Cmc01g0019351 (gene) Melon (Charmono) v1.1

Overview
NameCmc01g0019351
Typegene
OrganismCucumis melo L. var. cantalupensis cv. Charmono (Melon (Charmono) v1.1)
Descriptionisoflavone reductase-like protein
LocationCMiso1.1chr01: 17028629 .. 17060248 (-)
RNA-Seq ExpressionCmc01g0019351
SyntenyCmc01g0019351
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.
TGAGAAATATAAATTAACAGGTGTAGATAAAGATAAAGATGTGTTTAAACCTCCTCAACTATTGGTGCATGGTTAGTAGAACCGAACTTAATTATATGATTTAATCCTACAATTATCTCATTCCCATTTTTTTCCATTTGCACTACTCTCTTTCCCCCTTCTCTTCAACATTCTCCCCCAAAAATCTCGACTCGCCTCTACCCATCGTTTTCCCGATCTATTCCTCCCCGGAAATCTTCTTCCAATGGCCGCCAAAAGCAGAGTCTTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGCCATCCGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCGATCCAGCCAAATCTCAGATCATCCAGAGCTTCAAGAGCATTGGAGTCACTATCGTCACTGTAATTTCTCAATCCTTTTCACCAATTTTCCTCTCCCTCAACTTTTACTGTTTTTCAGTTAGACTATTGTTTTTTCCAGTTTTTCCTGTAAATTTCATCAAACTAGTTTCGCTATTTGAAGTTTTCTTCGTTTCGATTTCGTGTTTTATTTGGATAATCTCTGTTGCTAGAAGTACTGTGGTGAAAGAAATTGATAAATATTATTGGGATTGGATTGGCTGCAGGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCGATGAAGGAAGTGGATGTGGTGATTTCAGCGGTCGGTCTTAATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGGTACTGTTAACATTTACTTTGAAAAAAAAAATGTTCTTAATAAAAATTCATAGAAAGAGCTTATGAGTATGTATGATTTAAATTTTTAATGTTTGTTTTCCAAAATAAGTAATTTTGAAAAATAAAAAACCATTAGAGTGTTTAATAATCTTTTAAAATATTTTTTTTTGGATAAATTTTGAAGTTTATTTTGAATAATGAAAAGTATTTATTTCAATAGACGAAAAAAATTGAAAATAGATTAATAATTATTGTGAATGAGTGTGTCAAATGGTTTGTTTTTTAAAATTGACTTGTTTTCAAAATTAAACTAAATATATCCTATAACTTAAATCTCGAATTAATTTCAAGTTTGGATGGATAGAGATGTCTCAAATTTCACATTCAAGTTCAGGAAGAAAAAGAACTTTTTGCTCTTGTCACAAACTATTTGTAATGTGTTTTTTCAAAGTGAGGAGTAGAGCAAAACAATAGTATTGGTTTGGTTGAATTGTGAAAGGACGCAAGCAAAAGTAGACTTAAAGGTTATACTATTTATTTTTAATATGTGAGTCAAATGAATTTTTAATATAGGTTGCGAATTTGAAAATGGGTCATTGATGTCATAATCCACATATGGATTGAAGTCGTCTTCGTCTTCTTCTTCTATGACGTTGTTGACTGAGACAAGAGAACTTGCTTTTGCCTTCAAGTCGTCTGGGTCAGAAATCTGAACAACGACTGTATTGACAACGGAGTTGAATTCTTCTTGTGATCCTGTTCCAGCAAGGGACGACATGACGACATTCTTGGTGAGGAGGAATGCTTTGTCTTCTTGACAAGTCATGTCTTGACGATGAACATTAGCTTTAAACCAATCATTCATCTTATTAACTTCTAGGTGAGAATAATTGAATTTTTCCCACCACTTAATTCGTAAAGCTTTGCTTAGGGCTTTGAAATTACCTGAGGGTCCTAGCTGAAAATTCCAGCAGAAGATCCACGACATTTGGAAGTATAAAGCAAATCTAAACATCTTAGAAAGAGGAGACGAGTAGATACTTTGTTGGAAAAGATGATATGAACGTTGAACTTCGACTGAAAAAATTTCTTCAGAAAGTCCAAAGTAATCCACCAGTTTGGAAAGTTCATTTTGTAAGCTTTCTTACAAAACGTAACAAACCAAGAATGTTTGTAAGCTTGAAGCCAGAATACCATATACCATGCCTTGGTGTAGTCACGGTAATTGTAGAATAGTGGCTTGAAAGGATGAGAGAATTTCTTTTCCACGAACATCCCTTGTTTTCAATAAGATGGTGTGAGGACTAAAAAATAAGGGCAGTGTCCAAAAACATGAGATTAACGGAAAATTTTTGTTGTTCGTTATCATTCTGGCATCTGGAATAGCGCTATAAAGAACTATTCTACTGTAAAAAAGGAAGTGCTTGTAATAGTACTAAGTGTTCAAAAGTTCCAAGAAGATCTTATCAACAAAGATTTTGTTATCAGAACAGATTCAAAGGCTAGCAAATATATCTTTGAAAATATATCAAAAATCTTGTCTCAAAGCAAATATTCGTCAAATGGCAAGCCATTTTATCTTGCTTTGACTTCAAAGTTGAGCCTATAAAAGGCAGTGAGAATTTCCTTGCTCATCATCTCTCAAGAGAGAATCTCTTCAAAGAAACACCCTCAGCTCTAAATCTTCTTACAAATCTCCTTGATGGAACCACCGCCAGGTCGATCACAGCAACTAACTCAGCAGCCTCCATCGGTGAGAAATAGTCAGCAAATTATTTCTCCTCAACCAGTAGCTTTCTCTTCCGGAACTACTCCTTCTAAGGATAAACAATCCTTAATTCAATCATATGCCCCTTCACCAACGAGTGCAGATAACTACGCCATAGATCTACAATTTGAACAAGTATCCGGACGTTGACAAGGTTCAGCTTAAACAGCTTTGTCAATCCAATCAAGCCCTTCTAGCCTTCCTCCTTTTCCTTTAACAATGTTGTTACGCTCTTCTAGCGCTACAACACTAAACGAGCATGTTGCTTCTACAGCCGCTTCATCCTCGAGATCTCCAATACCGAGGAACCCTCCCTCATTCTCTCAAGTTGTCAGGTCAAAAGTTTTTCAACCTAGACCTCCTATTCATGGTTATTTCACTAAAACAACAATGGTGGATTTAACCATCGAAACAGAATTTGACGAACCTTCTGTCTAAGAAGTCTGTAATCAAATCTTTCCTCATGGTTTCAACTTCTTACCAGAGGATCTCTAAAAAACAAGAACCTTTTATGAATTTATCTTAATCGTTTCCAAATCTATCGAGATAACTCATATCCAAGATAAAAACGATCCCTGAAAAATCGTTTATTCAAAGCTAAGAATTGTTTGAGTCCTCACACCATCTTATTAGAAACAAGGGATGTTCGTGGGAAAGAAATTATCTCGTCCTTTCAAGCCACCACCCTACAATTACCATGACTACACCAAGGCATGGTATATGGTATTCTGGCTTCAAGCTTACAACCATTCTTGGTTTGTTACGTTTTGTAAGCAAACTTACAAAATGCACTTTCCAAACTGGTTTAAAAACTAGTGGATGTACTTTGGACTTTCTGAAGAAATTTTTCCAATCGAAGTTTAACGTTCATACCATCTTTTCCAATAAAGTATCTTCTCGTCACCTCTTTCTAAGACGTTTAGATATGCTTTGTACTTCCAAATACCGTGGATCTTCTATTGGAATTTTCAGCTAGGACCCTCAGGTAATTTTAAAGCCCTAAGCAAAGCTCTACAAATCAAGTGGTGGGAAAAGTTCGATTATTCTCACCTAGAAGTTAATAAGATGAAAGATTGGTTTAAAGCCAATGTTCATCTTCAAGACATGACTCGCCAAGAAGACGAAGTATTCCTCCTCACCAAGAATGTCGTAATGTCGTCCCTTGCCGGACAGGATCACAAGAAGAATTCAACTTCATCGTCAATACAGTCATTGTTCAGATTTTTGACTTAGACGACTCACAGGAAGAAGCAAGTTCTCCTATCTGAGTCAACAACGTTATAGAAGAAGAAGATAAAGAAAACTTCGATCCATATGCGGATTACGACATCAATGACCCATTTTTAGATACTCAGCCTATGTGAAGTCTCGAAAATCAAAAACTTCAAGTGTTTAATTTAATTTTCTTCAAATGTTTAATTAATTTTCATTTTGTAAACTCATGTAAATTACTTTTATTTTCCAATTTATTTACGATAAGATCGTTGTGTTTCGATCTTATCCTCACTTTCTTCAGTCTGCCAGTTTTGTTCTTTAATATGAAGGTCTTTTCAATCGAAGAATCCGTGATGGAGATGGCAAGCTTTTGAAAGTGGACTAACCACCAAAGTGGCAGCGCGGTTAGCATAGGGATTGGCTCCAATAGAGTGGATTTCAATATCTCATAGGTAGAACTGAATTTCGAAGAATGGACTTCCTTGGGCAGTTTAGGCAAGAGGCCGCAAGTAAGACCCAAGATGGAGCGGTTTTATTCTTTGAATCTCTGTAATGCCTATACGATGATATATTTGAGAATCCTTAATCCATCCCATTCAAAAGTAGTCAGGTGACGTCATTATCTTCAATTTAAAAGATCAGACTACTCAGAACAAGTACTCTCGCATACATATCCTTTCAACTTTAGTTTTTCTTTACTTTTTACTTTTGCTTTATTTGAAGATAAGATCAAGTGGGGGTCTTGTCCCACATATCTTATCGTAATCTTTATTTTCAAACAAAGATAAGATCCTCTGAGAAAAGATTCCAGTCAGGGTCCTTGTCTTGTCGACCATCTTTTTAAATCTTATCTCTTCAACTATTGTATCAAATTATGTTCAAAGTTTCAAGAAAATAGGAAAAAATTAATAATTGCTATCATAGTGGAGTTTACTCTATTAGGGAGAAGAGAAAAGAAGAGAGAAAGTGAGTTGTTGTGGCTCTAGTACAATTTAGGGTCGAAACCAAGTGTTATTTATAGAGAGAAATCAATAATTGCACTATGTAGCAATTATTAATTTTTCCTATTGTCTTGACACTTGTTTCAACATAATTTGATACAAAAATGAAAGAGATAAGATTTAAAAAGATGGTCGACAGGACAGGGCCCCTGACTGGAACCTTTTCTCGAAGGATCTTATATTTGTTTGAAAATAAAGATTACGATAAGATATGTGGGATAGGACCCCCATTTGATCTTATCTTCAAATAAAGCAAAAGTAAAAAGTAAAGTAAAGCAAAAATAAAGTTGAAAGGATATGTATGCTAGAGCACTTGTTTTGAATAGTCTAATCTTTTAAATGGAAGATAGTGACGTCACTTGTTTCTTTTGAATGACATGGATTGAGGATTCCCAAATATATCATTGTATAGGCATTACAGAGCTTCAAAGAATTAAACAGCTCTATTTTGGGTCTTACTTGCGGCCTCCTGCCTAAACTGTCTAAGGAACTCCATTTTTTGGAATTCAGTTATGTCTATGAGATATTGAAATCCACTCTATCGAAGCCAATCGCTACGCTAACCGCGCTACCTCATGGATGGTTAGTCGACTTTCAAAAGCTTGACATCTTCGTCATGGATTCTTCGACTGAAAAGATCTTCATATTACAGAACAAAAATAGCAGACTGAAGAAAGCAAGAATAAGATTGGAATACAATGATCTTATCGTAAATAAATTAGAAAATAAAAGTAATTTACGTGAATTTTACAAAAAGAAAATTAATTAAACATTTGAATTTTTGATTTTTGAGTCTTCGCATAGGTTGCAAAACTAAAAATGGTCATTGATGTCGTAATCCACATATGGATCGAAGTCGTCTTCGTCTTCTTCTTCTATGACGTTTTTGGCTGAGACAGAAGAACTTGTTTCTTCTGCCTGCGGGTCATCTGGGTCAGAAATCTGAATAGCAACTGTTTTGACAACAGAGTTGAATTCTTCTTGTGATTCTGTTCCGGTAAGGGACGACATGACGGCATTCTTGGTGAGGAGGAATGCTTCATCTTCTTGACAAGCCATGTCTTGAAGATGAACATTGGCTTTAAACCAATCTTTCATCTTATTAACTTTTAGGTAAGAATAATCGAACTTTCTCCATCGCTTGATTCATAGAGCTTTGCTCAGGGCCTTGAAATATGCTGAGGATCCTAGCTGAAAATTTCAGCAGAAGATCCACAGTATCTAGAAGTACAAAGCATGGAAAAGTTGGTATGAATGTTGAACTAAACGTGGAAAAGATGTCTCCTCTTTCTAAATGTCTTAGAAAGAGGAGACGAGTAGATACTTTATCGGAAAAGATGGTATGAATGTTGAACTTCGACTGAAAAAATTTCTTCAAAAAGTCCAAAGTACATCCACCAGTTTTGAAACTAGTTTGGAAAGTGCATTTTTTAAGTTTGCTTACAAAACGTCACAAACTGGTTGTAATCTTGAAGCCAGAATACCAGATACCATGCGTGGGTGTAGTTACGACAATTGTAGGATGGTGGCTTAAGGATATTGATGCATTCTTCATCGGAAAAAGTCATCATCTTCAGACCTAATGGCATAAAGAAGAGATTTTCGAGTCTCTTCATCCAGAGTTAAAGCATTGATTTTGTCTTTCAGGGGGCAACGATTTGAATAATGACATTTGCAGTTGCCTTTAACAAGTGGCGTTGGTTTTGGAAGAATACTTATTTTTACTTTTGTTCTTGTTGTAGTATTTCCTCTTTCTTCAAGGAAATTCTAGATCTTTAGACTTGCTTTTGCTAAAAAGCCTTTTGGAGGTAGACTTTCTCCTTTGCTTCCTATCATCCTTAGGCCTCTTGTCAAGACCATACTGTTTGCAGAAGGTCCCTAATTCCTTTCGGTAATCAGAGTCCTTCATAACCTTTGTAGTATGGTTATTTTCTATACAAAGATCAATGCATATTGCTTTCAATGTGGCAAAAATGTCTCCAAAGGTTAATTCAAACAAGTCAATTTGTTTGGTTACTAAATTTTTTGCCACTGTTTGATAAAAGTTTTTAGCGATGTAGTACGGAAGTCGTGCCATAAAGGTATCTTTATACCATTTGTATCGGCTCATCTTCTGACACCTTAACCCTAAGAGAGACTCTGTCGCAAGATTGAAATGAATCTGAGTGCTACCAATGAAATACTTAGTCGTTGTGTAGACCAGCTGATTGACCATATCGAGCTCTTCTTCTTGTCTAGATGCAGACGCTCCTTCTTGCTTGACAACTATTTTCGTAGCAATTAAGATTCGGTATATTTCCTACTCTATTAGTTAGTTGTGCCACTAACTTCTTAGATTTCCAATGAAACCTGAAATGATAATCTGGGCTGTTGCAAGAGTTGTTTTCCTGGTGCTATAGGCTGAGGCTGCTAACAACATTTTTTGAAATGTGTTCATCATTTTTGCTTTCGAATATCCATTTATATGACAAGTGACTAGAGATGTTCCATCATAAGAGTGCCTCTCATGGTGTAGGTCATCCCATCCTAAATCAGGAGGTGAAGGTTGAGAATAGTGGTTCTTCATATGTACCCATTGAGCTACTAGAAGAATCTTTGATGTAGAAGCTTGATGAAAAAAGTCCCTTTTTATCATATTAATTCCTTTTGGGTTTCCAACCTTGTTTAAACTTTATCTTTCTTTATTGACGTCGTATTGACTTTTGAGTCTTTGTTGATAGAAAAAGAGGCGAGTCGCTTGTTGATTTTAAACAAGATATCTGAAGGATCATCTTTGAGTTTACCAACATCAAAACTGTTAGGTTGAAATATCGGTTGATTGGGATCAGCTTGGGGAATCTCAAGTTTCTTGATGTTTATGGGAAGACCCAGATTCTCTACTTTTTCTACTGCTTTGGATACTGTAGAAAGAACCTTGTTTGTGTAGTTGACTTGTTGTTGGATATTCTTAATTTCGCGAACTCCAACTTTTAGGACCTTTCCTTCATCTATGGTTTTATAGGGAGAAGAAACCATTTTAATGGCTGGAATGACTAGATGAGGGAAATAAGCCTCTTCCTTACTGATAGGTGGAAGCTATTTTTTTTTCCTTTTGTCGTGGTCCGAACAACTGATTTTCTTATCATCGTAACTTGGCTTTGGCTTGGAGGGTTTTGACAAGAGCTTCGTTCCTAGCTTGCTCTTTCTGCTTCATTCCCGTGATGAAGTCCTTTTGACAGAGAATAGACTTCCTCTTCTCTTTTGGTGCAGCAATTCATATATCTATGTATTTGCTGTACATTTCCTCATAACGTGCATTATCATCTTTGCTGGAAATGACATTAAGTTGGTTGTAGATTGGCTCAGTTCTCGTTTCCATATCAGATTGGGTAGGAGAAAGCGATCCTTCTTCCTTTTCATATTGAATGTTGGGGACTGGATGAGTGAATGATTCAAATCTCCTAAAAGATTCAGGAAAAGAGTTTACAGTTCTGGCATTCGAAGACATGCTAGGATGGCTACTCATGATTTCTCTAATTTTGGGATATCTTGCTTCAGAATTAAATTGAATTTCGACATTTCCATCTGGAAAATCGATGATTGATGCCTCTGTACTAATTCTTTTGGCAGGGGCTGTTACTTCTTGTAGTTTCCAAATGGAATTATGAGTGATTTCTTCCCATCGAAGTGTTTTTGGAATAGTCATGGATGATTTTTCAATATTGACTTTCATGAGCATGGTGTAACCTTTTGGAGGAACACCTAGAGCTTTGAGAGAGATTTGTATGCATTAATTTGAAGTAGATGCGATAGGACACTGCAATTGGAAGCGATCTGTCTTTTAGTTCAAGTCCTTGAGAGTAAACATCAAGACTTAGAGTATCCATGATGTTTTTGTCTTGGAGAGAGACAATGAGTCCTAGTCTCCAATTGAAGTAAACTGACCTTGTTCCAAGTTTGATTGAACAATCCCTAAAAGAGAGGGAGTAAACCTGAGATGCTTTTTGTCGCTTAGAGCAAGGTAGATAGGAACATCTAATCCTTCTCTAAAGAGAGGCTTTAAGGCCACTTAAACATATCCGATGTTGAGGTATTTGAACTTTTTTTTTACTATAAAAAGAGTTTCTTTAGGTAGTAGATTTATTGCAGTGAATTCATCATTCATTGCAACGTTCTCCTCTGTGATGACGATGACATCTTGCTGGGAGAATTTGAAAGTATTTATCTTGTATACCTGGTTTGGATCTATCTTTGGGATAGACTAGTTTTTTACGCGGTCTTCAACTTTAGCAAGATGGGATTCAACTTAATTGTGATGAGCAATTGCTTTTGACAGATCATCATTTGATCTTTGAGTTTTTGAGGAAATTGCATAAGAAGAAGTTGTATCAACTATCGTAAGCGAGTGGGGAAAGAGCTTAGAGAGAAGTTTAGAAAGCATAAGGGAGAAAGAAGAATTTAGGTATTTTAGGAAAGTAGTATTAAAATGTATTAAGTGTTAATTCTTTTATAATAATAATAATTTATTTCTTGACTTAAATTAAATTCTTCAATCTATCGATCTTGAACATGGGTTTCATCAGAGATTTAAACAGATTATTCTTTATCATGAAGGTTAACCACGCCTTTATCATGAATACTGAGAACTAATCCTTTTAAATTAAGAAGAAGCTCAAGGTAAGAGAGACACCATGATGTAATTTGAAACAAAGAATAAATTAAGAATTATTATAAAGAATAAAAACTTAAAAAGACTTGAATCTTACCATGCTTCCACTCCTAGATTCAGAGTGGAGTTTACTCCATTCAAGTCCAAGAACAACACAGCTCAACAGTATGCCTAGATTACACAGAACACCCAGATAACACCAACCAATGACAGCACAAACCAACGATAACCCAAGTCATGAATAAAAATCAATCCCTCATCATCAATAAGCCAATAGCACGACCCGTCAATTTATATCAAACTAAACTTAGCAATTACATCGTTCAAAACCAGTCAAGAATGTATCAATACTACTTTTATGTGAGCACACATACATCAATTTAATGCAACTTCTAAAATATACTTTCGCATGATGTATTACGCTTAAGCCTCAAATTTGAGTCCAGTAGTAGGAACTCTTACCTCGAGATTTAGCTACATTCCTTAATCAACTAGGGTCCAACGAACCAACCTAAACATAACATAAGAAATTAAACACTCTGACCAATAAAGTTCTTCGTCCAATTTACCTAAACGCAAATGTCACAAACATACCAAAATACAGGAGAATTGAGCCTCAACCAAACAAGATGGAGCCTAAGGTACCCGTGCGCTATAACCCAACGACGCCTTTAAGAATAAAAAAACCAATCAATTAGTCCGACTATTGAAACTCGATATAGTTACGAAGCAATACAATCAATTAACCCACGATTTAACCTTACCATAAGACTAACAATAAGCGAAACTCGATGCCCGAACTGAAACAAGTGTCGAGAAAAAGGCAGTGAGTCCTGAAGCTCGATGACAGTGGCGGATTGTATGCGCGGACGAAGGCCGCGACTACTTTTTCAGTCGAAAAGACGGACGGCAGTGGCTGGGCTTCGCAGACGACACATGAAGAAGGAGCGACGGTGCAGATCGGACAACCACGACGGCTAGCGGCTACTTAACAACGACCCGACGGCGGCGTATGACTCGACTCTACGCTAATGATAGTTGAACGCGGCAGCGGCGGCGTGCGGCTTGGCTTCAATGCAGCGAACAGAGGGTTGAGCTCGTGGCGGCGGTACAAGAACGGAGAAGAAGGAGAAGATTGGAGTGTGGCAGCGTGTACGCATAGTGAAGCAGAAGAAGAAGTTGAACTCGGGGGGGTTGCGCAGCTGGAGGAAGAAGAAGATGGGATAAAAAAATTTAGGTTTTTTTTAAAAGAAAATAAATAATAAAAACAATAATATAATAATAATAAGGGAAAACTTACAAAAATGTAACAAAACTATAAACTATTTACGGCCTGTGTAACAAAGCCCATAAAGTTGGCCATTTTTTAAATATTCCAGGTTTGTCCTTCCATCTTTCTTTTCTTTCTCGAGATTCGTTTTCCTGTTATTTCGTCTTCCCGGTCTTCCCTTACGATTTCGTCTTTCTTCTTTTCTCTTTTTCTTTTCTGCGATTTATTTCCATAATCTTTCTTAGTTTTTAATTCTTTATTTATACCGTTTAATTTTTCCATCGTTTTTCTTCTTTTCCTCTTTGTTTTTTTTCGCTTCGATTTCTTTCCATCGTCTTTCTACTTTTCCTCTTCTTTTCTTCGTTGCGATTTCTTTCCATCGTCTTTCTTCTTTTCTTTTTTTTTCCACGTTTACATTTGGGTAACAAAATCTAAACGATTGTGTATAAGACTGTGTACAACAAAATAACAAAATTTAAAAGATCGTGTATAAAGAATCTTGAAAAAAAATCATTTAGATTGGAGTAGCCAAATGTAAACGATCGTGTAAAAAAAAAAGATTGTGTATAAAACATCTTGAAAAAAAATCATTTATATTGGAGTAGCCAAATGTAAACGATCGTTTAAAAAAGTGAACGATCGTGAACAAAAAAAAGATCGTTTATAAAAAATCTCGAATTTTTTATTTAAAAAGAATCATTTGGATTGGGGTAGCCAAATGTAAACGATCATCTAAAAAAAGTAAACGATCGTGTACCAAAAGAATTAAAAAATTTGTGTACCAAATTTAAAAAAAAACATTTAGATTTGGGTCCCCAAATCCCAAATCTAAATGATCGTGTAACAAAATTAAACGTTAGAATTGAAAAGATAAATTGTAGTCATATGTAAACAATCACGTATAAATTGTAGCCATATCTAAACGATCGCATTGTAACCATATCTAAACAATTGCGTATAAATTATAGTTATATCTAAACGATCGCGTTGTAACTATATCTAAACAATTGCGTATAAATTATAGTCATATCTAAACGATCGCGTATACATTGAACCATATCTAAACGATCGCGTATATATTGAACCATATCTAAACGATCGCAAATATATTACGCGCGTGTTATTGACGGCGTAGTTGATGAGGCATTTTTGGTATTTTACACGGTGGGCCTCTAGACCTTTTCCGTTTTTGGAATTGTTCTATAGAGTGTAAATATTTTTGCCGCTTTTTATATTTTTGAAAAGACCCCTAATAATAATATAATATAATTCATATTATGTTATGTTATTTTATTTTATATTATCTTATGTTAATTATTTTCTCCTCTTTCTTTTCCTTTTCAAATTTAAATAACTTATCACCCAATAAATTAAATTTCCAATAACAAAAGCAACTGTGTTGAGAACAAACCTCAAATTTTTTTTGGGACGTTACAGTTATCCACTTTTAAATTTGTTACTTTTACAATTTAGAAAATGCAGTAACATATGTGTTATTTTCATAAATTTTTTTTGCTATTTTTGGAAAAGCTCCAATAAAATATACAATAGAATATCCATAACAATCAATAGTTCTACGAATAAATAAAACTCATACACATTATGTAGATAAAGAATCTAACCCAATGGAGGAAAGGTATAAAACTAAGTTAAGCACAACAGTGCACCAAGTAAGAAAACATTAAATTTATTAGTTACAATCAACCAAAGAATCTTTTGCTTTTGTAAGCTAGCTTTGGTTGTTAAGAAATCTTTATTCATCATGTTTAAATTTTTAATTAATTTGCTTTTATATATATATATATATATATATATATATATATAACAAAAAAATATTTATAGCCCGTGTAAAAATAAATAAATAAAAACTCTAGTTTCATAAATTTCATATTTGTCTTTGTTGTTTTTTTTTTATTTTACTCATCTTCTTCGTATTATTACATCTCTCTTTCATCTTATTTATGTGTGTGATTTTTTAATCTCCTCTTCAAGAATTTATTCATTTTCATAAAGATAATATTTTTTTCCTTATCCTTTTTTTACTATCAAGGATTGTGTCCTTTTTCTTTCTTTTACTTCTTCTTCTTTTTTCACTAGACGATTGTTTACCAAGATCTAAACGATCAAATGTCTATCCCAGATAAATAGAGATAGATCACACTATAACTAATAGATCATTTTGATTTTGTACAAGGTCGTTTAGATTTTGTACAAGATCGTTTTTCGTGCGTGTGTGACCAATTAATCGTGGGGTATTTATGTTCTTTCATGTTATGGGTTTGTGGACTTTTTCTTTTCACAAAATTGTTCTATACAGTGTAAATCTTTTCGCACTTGTTTCTACTTTTGAAAAAACTCCTTGTCTTTATGGACAATTACAAATAAAAGCGATAATTAAATTAAACCTAAAAAATTATATTTATGGCAAAATTTACATAAGCTTATGAGCCATAGAATATAATACACCGATAGATTTTGCTATATACTTAATTTATTATCTTTAAAAATGCTACTTTGTTTTTACTTTTAAACTAAGTCACATAGTCTGAAATTCATGTTAGTAGATAGAAATAGTTGTTATATTTTACGAGTATTTATAAGAGAAACAAAAAGAAAACCAAGGGGCGTACCGACGCGAATTCTAACTCTTCAATTATTTCAATCATTTTACGACTGCTATACGTTGTGTTTTTTTGTGGTTGGTGCAGAGATTTTTTCCATCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGACAGGTTAAATTGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAAGCTGAAGGGATCCCCTACACTTATGTATTGTCTAACTACTTTAATGGCTTTTGTCTTCCTACATTGGCTCAACATGGGGCCGCTGCTCCACCTACAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGGTAACTATTCTTCTTCTCCCAGTCTTTTCTCTATTTTTATTTATATTTGGTGCCTCTAATTTCCTGATCTTTTGTATTACCAAGAGCTTGTTACCTCGACTATAGTTCAATACATAAAATATTAACTATCAAATCGGTAGGTTAATAATTGATAGGCCTAGTATCCTACTGTTGAGCTAAAAAAAAAAATTCAAATAACTTTAATTTTATAACAAATGCATGAACAATAAACCTAACTTCTAACTACAACAACGTACAGACTTCTAACTATTATATATCTCTACAATTGTATGATATTATTCATTTTGTACATAAAATTCTCTTAGTCTTACTTTTGAAACCACCCAAAAGGTGTTACATAATCATGAATCACTTCTTTCCATTAACTTTGATTTCAATTCTACTAATTCTTTTCTCGAACAAAGCACCCACCTTAAGTTCCCAACGCTTTAGGAGAGCAACTCTTTTAAAGCCATATAGAGCACAACCATTACTATTTTTTGTGGAATACTCTATGGTGTTGATCATCGGTCGTGCCCTTCCCTTAAATAAATATTCTATTCTTTTTTAGTGAACTAGATATATTCCTTACTTTCTGTCACTCAAAGCAGTTTTTGTCCAATTTGGAGATTCATCCACAAAAACTCATTACTTTTGATCAAAATTGTTGAGGATCTCACTCACACAACTAGGTTTGGGCTATTGCTTTGATACCAATTGATAAAAGAACAAGGAGATGTCTATCTATCTCCACACAATGATATGATATTATCCACTCTGAGCATAAATATTCATGGTTTTGCTATGATGATATTTTATCTATATCTTTATATAAGATTTTGAAATGAAACCATTCTAAAATCATGTGTTTTATGGTTATGGATTAGGTTACTCATTAAGTACTCATCTAGCTAAGTTAATTATTATGTAATTTATAAGTAGTGAACGGCCTAAACTCGCATCTTTTGACATGCATTAGAATAAATTTGTAGAAGTCCCAAACTAATAGTGAAGAGTGAACGTGAGTACAACATTTTAGCAGTAATTAGCATATCTATTTCTCTCTTGAGATTGAAAGGTTCAAATTTTTATACTACATTTGTTGTACTACAATATTATTGCAATAAAAAGGTTCAGTAATTAGCATTGAAAGAATATTGAAGGTCGTAGAGCTTTCCTTAAGTTACGTACTCAGCTAGTTATGACATTGAAGTGTGGAAATTTGAATAGAATAGGTAGGCCGAACTGATTTTGTAACACCTCAGGATTTGGAATTCGGATTTGGCATCTGATGACCTTGACATTCCCCTATATCTATTGTGACTTGGCTACTTCATTCATAGTTAAACTTGCTCCAAATTAAGCATGTTTAGTTATGGAATTCCTAAAATTGAACTATTGGTACAATTTGTCAATATAGGTTGTAGTTTTAAATTCTTTTAAATCTTTTTTAACCATACTTTCATATTCTATAGAATCTCCCTCATTCAAATGTGAATCGTCTCAGTTCATTTATGCTCCCTTTATAACCTTAGGGATTTACAAACTTGTATAATTTTGTCCGATTCGCCAATTCGCCCGAACCAAATCCCCAACTGGAGTTAGATTAGCGTTTTCTATCATCACATTCTTTTTGTCAATAATCTTTCTTTGTTTTACTCTCAAAATCTCAGAATTCCCTTTCTCACATACTCAAAAAAAAAATAAGAGCTAGAAACTTCTCTCTCTAGGAATCTGTTCACTATTTCCAAACCAAATCAAAAAATTGCTTCACCACTCTACAATCAAAATCAACTAATTTTGGAAGAAAATAAATTTGAGATCCATCCGACATGACCTGTTGTCAGGTACAAAATGAAATAAGTAAGGTCATATCTGTTAGCATCTATACAAAATTGATTCGGGCTCGAATATGATTTTTTTAAATGACAAAGCTCAACCCACTCCCACTCATAATAGCATGTCTTCGATCTAAGGGTGTAGAGTTCAAATCCCTATCACTATCGAACTGATTAAAGAAAACATCAAAAAAGATATTAATGTCCATTTTGATGAGGAAAAGTTGAGTCTATTAGGGAAAGCTAGCTAGTTGACTTATTGGCATAGTTAATTTCTCATTAGAATTGCTTTGTGTTTTGTCTATTAGTACAATAATATTGTCCACAAATATGGGTTTTCTGGTAAATGTCTACATCATAATTAAGATAAGATAATGAGCTTACTGTTTGGTTTCAATTTTGTCAATTTTTCAGTAATTTTCAACAAAGAGGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAGCTTTGAACAAAATTCTTCACATTAAGCCTCCTCAAAATGTCCTCTCAATCAATCAACTTGTGGCCCTCTGGGAAAACAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGCCCAATTATTAAAAAATATTCAAGGTTAGTTTTCAATTTATGAAAATTAGGCATAGTTTTGTTTCAATATAATCTCATTGGATTTAGTTTGATCTTTTAATCATTTTTTAAATTTGACATTGAACGGAGGCCTAGTGTGGGGTCTTTGTTAGTGTGGTTCTACGAAAAAAATGGTACATCCAAAATAAAAAACAAAAATAGCAATTTCGTCATTGGTTAAAAAGGGTTAGTGTTATGGTAAAACTAATGTTATGTTAAACCTAGTTTTATCATAACCCTTGTTTGGAAAAAGGGTTTAGAAATGTAGTTTTATGATAAGAGGTATTTGGAGGAAGGGTTATGATAGTGTTATGAATAAGATGTGTTTGGGGAAAGGGTTATGTGGGAAGAGTTATGTGGATTTTATGATAAGATGTGTTTGGGGGAAAGGTTAGGTGGGTAGGTTTATGTGAAATTTATGATAAAATTTATTTAGGGAAAGTGTTATATGGGTTGGGTTAATAAAATTTTTTTTTATGTAGTATAATATTTTTTAAATGAGATTGTAAATATGATAAAAAAAATCTTATTGCATACTTTTTTACGAAAGCGTCGAACCCGTCTTATTGCAAATAATTTATTGTATGTAAAATGTTATTAAATTAGTAAAGACAGTTGTCCAATTTAGAAATAATTTCTAAACATATTGTGAAAAATTTATTAAAATTAATTTTTTAAGAAGACAAATTAATTATTTCCTATTTGTAATTGGCAATAGCGATGTCCACCTATTTTGAACATATATAATTACCTGTTATAACGCTTGGGTGAAATTGTGACTATTTTCTTTAATTTTAAATAAACATTATGAAGGGAAAAAATAGTTGTCTACAATAGCAAAAGCATAAGTAGTCAATATCATACAGAAAAAAAAATGTAAGCAAATAAGAAGCAACCCAAGTCGATACAAACATAAACTATCTCGTCATGTCTCGTAAGAGGACTCTACAAAATCCCTCCCTCTCATCCTCGACATGAGCACGAAACCCCGAAGGTCGTCCATACGAGACAGAAGATGCCTTTACAATAGTGCCCTATCCAAACTTGTTAGTTTCGGCATCTTACGCAATATACGGAAGAATTTCGTGCGCGCATGGTTGTCATTGGCAAGGGTGCATGCAGGCCACTCCGCAATCATCCTGAGTTGCTTGTTTGTTTGGTCGAGCGTCAGATGTATGCCTTCAACATCCACCTTTCGCTGACTTCCCCTCTTACTCTTAGATCCACTCGATCTGGTCCTACCCTCTGAACCGCGAGAAGGTTGTGATGCGCGTACATCATCCTACGACAGGTCAATCCCCTAGCTGTACATGGGCGGGAACTTCCCGTTTCCATCTGCCATATCAAATCTGTCATACCCGTCAAGCTCGTTAGACCCTATGTCGATGAATGTCTCAGTGAACCGACCTGTCGCCCTATCGCGATCGAACACGTATCTAAGTTCGTCATAATACGAAAACGGTTTGTTCAGGAGTCCCTTCGCTATAAAATGTGACTACGGGGAAAAAAATCACTTATGACTATTGATAGAAAAATTACGAACGTTGTGTGACGTTTATATTATTTTCCTTACCCTAACCCAATTATCAAATAATTCTTTCTCCGCAACGAAACATTTCTGTTCATCGTTCCACCCAAAGCCACTGCACGCTGGTCCTCGCATTTCGACGATGGCCTGGAATGTCCGCTTCAGTGTCTTTATTCCATAGTCAATTACAGTCGTTGCGCGGACCTGACATCCAGGTAGTTTCTCCGCCATCATGCGTACCAACTGGGCCAAGTAACCTAACCGGAATGTACCATTATCCGATTTCCATCTCCCCATTGACACCAACTCCATTAAACACTCCACAAGAGTGCCCTCCTCCTCCTTCGTCCAGACATGTCTCGGAGCACGGTTTGAGGTTGATATACTGAGAATGACAAATTACAAGAAATACATGGAGTACGTTAGTAATTTCATAATTCACATTTAACAGTCACAAACAAAAGGCACGCGTACATTTTATATGCAACAGTACATTTTATAGGTGATAGAAATTCGCATACAATCGATGACTTGTAATGTAAAATTGTCTTATCTAAGCATTACGCAACTACCAATCAGTGAACATCGATTCGGCTAGTTCGTCGCACTACTAAGACCACTCGTTTTTCGTCTCAATGTAGTGAATATCTTCTGAAGCAGTAGTCGTCGCATACGTGGAGTCTCCCTCGTCCACGTCGTCAACATCGTCGCAATATGTCATTTCTCTGTTGATCAAATTGTGGAGCAAGCAACATGCAGTATAGTGCGACACTGGACTTGCAGGGGATAGTACGACTTCTCACAAAGAATGGCCCAACGACCCTTAAGAACACCGAAGGCGTGCTCAATGACATTCCTTGCCGAGGAGTGCTTCATGTTGAAGTACTCCTTTGCATTTGTTGGCGCATTTCCAGCACCACGCCACTCTTGCAAATGGTACCGCTGGCCTCTGTTACAAGACGAGAAACCCCTCCGCGTTTGGATAACCCGCATCGAATAGATAATAATATACTGTTATTAAAACATTCGTTTAAGCACTTTGAATAGGTAAATAGAAAGCGGCGGCGTTTTATTATAAATAACATATACCCTTTGGCACTTGTAGTTCATTTTCTCATGAAAGGGTATCACGTAGAATCCACGAGTCTGCCACAGATCCTTCCCAACCGGCGAGGACATAAATGAAATCCCCTTTCGTGTCGTACACACCCAGTACGTTTATGGCAATTTTCCCCTTACGCGTTCTGAATGTAGGTTGATCTGTTGCGGGGACGTTCACCTTTATGTACGTCTCGTCTAACGCGCCAAGGCAATTTTGCAGGTTGTAATAAACACGCCGATATAAGTGCCCCGTACATTAAACTCAAATACATTAAACTTGTACCATGCCCACCTCGAAACACTTCCAATGTTGATCATTGTAGTTGTTTGTCACCGGAACAGTCTCTTTATCAACTCCTCGTATAGTCGGACGACAGCCAATAGTACAAGGTTAAAATGTCGCGATACTGTCTCACTGGACCGTACAAATTCCCTTTGAATGACGCGGTTTTTCACGTCATGGGCAAGGACGTGCAAGAACATTGCTACCATTTCCTCAACGTCGACAATCTTGGTGGACGAAAGACCAAATACAGTTCGAAGTAAATGACATAGAATTGCGAAAGTTCGCCTGTCCATTCGCGTGCTTTGGTGAGACACAAGATCTGACTCGTGTATCATGCGAAAGTACGCAAGCTGTCTTATTCTATGGCGTGTATCGAACGATGTATGTGTGATACGCCTATTGTCATTCATTAGTAGCTCCAACGTTAGAAAGATCTGACGTTGGGTCAGCGTGAATGCAGTTAGGACGCCAAGGAGTGTTTGTTGATCCATTACAAACTATGTAAAGTTTCCTAAAAAATATGTACTAAGTGAATTAGTACAATATCCATATACATTGTGAAAAGTTTCTAATTAAAGCTTATTACGCACTTACTAATAGCCTAAACTTAGTAACTTTATTTAAAACTTACGTACAAAAAACAAATAACATATGTACAAATGTTTCAATCTTACTTCCATATGTAAGAGAAGAACTTCTTTGGTATGTAAGAGAAGGACGTCTTATTTTCAAACTTTTTAAGTAAATATTATTTGGTAAAAAAAATAAATTATAACATATGTATAAATATTATTTTCAAACTTCTTTTTTTTTTTTTTTTGTATGTAAGAGAAGAACGTCTTTGGTTTGCAAGTAATATGATGTTAAGTTAATTGCTTTATTTGTGTTACTTAGAAGAATTGTACAAACATTGAAAACTTTTTATTCAAAAAAAATTGTAAACTTATAAACTATAGTATGGTCTTAAGTTAATAACTTTATTTGTGTTTGGTGTTAATTAGAAGGATTATTCATGTTAATTAATCGTCTATTCTATTCGGTAAAACAACTTATTTAACAATTTAGCATAACCATTTAATACTTTTTTGCTCTACAATTTGTTGCACGTGAAAGTTAAAAATAAACAGTAATTTAAATCATAGAATGAAAGAAAAAATTATTGATTCATTAAATAAAAGAAATGTCCATGAAAGAGTATATATTACATAACCAATATTGTTTATGTCTTAACTACATAATTATACTGTAATGAAAAAACGAATACATTATCAAAATTACATATGGCTAAGCCATAATACCTATTATAAGGGTTGGATGACCACAGACGTTCTGAAAAAAAAAATAGAAAGTTAGGATACAAGCAAGGTCGAAAAATTGAAGAAAAATAAATGACAAACGAAAGGAGTACATACCTTGTACATAGAAGCACTAACCCGAAATTGAAACGTAAAAGAAAAACAACGTTGAAAACAAAAATTCAATTTTGAAAACAAATGATAAATAGCCTCAGAATTTACAAATCGGTTCAATAACTTGAACCAGATTCCATAGTTGTAGACACATCAATTAAGATGGATTAAAAACAAATAACAAAGGCAAGAAACACATGTATCAAAAGAAGGCAGACAACAAAAGCATAAACAGAGGGGAGAAACAAAGCATACACATAGGACATAAAACATAAGACAAACATACCAAGTAGGTTAAAAGGGGCAGCAAAATAAAGGCAAAAAGTAGGGCAGAAACATGAGAGAAGAAGGCAGAAAGTATGATTTTTAAAACAGTATACAAAAGGGTAGAAAGCATAAACATTTGGCAACAAACAAGGCAGAAATCGTGAGAGAACATGGCAGAAACCATTTGCCTACGAAAGATGAATTTGGAATACAAAGGGAATGGCCAAGCAATGACAAATGGAAATGGTAAAGCATAAGCATAAAATGAAGGATTATATAGAGTATGTAGGGAGTTAAAATGCAAATAAATGACTCAACCAAGAAAAGGCAGGGGAATCTCTGAAAAAACAGGCTAGAAGATAAGTCAAATAACAGTCAAAATAGATATTGGAAGCTATTCTGCAGCCAAGTACACATGAAAAGATAAAACAAACAATTGAAGGGACAAAACAGAAATGAAACAAATCTAATTCATAAGTAACTCCCTACCATGCTGGGGTAACAAGAAGCAACCGAGTAAACCAAACTAAACTAAACAAAGTAAACTAAACAAATCAACCGAAACAAAGCAACCAAAACAAAGCAACCAATACAAAGCAACCAAAATAAAGCAACCGAAAGAAAACAGAATAAGGCCAACATACATTTTTTAAGAAAAACTTAACCAAAAGACAAAATGCAATCACATATACATCAGCAATTAGTAATTAAAGTATAACAGATTCCACAAATCAGGCTACATACATATATGGAAAACAAAAAATGTAACAAAATCAGTGTATGTCAATCATGAAACTCATCATCGGCTTTGAAATTGGATTTAAAATAGTCCAATACCTCTCTAACAAGCTCAACAACCATTGGTAGACAACGGTGGTGTCAAAGCATCTGCCTTATTAGTGAAGAAACGACACCAAGCCAAGCCAAACATCCACCCGCAACAATGGAAACTCGAGCGACAGGGATTTTCTATTAGGGTCGCCTTCAACAAAATTTATTTGGAGGCAAAACCCTATACTCCAAAAGGTTATCGTGTTTGGAGCCAACACCGTGGAAGCGTCGACTTCAACAAACACGACATAGCCTTTCGAGAGTGAGAGAGACGGATGAGAGGGATGTATATAGAGATTCGGCTACACGAAATCCTCTCCAATCGGTGAAACGCAACGAAAAATAAATTTTCATGAAAACGGATCGAGGAAGAACAAAGAACGAAATAAGAAGAAAAAAACATTTTGATGAGGGAGAACAGAGGGTCGTCAAACGAACGAGGGAGATCGGATTGAGGGAGAACACAGAACGAAACAACGAACAATCAATTTTTTGAGGGAGAACACACAACGAATAAGGGAGAAGACACAACGAAAGAGGGAGAACTGATAGGATTTCATGAGGGAGAACACAAAGAAGGAAGGGAGAACACGGGTTGAAGACGACGATTGAGGGGAAGACGAAACACGCGTTAAAGATGAAACGTACGCCGAGTTGGGGGAGAAGGAAACTGTGTTTAAGAAACCCTACAACTAGGGTTTCCATAAACCGTGGGCCAAACGGGGGATAAGGTTGGGCTAACCCAAGCCCACAGTACTAACCCTAACCCCAAACAGCCCCTAAAGGTGTGAGTTGAGTGTTGAAAAGATTGACTGCATAAAAAAAAACAAAAATGAAAGGAAGGTTGTACTCATCTTCGCTTTCTTCAACAATCAAAGTCCTTCGTAGATGTAGGCTCTTTTTTGCTGAACCACGTTAGATCGGTGTGCATTTTCTCTACATAATAGAAATCTCCATTCGTTGATACCTTAAATTTACGGTGACAAAGAAAGTTGAGAGATTTTTTGTTTTATTTTATAAAAGAATTTAGGGTAATTAATTTTCTACAAAATGTTGACTCTAACTCAATGTTGAAAAGAAGGTTGACATGACCTCTCCTCCATCTTTCATTCTACCTTATTCAAGAAAGATATTTTCTCTTGCTCGTGGGCTCCCTCTTCTCCACATATTTTGTCTTTCATCTTTGGGCCTAATACAAATAACACAAACAATAGCCCAATAAATTGGTATTAGAGCAATCTTGATTATCCAAAACACAAATCTTGAACAAGAGGTTTAAGAATCAGTTTCAAACTTGCGAACAGCAATAGCAAGAGTTTGAAATTGAGAAGTTTGATGGAAATGGTGATTTTTCCATTGGGAAGGAAAAAAATCAAAGTCTTGCTTAATCAGCAAAAGGCTCACAATGTCGTTGTAGATCCTTTAAAACTTCCAGAAACTATCAATACTGCAAAAGCAATAGATGAAATGGAGTTAAATGCCTATGGAAATCTTGATTTTTTTTTTTACAAGAAACATGATGGAAATCTTGAATCTTAGTGATAATGTCATAAGGCAAATAATTAAAAAAGACACAATATACAAGATACGGAAAGTTATAAAGTTTATTTGCACCAGTGATCTTCCTAACAAAATGTATCTAAGGGAGAAATTTCTTCACCTAAAGATGGATCCCTTGAAATCCTTGACTAACAACTTAGGTGATTTTAAAAAGATTGTTCTGAATTCAAGAGACTTAGGAACAAACCTGGTGATGAAAATGAAGTCTATGTGCTTTTAAACTCCTTGCCCAAATCTTACAAAGAAGTGAAGAATGCTCTATAAGTATGGTAGAGATTTAGTTAAAATAGCTTCAATAATTTCAGCCCTTAAAAAAAATAGAGCTTAAGTCATCTAAAAAAGTCAACACAGTGGAGATGGATTATTTGACCAAGGAAAGTCTCAAACAAATCCGAGGAAGAACAGTAAAACTGAGTCAAATGAAGAAAAGAAGGCAAAACAGAAGAAGAAGTGTAAATACTGCAAGAAAAGGGCATCTAATTCAAGATTACTTCTTTCTCAAGAAAAAGAATCAAAGAGAAAGAAATTGATTCTAAAGGAAAGCAACTTGAAGCATCTGTGTGGTAGAAAGTTCTTTTATCTATACAAATGTTTTGGCATCCACCCAAGACCAAGCAAATCATGTTACCCACTGAGTTAAACATGATTGGGTTCTTGACTCTGATTGCACCTACCATATGACACCTTTTAAAACTTGATTCAACACTTATAAGGAAATCAATGGAGAGTCAGTTTTCATGAGGAATAATGAGGCTTGTCACATTGTTGGTATTGGATCAGACATTATGAAATTGAAAAATGGAACTGTGAAATTACTTAGAAATGTTAGACATGTTCCTCACTTCAAAAGAAATTTGATTTCCCTAGGCATGTTAAGACTCTTTGGGGTGTGAATACAAGGAAAAAGGTGGAGTTTTTAAGGTCCTAAAAGATTCTAGGTTGGTTTTGGTCAGATGAAAGGTAAATTATCTTTTCATAACCAAATGAGTTGTAATGTTAGGTGAAGTTAATGTAGTATCTACATCAAATATGACAGAGGCTGACCTTTAGTATAAAAGACTGTCTTATATTGGCCAAAAAGGACTTGAAGCTCTATCAAAACAAGGCATCCTACCTAAAGAAATCAGCAAGAAGTTATCCTTTTATGAACATTGCGTGCTAGGGAAAGCAAAAAGGCAAAACTTATCCAAAGCACAACACACTACTGAAGGAATCCTCGACTACATCCATTCGAATCTATGGGGAATAGCCTCAACTCCAAGCCTAAGTGGCTCACGGTACATTTTATCCTTTACTGATGATTTGTTTTAGAAAGAATATGATTTATTGTCTAAAAACTAAAGACCAAGTCTTCGAAATATTTAAAGAATGAAAATTGATGATTAAAAAAACAAACAGAAAAAGAGATTAAATATCTTAGAATTGATAATGGTTTGGAGTTTTGTGGAGAGGATTTCTATACATTTTATAGGAAAAGTGGAACTAAAAGCATAAGATAGTAAAATACACACCACAACAAAATGGGTGGCTGAAAGACTCAAGAGAACTATCATGAAAAAAGTAAGATGCCTATTGTCAAATGCTATCTTAGAGGAAAAATTATGGGTTGAATCACTGCATATTCTCTATACACACTAAATAGGAGCCCTCATACCTCCTTAAGGTTCCTAAAACATGAGAAGAAATGGTCCAAGCACCCTCGAATCTAAGTGATCTCAAGGTATTTGGATGTGTCGTATGTTCATCAAAATCAAAAAAAAAAAACTCAAAGCAAGAACTACTAAGTGCATGTTTATTGGCTTCACTGAAGGGGTTAAAGGTGTTAGAAGCGTGTGATGAACATCCCAAATAAATAATCTCCAAATAGAATATTTGAGAGGAAATAAAAACTTATTAGAAGACTTTTTGTGTGTAGTCTACTCACACTTGGATGATTTAGATCACAACATTTCAATTCTATTTATAGAATTGTCATGAGCATAACTCATACCATAATTAAACACGACAATTTAAATCCTACATTTAACTAATGTACTACTGTTAATGGTTATCAATATTTTGTTTTATTTATTGATGACTATTCTTGTTTTACTTGGATCTATTTTCTTAAAAATCGTTCCTCCTTATATCAAATATATATTGATTTTGCAAATATGGTTCAAACACAATTTTCTAGCACACTTAAAATTCTTCGCACCGATAATGCGATGGAATATAAGGACTCCCGCTTTCTTTCCTTCCTTTCCCAACAATGCACTTTGATTAAACGCTAATGTCCTCACACCTCCCAGCAAAATAGACGAGCGAAACGCAAACACCGTCACATTCTAGACTTTGTTCGTGCTCAACTCCTCTCTGCATCCTGCCCTAAAAAAATTTTGGGAGAGGCCGCCCTCACCTCTGTTTATGCCATCAATTGCCTTCCATCTTAGGTCATAAACAATATCTCCCCATTTGAACGACTATACGGTACTCCTCCTTCCTACTCTAATCTCAAAGTCTTTTGGTTGTGCATGCTTTGTGTTATTACATCCTCATGAACATACCAAACTTGAACCCCGTGTTCGTCTATGTTGTTTTTTAGGTTATGACACTGAACATAAAGGTTTTCGTTGTTGGGATCTTATCTCTCAACGATTACGTATTTCTCGCCATGTCACCTTTTGGGAACATCGTATGTTTTCTAATCTTTCTTCATTTCATGTCTCCCTATCTAGTCCTCACTCATTCTTTATTGATCCTTCTACTAATCTATTCCCCACTCTTAATTCACCACCCAACACTACACCTTGTCCAAATCCTACAAAGAAGTGAAGAATGCTCTTAAGTATGGCAGAGATTTAGTTATAATAGATACAATAATTTCAACCCTTAAAACAAAAGAAATAGAGCTAAAGTCATCTCAAAAAGATCGACACAATGGAGATGGATTGTTTTTCAACAGAAGGTCTCAAACAAGTCGGTACAAGAACAGTAAAACTCAGTCAAATGAAGAAAAGAAGGCAAAACGTAAGAAGTGTAAATACTACAAGAAGAAAAGGCATCTGATTCAAGATTGTTTTTTTCTTAAGAAAAAAATCAAGAGAAAGAAAAAGATTCCAAAGGAAAGCAAACTAAAGCATCTGTAGTAGAAAGTTCTTTTATCTATACAGATGCTTTGGCATCATCCCAAGACCAAGCAAATCATGTTACCCCCTCTCATGATTGGGTTCTGGACTCTGTCTGCACCTACCATATGTCTCATTTTAAAACCTGGTTCAACACTTATAAGGAAATCAATCGAATCGGTTTTCATGGGAAATAATGAGGCTTGTTACATTGTTGGTATTGGATCAGTCACTATGAAATTGAAAGATGAGACTGTGAAATTACTTAGAAATGTTAGACATGTTCCTCACCTAAAAAACATCTGATTTCCCTAGAAATGCTAAACTCTTTAAGGTGTGAATACAAGGGAAAAGGTGGAGTTTTTAAAGTCCTAAATAATTCTTGGGTGGTTTTAGTTAGAGAAAAGGTAAATGATCTTTTCATAATTAAAGGAGTTGAAATGCTAAATGAAGTTAATGCATTACTATCTACAACAAATCTAACCGAAGGTCACCTTTGGCATAAAAAACTATCTCATATTAGCCAAAAGAGACTTGAAGCTCTATCAATACAAGGCATCCTACCTAAAGAAATAAAAAAGTTGTCCTTTTGTAAACATTGTGTGCTAGGGAAATCAAGAAAACAAAACTTTTTCAAAGCACAACACACTACTAAAGGAATCCTCAAATACATCCATTTGGATCTATGAGGACCAACCTCAACTCCAAGCCTAAGTGGCTCAAGGTATATTTTATTCTTTATTGATGATTTTTCTAGAAAGAGGATTTATTTTCTAAAAACTAAAGACCAAGTCTTTAGAAAATTTAAAGAATGAAATTGATGAAAGAAAAACAAACAAAAAAAGAGATTAAATATCTTAGAACTGATAATGATTTGAAGTTTTGTGGAATGGCAACACTTTTTATAGGGAAAATTAATGCAGTGAGATACACACCACAATAAAATGGGGTCATTGAAAGACTTAACAAAACTATCATGAAAAAGGAAAGATGCCTACTGTCAGATGCTATCTCAGAGGAAAAATTATGGGCTAAAGATGCTACATATTCTCTATACACACTAAATAGGAGCCCTCATACCTCCTTAGGGCCCCTAACACTCGAGGAGAAATGGTCCAAGCAACGTCCAAATCTAAGTGATCTCAAGGTGTTTAGATGTGTAGTGTATGTTCATCAAAGTCAAGGAAAACCCAAGGCAATAACTGCTAAGTGCATGTTTGTTGGCTTCATTGAAGGGGTTACGGGTTTCAAGATGTGGTACCTGATTGAAAATATGTTTATAATCAGTAGGGATATTGTTCTTTACAAAGAAAACAAGATGTTTATGCAAGGTTAGTAGTAAACTTTATGAAGATCCTAAAGCCACAAACACCAATGCCATTCAGATTGAGGTGGAGATCACAAGAAATACTCAAATTTTTGAAAAATCTTATTTTTGATCAAGAAAAGGTAGAAGATACTAAGAGGATTAGGATGAGGTTGTTGAAAAACAACCCGATTTGAGTCAATACTCTCTAGCAAGAGACGAACAAAGAAAAGTGATTGTACCTCCTGCTAGGGAAGTTGAAACTAACTACATCAATTTTGTTCTAAATGAGTTTCATCAATTCTGTTCTAAATGTCAATGTAGCTCAAAATGACCAAGAATCAAGTTCTTTTGAGGAAGCTGTAACTCGTTCTAATGCTAGACAGTGGATAGAAGAAATGAATGAAGAAATGAACTCACTAAGTGTGAATGACACTTTGGACTCTAGCTTCTCTACCAAATGGATGCAAACCAATAGCATCATAGTAGATCCATAAGCTAAAGAAGGGGATTACAAAAGATTCAATGCAAGGTTGGTAGCAAAGGGTTTCACTCAAAGACAAAGTATAAACTATTTTGAAATTTTCTCTGTAGTTGTAAAACAAACTTTTATTAGACTCCTTTTATCACTAGTAGCTTAAAATAACTTAGAGCTAGACAAACTTGACGTAAAAACAGCTTTTCTTCATCGTTATCTAGATGATACCATTGACATGGAACAACCTAAAGGGTTTGAGGTTAAAGGGGAGGAGGACCTATATTGTTTGCTCAAGAAGTCAATCTATGGGTTGAAATAGACTCCTAGATACTGGTATAGAAGGTTCAACGACTACATAGCTAGTTTGGATTTTCAAAGAAGCTCATATGATATGTATGCTTACATAAACTCAAGAACCTACAAAGACAATAACCAATATTATTACTCTATGTTGATCATATGCTTCTTGCAAGAAGCTCTAAAACTGACTTGACTCATGTCAAAGGTCTTTTAAGTAAAGAATTTGACAAGAAAATATGGCGGAATCAAGGAATATCCTATAAATTGACATTATTAGAAATAGAGACCAATGTATACTAAGCATCAGTCAATCAACCTACTGTGAAATGTGAAGGTTTAACCTAACAAATGCTAGACCTGTGACCATTTCTATTGCACAACACTTCAAACTTTCATCAGCAAATTTTCCTACAGTAATACAAAACATAAGAAATAAATGAAGAATGTTCCTTATAGTCAAGCAGTGGGAAGTCTCATGTACTTAACGATCTCTACTAGACCTGACTTATCCTATTCAACAAATATATAGCAAATCCTAGCAAGAGACACTGGGAAGTAATGAAATTGATTCTTAGATATCTACTCTGGTCTAAGTATACTAAACTAATTTACCAGAAGATTTCAGAATCAGACTTAAAATTAATTGGCTATGTGGATTCAGATTTTGATGGTCATATTGATAACAGGAGTTTAACCAGGTATATATGTTTTTCACTATGGCTCTAATCTAATTAGTTGGAAAGCAACCCTACAATTTATTGTTGCTCTCTCAACCATAGAAGAATAATACATAGCTCTTACAGAGGCAGTATAAAAGAAGGATAATGAGAATTATTTGATTTATGTGGGAATTAAAATTAATTAAATATTTCTTGGATGAATATTTAATTAATTAAAGGTTTTGACACGTGGTGTTTGTTGAGTTTTATTAAATGGTAGGTTAAGAGGATTAAGTAAAGTTGTGGATTTTTAGTGTTGTTGAAGTTGAATTTAATTAAATAATTATGGACGTTATTTAATTAAATCGTAGGGTGGAAAGTTTGTTGGAGATTTGATAATTATATGTATTTGATAATTATTATGTGACCATTTTCCTATATATATTATACATAATCGGTTGGGTCGGGTTAACCCAACCCCTTACTTACACGGTTGGGCTATGCGACGCAACTTTTTTTTCCTCCAATTTTCTAACTCAACTCAACCCAACCCCACATAAATTTAACCCAATTCAACCCTTACGATTTGGGTTGGGTAATCCGAGTTGGTCGAGTTACTGATTTTTTTTAACACCACTACTATTATCCTCGAACTTTTGAAAAAAAAAACTTAATTTGGTATCTGTCATTAAAATTTCAACTCTTTAACGGAATGATGAGGCGACTTTCTATATTTCGATGATTGGACTCTAGATTCATCATATTAATAATATTGATAAATAACCCAGAAATCTCGTTGATTTATTCTACAAATCTTTTATGCTAACATGGAAATATTAAGTAACATAATTGAATTAAATAAAGCCCAAATAAAAATTAATTTTGTTCTTTTTCTACCAAACTCAAATCTCTCACATCCTCTCCCCACTCTTTACCGTTTATTTATTTATTTATTTTTCAAATTAAAATCTTAAAGCAAATGAGAAGAACAACATTAAGTAGAATAAAAAATATAAAATAGAACTGACAATTGCAAATATAGCAAAGTCTATCAGTGATAGAGAGTTCTATCACTGATAGACTCCTATCATTGATAGAATTTAACAGATTTTGCTATCTTTATAATTTTTTTAAAATGTTGCTATATACATACTTAATTATTTTAAATCTGATTGCTATATTTGTGCAACTATTCCAAAGTAAAAGTTAAAACTATAAATTATTAAAAGTGATTATCTTATTTGGTATCCAAATTATCGAAATATAAAAGCCACGGCCTCACCATTTAAAACAATATCTTAATGATAGGGGACAAGATTTGTTTTTTTATAAAGTGCAGGGATTAAAACAGAAACTTTTAGAAGTTCATGGACCAAAATAGAAAATGATATAAGGTTTAGGGACTAAAATAAAACTTAAATCTATTTGTAGTGTTATTGTACCCTTTTTACTGTGAAATTGTTTTAAATAATAAAATTTCTGATTATTTACAAAGTATCACATGCTATATCGATGATAAACCTCGACATACTATTATATATGTCTATTTTGACATAGAATAATTGAAGTAGATTAATCATGACATAGATAGTAGTCTTTCAAAGATCTATCAATTGGTTGTTGCTCCTTATAATCTCGTGTAAGTATAATTTTTATCAATTCAAACTTGCATTAGTAGCAAAATACTATACTTGCATATATATTTCATTTAGTGATCTTTGGTCATCAGTAGTCATTAATGCATATGATGATATGGTGTACCATCTTGACTCGTTGAGAACAAGCTCTCGAGATGATATCAAATACGTAACAAATATGTAAGCTAACTCTGTTTATGTTTTTTTTTCTAATTTTGTTTATTATTTTTTTTTATCGCTAAAAAAATTAGTTCATTTTGATTTATAAAATACTTTGGGAAATGTAGAACCATGACCATTTTCCAATCTCAAAAGAAGTTGAAAAATATTAGAAAAACAATATTCTGAAAAGCAGTAAAGGTAAATATATTTATAAAATAATTTACAATTTAATTTAGCACATAATTTACTATGTATTGTTATTTGGTTGTGTGATATAGTGTCTGTTACTCCTCCATTGCTCCAGGTGGCTTGCTCTAATTGGTTCAAATTGATTATTTGGCCGCCACATCAACATCTTGGGTACTTTTCTGTTAAGCTTCTTTCAGCAATATTTTCTTTTTTTGAACTCTGATTTGGGTGATTCAAGAAGTGTCAGAATCATTGTTCCGAGTTCTATGTTATGGACTATTCAAAAGAATAAAATTGTCAATAAAAAGATTTAGATTTGTTATCATCAAAATATTAATTTTAATTAATTAATTTGAGATTAAGGGTCAAAAAGCCAATACTTCAAGGGCCTCTAAGCACTTGTGGACAAAAGAGGAGGAGGCCACTCTCGTTAAGTGCTTGGTGGAGTTGGTCTTCGTTGGTGGCTAGAGGTCTGACAACGGGACGTTTAGACCCGGGTACCATAATCAGCTCCAAAGAATGATGGCTGAGAGGATGCAAGGATGTAACATACAGGCTTCGACCATTGATTGTCGGATAAAGACGCTGGAGAGAATGTTCCAGGCTATAATAGAAATGTAGGGCTCATCGTGCAGTGAGTTTGATTGGAATGATGAACTCAAGTGTATCAAATTTAGTAATGAAGTTATATTCCT

mRNA sequence

TGAGAAATATAAATTAACAGGTGTAGATAAAGATAAAGATGTGTTTAAACCTCCTCAACTATTGGTGCATGGTTAGTAGAACCGAACTTAATTATATGATTTAATCCTACAATTATCTCATTCCCATTTTTTTCCATTTGCACTACTCTCTTTCCCCCTTCTCTTCAACATTCTCCCCCAAAAATCTCGACTCGCCTCTACCCATCGTTTTCCCGATCTATTCCTCCCCGGAAATCTTCTTCCAATGGCCGCCAAAAGCAGAGTCTTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGCCATCCGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCGATCCAGCCAAATCTCAGATCATCCAGAGCTTCAAGAGCATTGGAGTCACTATCGTCACTGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCGATGAAGGAAGTGGATGTGGTGATTTCAGCGGTCGGTCTTAATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGAGATTTTTTCCATCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGACAGGTTAAATTGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAAGCTGAAGGGATCCCCTACACTTATGTATTGTCTAACTACTTTAATGGCTTTTGTCTTCCTACATTGGCTCAACATGGGGCCGCTGCTCCACCTACAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGTAATTTTCAACAAAGAGGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAGCTTTGAACAAAATTCTTCACATTAAGCCTCCTCAAAATGTCCTCTCAATCAATCAACTTGTGGCCCTCTGGGAAAACAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGCCCAATTATTAAAAAATATTCAAGTCATTAATGCATATGATGATATGGTGTACCATCTTGACTCGTTGAGAACAAGCTCTCGAGATGATATCAAATACGTAACAAATATGTGGCTTGCTCTAATTGGTTCAAATTGATTATTTGGCCGCCACATCAACATCTTGGGGTCAAAAAGCCAATACTTCAAGGGCCTCTAAGCACTTGTGGACAAAAGAGGAGGAGGCCACTCTCGTTAAGTGCTTGGTGGAGTTGGTCTTCGTTGGTGGCTAGAGGTCTGACAACGGGACGTTTAGACCCGGGTACCATAATCAGCTCCAAAGAATGATGGCTGAGAGGATGCAAGGATGTAACATACAGGCTTCGACCATTGATTGTCGGATAAAGACGCTGGAGAGAATGTTCCAGGCTATAATAGAAATGTAGGGCTCATCGTGCAGTGAGTTTGATTGGAATGATGAACTCAAGTGTATCAAATTTAGTAATGAAGTTATATTCCT

Coding sequence (CDS)

ATGGCCGCCAAAAGCAGAGTCTTAGTCGTCGGAAGCACTGGCTACATCGGTAAATTCATCGTCGAGGCCAGCGCCAAGGCCGGCCATCCGACCTTCGCTCTCGTCCGAGATTCTTCTCTCTCCGATCCAGCCAAATCTCAGATCATCCAGAGCTTCAAGAGCATTGGAGTCACTATCGTCACTGGGGATCTGTTTGAGCATGAGAGTTTGGTGAAAGCGATGAAGGAAGTGGATGTGGTGATTTCAGCGGTCGGTCTTAATCAGTTAAGCGATCAAGATAAGCTTATTTCCGCCATTAAAGAAGCTGGCAATATCAAGAGATTTTTTCCATCGGAGTTCGGGTATGATGTAGAGAATGTACATGGAATTGGACAGGTTAAATTGATTTTCGAGGCAAAGGTTAAGATTCGTCGAGCTGTGGAAGCTGAAGGGATCCCCTACACTTATGTATTGTCTAACTACTTTAATGGCTTTTGTCTTCCTACATTGGCTCAACATGGGGCCGCTGCTCCACCTACAGACAAGGTTGTCATTCAAGGGGATGGAAATCCCAAGGTAATTTTCAACAAAGAGGAAGACATTGCTTCCTACACCATTAAAGCAGTGGATGATCCAACAGCTTTGAACAAAATTCTTCACATTAAGCCTCCTCAAAATGTCCTCTCAATCAATCAACTTGTGGCCCTCTGGGAAAACAAAATTGGCAAAACTCTTGACAAAACCTACATTTCAGAGGCCCAATTATTAAAAAATATTCAAGTCATTAATGCATATGATGATATGGTGTACCATCTTGACTCGTTGAGAACAAGCTCTCGAGATGATATCAAATACGTAACAAATATGTGGCTTGCTCTAATTGGTTCAAATTGA

Protein sequence

MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQGDGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDKTYISEAQLLKNIQVINAYDDMVYHLDSLRTSSRDDIKYVTNMWLALIGSN
Homology
[Close]
BLAST of Cmc01g0019351 vs. NCBI nr
Match: XP_008448081.1 (PREDICTED: isoflavone reductase-like protein [Cucumis melo])

HSP 1 Score: 488.8 bits (1257), Expect = 3.2e-134
Identity = 250/253 (98.81%), Postives = 250/253 (98.81%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV
Sbjct: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV
Sbjct: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HGIGQVK IFEAKVKIRRAVEAEGIPYTYVLS YFNGFCLPTLAQHGAAAPPTDKVVIQG
Sbjct: 121 HGIGQVKSIFEAKVKIRRAVEAEGIPYTYVLSYYFNGFCLPTLAQHGAAAPPTDKVVIQG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLS NQLVALWENKIGKTLDK
Sbjct: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSFNQLVALWENKIGKTLDK 240

Query: 241 TYISEAQLLKNIQ 254
           TYISEAQLLKNIQ
Sbjct: 241 TYISEAQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. NCBI nr
Match: XP_004148526.1 (phenylcoumaran benzylic ether reductase Pyrc5 [Cucumis sativus] >KAE8645643.1 hypothetical protein Csa_020447 [Cucumis sativus])

HSP 1 Score: 455.7 bits (1171), Expect = 3.0e-124
Identity = 235/253 (92.89%), Postives = 239/253 (94.47%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MAAKSRVLVVGSTGYIGKFIVEASAKAGH TFALVRDSSLS PAKSQIIQSFKSIGVTI+
Sbjct: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHQTFALVRDSSLSHPAKSQIIQSFKSIGVTIL 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           TGDLFEHESLVKAMKEVDVVISAVGL QLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV
Sbjct: 61  TGDLFEHESLVKAMKEVDVVISAVGLYQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HGIG VK IFEAKVKIRRAVEAEGIPYTYVLS YFN FCLP LAQHGA APP DKVVIQG
Sbjct: 121 HGIGVVKSIFEAKVKIRRAVEAEGIPYTYVLSYYFNAFCLPRLAQHGATAPPRDKVVIQG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPKVIFNKEEDIASYTIKAVDDPT LNKIL+IKPP NVLSIN+LVALWE+KIGKTLDK
Sbjct: 181 DGNPKVIFNKEEDIASYTIKAVDDPTTLNKILYIKPPPNVLSINELVALWESKIGKTLDK 240

Query: 241 TYISEAQLLKNIQ 254
           TYISE QLL NIQ
Sbjct: 241 TYISEDQLLNNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. NCBI nr
Match: XP_038887686.1 (phenylcoumaran benzylic ether reductase Pyrc5-like [Benincasa hispida])

HSP 1 Score: 451.4 bits (1160), Expect = 5.7e-123
Identity = 228/253 (90.12%), Postives = 240/253 (94.86%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA+KSR+LVVGSTGYIGKFIVEASAKAGHPTFALVRDS+LSDPAKSQIIQSFK+IGV IV
Sbjct: 1   MASKSRILVVGSTGYIGKFIVEASAKAGHPTFALVRDSALSDPAKSQIIQSFKNIGVIIV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           +GDLF+HESLVKA+KEVDVVIS VGLNQLSDQDKLISAIKEAGN+KRFF SEFG+DVENV
Sbjct: 61  SGDLFDHESLVKAIKEVDVVISTVGLNQLSDQDKLISAIKEAGNVKRFFSSEFGFDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HGIG VK IFEAKVKIRRAVEAEGIPYTYVLS YFNGFCLP LAQHGA APP DKVVIQG
Sbjct: 121 HGIGPVKSIFEAKVKIRRAVEAEGIPYTYVLSYYFNGFCLPRLAQHGATAPPRDKVVIQG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPKVIFNKEEDIA+YTIKAVDDPT LNKIL+IKPPQNVLSIN+LVALWENKI KTL K
Sbjct: 181 DGNPKVIFNKEEDIATYTIKAVDDPTTLNKILYIKPPQNVLSINELVALWENKIAKTLHK 240

Query: 241 TYISEAQLLKNIQ 254
           TYISE QLLKNIQ
Sbjct: 241 TYISEDQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. NCBI nr
Match: XP_022135641.1 (isoflavone reductase-like protein [Momordica charantia])

HSP 1 Score: 421.0 bits (1081), Expect = 8.3e-114
Identity = 210/254 (82.68%), Postives = 231/254 (90.94%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KSRVLVVGSTGYIGKFIVEASAKAGHPT+ALVRDS+LSDPAKSQIIQ F S GVTIV
Sbjct: 1   MAGKSRVLVVGSTGYIGKFIVEASAKAGHPTYALVRDSALSDPAKSQIIQRFNSFGVTIV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVE-N 120
           +GDLF+ ESLV A+K+VDVVIS VGLNQL DQDKLI AIKEAGN+KRF PSEFGYDVE N
Sbjct: 61  SGDLFDRESLVNAIKQVDVVISTVGLNQLGDQDKLIYAIKEAGNVKRFLPSEFGYDVENN 120

Query: 121 VHGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQ 180
           VHG+G VK IFEAKV++RRAVEAEGIPYTYV S YFNGFCLP+LAQHGA+APP DKV+I+
Sbjct: 121 VHGVGPVKSIFEAKVRVRRAVEAEGIPYTYVWSYYFNGFCLPSLAQHGASAPPRDKVIIK 180

Query: 181 GDGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLD 240
           GDGNPKVIFNKEEDIASYTI+A+DDP  LNKI++IKPP+NV S+N+LVALWE KIGKTL 
Sbjct: 181 GDGNPKVIFNKEEDIASYTIRAMDDPRTLNKIVYIKPPENVFSLNELVALWETKIGKTLQ 240

Query: 241 KTYISEAQLLKNIQ 254
           K YISE QLLKNIQ
Sbjct: 241 KIYISEDQLLKNIQ 254

[Close]
BLAST of Cmc01g0019351 vs. NCBI nr
Match: KAG7011717.1 (hypothetical protein SDJN02_26623 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 417.2 bits (1071), Expect = 1.2e-112
Identity = 210/253 (83.00%), Postives = 228/253 (90.12%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KSRVLVVGSTGYIGKFIVEAS K GH TFALVRDS+LSDPAKS IIQ FKSIGV +V
Sbjct: 1   MATKSRVLVVGSTGYIGKFIVEASVKYGHQTFALVRDSALSDPAKSPIIQKFKSIGVIVV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           +GDLF+HESLVKA+K+VDVVIS VGLNQLSDQDKLISAIKEAGN++RFFPSEFGYDVENV
Sbjct: 61  SGDLFDHESLVKAIKQVDVVISTVGLNQLSDQDKLISAIKEAGNVQRFFPSEFGYDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HG+G VK IFE+KV+IRRAVEAEGIPYTYVLS  FNGFC+P+L Q G  APP DKVVI G
Sbjct: 121 HGVGPVKSIFESKVQIRRAVEAEGIPYTYVLSYCFNGFCVPSLGQLGVTAPPRDKVVIHG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK IFNKEEDIAS+TIKAVDDPT LNKIL+IKP +NVLSINQLVALWENKIG  L K
Sbjct: 181 DGNPKAIFNKEEDIASFTIKAVDDPTTLNKILYIKPSENVLSINQLVALWENKIGIILHK 240

Query: 241 TYISEAQLLKNIQ 254
           T++SE QLLKNIQ
Sbjct: 241 TFVSEHQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match: O81355 (Phenylcoumaran benzylic ether reductase Pyrc5 OS=Pyrus communis OX=23211 GN=PYRC5 PE=1 SV=1)

HSP 1 Score: 362.1 bits (928), Expect = 6.0e-99
Identity = 173/253 (68.38%), Postives = 213/253 (84.19%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA+KS++L +G TGYIGKFIVEASAKAG+PT+ LVR++SLSDPAKS++I++FK++GV  V
Sbjct: 1   MASKSQILFIGGTGYIGKFIVEASAKAGYPTYVLVREASLSDPAKSKVIENFKALGVNFV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL++HESLVKA+K+VDVVIS VG  QL+DQ K+I+AIKEAGN+KRFFPSEFG DV+  
Sbjct: 61  LGDLYDHESLVKAIKQVDVVISTVGHGQLADQGKIIAAIKEAGNVKRFFPSEFGNDVDRS 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           H +   K  FE K KIRRAVEAEGIPYTYV SN+F G+ LPTL Q GA++ P DKVVI G
Sbjct: 121 HAVEPAKSAFETKAKIRRAVEAEGIPYTYVSSNFFAGYFLPTLNQPGASSAPRDKVVILG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK IFNKE+DI +YTI+AVDDP  LNK+L+I+PP N +S N+LV+LWE KIGKTL++
Sbjct: 181 DGNPKAIFNKEDDIGTYTIRAVDDPRTLNKVLYIRPPANTISFNELVSLWEKKIGKTLER 240

Query: 241 TYISEAQLLKNIQ 254
            Y+ E QLLKNIQ
Sbjct: 241 IYVPEEQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match: B6VRE8 (Phenylcoumaran benzylic ether reductase TP7 OS=Nicotiana tabacum OX=4097 GN=TP7 PE=1 SV=1)

HSP 1 Score: 353.6 bits (906), Expect = 2.1e-96
Identity = 169/253 (66.80%), Postives = 209/253 (82.61%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KS+VL++G TGYIGKF+VEASAK+GHPTFALVR+S+LSDP KS+I+++FK++GVTI+
Sbjct: 1   MAEKSKVLIIGGTGYIGKFVVEASAKSGHPTFALVRESTLSDPVKSKIVENFKNLGVTIL 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL++HESLVKA+K+VDVVIS +G+ QL DQ KLI+AIKEAGNIKRFFPSEFG DV+  
Sbjct: 61  HGDLYDHESLVKAIKQVDVVISTMGMMQLGDQVKLIAAIKEAGNIKRFFPSEFGMDVDKT 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           + +   K  F  KV+IRRA+EAEGIPYTYV  N F G+ LPT+ Q GA  PP DKV+I G
Sbjct: 121 NAVEPAKSAFAVKVQIRRAIEAEGIPYTYVSCNCFAGYFLPTMVQPGATVPPRDKVIIPG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGN K +FN+E DI +YTIKAVDDP  LNK L+IKPP+N LS N+LVA+WE  IGKTL+K
Sbjct: 181 DGNVKAVFNEEHDIGTYTIKAVDDPRTLNKTLYIKPPKNTLSFNELVAMWEKMIGKTLEK 240

Query: 241 TYISEAQLLKNIQ 254
            YI E Q+LK+I+
Sbjct: 241 IYIPEEQILKDIE 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match: B2WSN1 (Eugenol synthase 1 OS=Petunia hybrida OX=4102 GN=EGS1 PE=1 SV=1)

HSP 1 Score: 352.1 bits (902), Expect = 6.2e-96
Identity = 170/252 (67.46%), Postives = 207/252 (82.14%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KS++L++G TGYIGKF+VEASAKAGHPTF LVR+S++SDPAK +I++SF + GVTI+
Sbjct: 1   MAEKSKILIIGGTGYIGKFVVEASAKAGHPTFVLVRESTVSDPAKGKIVESFNNSGVTIL 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL++HESLVKA+K+VDVVIS VG  QL+DQ K+I+AIKEAGNIKRFFPSEFG DV+ V
Sbjct: 61  YGDLYDHESLVKAIKQVDVVISTVGQMQLADQTKIIAAIKEAGNIKRFFPSEFGMDVDKV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           + +   K  F  KV+IRRA+EAEGIPYTYV SN F G+ LPTL Q GA  PP DKV+I G
Sbjct: 121 NAVEPAKSTFAIKVQIRRAIEAEGIPYTYVSSNCFAGYFLPTLVQPGATDPPRDKVIISG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGN K +FN+E DI +YTIKAVDDP  LNK L+IKPP+N LS N+LVA+WE  IGKTL+K
Sbjct: 181 DGNAKAVFNEEHDIGTYTIKAVDDPRTLNKTLYIKPPKNTLSFNELVAIWEKLIGKTLEK 240

Query: 241 TYISEAQLLKNI 253
            YI E Q+LK+I
Sbjct: 241 IYIPEEQILKDI 252

[Close]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match: B2WSN0 (Eugenol synthase 2 OS=Clarkia breweri OX=36903 GN=EGS2 PE=1 SV=1)

HSP 1 Score: 350.1 bits (897), Expect = 2.4e-95
Identity = 164/254 (64.57%), Postives = 210/254 (82.68%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           M +KS++L++G TGYIGKFIVEAS K GHPTFALVR++++SDP K ++++ F+++GV+++
Sbjct: 1   MGSKSKILIIGGTGYIGKFIVEASVKEGHPTFALVRETTVSDPVKGKLVEKFQNLGVSLL 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL++H+SLVKA+K+VDVVIS VG  Q++DQ K+I+AIKEAGN+KRFFPSEFG DV++V
Sbjct: 61  YGDLYDHDSLVKAIKQVDVVISTVGFMQIADQTKIIAAIKEAGNVKRFFPSEFGNDVDHV 120

Query: 121 HGIGQVKLI-FEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQ 180
           + +   K + F  K  IRRAVEAEGIPYTYV SN FNG+ LPTL Q GA  PP DKV+I 
Sbjct: 121 NAVEPAKSVAFAVKANIRRAVEAEGIPYTYVASNCFNGYFLPTLVQPGATTPPRDKVIIP 180

Query: 181 GDGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLD 240
           GDGNPK IFNKEEDI +YTIKAVDDP  LNKIL+++P  N+ S N+LVALWE KIGKTL+
Sbjct: 181 GDGNPKAIFNKEEDIGTYTIKAVDDPRTLNKILYLRPSNNIYSFNELVALWEKKIGKTLE 240

Query: 241 KTYISEAQLLKNIQ 254
           K Y+ E Q+LK+IQ
Sbjct: 241 KIYVPEEQILKDIQ 254

[Close]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match: B9HRL7 (Phenylcoumaran benzylic ether reductase POP1 OS=Populus trichocarpa OX=3694 GN=PCBER PE=1 SV=1)

HSP 1 Score: 349.7 bits (896), Expect = 3.1e-95
Identity = 168/249 (67.47%), Postives = 205/249 (82.33%), Query Frame = 0 

Query: 5   SRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGDL 64
           S++L +G TGYIGKFIVEASAKAGHPTF LVR+S+LS+PAKS +I +FK++GV  + GDL
Sbjct: 3   SKILFIGGTGYIGKFIVEASAKAGHPTFVLVRESTLSNPAKSVVIYNFKNLGVNFLIGDL 62

Query: 65  FEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGIG 124
           F+HESLVKA+K+VDVVIS VG  QL +QD++I+AIKEAGN+KRFFPSEFG DV+ V+ + 
Sbjct: 63  FDHESLVKAIKQVDVVISTVGHAQLVEQDRIIAAIKEAGNVKRFFPSEFGNDVDRVNAVE 122

Query: 125 QVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQGDGNP 184
             K  F  K  +RRA+EAEGIPYTYV SN+F+G+ L +  Q GA APP DKVVI GDGNP
Sbjct: 123 PAKSAFATKANVRRAIEAEGIPYTYVSSNFFSGYFLLSFNQPGATAPPRDKVVILGDGNP 182

Query: 185 KVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDKTYIS 244
           K +FNKE+DIA+YTIKAVDDP  LNKIL+IKPP N +S N LV+LWE KIGKTL++ Y+ 
Sbjct: 183 KAVFNKEDDIATYTIKAVDDPRTLNKILYIKPPANTISFNDLVSLWEKKIGKTLERIYVP 242

Query: 245 EAQLLKNIQ 254
           E QLLKNIQ
Sbjct: 243 EEQLLKNIQ 251

[Close]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match: A0A1S3BJT1 (isoflavone reductase-like protein OS=Cucumis melo OX=3656 GN=LOC103490365 PE=4 SV=1)

HSP 1 Score: 488.8 bits (1257), Expect = 1.6e-134
Identity = 250/253 (98.81%), Postives = 250/253 (98.81%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV
Sbjct: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV
Sbjct: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HGIGQVK IFEAKVKIRRAVEAEGIPYTYVLS YFNGFCLPTLAQHGAAAPPTDKVVIQG
Sbjct: 121 HGIGQVKSIFEAKVKIRRAVEAEGIPYTYVLSYYFNGFCLPTLAQHGAAAPPTDKVVIQG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLS NQLVALWENKIGKTLDK
Sbjct: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSFNQLVALWENKIGKTLDK 240

Query: 241 TYISEAQLLKNIQ 254
           TYISEAQLLKNIQ
Sbjct: 241 TYISEAQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match: A0A6J1C1B8 (isoflavone reductase-like protein OS=Momordica charantia OX=3673 GN=LOC111007550 PE=4 SV=1)

HSP 1 Score: 421.0 bits (1081), Expect = 4.0e-114
Identity = 210/254 (82.68%), Postives = 231/254 (90.94%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KSRVLVVGSTGYIGKFIVEASAKAGHPT+ALVRDS+LSDPAKSQIIQ F S GVTIV
Sbjct: 1   MAGKSRVLVVGSTGYIGKFIVEASAKAGHPTYALVRDSALSDPAKSQIIQRFNSFGVTIV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVE-N 120
           +GDLF+ ESLV A+K+VDVVIS VGLNQL DQDKLI AIKEAGN+KRF PSEFGYDVE N
Sbjct: 61  SGDLFDRESLVNAIKQVDVVISTVGLNQLGDQDKLIYAIKEAGNVKRFLPSEFGYDVENN 120

Query: 121 VHGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQ 180
           VHG+G VK IFEAKV++RRAVEAEGIPYTYV S YFNGFCLP+LAQHGA+APP DKV+I+
Sbjct: 121 VHGVGPVKSIFEAKVRVRRAVEAEGIPYTYVWSYYFNGFCLPSLAQHGASAPPRDKVIIK 180

Query: 181 GDGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLD 240
           GDGNPKVIFNKEEDIASYTI+A+DDP  LNKI++IKPP+NV S+N+LVALWE KIGKTL 
Sbjct: 181 GDGNPKVIFNKEEDIASYTIRAMDDPRTLNKIVYIKPPENVFSLNELVALWETKIGKTLQ 240

Query: 241 KTYISEAQLLKNIQ 254
           K YISE QLLKNIQ
Sbjct: 241 KIYISEDQLLKNIQ 254

[Close]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match: A0A6J1IIK0 (isoflavone reductase-like protein OS=Cucurbita maxima OX=3661 GN=LOC111474287 PE=4 SV=1)

HSP 1 Score: 411.8 bits (1057), Expect = 2.4e-111
Identity = 207/253 (81.82%), Postives = 225/253 (88.93%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KSRVLVVGSTGYIGKFIVEAS K GH TFALVRDS+LSDPAK  IIQ FKSIGV +V
Sbjct: 1   MATKSRVLVVGSTGYIGKFIVEASVKYGHQTFALVRDSALSDPAKCPIIQKFKSIGVIVV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           +GDLF+HESLVKA+K+VDVVIS VGLNQLSDQDKLISA+KEAGN+KRFFPSEFGYDVENV
Sbjct: 61  SGDLFDHESLVKAIKQVDVVISTVGLNQLSDQDKLISAVKEAGNVKRFFPSEFGYDVENV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           HG+G VK IFE+KV+IRRAVEAEGIPYTYVLS  FNGFC+P+L Q G  APP DKVVI G
Sbjct: 121 HGVGPVKSIFESKVQIRRAVEAEGIPYTYVLSYCFNGFCVPSLGQLGVTAPPRDKVVIHG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK IFN EEDIAS+TIKAVDDP  LNKIL+IKP +NVLSINQLVALWENKIG  L K
Sbjct: 181 DGNPKAIFNTEEDIASFTIKAVDDPRTLNKILYIKPSENVLSINQLVALWENKIGIILHK 240

Query: 241 TYISEAQLLKNIQ 254
           T++SE QLLKNIQ
Sbjct: 241 TFVSEHQLLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match: Q3KN67 (Isoflavone reductase-like protein 6 OS=Vitis vinifera OX=29760 GN=ifrl6 PE=2 SV=1)

HSP 1 Score: 366.7 bits (940), Expect = 9.0e-98
Identity = 174/253 (68.77%), Postives = 214/253 (84.58%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           M+ KS++L++G TGYIGKFIV ASA+ GHPTFAL+R+S++S+P+KS II+SFKS GV++V
Sbjct: 1   MSDKSKILIIGGTGYIGKFIVAASARLGHPTFALIRESTVSNPSKSGIIESFKSSGVSLV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL++HESLVKA+K+VDVVIS VG  QLSDQ K+I+AIKEAGN+KRFFPSEFG DV+ V
Sbjct: 61  YGDLYDHESLVKAIKQVDVVISTVGRAQLSDQVKIIAAIKEAGNVKRFFPSEFGNDVDRV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           H +G  K  FE K +IRR +EAEGIPYTYV SN+F GF LPTL+Q GA APP DKV+I G
Sbjct: 121 HAVGPAKTAFEIKAQIRRTIEAEGIPYTYVSSNFFAGFFLPTLSQPGATAPPRDKVIILG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK +FNKE+DI +YTIKA DDP ALNKIL+I+PPQN  S N++V+LWE KIGKTL+K
Sbjct: 181 DGNPKAVFNKEDDIGTYTIKAADDPRALNKILYIRPPQNTYSFNEIVSLWEKKIGKTLEK 240

Query: 241 TYISEAQLLKNIQ 254
            Y+ E Q+LKNIQ
Sbjct: 241 IYVPEEQVLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match: A0A6J1C331 (isoflavone reductase homolog OS=Momordica charantia OX=3673 GN=LOC111008009 PE=4 SV=1)

HSP 1 Score: 365.9 bits (938), Expect = 1.5e-97
Identity = 179/253 (70.75%), Postives = 211/253 (83.40%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           MA KS++L+VG TGYIGKF+VEASAKA HPT  LVRDS+LSDPAK+ II +FKS+GV  V
Sbjct: 1   MAGKSKILIVGGTGYIGKFVVEASAKARHPTHVLVRDSTLSDPAKAPIIDNFKSLGVNFV 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
           +GDL++HESLVKA+KEVDVVIS+VG   L+DQDK+ISAIK+AGN+KRFFPSEFG DV+ V
Sbjct: 61  SGDLYDHESLVKAIKEVDVVISSVGHALLADQDKIISAIKQAGNVKRFFPSEFGNDVDRV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
           H +   K  F  K +IRRAVEA GIPYTYV SN+F G+ LP LAQ GA+ PPTDKVVI G
Sbjct: 121 HAVEPAKSAFAVKAEIRRAVEAAGIPYTYVSSNFFAGYFLPNLAQPGASTPPTDKVVILG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK IF+KE+DIA+YTI+AVDDP  LNKIL+IKPP N+ S N LVALWE KIGKTL+K
Sbjct: 181 DGNPKAIFDKEDDIATYTIRAVDDPRTLNKILYIKPPGNIYSFNDLVALWEKKIGKTLEK 240

Query: 241 TYISEAQLLKNIQ 254
            Y+ E Q+LKNIQ
Sbjct: 241 IYVPEEQVLKNIQ 253

[Close]
BLAST of Cmc01g0019351 vs. TAIR 10
Match: AT1G75280.1 (NmrA-like negative transcriptional regulator family protein )

HSP 1 Score: 331.6 bits (849), Expect = 6.1e-91
Identity = 162/252 (64.29%), Postives = 199/252 (78.97%), Query Frame = 0 

Query: 4   KSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGD 63
           KS++LV+G TGYIGKF+VEASAKAGH TFALVR+++LSDP K + +QSFK +GVTI+ GD
Sbjct: 5   KSKILVIGGTGYIGKFLVEASAKAGHSTFALVREATLSDPVKGKTVQSFKDLGVTILHGD 64

Query: 64  LFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGI 123
           L +HESLVKA+K+VDVVIS VG  Q+ DQ K+ISAIKEAGN+KRF PSEFG DV+    +
Sbjct: 65  LNDHESLVKAIKQVDVVISTVGSMQILDQTKIISAIKEAGNVKRFLPSEFGVDVDRTSAV 124

Query: 124 GQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQH--GAAAPPTDKVVIQGD 183
              K  F  K++IRR +EAEGIPYTY ++  F G+ LPTL Q   G  +PP DKV I GD
Sbjct: 125 EPAKSAFAGKIQIRRTIEAEGIPYTYAVTGCFGGYYLPTLVQFEPGLTSPPRDKVTILGD 184

Query: 184 GNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDKT 243
           GN K + NKEEDIA+YTIKAVDDP  LNKIL+IKP  N LS+N++V LWE KIGK+L+KT
Sbjct: 185 GNAKAVINKEEDIAAYTIKAVDDPRTLNKILYIKPSNNTLSMNEIVTLWEKKIGKSLEKT 244

Query: 244 YISEAQLLKNIQ 254
           ++ E QLLK+IQ
Sbjct: 245 HLPEEQLLKSIQ 256

[Close]
BLAST of Cmc01g0019351 vs. TAIR 10
Match: AT1G75300.1 (NmrA-like negative transcriptional regulator family protein )

HSP 1 Score: 323.9 bits (829), Expect = 1.3e-88
Identity = 164/267 (61.42%), Postives = 202/267 (75.66%), Query Frame = 0 

Query: 4   KSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGD 63
           KS++LV+G TGY+G+FIVE SAKAG+PTFALVR++SLSDP KS+ IQSFK +GVTI+ GD
Sbjct: 5   KSKILVIGGTGYMGEFIVEGSAKAGNPTFALVREASLSDPVKSKTIQSFKDLGVTILHGD 64

Query: 64  LFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGI 123
           L +HESLVKA+K+VDVVIS +G  Q+ DQ K+ISAIKEAGN+KRF P+EFG DVE    +
Sbjct: 65  LNDHESLVKAIKQVDVVISTIGHKQIFDQTKIISAIKEAGNVKRFLPAEFGIDVERTSAV 124

Query: 124 GQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAA-------------- 183
              K +F  KV+IRRA+EAEGIPYTYV+SN   GF L TL Q  +               
Sbjct: 125 EPAKSLFAGKVQIRRAIEAEGIPYTYVVSNCSAGFYLRTLLQFESGLISHTRDKAIIFGD 184

Query: 184 --APPTDKVVIQGDGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLV 243
              PP DKV I GDGN KV+ NKEED+A+Y IKAVDD   LNK L+I PP N+LS+N++V
Sbjct: 185 KNVPPRDKVTILGDGNAKVVINKEEDVAAYMIKAVDDLRTLNKTLYISPPNNILSMNEMV 244

Query: 244 ALWENKIGKTLDKTYISEAQLLKNIQV 255
            LWE KIGK+L+KT+ISE Q+LK+IQV
Sbjct: 245 TLWEKKIGKSLEKTHISEEQILKSIQV 271

[Close]
BLAST of Cmc01g0019351 vs. TAIR 10
Match: AT4G39230.1 (NmrA-like negative transcriptional regulator family protein )

HSP 1 Score: 323.6 bits (828), Expect = 1.7e-88
Identity = 154/252 (61.11%), Postives = 195/252 (77.38%), Query Frame = 0 

Query: 1   MAAKSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIV 60
           M +KS++L +G TGYIGK+IVEASA++GHPT  LVR+S+L+ P++S  I++FK++GV  +
Sbjct: 1   MTSKSKILFIGGTGYIGKYIVEASARSGHPTLVLVRNSTLTSPSRSSTIENFKNLGVQFL 60

Query: 61  TGDLFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENV 120
            GDL +H SLV ++K+ DVVIS VG + L  Q K+ISAIKEAGN+KRFFPSEFG DV+ V
Sbjct: 61  LGDLDDHTSLVNSIKQADVVISTVGHSLLGHQYKIISAIKEAGNVKRFFPSEFGNDVDRV 120

Query: 121 HGIGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQHGAAAPPTDKVVIQG 180
             +   K  +  K KIRR +EAEGIPYTYV  N+F G+ LPTLAQ GA + P DKV++ G
Sbjct: 121 FTVEPAKSAYATKAKIRRTIEAEGIPYTYVSCNFFAGYFLPTLAQPGATSAPRDKVIVLG 180

Query: 181 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 240
           DGNPK +FNKEEDI +YTI AVDDP  LNKIL+I+PP N  S N LV+LWENKIGKTL++
Sbjct: 181 DGNPKAVFNKEEDIGTYTINAVDDPRTLNKILYIRPPMNTYSFNDLVSLWENKIGKTLER 240

Query: 241 TYISEAQLLKNI 253
            Y+ E QLLK I
Sbjct: 241 IYVPEEQLLKQI 252

[Close]
BLAST of Cmc01g0019351 vs. TAIR 10
Match: AT1G75290.1 (NAD(P)-binding Rossmann-fold superfamily protein )

HSP 1 Score: 315.5 bits (807), Expect = 4.6e-86
Identity = 154/252 (61.11%), Postives = 194/252 (76.98%), Query Frame = 0 

Query: 4   KSRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGD 63
           KS++LV+G TG+IGK I+EAS KAGH T ALVR++SLSDP K + +Q+FK  GVT++ GD
Sbjct: 5   KSKILVIGGTGHIGKLIIEASVKAGHSTLALVREASLSDPNKGKTVQNFKDFGVTLLHGD 64

Query: 64  LFEHESLVKAMKEVDVVISAVGLNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHGI 123
           L +HESLVKA+K+ DVVIS VG  Q+ DQ K+ISAIKEAGN+KRF PSEFG DV+    +
Sbjct: 65  LNDHESLVKAIKQADVVISTVGSMQILDQTKIISAIKEAGNVKRFLPSEFGMDVDKSSAV 124

Query: 124 GQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQ--HGAAAPPTDKVVIQGD 183
              K  F  K++ RR +EAEGIPYTY+++NYF G+ LPTL Q   G  +PP DKV I GD
Sbjct: 125 EPAKSAFGRKLQTRRDIEAEGIPYTYLVTNYFAGYYLPTLVQLEPGLTSPPRDKVKIFGD 184

Query: 184 GNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDKT 243
           GN K + NKEEDIA+YTIKAVDDP  LNK L+I PP N LS+N++V LWE KIGK+++K 
Sbjct: 185 GNVKAVINKEEDIAAYTIKAVDDPRTLNKTLYINPPNNTLSMNEIVTLWEKKIGKSVEKI 244

Query: 244 YISEAQLLKNIQ 254
           Y+SE Q+ K+IQ
Sbjct: 245 YMSEEQIFKSIQ 256

[Close]
BLAST of Cmc01g0019351 vs. TAIR 10
Match: AT1G19540.1 (NmrA-like negative transcriptional regulator family protein )

HSP 1 Score: 278.5 bits (711), Expect = 6.2e-75
Identity = 145/253 (57.31%), Postives = 183/253 (72.33%), Query Frame = 0 

Query: 5   SRVLVVGSTGYIGKFIVEASAKAGHPTFALVRDSSLSDPAKSQIIQSFKSIGVTIVTGDL 64
           S++LV+G+TG IGK +VE SAK+GH TFALVR++SLSDP K+Q+++ FK +GVTI+ G L
Sbjct: 3   SKILVIGATGLIGKVLVEESAKSGHATFALVREASLSDPVKAQLVERFKDLGVTILYGSL 62

Query: 65  FEHESLVKAMKEVDVVISAVG--LNQLSDQDKLISAIKEAGNIKRFFPSEFGYDVENVHG 124
            + ESLVKA+K+VDVVISAVG    ++ +Q  +I AIKE+GN+KRF PSEFG DV+    
Sbjct: 63  SDKESLVKAIKQVDVVISAVGRFQTEILNQTNIIDAIKESGNVKRFLPSEFGNDVDRTVA 122

Query: 125 IGQVKLIFEAKVKIRRAVEAEGIPYTYVLSNYFNGFCLPTLAQ--HGAAAPPTDKVVIQG 184
           I      F  K +IRRA+EA  IPYTYV+S  F G  +P L Q      +PP DKV I  
Sbjct: 123 IEPTLSEFITKAQIRRAIEAAKIPYTYVVSGCFAGLFVPCLGQCHLRLRSPPRDKVSIYD 182

Query: 185 DGNPKVIFNKEEDIASYTIKAVDDPTALNKILHIKPPQNVLSINQLVALWENKIGKTLDK 244
            GN K I N EEDI +YT+KAVDDP  LNKIL+I PP  ++S N +V LWE KIGKTL+K
Sbjct: 183 TGNGKAIVNTEEDIVAYTLKAVDDPRTLNKILYIHPPNYIVSQNDMVGLWEEKIGKTLEK 242

Query: 245 TYISEAQLLKNIQ 254
           TY+SE +LLK IQ
Sbjct: 243 TYVSEEELLKTIQ 255

The following BLAST results are available for this feature:
BLAST of Cmc01g0019351 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008448081.13.2e-13498.81PREDICTED: isoflavone reductase-like protein [Cucumis melo][more]
XP_004148526.13.0e-12492.89phenylcoumaran benzylic ether reductase Pyrc5 [Cucumis sativus] >KAE8645643.1 hy... [more]
XP_038887686.15.7e-12390.12phenylcoumaran benzylic ether reductase Pyrc5-like [Benincasa hispida][more]
XP_022135641.18.3e-11482.68isoflavone reductase-like protein [Momordica charantia][more]
KAG7011717.11.2e-11283.00hypothetical protein SDJN02_26623 [Cucurbita argyrosperma subsp. argyrosperma][more]
BLAST of Cmc01g0019351 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
O813556.0e-9968.38Phenylcoumaran benzylic ether reductase Pyrc5 OS=Pyrus communis OX=23211 GN=PYRC... [more]
B6VRE82.1e-9666.80Phenylcoumaran benzylic ether reductase TP7 OS=Nicotiana tabacum OX=4097 GN=TP7 ... [more]
B2WSN16.2e-9667.46Eugenol synthase 1 OS=Petunia hybrida OX=4102 GN=EGS1 PE=1 SV=1[more]
B2WSN02.4e-9564.57Eugenol synthase 2 OS=Clarkia breweri OX=36903 GN=EGS2 PE=1 SV=1[more]
B9HRL73.1e-9567.47Phenylcoumaran benzylic ether reductase POP1 OS=Populus trichocarpa OX=3694 GN=P... [more]
BLAST of Cmc01g0019351 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BJT11.6e-13498.81isoflavone reductase-like protein OS=Cucumis melo OX=3656 GN=LOC103490365 PE=4 S... [more]
A0A6J1C1B84.0e-11482.68isoflavone reductase-like protein OS=Momordica charantia OX=3673 GN=LOC111007550... [more]
A0A6J1IIK02.4e-11181.82isoflavone reductase-like protein OS=Cucurbita maxima OX=3661 GN=LOC111474287 PE... [more]
Q3KN679.0e-9868.77Isoflavone reductase-like protein 6 OS=Vitis vinifera OX=29760 GN=ifrl6 PE=2 SV=... [more]
A0A6J1C3311.5e-9770.75isoflavone reductase homolog OS=Momordica charantia OX=3673 GN=LOC111008009 PE=4... [more]
BLAST of Cmc01g0019351 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G75280.16.1e-9164.29NmrA-like negative transcriptional regulator family protein [more]
AT1G75300.11.3e-8861.42NmrA-like negative transcriptional regulator family protein [more]
AT4G39230.11.7e-8861.11NmrA-like negative transcriptional regulator family protein [more]
AT1G75290.14.6e-8661.11NAD(P)-binding Rossmann-fold superfamily protein [more]
AT1G19540.16.2e-7557.31NmrA-like negative transcriptional regulator family protein [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D3.40.50.720coord: 6..215
e-value: 3.8E-111
score: 372.9
NoneNo IPR availableGENE3D3.90.25.10coord: 154..263
e-value: 3.8E-111
score: 372.9
NoneNo IPR availablePANTHERPTHR43349PINORESINOL REDUCTASE-RELATEDcoord: 3..256
NoneNo IPR availablePANTHERPTHR43349:SF76ISOFLAVONE REDUCTASE HOMOLOG P3-RELATEDcoord: 3..256
NoneNo IPR availableCDDcd05259PCBER_SDR_acoord: 6..254
e-value: 2.46287E-72
score: 222.178
IPR008030NmrA-like domainPFAMPF05368NmrAcoord: 7..257
e-value: 2.2E-77
score: 259.7
IPR036291NAD(P)-binding domain superfamilySUPERFAMILY51735NAD(P)-binding Rossmann-fold domainscoord: 4..256

Relationships

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

Feature NameUnique NameType
Cmc01g0019351.1Cmc01g0019351.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009807 lignan biosynthetic process
molecular_function GO:0016491 oxidoreductase activity