACTAGTTCCCTAATTTACTGCTGCATAATTTTACTTGGTTTCCTATACTCCCTCTCAAGCTAAATGGTATATGCTAGCATTCCAAGCTTGAAAATTAGTCCACCAAGGCTTTGGTTGATGTAGAGCCTTGGTTAATATGTAGACAACTCAAATTGGTAGTATTTATCTCAATCTTCTCAATGATAGAATGGCAATCTATCTCCACATGTTTCATTCTATCATGGTGTATTGGATTTCTTACAATGCGTATGGAAGATTGATTACCACGACGTACTTTTATAGTATCTTCAGTTTGAACTATGAGCTTGTTGAGAGGTGTTTTAGCCATTTTCCTTCACAAATTCCATGACCTAATGATCAAATTTCAGCTTCAACACTACTTTGGGCTACAACTTGTTGCTTCTTGTTGCGCCAGGTTACTAGGTTTCTCAATCATAACAGCAATTTCTTGAAACTGACTTATCATCTATAAAAATTAATTAAAGAAGAAGAAAGAATAACACTGGGTATACGTGGAAAATCCTAGTTTAGGGAGAAAAAACCACGATATGAGTCAATATTTTTCTTATCATTAAAAGAATACAAGGGATGAAATATTTATAGGCCATAATGGGCCTTGACAAAAAAGGAAATAAACAAGGGTGTAAAGATATCACAAATACCCTTAGTACAATTATTTTCAACAGGAATAGAGACTTGCATTATTATTATTATTTAAATAGAACCAGACCAAATTGGCTGAACCAAAACTGAACTAGACGAGACTAAATGAATTGAACCAAAATAGGTTGATTGAATTGAACCAATTTAGGATGACTGAACTGGACCCGATAAACCAAAATTGATTCAAACAGTAGGTTTGACCAATGAAATCAACACAGAATTGAAATCCACAAGCAAAGGTGAGGCAATGGATAGATATAAGCGTGAATAAGTGAAGTTGAAATTTGGCAGTGGAACTGAGATGTTAAAATTTGGCAGTGGAACTGAGATGTTAAAATCATATTTGAATGGCGATGATATGGGACAAGCACTCAACATATCCGAAAAATCTTGAACGTATCTGAATAGAACGAATCTGGATGCAGACAGAGCAAACAGAGGCTAATCGGGTTGAGATTAATCACATGGTGTGGCTGGGCATGGATGGCCGACGAATCTTCAACCGTGCGAACGTGGATGTGAACAACGGTGTTGGGAGACACCCGATGTGGGCGGAGGTGACAAACGGATCTTGGCGAACTTCGGATGAGCAAGCGTGGTGAAAACAAGTCTGTGACAAAGACATTTGGGTAATTGGGGACAGACCTGCCTTCGTCAAAAACCTTTCTTTCGATGGAGGCAGATATCGAACAAGACTAATACGATTAGGGTTCAATGAGAACAAACCTAAAGCTCTGACGACAGATGACCTTACTTGAACAAGATTTGTTCTATAGGTTGTACATTTGTGTCCTTGTGTTCTAAGGAGACAAGAACCTAAGTCTGGTGGATGAGTCTCTGTCATGTGACTAGAGCGTGATTAACGATTCAATGGACCCCATGGTCTGGTGGCTGTAGAGGATCGTTCATGGTAGGCTTGTCCTGCTGAGATGGTCGCATGGTGGTCTGACAACTTTGAAAAACAAACCTAAAGCCCTTTTACCATGCTAATTTTATATAATCCTAATAATTCAGAGTACATAATGATCTTTTATATAGGGATTAAATAAATCTCCAACGAAATCACTAAAGAAAAATACACTAAGGAAAAATACCAAAAAGGAAAATAATGATGGAAAATACTAATAATCCATAAACCCTAATTTTCTTTTAACAATGAAAACCCTAAACTAATCATAATAAATTACAATGGTGGACAAAAGACTAACAAGCTCCTACAATTACATATACACTATAACATAAGCAAACCTCTAATGAGTCTAAGATGAGAGCTCAAGGAGCTGGTTATTCTGTGAATTTATGTGGCTAAAAATCTCCTTATCCTTACTCTGATAATTAATTTTAGGCCTTTTAACTTAATATAAAATGAACCCATGCCCTGACCAACCTCTCCAAGCAAAGGGGAGGAGCCCACACCCATCTATCAAAGCCAAAGAACTATTAATTTACCTATTCATGTTCTGTCCCTTCTCATCAAATTGTTGGTTTAGCATATTTTCTATGCTCAAATCAGTTTGGGTCTTTGATGGTTCGTTTAGCGCCAATGTGCGCCAATTACTGAGGATGCCTTATTTATCAAAAAGACATTTTCTAATTTGGGTTAATTTGATAAAAGTGATTCTAGCTGAGATTTGGTTTGAACGTAACCAACGCATCTTCCATGATAAAAAAAATGGGATTTGGGTTGACATCATAGAGATTTCTAAAAGAAACGCAGCAGCTTGGTGTTCTTCAAATGCAGAATTCAAAGATTACTCCATTCAAGACATCTGCCTCAATTGGACCGCCTTCATCGGATGAGTTACAATGTAGTTTACCCCGATTGCCAGTTCAGAATTAGTGATTTTGTCGTTTGGACGGGTTTTATATGCATTTCTGCCGTTATGTTTTACTTTTCAGCCTTGCTTTTGTCTACTGTAGGTAGCTTTTGTAGTTATTTTGGTTGTTACTTTGGTCTTTTTATGACCTTAGTATTGTTCTTGTACTTTGGTCTTTTCTTTGTATTTTGAATATGATGAGAGTGCTATGGGGTGTCAACCTAGTTGAGATGTTTGGGTGCATCTACTGATCCTATCTCTCTATCTCTCCCTCTTTTCTTGGCTTCCCTATTATTCTCATTGTATAGCTCTTTTGTACATTGAGATTTTTAATAATAAAGAAGCTTGTCTCCTTTTAAAAAAAAAAGAAATAAATGCAGACATTATTATTTCTTGAGGACTCGTGCCTTTGTCAGTATTGCATGAGACTAATTTCCAATTGTTAGGAAATATTCTGTAGGATAGCTAAATTTTTTACTTTAAATTGATTTATCTTTTATTATTTTAGTGAGATCTGCTTATATTTGTCTCTCCATTTTCATTTTAGTAGATTGTCATTTCTATTATCTAGAACTTTTCTTACCAAGATGGTGGGAACTTACCCAAATATACTTAGAAGAATATGAATATGAATGTTGTCATTTTGATTAGTTTGCAAATTCATAAAAATGTACATTGCATTTTTTCAGGCCAACCAAAACGACACCTTCTGACCACTGGTTGGAGTGTTTTTGTGAGCACAAAACGACTCTTTGCTGGAGACTCTGTGCTCTTTATAAGGTATAAAATCAGCAGTTTGTAACTCACCTATTCTTGTTTAGACAAAGGCTGATCGCATATAAATTCATGCATTATAGAGATGAAAAGTCACAGCTTCTCTTAGGCATAAGGCGTGCTAACAGGCAGCAGCCTGCTCTCTCTTCATCAGTCATATCAAGTGATAGCATGCACATAGGAATCCTTGCTTCTGCGGCTCATGCTGCTGCAAATAACAGTCCTTTTACTATATTTTACAACCCCAGGTAAGTCCTTATTTGTATTTTTTTCCAACTCTACTATAATTTTGTGTGATTTCAGTTTTGGTGCCAACGTTCATTTCATGAGTTTTCAGGGCCAGTCCTTCTGAATTTGTGATACCTTTGGCCAAGTATAATAAAGCAATGTATACGCAAGTTTCACTTGGCATGCGATTTAGGATGATGTTTGAAACTGAGGAGTCGGGAGTACGAAGATATATGGGTACAATTACTGGTATCAGCGACATGGATTCTGTAAGATGGAAAAATTCACAGTGGCGGAATCTTCAGGTACTGTATAAGTTCTTGAAGAATTTAGATACATGTATTCCTAAATGATAGAAAATTATAATTCATGTTCTCAATGTCTTTGGTAAAAGGAAGCTTCACAGGTATTTAAAAATAAGGATCAGTCTATTAACTTCAATTGTTCTAGAGAGACTTGTCCAAGATATACATGCAGAATTCAGTTATTTGTCCTTTCCAGTTCTTTGTCCCATTTTAGGTGCAAATGCTTGTACGATACATAAAGCTAAATTTCGAAAGCAGTTTTTAACATGTGCGATCAGGGAAATAGAATACTACTCTTGGAGGATTTATCTTTGCTTAACATCTTACCGATCCACACACACACACACATGACGATACAATATTTAATTTTCCGTTCATCAGATCAAAATGATGATACAATCTTAAATTTTCTCTGATCAGATCAAAATTCCATTTTTCAGAATTATACTGAACTTCGACAACATGTTATCCTTTGCATTACTTTAAAAATGTATTGTGATACTCAATCCATGAATGTTTATTCCCTGCTTTTGTTGCTTACCAATGATACGTATTTATTGAAGGTTGGATGGGATGAATCCGCAGCTGGTGAACGACCTAATCGAGTTTCAATATGGGAAGTTGAGCCTGTTGTGACTCCCTTCTACATATGTCCGCCTCCGTTCTTCAGACCCAAATTTCCTAAACAACAAGGGATGCCAGGTAATTGAAACCTACAAAAATAATTTTGGAATCATATGTTTAAGCGATTGGAAAGCAGCATTGGGAGAGACATTTCAGGAGTGCTTCTTCCCCTGTAATATGTTGTAGTGATCTTTAGGTTTTATCATGCAGATGACGAATCTGATATTGAAAATGCTTTTAAGAGAGCCATGCCATGGTTTGGTGATGACTTTGGCATGAAAGATACGCCAAGCTCAATCTTTCCTGGTTTAAGTTTAGTGCAGTGGATGAGCATGCAACATAATAATCAATTCCCAGCAGCACAATCTGGAATTTTGCCGTCTATGGTTGCGCCTAGTGCTCTGCATGGAACTCTTACCAATGATGACCCATCCAAATTATTGAGTTTTCAAGCACCAGTACTGTCTTCACCAAATCTCCAATTCAGCAAAGCAAATCAACAGAACCAAGTTGGCCAATTTCCTCCAACTACATGGTCCCAACAGCAGCAGCTGCAGCAATTATTACAAGTTTCTGCAAGCCAACAGTTACAGCAGCAGCAATTGCCACCCCAGGAACAACAGCAGCAGCTGCCCCAGCAGCAGCAACTCCAGTCACAACAGTCACAGCGGCAACAGCAGACCTCACAATCCGTTCTTCTGAACAACAGTGTAACTGCTGCTAACCATTTGCCAAATCCAAGTATGCAACAACCGCTTGTATACTCTCAGCTACAACAGCAGCAATTGCTTGCAAGCAATATTCAATCCCATCAAACTAGTCAACCATCTAATAAGAATTCATTTCAGACTACATCTTTATCAGAAGAAACACAGCTTCAGCCACAAATAGAGCAGCAATCTAGCCTTCTTCCGAGACAACAGCAGCCGACACAATTTCAACAGGCCCCACTACAATTATTGCAACAAAGTCTGTCTCAAAAAGCACAACAGCATCCTCAAGTTCAGCAATTTTCACAGCCAATCCCGACTGAGCAACAACTTCAATTGCAGCTGCTACAGAAGCTCCAGCAACAACACCAGCAGCAACCATTGTTCTCCCCGGCTAGCCCATTATTACCGCCTCAGCTGCTACAGCAGCAACACATTCATCCGCAGAACCAGCAGTTACCACCATTGCCGTTGCCCAATCAGCAGCAGTTCAATACTAGTGGAGGCAGCTTACAAACAGAAAAACTTAATAGCAATGGCTTCGCAAGTTTAGGTCTCATGCAATCACAGCAGGTTCCCATAACCCAATCCCATAGTCAATTCAAACCAACCACGGCAATTAGAGCATACTCTGGACTGACTGAAGGAGATGCTCCATCTTGTTCTACCTCACCTTCCACTAATAATTGCCCAGTTCCTGTGTCAAACCTGCTCAATAAGAACCAACAAGGAGCAGCCACACTTGGTGGAGATTCAGTAGTTGAGCCTGCAACTAACCTGGCACAGGAGCTACATAGCAAACCTGATTTGCGGATCAAACATGAGTTTCCTAACTCAAAAGGATTAGACCAACTAAAGTATAAAGGCACTGTTCCTGATCAGTTAGAAGGGTCTTCTTCTGGGACATCATATTGTTTGGATGCTGGCACCATTCAGCAGGCTCTCCCACTCCCTACATGTTTGGATAATGATGTACAATCACATCCACGTAACAACATCCCTTTCAGTAATAGCATTGATGGATTGACACCAGATACCTTATTGTCGAGGGGATATGACTCTCAAAAAGATCTTCAGAACTTACTTTCTAACTATGGTGGGGGTGTGCCAAGAGATATTGAAACAGAGTTGTCAACTGCTGCAATCAGCTCTCAGTCCTTTGGGGTTCCAAACCTGCCTTTCAAGCCTGGCTGCTCAAATGATGTCAACATAAATGAAGCTGGAGCTTTGAGTAGTGGATTGTGGGCAAACCACAGTCAACGCATGCGTACATATACAAAGGTTTGACGCCCAACTTTATTTTACTTTCTCTAGTATCTCATGTAAATATTTAATGATATTCATGATTAGAATTGTTCTTGATTGTTTAGCACTGTTTACTGTTTCTTATCTAGATGTTCAAGTGTAATTCTAATTTTCATTGAGAAATTAAGATTATTGACTAGTGAGAAATCGTAGGGCTTAGTGTGCTCGGCACCAAGAAGAGATTATGGATTTAGTTGTATTTCCTCCTCTCTTCACTTAATGTGTAAATCACTTTTGTAGTTATTTAAATCAATCCACTAAAAGAACCTTCTATTCTTATTCGACTTTGTGGTGGGGGAAGTATCTTTACAGTATTTTGTCTTCTTATCTTCCCCACTTTTCATACATCTCCTGTCTTCGATTGGAGAGTGTGACTTTAGATGTTGGTGGAGGGACGTTCGTGTTTGGAGTCTCAACCTGCTTGAAGTTTTTCTTGTAAATCCTTTTAATATTTGTTGGATCCCTCTCCCGTTGGAAAGTCAATCTTTGTTGCTTTGTGGAGGACTAATATTCCAAATAAAATTAAGTTCTTTTCTTGGTAAGTTTTATTGGGTCGTGTATTCGAATTTTGAGGAAGCTGCCTTGGTTCTTCTATCGCATTCTTTGTCGGTTCAAGCCCTTACATTGATAAATCACCAAAATCTTTTGTTTTTTTTTTAGTAATTTATGATCTTGATCTCTGGTTCTCTACTTTGGCTTTTTATTAAATTTATTCGAATCTCAACTATAGCTACATTTTCCTTCATATTTTATATACTCATTTGTAGATTGATATTGCTTTCTGGGGTGTTGCATGGTAGATCAAGTTCCGTTTACATACTAAATCACATGATGACATTGACCACATTTTTCATAATAATACTTGGATTCGAGCTTGAAACTTCTATTTTTGTTTGAGATTTTGGAACTCTGACTGAAACTTTACTTTAAAGCATCTAAAGCTGCTAAAATTCTGAAGGTTCAAAAGCGTGGATCAGTGGGTAGATGTATCGATGTCACTCGCTACAAAGGATATGACGAGCTTAGGCATGATCTTGCCCGCATGTTTGGCATTGAAGGGCAGTTAGAAGATCCTCAACGAACTGATTGGAAACTTGTTTATGTGGACCATGAAAATGATATACTTCTAGTTGGTGATGATCCTTGGGAGTAAGTAGATTACTTGTAATCATCTTGTACTTAATCTTTTCCTTTCACCTCTTCTCTGTCTTAATACTTAATCACCAACTGATTACACAGTGAGTTTGTGAGCTGTGTTCAGAGCATAAAGATCCTGTCATCCGCTGAAGTACAGCAGATGAGTTTGGATGGGAATTTGGGTCACATTCAGGCTCCCAATCAAGCTTGCAGTGGGACGGATAGTGGAAATGCATGGAGAGGGCAGTATGATGACAACTCGGCTGCATCGTTCAATCGATGAGGCTTATGGAGTTCAAGATATTACCGACTATATCTTCTCTCGTCTGGGTTGCTGTTCATATTTAAAGTTTGTTGGAACGTTTCAAAAGGTCCACTCAGCGCCTGAGGCAAGGACTGGAAATATTAACTCAGCCAGTGCAATGCTGCGAATATGGAGACCGACTTGCCACCTGATCTTGACTTTTATTAGGAGATGGTGCTTTTTCGTGAACGGGTGGTGAGTGGCCTGAAGCATATCATGAAGTTGATTTAGTTTAAAGTCTTAGTTTCAACTTTCTTCTCCAAGCACCTATACGATTGCTACCTGATTAAATCAAATTCTAATGGCATGGGGAAGTCATCCATGCAAGTGAAGACAGCTTGTTTCTCGTTTTTGTAAATTGTAACATTTATATTGTTTATATTCCAATGTAGCAGCTGGGGTAACAACCCTTGGTAAATATGATGATGAAGTTCAATTTTTAGCTGTCCCCTAATTGTCATCCGACACTGTAATCTGTGTGATGGTTTAGAGAGAAGGAAAAGTACATTTTTTGCAACTGCGATAACTACAAGAATAGTTAGGATGGTTGTACATGTTTTTTTACCCATGATTGTATCAAACTCAAACCAAGAGTTGCATCTTAGTTATTGTACAATTTTTGGTTACGCTCCAACCCTTTGTAAGAGGTACAAGTATTTTCAAAACGGAGGTGTGGAGCAAGATTGAATGACTAAAGTATAAAATGTGTTTGGTAGGTAGTATGAGAAAGAAAATTTGAGAAAGGGTTTTTTTCTTTTTTAAATATAGACAAAATTATTTACAAGTTATAATTTTTTTAAATATATTTTTATGAGTCAGATAGAAGTCTATCAGCACTTGTATCAACTGTAATATTTAGCTATGTTTAATGTTTATAGATATTTTGATTTTGTCCAAATTTAGCTGTTAAAAATAATTACTATTTCAATATTGTTTTAAACAATAAGTTCCCTAATTCTTTCCTCTTCTCTCCGATAATAGTCATAAGTGGCTATATAAAAAGGATGTAAGCTGATCTGCTCTCATTTACTCGAAAATCTATTTGTCTGAAGCTCTGTGTTGCGGTCGTCTTTCCTCTCTCTCTGCTCCCTCCCTTTGAGGGTTTTTTTTTTTTTTTTT

mRNA sequence

AAAAAAAAAAAAAAAAAAATCCAAGTCCCTCACACTATTCACTGGAATCAATCATTTCCCTTCTTTTATTTCTGGGTTATGTTATTAATATCATAATGAGATGGATCTTATTTTAAAAAAAGAAAAATATATAATTTGTATTGTATACCCCTTTTCCTTGTTCCGTCAGTCCAGTTGATGTCGGCCTCTGTCTTCCTTCCTCTTTTTCTCCCAAACCTTTTTGCTTTAGCTTTACCTTAGGCCTTTGATTTCCCGGCGACAAGTCTGTGCTGTTTCATCCCCGCCACAATTTCGCTACCCACTTCTTTCCTTCACAAGCCAAACTGTAACACTATACCACTTCTGTCTCCCCCTTTTTGCTTCTTTCATTTAATTTTTCCTACGTCTGACGCGGTGGACTTGCCGGCGACTTTTGTCTTCAAGGAGCTGAGCTGAGGTAGGCAGAGTCCGACTTTGCTTTTTTTTTTCTTCTGTGGAGGAAGCATGTCAAGATTTGGACTCTGGGATGGACTTGGACGCAAAAAGCGTTTATTGTAATTTCCGCGGATTTAACAAGCTCCATCTTTTTTAGTTCAATCCCATTACTTAAATCTCTGGTTGGTTGGAACTTCAACGAAACCTGTTGTTTACACTCGTAATTACTATTTACAGCCATTTGTTTGGCGCCTTAATGTCTGTACATCCTGGATGCGCTACTTGGGAAGACTCTTTTGCACCTAAGTTCTCCTATATGAACTAGTTGAAATTGCTGCAAAACTGATAATTCTACTAAGGACTTGGTTTCACTCAGCTACATCCTTAGGGTTTGAGTAAAGGCTTTTTATACATAGTAAAGAGGAGGAGGCTTCTATCTTGGGATCGGAATAGAATAGCGATGCCGCTCCTTGATGTCTTGTCAATTTGGTGTACTAATGATTTGCAAAATGGGCTAGGCCTCTCCTTCATATAATATCTACTTCTGCTGCGCTGCATGGGTTTGTTCTTGCTGGTACGAAGGTGGTGATCGGATTTCCTTTTAGATTTGTCGGTTTTATCTTACAATATGAAAGCTCCCTCAAATGGGTTTCTAGCCAATTCTGGAGAAGATTCTGAATCTTGGGTGCTCCCACCTGAGAAGAAACCTCTTGGAGGTGAAAGGAAGAATATTAATTCTGAGTTATGGCATGCTTGTGCTGGGCCTCTTGTTTCGTTACCTCCAGTAGGAAGTCTTGTGGTTTACTTCCCTCAAGGCCACAGTGAACAAGTTGCAGCATCGATGAATAAGGAGACTGATTTCATTCCAAACTACCCTAACCTTCCTTCAAAGTTGATCTGCATGCTACACAATGTCACATTACATGCTGATCCTGAGACTGATGAGGTGTATGCACAAATGACCCTTCAACCAGTGAATAAATATGAAAAAGAAGCTTTGTTGGCATCTGATATTGGCCTCAAGCAAAGTAGGCAGCCTGCAGAATTCTTCTGCAAAACTCTAACAGCTAGTGACACTAGCACCCACGGTGGATTTTCTGTGCCTCGTCGTGCAGCCGAGAAGATTTTCCCCCCATTAGTGCGCATCTCATCTCATATTTTCAGAATTGTTTTCATTTATTATGTTGGTTAGGATGCTGCAATATCTTTTTATTAAGAAATACAAGGGCATTAAACCCCCTTCCCCCCCAAATTACACAATGTGTATATCTGCCTGTTATATGGTGTTGGTACAAATATCGAAAATTGGTTACTGTTAGTACTTTGGCTGGGAGGTTTAGGTTGGTATCGAGGACCAGCTAGTCTACATCATTAGGAATTAGGAATTAGCGGCTGGAATAAAGGAGGGAGTTAATTAGTTTTCAGCTATCAACTTAAATTGTATTAATACTAGTTGTTTTTGTTAATAAAGACATCTTATGTGATTTGAAGTTGCAATGTATATGTTTAGTTTAAGCTTTAAAGACAAATTTGAAATGGATCAACGGCTTAGAGACTAAATAAAGATCTTCACCAAAAATTTCTTGAACTTCATATTTGTTTTTTTGTACGTGTATATTTCTTATAAGCTCATATTGAAGACTTTTAATTATAGGACTACTCGATGCAACCCCCTGCTCAGGAACTAGTGGCTAGAGATTTGCATGATAATTCATGGACATTCAGACATATTTACCGTGGCCAACCAAAACGACACCTTCTGACCACTGGTTGGAGTGTTTTTGTGAGCACAAAACGACTCTTTGCTGGAGACTCTGTGCTCTTTATAAGAGATGAAAAGTCACAGCTTCTCTTAGGCATAAGGCGTGCTAACAGGCAGCAGCCTGCTCTCTCTTCATCAGTCATATCAAGTGATAGCATGCACATAGGAATCCTTGCTTCTGCGGCTCATGCTGCTGCAAATAACAGTCCTTTTACTATATTTTACAACCCCAGGGCCAGTCCTTCTGAATTTGTGATACCTTTGGCCAAGTATAATAAAGCAATGTATACGCAAGTTTCACTTGGCATGCGATTTAGGATGATGTTTGAAACTGAGGAGTCGGGAGTACGAAGATATATGGGTACAATTACTGGTATCAGCGACATGGATTCTGTAAGATGGAAAAATTCACAGTGGCGGAATCTTCAGGTTGGATGGGATGAATCCGCAGCTGGTGAACGACCTAATCGAGTTTCAATATGGGAAGTTGAGCCTGTTGTGACTCCCTTCTACATATGTCCGCCTCCGTTCTTCAGACCCAAATTTCCTAAACAACAAGGGATGCCAGATGACGAATCTGATATTGAAAATGCTTTTAAGAGAGCCATGCCATGGTTTGGTGATGACTTTGGCATGAAAGATACGCCAAGCTCAATCTTTCCTGGTTTAAGTTTAGTGCAGTGGATGAGCATGCAACATAATAATCAATTCCCAGCAGCACAATCTGGAATTTTGCCGTCTATGGTTGCGCCTAGTGCTCTGCATGGAACTCTTACCAATGATGACCCATCCAAATTATTGAGTTTTCAAGCACCAGTACTGTCTTCACCAAATCTCCAATTCAGCAAAGCAAATCAACAGAACCAAGTTGGCCAATTTCCTCCAACTACATGGTCCCAACAGCAGCAGCTGCAGCAATTATTACAAGTTTCTGCAAGCCAACAGTTACAGCAGCAGCAATTGCCACCCCAGGAACAACAGCAGCAGCTGCCCCAGCAGCAGCAACTCCAGTCACAACAGTCACAGCGGCAACAGCAGACCTCACAATCCGTTCTTCTGAACAACAGTGTAACTGCTGCTAACCATTTGCCAAATCCAAGTATGCAACAACCGCTTGTATACTCTCAGCTACAACAGCAGCAATTGCTTGCAAGCAATATTCAATCCCATCAAACTAGTCAACCATCTAATAAGAATTCATTTCAGACTACATCTTTATCAGAAGAAACACAGCTTCAGCCACAAATAGAGCAGCAATCTAGCCTTCTTCCGAGACAACAGCAGCCGACACAATTTCAACAGGCCCCACTACAATTATTGCAACAAAGTCTGTCTCAAAAAGCACAACAGCATCCTCAAGTTCAGCAATTTTCACAGCCAATCCCGACTGAGCAACAACTTCAATTGCAGCTGCTACAGAAGCTCCAGCAACAACACCAGCAGCAACCATTGTTCTCCCCGGCTAGCCCATTATTACCGCCTCAGCTGCTACAGCAGCAACACATTCATCCGCAGAACCAGCAGTTACCACCATTGCCGTTGCCCAATCAGCAGCAGTTCAATACTAGTGGAGGCAGCTTACAAACAGAAAAACTTAATAGCAATGGCTTCGCAAGTTTAGGTCTCATGCAATCACAGCAGGTTCCCATAACCCAATCCCATAGTCAATTCAAACCAACCACGGCAATTAGAGCATACTCTGGACTGACTGAAGGAGATGCTCCATCTTGTTCTACCTCACCTTCCACTAATAATTGCCCAGTTCCTGTGTCAAACCTGCTCAATAAGAACCAACAAGGAGCAGCCACACTTGGTGGAGATTCAGTAGTTGAGCCTGCAACTAACCTGGCACAGGAGCTACATAGCAAACCTGATTTGCGGATCAAACATGAGTTTCCTAACTCAAAAGGATTAGACCAACTAAAGTATAAAGGCACTGTTCCTGATCAGTTAGAAGGGTCTTCTTCTGGGACATCATATTGTTTGGATGCTGGCACCATTCAGCAGGCTCTCCCACTCCCTACATGTTTGGATAATGATGTACAATCACATCCACGTAACAACATCCCTTTCAGTAATAGCATTGATGGATTGACACCAGATACCTTATTGTCGAGGGGATATGACTCTCAAAAAGATCTTCAGAACTTACTTTCTAACTATGGTGGGGGTGTGCCAAGAGATATTGAAACAGAGTTGTCAACTGCTGCAATCAGCTCTCAGTCCTTTGGGGTTCCAAACCTGCCTTTCAAGCCTGGCTGCTCAAATGATGTCAACATAAATGAAGCTGGAGCTTTGAGTAGTGGATTGTGGGCAAACCACAGTCAACGCATGCGTACATATACAAAGGTTCAAAAGCGTGGATCAGTGGGTAGATGTATCGATGTCACTCGCTACAAAGGATATGACGAGCTTAGGCATGATCTTGCCCGCATGTTTGGCATTGAAGGGCAGTTAGAAGATCCTCAACGAACTGATTGGAAACTTGTTTATGTGGACCATGAAAATGATATACTTCTAGTTGGTGATGATCCTTGGGATGAGTTTGTGAGCTGTGTTCAGAGCATAAAGATCCTGTCATCCGCTGAAGTACAGCAGATGAGTTTGGATGGGAATTTGGGTCACATTCAGGCTCCCAATCAAGCTTGCAGTGGGACGGATAGTGGAAATGCATGGAGAGGGCAGTATGATGACAACTCGGCTGCATCGTTCAATCGATGAGGCTTATGGAGTTCAAGATATTACCGACTATATCTTCTCTCGTCTGGGTTGCTGTTCATATTTAAAGTTTGTTGGAACGTTTCAAAAGGTCCACTCAGCGCCTGAGGCAAGGACTGGAAATATTAACTCAGCCAGTGCAATGCTGCGAATATGGAGACCGACTTGCCACCTGATCTTGACTTTTATTAGGAGATGGTGCTTTTTCGTGAACGGGTGGTGAGTGGCCTGAAGCATATCATGAAGTTGATTTAGTTTAAAGTCTTAGTTTCAACTTTCTTCTCCAAGCACCTATACGATTGCTACCTGATTAAATCAAATTCTAATGGCATGGGGAAGTCATCCATGCAAGTGAAGACAGCTTGTTTCTCGTTTTTGTAAATTGTAACATTTATATTGTTTATATTCCAATGTAGCAGCTGGGGTAACAACCCTTGGTAAATATGATGATGAAGTTCAATTTTTAGCTGTCCCCTAATTGTCATCCGACACTGTAATCTGTGTGATGGTTTAGAGAGAAGGAAAAGTACATTTTTTGCAACTGCGATAACTACAAGAATAGTTAGGATGGTTGTACATGTTTTTTTACCCATGATTGTATCAAACTCAAACCAAGAGTTGCATCTTAGTTATTGTACAATTTTTGGTTACGCTCCAACCCTTTGTAAGAGGTACAAGTATTTTCAAAACGGAGGTGTGGAGCAAGATTGAATGACTAAAGTATAAAATGTGTTTGGTAGGTAGTATGAGAAAGAAAATTTGAGAAAGGGTTTTTTTCTTTTTTAAATATAGACAAAATTATTTACAAGTTATAATTTTTTTAAATATATTTTTATGAGTCAGATAGAAGTCTATCAGCACTTGTATCAACTGTAATATTTAGCTATGTTTAATGTTTATAGATATTTTGATTTTGTCCAAATTTAGCTGTTAAAAATAATTACTATTTCAATATTGTTTTAAACAATAAGTTCCCTAATTCTTTCCTCTTCTCTCCGATAATAGTCATAAGTGGCTATATAAAAAGGATGTAAGCTGATCTGCTCTCATTTACTCGAAAATCTATTTGTCTGAAGCTCTGTGTTGCGGTCGTCTTTCCTCTCTCTCTGCTCCCTCCCTTTGAGGGTTTTTTTTTTTTTTTTT

Coding sequence (CDS)

ATGAAAGCTCCCTCAAATGGGTTTCTAGCCAATTCTGGAGAAGATTCTGAATCTTGGGTGCTCCCACCTGAGAAGAAACCTCTTGGAGGTGAAAGGAAGAATATTAATTCTGAGTTATGGCATGCTTGTGCTGGGCCTCTTGTTTCGTTACCTCCAGTAGGAAGTCTTGTGGTTTACTTCCCTCAAGGCCACAGTGAACAAGTTGCAGCATCGATGAATAAGGAGACTGATTTCATTCCAAACTACCCTAACCTTCCTTCAAAGTTGATCTGCATGCTACACAATGTCACATTACATGCTGATCCTGAGACTGATGAGGTGTATGCACAAATGACCCTTCAACCAGTGAATAAATATGAAAAAGAAGCTTTGTTGGCATCTGATATTGGCCTCAAGCAAAGTAGGCAGCCTGCAGAATTCTTCTGCAAAACTCTAACAGCTAGTGACACTAGCACCCACGGTGGATTTTCTGTGCCTCGTCGTGCAGCCGAGAAGATTTTCCCCCCATTAGTGCGCATCTCATCTCATATTTTCAGAATTGTTTTCATTTATTATGTTGGTTAG

Protein sequence

MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYEKEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPLVRISSHIFRIVFIYYVG
Homology
[Close]
BLAST of CsGy2G000030 vs. NCBI nr
Match: XP_011648570.1 (PREDICTED: auxin response factor 19 isoform X1 [Cucumis sativus] >XP_011648571.1 PREDICTED: auxin response factor 19 isoform X1 [Cucumis sativus] >KGN60494.1 hypothetical protein Csa_2G000030 [Cucumis sativus])

HSP 1 Score: 313.2 bits (801), Expect = 6.2e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. NCBI nr
Match: XP_008460034.1 (PREDICTED: auxin response factor 19 isoform X1 [Cucumis melo])

HSP 1 Score: 313.2 bits (801), Expect = 6.2e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. NCBI nr
Match: XP_008460042.1 (PREDICTED: auxin response factor 19 isoform X2 [Cucumis melo])

HSP 1 Score: 313.2 bits (801), Expect = 6.2e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. NCBI nr
Match: XP_011648572.1 (PREDICTED: auxin response factor 19 isoform X2 [Cucumis sativus])

HSP 1 Score: 313.2 bits (801), Expect = 6.2e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. NCBI nr
Match: NP_001292622.1 (auxin response factor 19 [Cucumis sativus] >BAD19061.1 auxin response factor 1 [Cucumis sativus])

HSP 1 Score: 313.2 bits (801), Expect = 6.2e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TAIR10
Match: AT1G19220.1 (auxin response factor 19)

HSP 1 Score: 283.1 bits (723), Expect = 1.2e-76
Identity = 138/170 (81.18%), Postives = 148/170 (87.06%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFL +S E               GE+K INS+LWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLPSSNE---------------GEKKPINSQLWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASM K+TDFIPNYPNLPSKLIC+LH+VTLHAD ETDEVYAQMTLQPVNKY+
Sbjct: 61  PQGHSEQVAASMQKQTDFIPNYPNLPSKLICLLHSVTLHADTETDEVYAQMTLQPVNKYD 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           +EALLASD+GLK +RQP EFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 REALLASDMGLKLNRQPTEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TAIR10
Match: AT5G20730.1 (Transcriptional factor B3 family protein / auxin-responsive factor AUX/IAA-related)

HSP 1 Score: 273.5 bits (698), Expect = 9.8e-74
Identity = 135/171 (78.95%), Postives = 146/171 (85.38%), Query Frame = 0 

Query: 1   MKAP-SNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVY 60
           MKAP SNG   N               P+ GER+NINSELWHACAGPL+SLPP GSLVVY
Sbjct: 1   MKAPSSNGVSPN---------------PVEGERRNINSELWHACAGPLISLPPAGSLVVY 60

Query: 61  FPQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKY 120
           FPQGHSEQVAASM K+TDFIP+YPNLPSKLICMLHNVTL+ADPETDEVYAQMTLQPVNKY
Sbjct: 61  FPQGHSEQVAASMQKQTDFIPSYPNLPSKLICMLHNVTLNADPETDEVYAQMTLQPVNKY 120

Query: 121 EKEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           +++ALLASD+GLK +RQP EFFCKTLTASDTSTHGGFSVPRRAAEKIFP L
Sbjct: 121 DRDALLASDMGLKLNRQPNEFFCKTLTASDTSTHGGFSVPRRAAEKIFPAL 156

[Close]
BLAST of CsGy2G000030 vs. TAIR10
Match: AT1G30330.2 (auxin response factor 6)

HSP 1 Score: 224.9 bits (572), Expect = 4.0e-59
Identity = 110/150 (73.33%), Postives = 126/150 (84.00%), Query Frame = 0 

Query: 23  PEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETD-FIPN 82
           P+   + GE++ +NSELWHACAGPLVSLPPVGS VVYFPQGHSEQVAAS NKE D  IPN
Sbjct: 10  PQPHEVTGEKRVLNSELWHACAGPLVSLPPVGSRVVYFPQGHSEQVAASTNKEVDAHIPN 69

Query: 83  YPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE-KEALLASDIGLKQSRQPAEF 142
           YP+L  +LIC LHNVT+HAD ETDEVYAQMTLQP+N  E K+  L +++G+  SRQP  +
Sbjct: 70  YPSLHPQLICQLHNVTMHADVETDEVYAQMTLQPLNAQEQKDPYLPAELGV-PSRQPTNY 129

Query: 143 FCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           FCKTLTASDTSTHGGFSVPRRAAEK+FPPL
Sbjct: 130 FCKTLTASDTSTHGGFSVPRRAAEKVFPPL 158

[Close]
BLAST of CsGy2G000030 vs. TAIR10
Match: AT5G37020.1 (auxin response factor 8)

HSP 1 Score: 213.0 bits (541), Expect = 1.6e-55
Identity = 104/140 (74.29%), Postives = 118/140 (84.29%), Query Frame = 0 

Query: 33  KNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETD-FIPNYPNLPSKLIC 92
           K +NSELWHACAGPLVSLP  GS VVYFPQGHSEQVAA+ NKE D  IPNYP+LP +LIC
Sbjct: 17  KCLNSELWHACAGPLVSLPSSGSRVVYFPQGHSEQVAATTNKEVDGHIPNYPSLPPQLIC 76

Query: 93  MLHNVTLHADPETDEVYAQMTLQPVNKYE-KEALLASDIGLKQSRQPAEFFCKTLTASDT 152
            LHNVT+HAD ETDEVYAQMTLQP+   E KE  +  ++G+  S+QP+ +FCKTLTASDT
Sbjct: 77  QLHNVTMHADVETDEVYAQMTLQPLTPEEQKETFVPIELGI-PSKQPSNYFCKTLTASDT 136

Query: 153 STHGGFSVPRRAAEKIFPPL 171
           STHGGFSVPRRAAEK+FPPL
Sbjct: 137 STHGGFSVPRRAAEKVFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TAIR10
Match: AT1G19850.1 (Transcriptional factor B3 family protein / auxin-responsive factor AUX/IAA-related)

HSP 1 Score: 203.8 bits (517), Expect = 9.6e-53
Identity = 100/148 (67.57%), Postives = 116/148 (78.38%), Query Frame = 0 

Query: 25  KKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKE-TDFIPNYP 84
           K   G  +  INSELWHACAGPLV LP VGSLV YF QGHSEQVA S  +  T  +PNYP
Sbjct: 41  KDQSGTRKPVINSELWHACAGPLVCLPQVGSLVYYFSQGHSEQVAVSTRRSATTQVPNYP 100

Query: 85  NLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYEKEALLASDIG-LKQSRQPAEFFC 144
           NLPS+L+C +HNVTLHAD ++DE+YAQM+LQPV+  E++     D G L+ S+ P EFFC
Sbjct: 101 NLPSQLMCQVHNVTLHADKDSDEIYAQMSLQPVHS-ERDVFPVPDFGMLRGSKHPTEFFC 160

Query: 145 KTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KTLTASDTSTHGGFSVPRRAAEK+FPPL
Sbjct: 161 KTLTASDTSTHGGFSVPRRAAEKLFPPL 187

[Close]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match: sp|Q8RYC8|ARFS_ARATH (Auxin response factor 19 OS=Arabidopsis thaliana OX=3702 GN=ARF19 PE=1 SV=2)

HSP 1 Score: 283.1 bits (723), Expect = 2.2e-75
Identity = 138/170 (81.18%), Postives = 148/170 (87.06%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFL +S E               GE+K INS+LWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLPSSNE---------------GEKKPINSQLWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASM K+TDFIPNYPNLPSKLIC+LH+VTLHAD ETDEVYAQMTLQPVNKY+
Sbjct: 61  PQGHSEQVAASMQKQTDFIPNYPNLPSKLICLLHSVTLHADTETDEVYAQMTLQPVNKYD 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           +EALLASD+GLK +RQP EFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 REALLASDMGLKLNRQPTEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match: sp|P93022|ARFG_ARATH (Auxin response factor 7 OS=Arabidopsis thaliana OX=3702 GN=ARF7 PE=1 SV=2)

HSP 1 Score: 273.5 bits (698), Expect = 1.8e-72
Identity = 135/171 (78.95%), Postives = 146/171 (85.38%), Query Frame = 0 

Query: 1   MKAP-SNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVY 60
           MKAP SNG   N               P+ GER+NINSELWHACAGPL+SLPP GSLVVY
Sbjct: 1   MKAPSSNGVSPN---------------PVEGERRNINSELWHACAGPLISLPPAGSLVVY 60

Query: 61  FPQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKY 120
           FPQGHSEQVAASM K+TDFIP+YPNLPSKLICMLHNVTL+ADPETDEVYAQMTLQPVNKY
Sbjct: 61  FPQGHSEQVAASMQKQTDFIPSYPNLPSKLICMLHNVTLNADPETDEVYAQMTLQPVNKY 120

Query: 121 EKEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           +++ALLASD+GLK +RQP EFFCKTLTASDTSTHGGFSVPRRAAEKIFP L
Sbjct: 121 DRDALLASDMGLKLNRQPNEFFCKTLTASDTSTHGGFSVPRRAAEKIFPAL 156

[Close]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match: sp|A3B9A0|ARFP_ORYSJ (Auxin response factor 16 OS=Oryza sativa subsp. japonica OX=39947 GN=ARF16 PE=2 SV=1)

HSP 1 Score: 258.1 bits (658), Expect = 7.7e-68
Identity = 122/144 (84.72%), Postives = 135/144 (93.75%), Query Frame = 0 

Query: 27  PLGGERKNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETDFIPNYPNLP 86
           P  GE+K INSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASM+KE D IP YP+LP
Sbjct: 13  PGEGEKKAINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMHKELDNIPGYPSLP 72

Query: 87  SKLICMLHNVTLHADPETDEVYAQMTLQPVNKYEKEALLASDIGLKQSRQPAEFFCKTLT 146
           SKLIC L ++TLHAD ETDEVYAQMTLQPVNKY+++A+LAS++GLKQ++QPAEFFCKTLT
Sbjct: 73  SKLICKLLSLTLHADSETDEVYAQMTLQPVNKYDRDAMLASELGLKQNKQPAEFFCKTLT 132

Query: 147 ASDTSTHGGFSVPRRAAEKIFPPL 171
           ASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 133 ASDTSTHGGFSVPRRAAEKIFPPL 156

[Close]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match: sp|A2YAA5|ARFP_ORYSI (Auxin response factor 16 OS=Oryza sativa subsp. indica OX=39946 GN=ARF16 PE=2 SV=1)

HSP 1 Score: 256.5 bits (654), Expect = 2.2e-67
Identity = 121/144 (84.03%), Postives = 134/144 (93.06%), Query Frame = 0 

Query: 27  PLGGERKNINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETDFIPNYPNLP 86
           P  GE+K INSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASM+KE D IP YP+LP
Sbjct: 13  PGEGEKKAINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMHKELDNIPGYPSLP 72

Query: 87  SKLICMLHNVTLHADPETDEVYAQMTLQPVNKYEKEALLASDIGLKQSRQPAEFFCKTLT 146
           SKLIC L ++TLHAD ETDEVY QMTLQPVNKY+++A+LAS++GLKQ++QPAEFFCKTLT
Sbjct: 73  SKLICKLLSLTLHADSETDEVYVQMTLQPVNKYDRDAMLASELGLKQNKQPAEFFCKTLT 132

Query: 147 ASDTSTHGGFSVPRRAAEKIFPPL 171
           ASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 133 ASDTSTHGGFSVPRRAAEKIFPPL 156

[Close]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match: sp|Q6Z2W3|ARFE_ORYSJ (Auxin response factor 5 OS=Oryza sativa subsp. japonica OX=39947 GN=ARF5 PE=2 SV=2)

HSP 1 Score: 243.4 bits (620), Expect = 2.0e-63
Identity = 119/144 (82.64%), Postives = 127/144 (88.19%), Query Frame = 0 

Query: 30  GERK--NINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMNKETD-FIPNYPNLP 89
           GERK   INSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASM K+ D  +P+YPNLP
Sbjct: 34  GERKAAAINSELWHACAGPLVSLPPVGSLVVYFPQGHSEQVAASMQKDVDAHVPSYPNLP 93

Query: 90  SKLICMLHNVTLHADPETDEVYAQMTLQPVNKYEKEALLASDIGLKQSRQPAEFFCKTLT 149
           SKLIC+LH V LHADP+TDEVYAQMTLQPVN Y KEAL  S++ LKQ+R   EFFCKTLT
Sbjct: 94  SKLICLLHGVNLHADPDTDEVYAQMTLQPVNTYGKEALQISELALKQARPQMEFFCKTLT 153

Query: 150 ASDTSTHGGFSVPRRAAEKIFPPL 171
           ASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 154 ASDTSTHGGFSVPRRAAEKIFPPL 177

[Close]
BLAST of CsGy2G000030 vs. TrEMBL
Match: tr|A0A1S3CC20|A0A1S3CC20_CUCME (Auxin response factor OS=Cucumis melo OX=3656 GN=LOC103498967 PE=3 SV=1)

HSP 1 Score: 313.2 bits (801), Expect = 4.1e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TrEMBL
Match: tr|A0A1S3CBQ4|A0A1S3CBQ4_CUCME (Auxin response factor OS=Cucumis melo OX=3656 GN=LOC103498967 PE=3 SV=1)

HSP 1 Score: 313.2 bits (801), Expect = 4.1e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TrEMBL
Match: tr|A0A0A0LHN1|A0A0A0LHN1_CUCSA (Auxin response factor OS=Cucumis sativus OX=3659 GN=Csa_2G000030 PE=3 SV=1)

HSP 1 Score: 313.2 bits (801), Expect = 4.1e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TrEMBL
Match: tr|Q6L8U3|Q6L8U3_CUCSA (Auxin response factor OS=Cucumis sativus OX=3659 GN=CsARF1 PE=2 SV=1)

HSP 1 Score: 313.2 bits (801), Expect = 4.1e-82
Identity = 155/170 (91.18%), Postives = 155/170 (91.18%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAPSNGFLANSGE               GERKNINSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPSNGFLANSGE---------------GERKNINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE
Sbjct: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

[Close]
BLAST of CsGy2G000030 vs. TrEMBL
Match: tr|A0A1U8IW88|A0A1U8IW88_GOSHI (Auxin response factor OS=Gossypium hirsutum OX=3635 GN=LOC107901036 PE=3 SV=1)

HSP 1 Score: 300.8 bits (769), Expect = 2.1e-78
Identity = 148/170 (87.06%), Postives = 152/170 (89.41%), Query Frame = 0 

Query: 1   MKAPSNGFLANSGEDSESWVLPPEKKPLGGERKNINSELWHACAGPLVSLPPVGSLVVYF 60
           MKAP NGF+ANS E               GERK+INSELWHACAGPLVSLPPVGSLVVYF
Sbjct: 1   MKAPPNGFMANSAE---------------GERKSINSELWHACAGPLVSLPPVGSLVVYF 60

Query: 61  PQGHSEQVAASMNKETDFIPNYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYE 120
           PQGHSEQVAASM KETDFIP+YPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKY+
Sbjct: 61  PQGHSEQVAASMQKETDFIPSYPNLPSKLICMLHNVTLHADPETDEVYAQMTLQPVNKYD 120

Query: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 171
           KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL
Sbjct: 121 KEALLASDIGLKQSRQPAEFFCKTLTASDTSTHGGFSVPRRAAEKIFPPL 155

The following BLAST results are available for this feature:
BLAST of CsGy2G000030 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_011648570.16.2e-8291.18PREDICTED: auxin response factor 19 isoform X1 [Cucumis sativus] >XP_011648571.1... [more]
XP_008460034.16.2e-8291.18PREDICTED: auxin response factor 19 isoform X1 [Cucumis melo][more]
XP_008460042.16.2e-8291.18PREDICTED: auxin response factor 19 isoform X2 [Cucumis melo][more]
XP_011648572.16.2e-8291.18PREDICTED: auxin response factor 19 isoform X2 [Cucumis sativus][more]
NP_001292622.16.2e-8291.18auxin response factor 19 [Cucumis sativus] >BAD19061.1 auxin response factor 1 [... [more]
BLAST of CsGy2G000030 vs. TAIR10
Match NameE-valueIdentityDescription
AT1G19220.11.2e-7681.18auxin response factor 19[more]
AT5G20730.19.8e-7478.95Transcriptional factor B3 family protein / auxin-responsive factor AUX/IAA-relat... [more]
AT1G30330.24.0e-5973.33auxin response factor 6[more]
AT5G37020.11.6e-5574.29auxin response factor 8[more]
AT1G19850.19.6e-5367.57Transcriptional factor B3 family protein / auxin-responsive factor AUX/IAA-relat... [more]
BLAST of CsGy2G000030 vs. Swiss-Prot
Match NameE-valueIdentityDescription
sp|Q8RYC8|ARFS_ARATH2.2e-7581.18Auxin response factor 19 OS=Arabidopsis thaliana OX=3702 GN=ARF19 PE=1 SV=2[more]
sp|P93022|ARFG_ARATH1.8e-7278.95Auxin response factor 7 OS=Arabidopsis thaliana OX=3702 GN=ARF7 PE=1 SV=2[more]
sp|A3B9A0|ARFP_ORYSJ7.7e-6884.72Auxin response factor 16 OS=Oryza sativa subsp. japonica OX=39947 GN=ARF16 PE=2 ... [more]
sp|A2YAA5|ARFP_ORYSI2.2e-6784.03Auxin response factor 16 OS=Oryza sativa subsp. indica OX=39946 GN=ARF16 PE=2 SV... [more]
sp|Q6Z2W3|ARFE_ORYSJ2.0e-6382.64Auxin response factor 5 OS=Oryza sativa subsp. japonica OX=39947 GN=ARF5 PE=2 SV... [more]
BLAST of CsGy2G000030 vs. TrEMBL
Match NameE-valueIdentityDescription
tr|A0A1S3CC20|A0A1S3CC20_CUCME4.1e-8291.18Auxin response factor OS=Cucumis melo OX=3656 GN=LOC103498967 PE=3 SV=1[more]
tr|A0A1S3CBQ4|A0A1S3CBQ4_CUCME4.1e-8291.18Auxin response factor OS=Cucumis melo OX=3656 GN=LOC103498967 PE=3 SV=1[more]
tr|A0A0A0LHN1|A0A0A0LHN1_CUCSA4.1e-8291.18Auxin response factor OS=Cucumis sativus OX=3659 GN=Csa_2G000030 PE=3 SV=1[more]
tr|Q6L8U3|Q6L8U3_CUCSA4.1e-8291.18Auxin response factor OS=Cucumis sativus OX=3659 GN=CsARF1 PE=2 SV=1[more]
tr|A0A1U8IW88|A0A1U8IW88_GOSHI2.1e-7887.06Auxin response factor OS=Gossypium hirsutum OX=3635 GN=LOC107901036 PE=3 SV=1[more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR015300DNA-bd_pseudobarrel_sf
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009734 auxin-activated signaling pathway
biological_process GO:0006355 regulation of transcription, DNA-templated
cellular_component GO:0005634 nucleus
molecular_function GO:0003677 DNA binding
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
CsGy2G000030.1CsGy2G000030.1mRNA


InterPro
Analysis Name: InterPro Annotations of cucumber Gy14 genome (v2)
Date Performed: 2018-09-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR015300DNA-binding pseudobarrel domain superfamilyGENE3DG3DSA:2.40.330.10coord: 138..179
e-value: 5.0E-9
score: 37.9
IPR015300DNA-binding pseudobarrel domain superfamilySUPERFAMILYSSF101936DNA-binding pseudobarrel domaincoord: 131..174
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..27
NoneNo IPR availablePANTHERPTHR31384FAMILY NOT NAMEDcoord: 28..170
NoneNo IPR availablePANTHERPTHR31384:SF21AUXIN RESPONSE FACTOR 19-RELATEDcoord: 28..170

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
CsGy2G000030MELO3C004665Melon (DHL92) v3.5.1cgybmeB121
CsGy2G000030MELO3C004665.2Melon (DHL92) v3.6.1cgybmedB119
CsGy2G000030CsaV3_2G001050Cucumber (Chinese Long) v3cgybcucB064
CsGy2G000030Cla97C11G207710Watermelon (97103) v2cgybwmbB098
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
CsGy2G000030Cucurbita maxima (Rimu)cgybcmaB185
CsGy2G000030Cucurbita maxima (Rimu)cgybcmaB257
CsGy2G000030Cucurbita moschata (Rifu)cgybcmoB178
CsGy2G000030Cucurbita pepo (Zucchini)cgybcpeB225
CsGy2G000030Cucumber (Chinese Long) v2cgybcuB056
CsGy2G000030Wild cucumber (PI 183967)cgybcpiB056
CsGy2G000030Silver-seed gourdcarcgybB0887
CsGy2G000030Wax gourdcgybwgoB125