Cla97C11G219650 (gene) Watermelon (97103) v2.5

Overview
NameCla97C11G219650
Typegene
OrganismCitrullus lanatus subsp. vulgaris cv. 97103 (Watermelon (97103) v2.5)
Descriptioncaffeoyl-CoA O-methyltransferase-like
LocationCla97Chr11: 25720385 .. 25744951 (-)
RNA-Seq ExpressionCla97C11G219650
SyntenyCla97C11G219650
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CTTTCTAACTCAACTCATCACACCAAACAGACATTCCAATTAAACTCAACTCTGCGCCCCAAAACACAGATAATCTAACTCACCAGACAATCTAATTCTGCTATAATTATTACCAACTCAACTCAACTCATATGCCACAAACCCCCAAAATGATTCTAACTATTTTAGACTCATGAAAAACATGATTTTTAAGTCTCTGCTATATAATACCCCACTCACGCTCTATTCCAAGCATCCAAGTACCTTTGTTGCAGTTCAGCTAATGGCGGACAATTACCCCTTGAAAAACATCCTTCAGAGCACCGCTCTTCTCCAGTATATACTCGAAGCCAACGCCTATCCGAGAGAGCATGAACAGTTGAAGGAACTCAGGGAATCAACCATTAAGAAATTTGAAATCGCGAGTATGATGAATGTACCGGTAGATGAAGGATTATTTCTATTAATGCTTTTGAAATTGATGAACGCAAAGAAAACGATAGAGATCGGTGTATTCACTGGCTATTCCCTCCTCACCACTGCGCTTGCACTGCCCTCCGATGGCCAGATAACGGCAATTGATGTGAATAGACAATCGTTCGAATTTGGTTTGCCATTTATAAAAAAAGCGGGAGTTGATCATAAGATCAATTTTGTGGAATCTCAGGCATTGGTTGCCTTGAATGACCTCCTCAATGATGGCAAAGAAGAAGATTTTGATTTTGCATTTGTTGATGCCAAAAAATCGGAGTATATTAAATATCATGAGTTGCTTCTAAAACTAGTGAAGGTAGGTGGAGTAATTGTCTATGATAACACTCTATGGTTTGGATCAGTGGCGCTAAGCGATGACGTCGTCCATGAAAAGTTGAAGGAGAACAAACATCATATACAACAATTCAATGCTTTCCTAGTAAATGACATGCGGGTGGAGATAGCTCTCCTCACCATTGGAGATGGTGTCACTCTTTGTAGACGTATCAAATAATTTGGTGATTTTCAATGGCATGTCAAGATTTCAGCATGGGTAAATTTTATGAGGGAAGTTATGTGTATTTTCTTAAATTGAATTTGAGCACAAAATCGACTTAAATAATGAAATTGTTGCAATATGAGCTTCTGGCATTTTATTTTCAAACTTTTGATTTCATACTTGTTCGTCAAATGTCCCTTTTTAAAATACTAGTGTTCTACCACGTGCACAAGTATTTTTTAAAATTTAGAATAATTAAACTTTTATATAATTTAGGTAAAA

Coding sequence (CDS)

ATGAAAAACATGATTTTTAAGTCTCTGCTATATAATACCCCACTCACGCTCTATTCCAAGCATCCAAGTACCTTTGTTGCAGTTCAGCTAATGGCGGACAATTACCCCTTGAAAAACATCCTTCAGAGCACCGCTCTTCTCCAGTATATACTCGAAGCCAACGCCTATCCGAGAGAGCATGAACAGTTGAAGGAACTCAGGGAATCAACCATTAAGAAATTTGAAATCGCGAGTATGATGAATGTACCGGTAGATGAAGGATTATTTCTATTAATGCTTTTGAAATTGATGAACGCAAAGAAAACGATAGAGATCGGTGTATTCACTGGCTATTCCCTCCTCACCACTGCGCTTGCACTGCCCTCCGATGGCCAGATAACGGCAATTGATGTGAATAGACAATCGTTCGAATTTGGTTTGCCATTTATAAAAAAAGCGGGAGTTGATCATAAGATCAATTTTGTGGAATCTCAGGCATTGGTTGCCTTGAATGACCTCCTCAATGATGGCAAAGAAGAAGATTTTGATTTTGCATTTGTTGATGCCAAAAAATCGGAGTATATTAAATATCATGAGTTGCTTCTAAAACTAGTGAAGGTAGGTGGAGTAATTGTCTATGATAACACTCTATGGTTTGGATCAGTGGCGCTAAGCGATGACGTCGTCCATGAAAAGTTGAAGGAGAACAAACATCATATACAACAATTCAATGCTTTCCTAGTAAATGACATGCGGGTGGAGATAGCTCTCCTCACCATTGGAGATGGTGTCACTCTTTGTAGACGTATCAAATAA

Protein sequence

MKNMIFKSLLYNTPLTLYSKHPSTFVAVQLMADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFLLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDHKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTLWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK
Homology
[Close]
BLAST of Cla97C11G219650 vs. NCBI nr
Match: XP_038892937.1 (caffeoyl-CoA O-methyltransferase-like isoform X1 [Benincasa hispida])

HSP 1 Score: 399.1 bits (1024), Expect = 3.1e-107
Identity = 205/237 (86.50%), Postives = 221/237 (93.25%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA---SMMNVPVDEG 90
           MADN P KNILQSTALLQYILEANAYPREHEQLKELREST +KF+ +   S+M+VP DEG
Sbjct: 1   MADNSPKKNILQSTALLQYILEANAYPREHEQLKELRESTFEKFDKSMNGSVMSVPTDEG 60

Query: 91  LFLLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAG 150
           LFL MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQIT IDVNR+SFEFGLPFIKKAG
Sbjct: 61  LFLSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITTIDVNRRSFEFGLPFIKKAG 120

Query: 151 VDHKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYD 210
           VDHKINFVESQAL+AL++LL+DGKEE+FDFAFVDA KSEY KYHELLLKL+KVGGVI YD
Sbjct: 121 VDHKINFVESQALIALDNLLSDGKEEEFDFAFVDAIKSEYTKYHELLLKLMKVGGVIAYD 180

Query: 211 NTLWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           NTLW+GSVALSDDVVHE LKENK HIQ+ NAFLVNDMRVEIALL+IGDGVTLCRRIK
Sbjct: 181 NTLWYGSVALSDDVVHEDLKENKTHIQRLNAFLVNDMRVEIALLSIGDGVTLCRRIK 237

[Close]
BLAST of Cla97C11G219650 vs. NCBI nr
Match: XP_022151835.1 (flavonoid 3',5'-methyltransferase-like [Momordica charantia])

HSP 1 Score: 375.9 bits (964), Expect = 2.8e-100
Identity = 191/250 (76.40%), Postives = 225/250 (90.00%), Query Frame = 0 

Query: 15  LTLYSKHPSTFVAVQLMADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKF 74
           LTL ++   +FV VQ+MA+++P KNILQS ALLQYILE+NAYPREHEQLKELRE+T+ KF
Sbjct: 2   LTLIARTQVSFVTVQIMANDFPDKNILQSPALLQYILESNAYPREHEQLKELRETTVGKF 61

Query: 75  EIA-SMMNVPVDEGLFLLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNR 134
           + + S+M VP D+GLFL ML+KLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDV+R
Sbjct: 62  DKSRSVMGVPADQGLFLAMLVKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVDR 121

Query: 135 QSFEFGLPFIKKAGVDHKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHEL 194
           +SFE GLPFIKKAGVDHKINFVES+AL+ LNDLL DGKE +FDFAFVDAKKSEYIKYHEL
Sbjct: 122 KSFEIGLPFIKKAGVDHKINFVESEALIVLNDLLKDGKEGEFDFAFVDAKKSEYIKYHEL 181

Query: 195 LLKLVKVGGVIVYDNTLWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTI 254
           LL+LVKVGGVI YDNTLW+GSVA S+++V   LK+N+ ++++ NAFLVND RVEIALL+I
Sbjct: 182 LLRLVKVGGVIGYDNTLWYGSVAQSEELVEADLKDNRIYMRELNAFLVNDSRVEIALLSI 241

Query: 255 GDGVTLCRRI 264
           GDG+TLCRRI
Sbjct: 242 GDGLTLCRRI 251

[Close]
BLAST of Cla97C11G219650 vs. NCBI nr
Match: XP_022945592.1 (caffeoyl-CoA O-methyltransferase-like [Cucurbita moschata])

HSP 1 Score: 371.7 bits (953), Expect = 5.2e-99
Identity = 188/235 (80.00%), Postives = 213/235 (90.64%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA-SMMNVPVDEGLF 90
           MAD+ P KNILQSTALLQYILEAN+YPREHEQLKELRE+T++KF+ + S+M+VP D+GLF
Sbjct: 1   MADDCPDKNILQSTALLQYILEANSYPREHEQLKELRETTLRKFDKSLSVMSVPGDQGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDVNR SFE GLPFIKKAGVD
Sbjct: 61  LSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVNRASFEIGLPFIKKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVESQAL+ LN+L+ND  + +FDFAFVDA K EYIKYHE LL+LVKVGGVI YDNT
Sbjct: 121 HKINFVESQALIVLNNLINDDAKTEFDFAFVDAVKGEYIKYHEFLLRLVKVGGVIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LW+GSVA SDDVV + LK N+ HI++FNAFLVND RVEIALL+IGDG+TLCRR+K
Sbjct: 181 LWYGSVAQSDDVVQDDLKANRSHIREFNAFLVNDSRVEIALLSIGDGLTLCRRVK 235

[Close]
BLAST of Cla97C11G219650 vs. NCBI nr
Match: XP_022966735.1 (caffeoyl-CoA O-methyltransferase-like isoform X1 [Cucurbita maxima])

HSP 1 Score: 371.3 bits (952), Expect = 6.8e-99
Identity = 188/235 (80.00%), Postives = 211/235 (89.79%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA-SMMNVPVDEGLF 90
           MAD+ P KNILQSTALLQYILEAN+YPREHEQLKELRE+T++KF+ + S+M+VP D+GLF
Sbjct: 1   MADDCPDKNILQSTALLQYILEANSYPREHEQLKELRETTLRKFDKSLSVMSVPADQGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDVNR+SFE GLPF KKAGVD
Sbjct: 61  LSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVNRESFEIGLPFFKKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVES ALV LNDL+ND    +FDFAFVDA K EYIKYHELLL+LVKVGG+I YDNT
Sbjct: 121 HKINFVESMALVVLNDLINDDTNTEFDFAFVDAVKGEYIKYHELLLRLVKVGGIIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LW+GSVA +DDVV   LK N+ HI++FNAFLVND RVEIALL+IGDG+TLCRRIK
Sbjct: 181 LWYGSVAQNDDVVPHDLKANRSHIREFNAFLVNDSRVEIALLSIGDGLTLCRRIK 235

[Close]
BLAST of Cla97C11G219650 vs. NCBI nr
Match: KAG6573644.1 (hypothetical protein SDJN03_27531, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 370.9 bits (951), Expect = 8.9e-99
Identity = 187/235 (79.57%), Postives = 213/235 (90.64%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA-SMMNVPVDEGLF 90
           MAD+ P KNILQSTALLQYILEAN+YPREHEQLKELRE+T++KF+ + S+M+VP D+GLF
Sbjct: 1   MADDCPDKNILQSTALLQYILEANSYPREHEQLKELRETTLRKFDKSLSVMSVPADQGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDVNR SFE GLPFIKKAGVD
Sbjct: 61  LSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVNRASFEIGLPFIKKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVESQAL+ LN+L+ND  + +FDFAFVDA K EYIKYHE LL+LVKVGGVI YDNT
Sbjct: 121 HKINFVESQALIVLNNLINDDTKTEFDFAFVDAVKGEYIKYHEFLLRLVKVGGVIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LW+GS+A SDDVV + LK N+ HI++FNAFLVND RVEIALL+IGDG+TLCRR+K
Sbjct: 181 LWYGSLAQSDDVVPDDLKANRSHIREFNAFLVNDSRVEIALLSIGDGLTLCRRVK 235

[Close]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match: P93711 (Caffeoyl-CoA O-methyltransferase OS=Populus kitakamiensis OX=34292 PE=2 SV=1)

HSP 1 Score: 288.9 bits (738), Expect = 5.9e-77
Identity = 150/234 (64.10%), Postives = 184/234 (78.63%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 90
           MA   P K ILQS AL QYI E +AYP EHEQLKELRE+T KK+   S M+VPVDEG FL
Sbjct: 1   MAFVLPAKGILQSEALKQYIYETSAYPGEHEQLKELREATTKKYGSLSGMSVPVDEGRFL 60

Query: 91  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 150
            MLLKLMNAK+T+E+GVFTGYSLL+TALALP DGQ+TAID +R ++E GLPFI+KAGV+ 
Sbjct: 61  SMLLKLMNAKRTLEVGVFTGYSLLSTALALPEDGQVTAIDKDRGAYEIGLPFIQKAGVED 120

Query: 151 KINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTL 210
           KINF++S+A   LN++L + K+ +FDFAFVDA KS Y  YHE LLKLVK+GG+I YDNTL
Sbjct: 121 KINFIQSEAPPILNEMLCNDKQPEFDFAFVDADKSSYKHYHEQLLKLVKIGGIIAYDNTL 180

Query: 211 WFGSVALS-DDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           W+G VA   DD V E L+  +  I +FN  L +D+RVEI+ ++IGDGVTLCRR+
Sbjct: 181 WYGLVAKEVDDEVPEPLRMVRTVIMEFNKLLSSDLRVEISQISIGDGVTLCRRL 234

[Close]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match: Q9C9W3 (Putative caffeoyl-CoA O-methyltransferase At1g67980 OS=Arabidopsis thaliana OX=3702 GN=At1g67980 PE=2 SV=1)

HSP 1 Score: 288.1 bits (736), Expect = 1.0e-76
Identity = 146/233 (62.66%), Postives = 183/233 (78.54%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 90
           MA+  P K IL+S AL QYI+E +AYPREHE LKELR++T++K+   S M VPVDEG FL
Sbjct: 1   MANEIPTKGILKSEALKQYIMETSAYPREHELLKELRKATVQKYGNLSEMEVPVDEGHFL 60

Query: 91  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 150
            ML+K+MNAK TIEIGVFTGYSLLTTALALP DG+ITAID++++++E GL FIKKAGVDH
Sbjct: 61  SMLVKIMNAKNTIEIGVFTGYSLLTTALALPEDGRITAIDIDKEAYEVGLEFIKKAGVDH 120

Query: 151 KINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTL 210
           KINF+ S  L AL+ L+ND  E  FDFAF DA KS Y+ +HE LLKLVKVGG+I +DNTL
Sbjct: 121 KINFIHSDGLKALDQLVNDKCE--FDFAFADADKSSYVNFHERLLKLVKVGGIIAFDNTL 180

Query: 211 WFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           WFG VA  +D V E ++E +  + +FN  L  D RVE++ ++IGDG+TLCRR+
Sbjct: 181 WFGFVAEDEDGVPEHMREYRAALIEFNKKLALDPRVEVSQISIGDGITLCRRL 231

[Close]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match: C7AE94 (Flavonoid 3',5'-methyltransferase OS=Vitis vinifera OX=29760 GN=FAOMT PE=1 SV=1)

HSP 1 Score: 286.2 bits (731), Expect = 3.8e-76
Identity = 141/228 (61.84%), Postives = 185/228 (81.14%), Query Frame = 0 

Query: 38  KNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFLLMLLKLM 97
           + IL++ AL +Y+LE +AYPREHEQLK LRE+T++K +  S+MNVPVDEGLF+ MLLK+M
Sbjct: 7   RGILKTEALTKYLLETSAYPREHEQLKGLREATVEKHKYWSLMNVPVDEGLFISMLLKIM 66

Query: 98  NAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDHKINFVES 157
           NAKKTIE+GVFTGYSLL TALALP DG+I A+D ++++++ G+PFIKKAGV+HKINF++S
Sbjct: 67  NAKKTIELGVFTGYSLLATALALPQDGKIIAVDPDKEAYQTGVPFIKKAGVEHKINFIQS 126

Query: 158 QALVALNDLLNDGKEE-DFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTLWFGSVA 217
            A+  LNDL+ DGKEE   DFA VDA K  Y+ YHELLLKLV+VGG+I YDNTLWFGSVA
Sbjct: 127 DAMSVLNDLIADGKEEGTLDFAMVDADKENYLNYHELLLKLVRVGGIIAYDNTLWFGSVA 186

Query: 218 LS-DDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
            S ++ + +  +  + H+ + N FL +D RVE++ L+IGDGV LCRR+
Sbjct: 187 RSEEEEMMDFERAGRVHLMKLNKFLASDPRVELSHLSIGDGVALCRRL 234

[Close]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match: A0A077EW86 (Norbelladine 4'-O-methyltransferase 2 OS=Narcissus aff. pseudonarcissus MK-2014 OX=1540222 GN=N4OMT2 PE=2 SV=1)

HSP 1 Score: 276.6 bits (706), Expect = 3.0e-73
Identity = 149/235 (63.40%), Postives = 184/235 (78.30%), Query Frame = 0 

Query: 33  DNYPL--KNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 92
           D+Y L  KNIL S  LL+YILE +AYPREHEQLK LRE T +K E +S + VP DEGLFL
Sbjct: 6   DDYSLVHKNILHSEDLLKYILETSAYPREHEQLKGLREVT-EKHEWSSAL-VPADEGLFL 65

Query: 93  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 152
            MLLKLMNAK+TIEIGV+TGYSLLTTALALP DG+ITAIDVN+  FE GLPFI+KAGV+H
Sbjct: 66  SMLLKLMNAKRTIEIGVYTGYSLLTTALALPEDGKITAIDVNKSFFEIGLPFIQKAGVEH 125

Query: 153 KINFVESQALVALNDLLNDGKEED-FDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 212
           KINF+ES+AL  L+ +L + KEED +D+AFVDA KS Y  YHE L+KLV++GG I+YDNT
Sbjct: 126 KINFIESEALPVLDQMLQETKEEDLYDYAFVDADKSNYANYHERLVKLVRIGGAILYDNT 185

Query: 213 LWFGSVALSD-DVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           LW+GSVA  +   +H + +  +   +  N FL  D RVEI+ ++IGDGVT+CRR+
Sbjct: 186 LWYGSVAYPEYPGLHPEEEVARLSFRNLNTFLAADPRVEISQVSIGDGVTICRRL 238

[Close]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match: A0A077EWA5 (Norbelladine 4'-O-methyltransferase OS=Narcissus aff. pseudonarcissus MK-2014 OX=1540222 GN=N4OMT PE=1 SV=1)

HSP 1 Score: 275.0 bits (702), Expect = 8.8e-73
Identity = 148/235 (62.98%), Postives = 184/235 (78.30%), Query Frame = 0 

Query: 33  DNYPL--KNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 92
           D+Y L  KNIL S  LL+YILE +AYPREHEQLK LRE T +K E +S + VP DEGLFL
Sbjct: 6   DDYSLVHKNILHSEDLLKYILETSAYPREHEQLKGLREVT-EKHEWSSAL-VPADEGLFL 65

Query: 93  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 152
            MLLKLMNAK+TIEIGV+TGYSLLTTALALP DG+ITAIDVN+  +E GLPFI+KAGV+H
Sbjct: 66  SMLLKLMNAKRTIEIGVYTGYSLLTTALALPEDGKITAIDVNKSYYEIGLPFIQKAGVEH 125

Query: 153 KINFVESQALVALNDLLNDGKEED-FDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 212
           KINF+ES+AL  L+ +L + KEED +D+AFVDA KS Y  YHE L+KLV++GG I+YDNT
Sbjct: 126 KINFIESEALPVLDQMLEEMKEEDLYDYAFVDADKSNYANYHERLVKLVRIGGAILYDNT 185

Query: 213 LWFGSVALSD-DVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           LW+GSVA  +   +H + +  +   +  N FL  D RVEI+ ++IGDGVT+CRR+
Sbjct: 186 LWYGSVAYPEYPGLHPEEEVARLSFRNLNTFLAADPRVEISQVSIGDGVTICRRL 238

[Close]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match: A0A6J1DCA7 (flavonoid 3',5'-methyltransferase-like OS=Momordica charantia OX=3673 GN=LOC111019721 PE=3 SV=1)

HSP 1 Score: 375.9 bits (964), Expect = 1.3e-100
Identity = 191/250 (76.40%), Postives = 225/250 (90.00%), Query Frame = 0 

Query: 15  LTLYSKHPSTFVAVQLMADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKF 74
           LTL ++   +FV VQ+MA+++P KNILQS ALLQYILE+NAYPREHEQLKELRE+T+ KF
Sbjct: 2   LTLIARTQVSFVTVQIMANDFPDKNILQSPALLQYILESNAYPREHEQLKELRETTVGKF 61

Query: 75  EIA-SMMNVPVDEGLFLLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNR 134
           + + S+M VP D+GLFL ML+KLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDV+R
Sbjct: 62  DKSRSVMGVPADQGLFLAMLVKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVDR 121

Query: 135 QSFEFGLPFIKKAGVDHKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHEL 194
           +SFE GLPFIKKAGVDHKINFVES+AL+ LNDLL DGKE +FDFAFVDAKKSEYIKYHEL
Sbjct: 122 KSFEIGLPFIKKAGVDHKINFVESEALIVLNDLLKDGKEGEFDFAFVDAKKSEYIKYHEL 181

Query: 195 LLKLVKVGGVIVYDNTLWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTI 254
           LL+LVKVGGVI YDNTLW+GSVA S+++V   LK+N+ ++++ NAFLVND RVEIALL+I
Sbjct: 182 LLRLVKVGGVIGYDNTLWYGSVAQSEELVEADLKDNRIYMRELNAFLVNDSRVEIALLSI 241

Query: 255 GDGVTLCRRI 264
           GDG+TLCRRI
Sbjct: 242 GDGLTLCRRI 251

[Close]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match: A0A6J1G1C7 (caffeoyl-CoA O-methyltransferase-like OS=Cucurbita moschata OX=3662 GN=LOC111449784 PE=3 SV=1)

HSP 1 Score: 371.7 bits (953), Expect = 2.5e-99
Identity = 188/235 (80.00%), Postives = 213/235 (90.64%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA-SMMNVPVDEGLF 90
           MAD+ P KNILQSTALLQYILEAN+YPREHEQLKELRE+T++KF+ + S+M+VP D+GLF
Sbjct: 1   MADDCPDKNILQSTALLQYILEANSYPREHEQLKELRETTLRKFDKSLSVMSVPGDQGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDVNR SFE GLPFIKKAGVD
Sbjct: 61  LSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVNRASFEIGLPFIKKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVESQAL+ LN+L+ND  + +FDFAFVDA K EYIKYHE LL+LVKVGGVI YDNT
Sbjct: 121 HKINFVESQALIVLNNLINDDAKTEFDFAFVDAVKGEYIKYHEFLLRLVKVGGVIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LW+GSVA SDDVV + LK N+ HI++FNAFLVND RVEIALL+IGDG+TLCRR+K
Sbjct: 181 LWYGSVAQSDDVVQDDLKANRSHIREFNAFLVNDSRVEIALLSIGDGLTLCRRVK 235

[Close]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match: A0A6J1HSF7 (caffeoyl-CoA O-methyltransferase-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111466357 PE=3 SV=1)

HSP 1 Score: 371.3 bits (952), Expect = 3.3e-99
Identity = 188/235 (80.00%), Postives = 211/235 (89.79%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIA-SMMNVPVDEGLF 90
           MAD+ P KNILQSTALLQYILEAN+YPREHEQLKELRE+T++KF+ + S+M+VP D+GLF
Sbjct: 1   MADDCPDKNILQSTALLQYILEANSYPREHEQLKELRETTLRKFDKSLSVMSVPADQGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAIDVNR+SFE GLPF KKAGVD
Sbjct: 61  LSMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDVNRESFEIGLPFFKKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVES ALV LNDL+ND    +FDFAFVDA K EYIKYHELLL+LVKVGG+I YDNT
Sbjct: 121 HKINFVESMALVVLNDLINDDTNTEFDFAFVDAVKGEYIKYHELLLRLVKVGGIIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LW+GSVA +DDVV   LK N+ HI++FNAFLVND RVEIALL+IGDG+TLCRRIK
Sbjct: 181 LWYGSVAQNDDVVPHDLKANRSHIREFNAFLVNDSRVEIALLSIGDGLTLCRRIK 235

[Close]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match: A0A0A0KTC8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G589940 PE=3 SV=1)

HSP 1 Score: 370.9 bits (951), Expect = 4.3e-99
Identity = 193/235 (82.13%), Postives = 216/235 (91.91%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFE-IASMMNVPVDEGLF 90
           MA+ +  KNIL+STALLQYIL+ANAYPREHEQLKELREST  KF+   S+MNVPVDEGLF
Sbjct: 1   MANYHSDKNILKSTALLQYILKANAYPREHEQLKELRESTFNKFDKSGSVMNVPVDEGLF 60

Query: 91  LLMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVD 150
           L MLLKLMNAKKTIE+GV+TGYSLLTTALALP+DG+ITAID++R+ FEFGLPFI+KAGVD
Sbjct: 61  LSMLLKLMNAKKTIEVGVYTGYSLLTTALALPADGRITAIDMDRKPFEFGLPFIRKAGVD 120

Query: 151 HKINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNT 210
           HKINFVES+ALVALN+LLNDGK +DFDFAFVDA KSEYI+YHELLLKLVKVGGVI YDNT
Sbjct: 121 HKINFVESKALVALNNLLNDGK-KDFDFAFVDAMKSEYIEYHELLLKLVKVGGVIAYDNT 180

Query: 211 LWFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           LWFGSVALSD+ V E L+E+K HIQ+FNAFLV D RVEIALL+IGDGVTLCRRIK
Sbjct: 181 LWFGSVALSDNEVDEHLRESKVHIQRFNAFLVKDSRVEIALLSIGDGVTLCRRIK 234

[Close]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match: A0A6J1G1B9 (flavonoid 3',5'-methyltransferase-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111449785 PE=3 SV=1)

HSP 1 Score: 368.6 bits (945), Expect = 2.1e-98
Identity = 185/234 (79.06%), Postives = 211/234 (90.17%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 90
           MAD+   KNILQ  ALLQYILE N+YPREHEQLKELRE+T++ F+  S+M+VP D+GLFL
Sbjct: 1   MADD-SKKNILQCPALLQYILEENSYPREHEQLKELRETTLETFKSRSVMSVPADQGLFL 60

Query: 91  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 150
            MLLKLMNAKKTIEIGVFTGYSLLTTALALP+DGQITAID++R+SFE GLPFIKKAGVDH
Sbjct: 61  SMLLKLMNAKKTIEIGVFTGYSLLTTALALPADGQITAIDISRESFEVGLPFIKKAGVDH 120

Query: 151 KINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTL 210
           KINFVESQAL+ LNDLLNDGKE +FDF FVDA K EYIKYHELL+KLVKVGGVI YDNTL
Sbjct: 121 KINFVESQALIVLNDLLNDGKEGEFDFVFVDADKGEYIKYHELLMKLVKVGGVIAYDNTL 180

Query: 211 WFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRIK 265
           WFG+VA SDDVV EKLK +++HI++ NAFLVND RVEIALL++GDG+TLCRRI+
Sbjct: 181 WFGTVAQSDDVVDEKLKASRNHIRELNAFLVNDSRVEIALLSVGDGITLCRRIE 233

[Close]
BLAST of Cla97C11G219650 vs. TAIR 10
Match: AT1G67980.1 (caffeoyl-CoA 3-O-methyltransferase )

HSP 1 Score: 288.1 bits (736), Expect = 7.1e-78
Identity = 146/233 (62.66%), Postives = 183/233 (78.54%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 90
           MA+  P K IL+S AL QYI+E +AYPREHE LKELR++T++K+   S M VPVDEG FL
Sbjct: 1   MANEIPTKGILKSEALKQYIMETSAYPREHELLKELRKATVQKYGNLSEMEVPVDEGHFL 60

Query: 91  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 150
            ML+K+MNAK TIEIGVFTGYSLLTTALALP DG+ITAID++++++E GL FIKKAGVDH
Sbjct: 61  SMLVKIMNAKNTIEIGVFTGYSLLTTALALPEDGRITAIDIDKEAYEVGLEFIKKAGVDH 120

Query: 151 KINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTL 210
           KINF+ S  L AL+ L+ND  E  FDFAF DA KS Y+ +HE LLKLVKVGG+I +DNTL
Sbjct: 121 KINFIHSDGLKALDQLVNDKCE--FDFAFADADKSSYVNFHERLLKLVKVGGIIAFDNTL 180

Query: 211 WFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           WFG VA  +D V E ++E +  + +FN  L  D RVE++ ++IGDG+TLCRR+
Sbjct: 181 WFGFVAEDEDGVPEHMREYRAALIEFNKKLALDPRVEVSQISIGDGITLCRRL 231

[Close]
BLAST of Cla97C11G219650 vs. TAIR 10
Match: AT1G67990.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 268.5 bits (685), Expect = 5.8e-72
Identity = 135/233 (57.94%), Postives = 177/233 (75.97%), Query Frame = 0 

Query: 31  MADNYPLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFL 90
           M    P K IL+S AL QYI+E  AYPREHE LKELRE+TI+++   S M VPVDE LFL
Sbjct: 1   MDGRLPDKGILKSEALKQYIMETTAYPREHELLKELREATIQRYGNLSEMGVPVDESLFL 60

Query: 91  LMLLKLMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDH 150
            ML+K++NAK TIEIGVFTGYSL T ALALP DG+ITAID+++  +  GL F+KKAGVDH
Sbjct: 61  SMLVKIINAKNTIEIGVFTGYSLFTVALALPEDGRITAIDIDQAGYNLGLEFMKKAGVDH 120

Query: 151 KINFVESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTL 210
           KINF++S A+  L+ LLN G+++++DFAFVDA K+ Y+ + E LLKLVKVGG+I +DNTL
Sbjct: 121 KINFIQSDAVRGLDQLLN-GEKQEYDFAFVDADKTNYVYFLEKLLKLVKVGGIIAFDNTL 180

Query: 211 WFGSVALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           WFG++   ++ V   ++  +  + +FN  L  D RVEIA ++IGDG+TLCRR+
Sbjct: 181 WFGTLIQKENEVPGHMRAYREALLEFNKILARDPRVEIAQISIGDGLTLCRRL 232

[Close]
BLAST of Cla97C11G219650 vs. TAIR 10
Match: AT1G24735.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 265.0 bits (676), Expect = 6.4e-71
Identity = 134/228 (58.77%), Postives = 169/228 (74.12%), Query Frame = 0 

Query: 36  PLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFLLMLLK 95
           P K IL+S AL +YI E  AYPREHEQLK+LRE+T+ K+   S M VPVDEG FL MLLK
Sbjct: 12  PPKGILKSDALKKYIFETTAYPREHEQLKKLREATVLKYGNLSEMEVPVDEGHFLSMLLK 71

Query: 96  LMNAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDHKINFV 155
           +MNAKKTIE+GVFTGYSLLTTALALP DG +T ID++++++E GL FIK AGV HKINF+
Sbjct: 72  IMNAKKTIELGVFTGYSLLTTALALPHDGHVTGIDIDKEAYEMGLEFIKNAGVHHKINFI 131

Query: 156 ESQALVALNDLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTLWFGSV 215
            S  L AL+++L++  + +FDFAFVDA K  Y   HE L+KLVKVGGVI +DNTLW G V
Sbjct: 132 HSDCLQALDNMLSENPKPEFDFAFVDADKPNYANMHERLMKLVKVGGVIAFDNTLWSGFV 191

Query: 216 ALSDDVVHEKLKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
           A  ++ V   ++ N+      N  L  D  VE++ ++IGDGVTLCRR+
Sbjct: 192 AEKEENVPVHMRVNRKAFLDLNKRLAADPHVEVSQVSIGDGVTLCRRL 239

[Close]
BLAST of Cla97C11G219650 vs. TAIR 10
Match: AT1G24735.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 241.1 bits (614), Expect = 1.0e-63
Identity = 134/279 (48.03%), Postives = 169/279 (60.57%), Query Frame = 0 

Query: 36  PLKNILQSTALLQYILEANAYPREHEQLKELRESTIKKF--------------------- 95
           P K IL+S AL +YI E  AYPREHEQLK+LRE+T+ K+                     
Sbjct: 12  PPKGILKSDALKKYIFETTAYPREHEQLKKLREATVLKYGNLYTVLLYDHTLILSNNNCK 71

Query: 96  ------------------------------EIASMMNVPVDEGLFLLMLLKLMNAKKTIE 155
                                            S M VPVDEG FL MLLK+MNAKKTIE
Sbjct: 72  YHNVTTLDPTKYVYHQFKDYTSNEKMVCACMRRSEMEVPVDEGHFLSMLLKIMNAKKTIE 131

Query: 156 IGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDHKINFVESQALVALN 215
           +GVFTGYSLLTTALALP DG +T ID++++++E GL FIK AGV HKINF+ S  L AL+
Sbjct: 132 LGVFTGYSLLTTALALPHDGHVTGIDIDKEAYEMGLEFIKNAGVHHKINFIHSDCLQALD 191

Query: 216 DLLNDGKEEDFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTLWFGSVALSDDVVHE 264
           ++L++  + +FDFAFVDA K  Y   HE L+KLVKVGGVI +DNTLW G VA  ++ V  
Sbjct: 192 NMLSENPKPEFDFAFVDADKPNYANMHERLMKLVKVGGVIAFDNTLWSGFVAEKEENVPV 251

[Close]
BLAST of Cla97C11G219650 vs. TAIR 10
Match: AT4G34050.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein )

HSP 1 Score: 231.9 bits (590), Expect = 6.0e-61
Identity = 124/228 (54.39%), Postives = 159/228 (69.74%), Query Frame = 0 

Query: 38  KNILQSTALLQYILEANAYPREHEQLKELRESTIKKFEIASMMNVPVDEGLFLLMLLKLM 97
           K++LQS  L QYILE + YPRE E +KELRE T K     ++M    DEG FL ML+KL+
Sbjct: 33  KSLLQSDDLYQYILETSVYPREPESMKELREVTAK--HPWNIMTTSADEGQFLNMLIKLV 92

Query: 98  NAKKTIEIGVFTGYSLLTTALALPSDGQITAIDVNRQSFEFGLPFIKKAGVDHKINFVES 157
           NAK T+EIGV+TGYSLL TALALP DG+I A+DVNR+++E GLP I+KAGV HKI+F E 
Sbjct: 93  NAKNTMEIGVYTGYSLLATALALPEDGKILAMDVNRENYELGLPIIEKAGVAHKIDFREG 152

Query: 158 QALVALNDLLNDGKEE-DFDFAFVDAKKSEYIKYHELLLKLVKVGGVIVYDNTLWFGSVA 217
            AL  L++++ D K    +DF FVDA K  YI YH+ L+ LVK+GGVI YDNTLW GSV 
Sbjct: 153 PALPVLDEIVADEKNHGTYDFIFVDADKDNYINYHKRLIDLVKIGGVIGYDNTLWNGSVV 212

Query: 218 LSDDVVHEK-LKENKHHIQQFNAFLVNDMRVEIALLTIGDGVTLCRRI 264
              D    K ++  +  + + N  L  D R+EI +L +GDG+T+CRRI
Sbjct: 213 APPDAPMRKYVRYYRDFVLELNKALAADPRIEICMLPVGDGITICRRI 258

The following BLAST results are available for this feature:
BLAST of Cla97C11G219650 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038892937.13.1e-10786.50caffeoyl-CoA O-methyltransferase-like isoform X1 [Benincasa hispida][more]
XP_022151835.12.8e-10076.40flavonoid 3',5'-methyltransferase-like [Momordica charantia][more]
XP_022945592.15.2e-9980.00caffeoyl-CoA O-methyltransferase-like [Cucurbita moschata][more]
XP_022966735.16.8e-9980.00caffeoyl-CoA O-methyltransferase-like isoform X1 [Cucurbita maxima][more]
KAG6573644.18.9e-9979.57hypothetical protein SDJN03_27531, partial [Cucurbita argyrosperma subsp. sorori... [more]
BLAST of Cla97C11G219650 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
P937115.9e-7764.10Caffeoyl-CoA O-methyltransferase OS=Populus kitakamiensis OX=34292 PE=2 SV=1[more]
Q9C9W31.0e-7662.66Putative caffeoyl-CoA O-methyltransferase At1g67980 OS=Arabidopsis thaliana OX=3... [more]
C7AE943.8e-7661.84Flavonoid 3',5'-methyltransferase OS=Vitis vinifera OX=29760 GN=FAOMT PE=1 SV=1[more]
A0A077EW863.0e-7363.40Norbelladine 4'-O-methyltransferase 2 OS=Narcissus aff. pseudonarcissus MK-2014 ... [more]
A0A077EWA58.8e-7362.98Norbelladine 4'-O-methyltransferase OS=Narcissus aff. pseudonarcissus MK-2014 OX... [more]
BLAST of Cla97C11G219650 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DCA71.3e-10076.40flavonoid 3',5'-methyltransferase-like OS=Momordica charantia OX=3673 GN=LOC1110... [more]
A0A6J1G1C72.5e-9980.00caffeoyl-CoA O-methyltransferase-like OS=Cucurbita moschata OX=3662 GN=LOC111449... [more]
A0A6J1HSF73.3e-9980.00caffeoyl-CoA O-methyltransferase-like isoform X1 OS=Cucurbita maxima OX=3661 GN=... [more]
A0A0A0KTC84.3e-9982.13Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G589940 PE=3 SV=1[more]
A0A6J1G1B92.1e-9879.06flavonoid 3',5'-methyltransferase-like isoform X1 OS=Cucurbita moschata OX=3662 ... [more]
BLAST of Cla97C11G219650 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G67980.17.1e-7862.66caffeoyl-CoA 3-O-methyltransferase [more]
AT1G67990.15.8e-7257.94S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
AT1G24735.16.4e-7158.77S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
AT1G24735.21.0e-6348.03S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
AT4G34050.16.0e-6154.39S-adenosyl-L-methionine-dependent methyltransferases superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D3.40.50.150Vaccinia Virus protein VP39coord: 30..264
e-value: 6.5E-72
score: 243.6
NoneNo IPR availablePIRSRPIRSR037177-1PIRSR037177-1coord: 36..221
e-value: 6.5E-10
score: 36.6
NoneNo IPR availablePANTHERPTHR10509O-METHYLTRANSFERASE-RELATEDcoord: 35..263
NoneNo IPR availablePANTHERPTHR10509:SF80FLAVONOID 3',5'-METHYLTRANSFERASE-LIKEcoord: 35..263
NoneNo IPR availableCDDcd02440AdoMet_MTasescoord: 103..206
e-value: 0.00109572
score: 35.8687
IPR002935Class I-like SAM-dependent O-methyltransferasePFAMPF01596Methyltransf_3coord: 55..263
e-value: 2.2E-81
score: 272.0
IPR002935Class I-like SAM-dependent O-methyltransferasePROSITEPS51682SAM_OMT_Icoord: 39..263
score: 61.131683
IPR029063S-adenosyl-L-methionine-dependent methyltransferaseSUPERFAMILY53335S-adenosyl-L-methionine-dependent methyltransferasescoord: 46..262

Relationships

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

Feature NameUnique NameType
Cla97C11G219650.2Cla97C11G219650.2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0032259 methylation
molecular_function GO:0008171 O-methyltransferase activity
molecular_function GO:0008757 S-adenosylmethionine-dependent methyltransferase activity