HG10007535 (gene) Bottle gourd (Hangzhou Gourd) v1

Overview
NameHG10007535
Typegene
OrganismLagenaria siceraria cv. Hangzhou Gourd (Bottle gourd (Hangzhou Gourd) v1)
Descriptionisoleucine N-monooxygenase 2-like
LocationChr10: 6610614 .. 6630064 (-)
RNA-Seq ExpressionHG10007535
SyntenyHG10007535
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAACTTGAAAGCTCCCCCTTATGATGAATGGATGAAGGTCGTGGTGGTGAAGAAAGTTATGGGGGATAACAGGGAGATGAGGGAGGGGCAGGAAGAAAGTGAGGAAGTTAAAGGGCTAGGAAGACCGATTATAAACAGTAGGAGAGGTGGGCGAGGTAGGAGACGGGATGATGTGGGGAATCGTTCTAAGGTTGATCAGGTGGGAGAAAGGGATGAGAATTTGGATGTGGGCGTGGAGATATGGGACCTAACTGATGAGGGATACATGGAGGTGGAGGAGTTGGCAAGTGTGGGGATGGAAGGCACAATTGTTTATGGGAGGACCCAAGAGGTCAAGGGTAAGAAGCGTTATGTGGATGAGATTAGAAGGTTGGCAAGATGGGACGTGGCAAGATCTGGAGGGCCTGGTATGTCAGACATTCAAGCTGGTGTTTTTAGTGGTAGTGGAAGGGGTCTGGGGGAGTTGAAAGATGCCAATCACAAGTTTAAATTAGAAGCGCCACAAAAAGTTGCAGAGAAGAAGAAAACAAAGGAAAAATATAACAAGAAATACCAAGAAGATAAACTGTCATCCCCATCTGAACCAGAGTGCTCTCACTGTTGTTCTCGACCACCACCCCCGTCGCCATCATCATCTTACACCCCTGCATCAAAGGTTCACCCGTCGCATGCACAGAATCCACCAGCTGAGAAAGAAACAAAACGAACCACTGGTTCTTCGTTTCGGACACCCAGGCATGATTTCTTGGATCCCAAGCCTCATTCGAGGGGTTGGTGGGATGACATTAGGAAGCTTGGAGCTGATCGGAGAAGGGCTCTTAATGAAGAAGTTGTGGTAATGCACCCACTGGAGACTGTTGTTCCAATGATGAAGGAAGAAGCTGACAATCTCCTCCGTTACATGTTTAGTCTAACGACGACAACATCGACACTGGTGAAAGTGAGAAGTATAACACAACATTATTCGGGGAATGTGATGAGGAGAATGATGTTCAATAGAAGATACTACGGGAAAGGGAGGGCGGACGAGGGGCCGGCCGCACATGAAGAAGAACATATTGGAGCATTGTTTACAATGCTTCAACATGTTTATGCATTTTGTGTATCAGATTACATGACTTGTTTGAAGGCATTTGGTTTGGATGGCCATGAGAGGACTATGAAGAAGGCATTGAATATTATCCGAATGTTTGAAGAGCCAACTATTGATGAGAGAGTTCAGCAATGGAGAGATGGGAAGAGGAAGGAAGCTGAGGATATGTTGGATATCTTCATTTCACTCGAAGATGGAAATGAGGAGCCATTGTTGTCTGTCAAGGAGATTATAGCACAAATTACTATAAGAATTTGA

Coding sequence (CDS)

ATGAACTTGAAAGCTCCCCCTTATGATGAATGGATGAAGGTCGTGGTGGTGAAGAAAGTTATGGGGGATAACAGGGAGATGAGGGAGGGGCAGGAAGAAAGTGAGGAAGTTAAAGGGCTAGGAAGACCGATTATAAACAGTAGGAGAGGTGGGCGAGGTAGGAGACGGGATGATGTGGGGAATCGTTCTAAGGTTGATCAGGTGGGAGAAAGGGATGAGAATTTGGATGTGGGCGTGGAGATATGGGACCTAACTGATGAGGGATACATGGAGGTGGAGGAGTTGGCAAGTGTGGGGATGGAAGGCACAATTGTTTATGGGAGGACCCAAGAGGTCAAGGGTAAGAAGCGTTATGTGGATGAGATTAGAAGGTTGGCAAGATGGGACGTGGCAAGATCTGGAGGGCCTGGTATGTCAGACATTCAAGCTGGTGTTTTTAGTGGTAGTGGAAGGGGTCTGGGGGAGTTGAAAGATGCCAATCACAAGTTTAAATTAGAAGCGCCACAAAAAGTTGCAGAGAAGAAGAAAACAAAGGAAAAATATAACAAGAAATACCAAGAAGATAAACTGTCATCCCCATCTGAACCAGAGTGCTCTCACTGTTGTTCTCGACCACCACCCCCGTCGCCATCATCATCTTACACCCCTGCATCAAAGGTTCACCCGTCGCATGCACAGAATCCACCAGCTGAGAAAGAAACAAAACGAACCACTGGTTCTTCGTTTCGGACACCCAGGCATGATTTCTTGGATCCCAAGCCTCATTCGAGGGGTTGGTGGGATGACATTAGGAAGCTTGGAGCTGATCGGAGAAGGGCTCTTAATGAAGAAGTTGTGGTAATGCACCCACTGGAGACTGTTGTTCCAATGATGAAGGAAGAAGCTGACAATCTCCTCCGTTACATGTTTAGTCTAACGACGACAACATCGACACTGGTGAAAGTGAGAAGTATAACACAACATTATTCGGGGAATGTGATGAGGAGAATGATGTTCAATAGAAGATACTACGGGAAAGGGAGGGCGGACGAGGGGCCGGCCGCACATGAAGAAGAACATATTGGAGCATTGTTTACAATGCTTCAACATGTTTATGCATTTTGTGTATCAGATTACATGACTTGTTTGAAGGCATTTGGTTTGGATGGCCATGAGAGGACTATGAAGAAGGCATTGAATATTATCCGAATGTTTGAAGAGCCAACTATTGATGAGAGAGTTCAGCAATGGAGAGATGGGAAGAGGAAGGAAGCTGAGGATATGTTGGATATCTTCATTTCACTCGAAGATGGAAATGAGGAGCCATTGTTGTCTGTCAAGGAGATTATAGCACAAATTACTATAAGAATTTGA

Protein sequence

MNLKAPPYDEWMKVVVVKKVMGDNREMREGQEESEEVKGLGRPIINSRRGGRGRRRDDVGNRSKVDQVGERDENLDVGVEIWDLTDEGYMEVEELASVGMEGTIVYGRTQEVKGKKRYVDEIRRLARWDVARSGGPGMSDIQAGVFSGSGRGLGELKDANHKFKLEAPQKVAEKKKTKEKYNKKYQEDKLSSPSEPECSHCCSRPPPPSPSSSYTPASKVHPSHAQNPPAEKETKRTTGSSFRTPRHDFLDPKPHSRGWWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSITQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQITIRI
Homology
[Close]
BLAST of HG10007535 vs. NCBI nr
Match: XP_004139121.1 (tyrosine N-monooxygenase [Cucumis sativus] >KGN66827.2 hypothetical protein Csa_007093 [Cucumis sativus])

HSP 1 Score: 274.2 bits (700), Expect = 1.9e-69
Identity = 140/189 (74.07%), Postives = 154/189 (81.48%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++      +++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 139 WGNQWKKM----RRILTSEILSPARHRSMLSKRTEEADNLLRYVFSLTKTTPTSVNVRSI 198

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRYYGKGR D GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 199 TQHYSGNVMRRMMFNRRYYGKGRPDGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 258

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKRKE EDMLDIFISL+DGN EPLLS
Sbjct: 259 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRKETEDMLDIFISLKDGNGEPLLS 318

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 319 VKEIKAQIT 323

[Close]
BLAST of HG10007535 vs. NCBI nr
Match: KAA0056052.1 (tyrosine N-monooxygenase [Cucumis melo var. makuwa])

HSP 1 Score: 266.9 bits (681), Expect = 3.1e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 136 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 195

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 196 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 255

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 256 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 315

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 316 VKEIKAQIT 320

[Close]
BLAST of HG10007535 vs. NCBI nr
Match: TYK27737.1 (tyrosine N-monooxygenase [Cucumis melo var. makuwa])

HSP 1 Score: 266.9 bits (681), Expect = 3.1e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 136 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 195

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 196 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 255

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 256 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 315

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 316 VKEIKAQIT 320

[Close]
BLAST of HG10007535 vs. NCBI nr
Match: XP_008450479.1 (PREDICTED: tyrosine N-monooxygenase [Cucumis melo])

HSP 1 Score: 266.9 bits (681), Expect = 3.1e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 116 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 175

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 176 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 235

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 236 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 295

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 296 VKEIKAQIT 300

[Close]
BLAST of HG10007535 vs. NCBI nr
Match: KAG2675236.1 (hypothetical protein I3760_13G174900 [Carya illinoinensis])

HSP 1 Score: 207.6 bits (527), Expect = 2.2e-49
Identity = 102/198 (51.52%), Postives = 143/198 (72.22%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSL---------TTTT 318
           W D  +K+    RR L  E++    L+ ++    EEADNL+R ++++          +T+
Sbjct: 100 WGDQWKKM----RRVLTSEILSPARLKWLLAKRNEEADNLVRVIYNMCKGSAISDTCSTS 159

Query: 319 STLVKVRSITQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCV 378
            T+V VR+++QH++GNVMRRM+FN+RYYGKGR D GP   E+EHI ALF ML +VYAFCV
Sbjct: 160 GTVVDVRTVSQHFTGNVMRRMIFNKRYYGKGREDGGPCFEEQEHIQALFAMLLYVYAFCV 219

Query: 379 SDYMTCLKAFGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLE 438
           SDYM+ LK F LDGHE+ ++ AL +I+ +E+P +DERVQ W++GKR E ED+LDIFIS++
Sbjct: 220 SDYMSILKPFDLDGHEKVVRNALKVIKKYEDPIVDERVQMWKEGKRTEPEDLLDIFISIK 279

Query: 439 DGNEEPLLSVKEIIAQIT 448
           D +  PLLS++EI AQIT
Sbjct: 280 DDDGNPLLSIEEIKAQIT 293

[Close]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match: A0A068Q605 (Tryptophan N-monooxygenase CYP79A68 OS=Prunus mume OX=102107 GN=CYP79A68 PE=1 SV=1)

HSP 1 Score: 187.6 bits (475), Expect = 3.1e-46
Identity = 91/191 (47.64%), Postives = 131/191 (68.59%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTT--TSTLVKVR 318
           W D  RK+    RR L  E      +  ++    EEADNL++++++  +      +V VR
Sbjct: 137 WGDQWRKM----RRVLVAEAFNPSRVHWLLGKRNEEADNLVKFLYNQCSANQNGAVVNVR 196

Query: 319 SITQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCL 378
              Q YSG++MR+M+FNR Y+GKGR D GP   EEEH+ AL T+L + YAFCVSDY+  L
Sbjct: 197 IAAQFYSGSIMRKMIFNRTYFGKGREDGGPGVEEEEHVSALLTLLTYAYAFCVSDYLPWL 256

Query: 379 KAFGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPL 438
           + F +DGHE+ ++KA+NI++  +EP ++ER+Q+WRDGKR E +D+LD+FISL+D N +PL
Sbjct: 257 RVFDIDGHEKKVRKAMNIVKKHQEPIVNERLQEWRDGKRNEPDDLLDVFISLKDANGQPL 316

Query: 439 LSVKEIIAQIT 448
           LS +EI AQ T
Sbjct: 317 LSDEEIKAQTT 323

[Close]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match: Q43135 (Tyrosine N-monooxygenase OS=Sorghum bicolor OX=4558 GN=CYP79A1 PE=1 SV=3)

HSP 1 Score: 156.0 bits (393), Expect = 1.0e-36
Identity = 78/178 (43.82%), Postives = 115/178 (64.61%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTST---LVKVRSITQHYSGNVM 330
           RR L  E++       +     +EADNL RY+++L T  +T    V VR + +HY GNV+
Sbjct: 167 RRVLTSEIICPSRHAWLHDKRTDEADNLTRYVYNLATKAATGDVAVDVRHVARHYCGNVI 226

Query: 331 RRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERT 390
           RR+MFNRRY+G+ +AD GP   E  H+ A+FT L  +YAFCVSDY+  L+   LDGHE+ 
Sbjct: 227 RRLMFNRRYFGEPQADGGPGPMEVLHMDAVFTSLGLLYAFCVSDYLPWLRGLDLDGHEKI 286

Query: 391 MKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQ 446
           +K+A   +    +  ID+R +QW+ G+R+E ED LD+ I+L+D    PLL+++E+ AQ
Sbjct: 287 VKEANVAVNRLHDTVIDDRWRQWKSGERQEMEDFLDVLITLKDAQGNPLLTIEEVKAQ 344

[Close]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match: Q9M7B8 (Valine N-monooxygenase 1 OS=Manihot esculenta OX=3983 GN=CYP79D1 PE=1 SV=1)

HSP 1 Score: 152.9 bits (385), Expect = 8.6e-36
Identity = 77/176 (43.75%), Postives = 114/176 (64.77%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSITQHYSGNVMRRM 330
           R+ L  E++     + +     EEADNL+ Y+ +        V +R+ T+HY GNV+R+M
Sbjct: 158 RKILTSEIISPARHKWLHDKRAEEADNLVFYIHNQFKANKN-VNLRTATRHYGGNVIRKM 217

Query: 331 MFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKK 390
           +F++RY+GKG  D GP   E EHI A+FT L+++Y FC+SD++  L    LDG E+ +  
Sbjct: 218 VFSKRYFGKGMPDGGPGPEEIEHIDAVFTALKYLYGFCISDFLPFLLGLDLDGQEKFVLD 277

Query: 391 ALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQI 447
           A   IR ++ P IDER+QQW+ G+RKE ED+LD+FI+L+D +  PLL+  EI  QI
Sbjct: 278 ANKTIRDYQNPLIDERIQQWKSGERKEMEDLLDVFITLKDSDGNPLLTPDEIKNQI 332

[Close]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match: Q6J541 (Isoleucine N-monooxygenase 1 OS=Lotus japonicus OX=34305 GN=CYP79D3 PE=1 SV=1)

HSP 1 Score: 151.8 bits (382), Expect = 1.9e-35
Identity = 73/158 (46.20%), Postives = 105/158 (66.46%), Query Frame = 0 

Query: 293 EEADNLLRYMFSL----TTTTSTLVKVRSITQHYSGNVMRRMMFNRRYYGKGRADEGPAA 352
           EEADNL+ Y+++           LV +R   QHY GNV R+++FN RY+GK   D GP  
Sbjct: 166 EEADNLMFYIYNKCCKDVNDGPGLVNIRIAAQHYGGNVFRKLIFNSRYFGKVMEDGGPGF 225

Query: 353 HEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKKALNIIRMFEEPTIDERVQ 412
            E EHI A FT+L++VYAF +SD++  L+   LDGH   + KA+ I+R + +P ID+R++
Sbjct: 226 EEVEHINATFTILKYVYAFSISDFVPFLRRLDLDGHRSKIMKAMRIMRKYHDPIIDDRIK 285

Query: 413 QWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQI 447
           QW DG +   ED+LD+ I L+D N +PLL++KE+ AQI
Sbjct: 286 QWNDGLKTVEEDLLDVLIKLKDANNKPLLTLKELKAQI 323

[Close]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match: Q9M7B7 (Valine N-monooxygenase 2 OS=Manihot esculenta OX=3983 GN=CYP79D2 PE=1 SV=1)

HSP 1 Score: 150.2 bits (378), Expect = 5.5e-35
Identity = 76/176 (43.18%), Postives = 112/176 (63.64%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSITQHYSGNVMRRM 330
           R+ L  E++     + +     EEAD L+ Y+ +   +    V VR   +HY GNV+R+M
Sbjct: 157 RKVLTSEIISPARHKWLHDKRAEEADQLVFYINNQYKSNKN-VNVRIAARHYGGNVIRKM 216

Query: 331 MFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKK 390
           MF++RY+GKG  D GP   E  H+ A+FT L+++Y FC+SDY+  L+   LDG E+ +  
Sbjct: 217 MFSKRYFGKGMPDGGPGPEEIMHVDAIFTALKYLYGFCISDYLPFLEGLDLDGQEKIVLN 276

Query: 391 ALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQI 447
           A   IR  + P I+ER+QQWR G+RKE ED+LD+FI+L+D + +PLL+  EI  QI
Sbjct: 277 ANKTIRDLQNPLIEERIQQWRSGERKEMEDLLDVFITLQDSDGKPLLNPDEIKNQI 331

[Close]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match: A0A0A0LXQ7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G617390 PE=4 SV=1)

HSP 1 Score: 274.6 bits (701), Expect = 7.2e-70
Identity = 140/190 (73.68%), Postives = 155/190 (81.58%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++      +++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 139 WGNQWKKM----RRILTSEILSPARHRSMLSKRTEEADNLLRYVFSLTKTTPTSVNVRSI 198

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRYYGKGR D GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 199 TQHYSGNVMRRMMFNRRYYGKGRPDGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 258

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKRKE EDMLDIFISL+DGN EPLLS
Sbjct: 259 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRKETEDMLDIFISLKDGNGEPLLS 318

Query: 439 VKEIIAQITI 449
           VKEI AQIT+
Sbjct: 319 VKEIKAQITL 324

[Close]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match: A0A5D3DVB8 (Tyrosine N-monooxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold225G00870 PE=3 SV=1)

HSP 1 Score: 266.9 bits (681), Expect = 1.5e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 136 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 195

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 196 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 255

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 256 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 315

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 316 VKEIKAQIT 320

[Close]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match: A0A5A7UJK2 (Tyrosine N-monooxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold319G002190 PE=3 SV=1)

HSP 1 Score: 266.9 bits (681), Expect = 1.5e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 136 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 195

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 196 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 255

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 256 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 315

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 316 VKEIKAQIT 320

[Close]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match: A0A1S3BPC7 (tyrosine N-monooxygenase OS=Cucumis melo OX=3656 GN=LOC103492071 PE=3 SV=1)

HSP 1 Score: 266.9 bits (681), Expect = 1.5e-67
Identity = 138/189 (73.02%), Postives = 153/189 (80.95%), Query Frame = 0 

Query: 259 WWDDIRKLGADRRRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTSTLVKVRSI 318
           W +  +K+    RR L  E++       ++    EEADNLLRY+FSLT TT T V VRSI
Sbjct: 116 WGNQWKKM----RRILTSEILSPARHRWMLSKRTEEADNLLRYVFSLTKTTPTSVSVRSI 175

Query: 319 TQHYSGNVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKA 378
           TQHYSGNVMRRMMFNRRY+GKGRAD GPA  EEEHIGALFTMLQHVYAFCVSDYM+CLKA
Sbjct: 176 TQHYSGNVMRRMMFNRRYFGKGRADGGPATEEEEHIGALFTMLQHVYAFCVSDYMSCLKA 235

Query: 379 FGLDGHERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLS 438
           F LDGHER +KKALN+IR +EEP IDERVQQWRDGKR EAEDMLDIFISL+D + EPLLS
Sbjct: 236 FDLDGHERIVKKALNVIRKYEEPIIDERVQQWRDGKRIEAEDMLDIFISLKDESGEPLLS 295

Query: 439 VKEIIAQIT 448
           VKEI AQIT
Sbjct: 296 VKEIKAQIT 300

[Close]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match: A0A6J1D470 (isoleucine N-monooxygenase 2-like OS=Momordica charantia OX=3673 GN=LOC111017448 PE=3 SV=1)

HSP 1 Score: 206.8 bits (525), Expect = 1.8e-49
Identity = 102/180 (56.67%), Postives = 134/180 (74.44%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTST-----LVKVRSITQHYSGN 330
           RR L  ++     L+ ++    +EAD LLRY+FSLTTT ++     +V VRS+TQHYSGN
Sbjct: 138 RRILASQIFSSSTLQRMIGHRTDEADTLLRYIFSLTTTNTSNKGNAVVNVRSVTQHYSGN 197

Query: 331 VMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHE 390
           ++RRM+FNRRYYGKGR D GP   EEEH  AL T+L+HV AF + D+M CLK F LDGHE
Sbjct: 198 IIRRMLFNRRYYGKGREDGGPTTEEEEHNQALLTILRHVNAFSILDFMPCLKPFDLDGHE 257

Query: 391 RTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQ 446
           +TMKKAL ++R ++EP I++RV QW+DGKR+  ED+LDI ISL+D N+  LLS++EI AQ
Sbjct: 258 KTMKKALEVLRKYDEPIINKRVHQWKDGKREGVEDILDILISLQDENKRMLLSIEEIKAQ 317

[Close]
BLAST of HG10007535 vs. TAIR 10
Match: AT5G35917.1 (cytochrome P450, family 79, subfamily A, polypeptide 3 pseudogene )

HSP 1 Score: 146.4 bits (368), Expect = 5.7e-35
Identity = 75/184 (40.76%), Postives = 114/184 (61.96%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTTTTS------TLVKVRSITQHYSG 330
           RR +   V      + ++    EEADNL+RY+ +             ++ +R + + YSG
Sbjct: 142 RRVVASHVTSKKSFKLMLEKRTEEADNLVRYINNRCVKNRGNGNGLAVIDLRFVVRQYSG 201

Query: 331 NVMRRMMFNRRYYGKGRADE-GPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDG 390
           NV R+MMF  R++GKG  DE GP + E EH+ +LFT+L H+YAF +SDY+  L+   L+G
Sbjct: 202 NVARKMMFGIRHFGKGSEDESGPGSEEIEHVESLFTVLTHLYAFALSDYVPWLRFLDLEG 261

Query: 391 HERTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEII 448
           HE+ +  A+  +  + +P +DER+ QWR+GK KE +D LD+FI  +D N +P LS +EI 
Sbjct: 262 HEKVVADAMRNVSKYNDPFVDERLMQWRNGKMKEPQDFLDMFIMAKDTNGKPTLSEEEIK 321

[Close]
BLAST of HG10007535 vs. TAIR 10
Match: AT5G05260.1 (cytochrome p450 79a2 )

HSP 1 Score: 142.1 bits (357), Expect = 1.1e-33
Identity = 73/182 (40.11%), Postives = 112/182 (61.54%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSLTT----TTSTLVKVRSITQHYSGNV 330
           RR +   V      + ++    EEADNL+RY+ + +         ++ +R   + YSGNV
Sbjct: 134 RRVVASHVTSKKSFQMMLQKRTEEADNLVRYINNRSVKNRGNAFVVIDLRLAVRQYSGNV 193

Query: 331 MRRMMFNRRYYGKGRAD-EGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHE 390
            R+MMF  R++GKG  D  GP   E EH+ +LFT+L H+YAF +SDY+  L+   L+GHE
Sbjct: 194 ARKMMFGIRHFGKGSEDGSGPGLEEIEHVESLFTVLTHLYAFALSDYVPWLRFLDLEGHE 253

Query: 391 RTMKKALNIIRMFEEPTIDERVQQWRDGKRKEAEDMLDIFISLEDGNEEPLLSVKEIIAQ 448
           + +  A+  +  + +P +DER+ QWR+GK KE +D LD+FI  +D + +P LS +EI AQ
Sbjct: 254 KVVSNAMRNVSKYNDPFVDERLMQWRNGKMKEPQDFLDMFIIAKDTDGKPTLSDEEIKAQ 313

[Close]
BLAST of HG10007535 vs. TAIR 10
Match: AT2G22330.1 (cytochrome P450, family 79, subfamily B, polypeptide 3 )

HSP 1 Score: 129.0 bits (323), Expect = 9.4e-30
Identity = 63/151 (41.72%), Postives = 98/151 (64.90%), Query Frame = 0 

Query: 293 EEADNLLRYMFSLTTTTSTLVKVRSITQHYSGNVMRRMMFNRRYYG-KGRADEGPAAHEE 352
           EE D+L  +++++    S  V +R +T+HY GN ++R+MF  R +  K  AD GP   + 
Sbjct: 179 EETDHLTAWLYNM-VKNSEPVDLRFVTRHYCGNAIKRLMFGTRTFSEKTEADGGPTLEDI 238

Query: 353 EHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKKALNIIRMFEEPTIDERVQQWR 412
           EH+ A+F  L   +AFC+SDY+  L    L+GHE+ M+++  I+  + +P IDER++ WR
Sbjct: 239 EHMDAMFEGLGFTFAFCISDYLPMLTGLDLNGHEKIMRESSAIMDKYHDPIIDERIKMWR 298

Query: 413 DGKRKEAEDMLDIFISLEDGNEEPLLSVKEI 443
           +GKR + ED LDIFIS++D   +PLL+  EI
Sbjct: 299 EGKRTQIEDFLDIFISIKDEAGQPLLTADEI 328

[Close]
BLAST of HG10007535 vs. TAIR 10
Match: AT4G39950.1 (cytochrome P450, family 79, subfamily B, polypeptide 2 )

HSP 1 Score: 127.5 bits (319), Expect = 2.7e-29
Identity = 61/151 (40.40%), Postives = 97/151 (64.24%), Query Frame = 0 

Query: 293 EEADNLLRYMFSLTTTTSTLVKVRSITQHYSGNVMRRMMFNRRYYGKGRA-DEGPAAHEE 352
           EE D+L  +++++   + + V  R +T+HY GN ++++MF  R + K  A D GP   + 
Sbjct: 177 EENDHLTAWVYNMVKNSGS-VDFRFMTRHYCGNAIKKLMFGTRTFSKNTAPDGGPTVEDV 236

Query: 353 EHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGHERTMKKALNIIRMFEEPTIDERVQQWR 412
           EH+ A+F  L   +AFC+SDY+  L    L+GHE+ M+++  I+  + +P IDER++ WR
Sbjct: 237 EHMEAMFEALGFTFAFCISDYLPMLTGLDLNGHEKIMRESSAIMDKYHDPIIDERIKMWR 296

Query: 413 DGKRKEAEDMLDIFISLEDGNEEPLLSVKEI 443
           +GKR + ED LDIFIS++D    PLL+  EI
Sbjct: 297 EGKRTQIEDFLDIFISIKDEQGNPLLTADEI 326

[Close]
BLAST of HG10007535 vs. TAIR 10
Match: AT1G79370.1 (cytochrome P450, family 79, subfamily C, polypeptide 1 )

HSP 1 Score: 93.2 bits (230), Expect = 5.7e-19
Identity = 57/189 (30.16%), Postives = 101/189 (53.44%), Query Frame = 0 

Query: 271 RRALNEEVVVMHPLETVVPMMKEEADNLLRYMFSL------TTTTSTLVKVRSITQHYSG 330
           ++ ++ E++    L  ++ +   E+DNLL Y+ +L       T    +V VR I   ++ 
Sbjct: 139 KKVMSSELMSTKALNLLLKVRNLESDNLLAYVHNLYNKDESKTKHGAVVNVRDIVCTHTH 198

Query: 331 NVMRRMMFNRRYYGKGRADEGPAAHEEEHIGALFTMLQHVYAFCVSDYMTCLKAFGLDGH 390
           NV  R++F RR++ +   D      E+EH  A+F  L   ++F V+DY   L+ + L G 
Sbjct: 199 NVKMRLLFGRRHFKETTMDGSLGLMEKEHFDAIFAALDCFFSFYVADYYPFLRGWNLQGE 258

Query: 391 ERTMKKALNIIRMFEEPTIDERVQQWR----DGKRKEA-------EDMLDIFISLEDGNE 443
           E  +++A+++I  + +  IDE+++ WR    D  R E        +D LDI  +L+D N 
Sbjct: 259 EAELREAVDVIARYNKMIIDEKIELWRGQNKDYNRAETKNDVPMIKDWLDILFTLKDENG 318

The following BLAST results are available for this feature:
BLAST of HG10007535 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_004139121.11.9e-6974.07tyrosine N-monooxygenase [Cucumis sativus] >KGN66827.2 hypothetical protein Csa_... [more]
KAA0056052.13.1e-6773.02tyrosine N-monooxygenase [Cucumis melo var. makuwa][more]
TYK27737.13.1e-6773.02tyrosine N-monooxygenase [Cucumis melo var. makuwa][more]
XP_008450479.13.1e-6773.02PREDICTED: tyrosine N-monooxygenase [Cucumis melo][more]
KAG2675236.12.2e-4951.52hypothetical protein I3760_13G174900 [Carya illinoinensis][more]
BLAST of HG10007535 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
A0A068Q6053.1e-4647.64Tryptophan N-monooxygenase CYP79A68 OS=Prunus mume OX=102107 GN=CYP79A68 PE=1 SV... [more]
Q431351.0e-3643.82Tyrosine N-monooxygenase OS=Sorghum bicolor OX=4558 GN=CYP79A1 PE=1 SV=3[more]
Q9M7B88.6e-3643.75Valine N-monooxygenase 1 OS=Manihot esculenta OX=3983 GN=CYP79D1 PE=1 SV=1[more]
Q6J5411.9e-3546.20Isoleucine N-monooxygenase 1 OS=Lotus japonicus OX=34305 GN=CYP79D3 PE=1 SV=1[more]
Q9M7B75.5e-3543.18Valine N-monooxygenase 2 OS=Manihot esculenta OX=3983 GN=CYP79D2 PE=1 SV=1[more]
BLAST of HG10007535 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0LXQ77.2e-7073.68Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_1G617390 PE=4 SV=1[more]
A0A5D3DVB81.5e-6773.02Tyrosine N-monooxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffol... [more]
A0A5A7UJK21.5e-6773.02Tyrosine N-monooxygenase OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffol... [more]
A0A1S3BPC71.5e-6773.02tyrosine N-monooxygenase OS=Cucumis melo OX=3656 GN=LOC103492071 PE=3 SV=1[more]
A0A6J1D4701.8e-4956.67isoleucine N-monooxygenase 2-like OS=Momordica charantia OX=3673 GN=LOC111017448... [more]
BLAST of HG10007535 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G35917.15.7e-3540.76cytochrome P450, family 79, subfamily A, polypeptide 3 pseudogene [more]
AT5G05260.11.1e-3340.11cytochrome p450 79a2 [more]
AT2G22330.19.4e-3041.72cytochrome P450, family 79, subfamily B, polypeptide 3 [more]
AT4G39950.12.7e-2940.40cytochrome P450, family 79, subfamily B, polypeptide 2 [more]
AT1G79370.15.7e-1930.16cytochrome P450, family 79, subfamily C, polypeptide 1 [more]
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001128Cytochrome P450PFAMPF00067p450coord: 271..447
e-value: 2.1E-7
score: 30.0
IPR036396Cytochrome P450 superfamilyGENE3D1.10.630.10Cytochrome P450coord: 239..449
e-value: 3.9E-12
score: 47.5
IPR036396Cytochrome P450 superfamilySUPERFAMILY48264Cytochrome P450coord: 270..447
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 159..194
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 226..254
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 50..70
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 159..254
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 26..70
NoneNo IPR availablePANTHERPTHR24298FLAVONOID 3'-MONOOXYGENASE-RELATEDcoord: 270..447
NoneNo IPR availablePANTHERPTHR24298:SF675PHENYLALANINE N-MONOOXYGENASEcoord: 270..447

Relationships

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

Feature NameUnique NameType
HG10007535.1HG10007535.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0020037 heme binding
molecular_function GO:0005506 iron ion binding
molecular_function GO:0004497 monooxygenase activity
molecular_function GO:0016705 oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen