![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
MC02g_new0002 (gene) Bitter gourd (Dali-11) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAAATCAGAAGAGAAAAAACGGGGAGATATAGATGGGTGGGTTGATGTTTACCGTGCTGCTATGCCTCTCGGCTGCAGCAATGTCAACGGTCCGGGGTGAGGACCCTTATTTCTTCTTCACGTGGAATGTCACCTATGGCACCATCACTCCCTTGGGCGTTACCCAACAAGGCATTCTCATTAACGGCCAATTCCCCGGACCCAATATCAACTCCACATCCAACAATAACATAGTCATTAATGTCTTCAACAACCTCGACGAACCCTTCCTTCTACATTGGTACAGTAATTATCTTTATATTTACATATGCACGCATATATAACTCTTTCTTCTTCATTCAATGGCTCAGTACAAAAAAATAAAATCAAATGGAATTGGACTTGCAGGAGCGGTATTCAACACCGCAAAAATTCGTGGCAAGATGGACTACTTGGAACCAATTGCCCAATCCCACCGGGGACAAACTACACCTACCATTTCCAAGTTAAGGACCAAATTGGAAGCTTCTTTTACTATCCATCAACTGCCATGCACAGGGCAGCGGGAGGCTTTGGAGGCCTTCGTGTGAATAGCCGTTTACTCATTCCTGTCCCTTATGCTGACCCTGAAGATGATTACACTGTCCTTGCTGGTGACTGGTACACCAAGAGCCACTCCTCTCTTAAGAATTTCTTGGATAGCGGACGCTCCCTCGCTAGGCCTGACGGTGTCCTCATTAATGGGAAGAATGCAAAGGGTGATGGAACCGATGAGCCGCTCTTTACCATGAAGCCTGAGAAGACTTACAAGTACCGAGTTTGCAACATTGGACTGAAGACATCTCTTAACATTAGATTCCAAGGCCACACCATGAAGTTGGTAGAGATGGAGGGCTCTCATGTCGTCCAGAACGATTACCAATCACTTGACATCCATGTGGGACAATGCTTTTCGGTGCTAGTCACAGCCAACCAAGAGCCCAAGGACTATTACTTGATTGCATCCACTCGATTTACTAAGAATGTTCTTGTCGGCAAAGGCATCATTCGATATACCAATGGCAAAGGCCCCGCCTCGCCTGAAATCCCCGAGGCACCTACGGGTTGGGCTTGGTCGCTCAATCAATTCCGTACCTTCCGTTGGAACCTTACCGCTAGTGCTGCTAGGCCTAATCCCCAAGGCTCGTACCACTACGGTTCCATCAATATTACCCGCACGATCAAGATAATCAATTCAGCCACTAAGGTGGATGGTAAGCTGCGATATGCCATCAATGGTGTCTCTCATATTGACCCTGAAACTCCATTGAAGCTCGCAGAGTACTTTGGAATCGTTGACAAGGTCTTCAAGTACGATACCATTTCTGACGACGGACGAGCAGAAGGTGCAAACACCGTGACTGTTGCTCCTAATGTTGTTAATGCAACTTTCCGAAACTTCGTAGAGATCGTATTTGAGAACCATGAGAAAAGCCTTCAATCGTGGCATTTGAATGGCTACTCCTTCTTCGCTGTTGCGTAAGTATCATCAATTAGAAATAATCAATAATGTTTATATATGACTAATTTACTCTTTATCAACATTACACAGCATTGAACCTGGGAAATGGGCTCCAGAAAAACGAAAGAACTACAATCTTTTGGACGCTGTGAGCAGGCATACAATCCAAGTTTTTCCCAAGTCGTGGGCAGCCGTTCTTCTTACATTAGATAATGCTGGAATGTGGAACTTGAGGTCTGAGTTGACAGAAAATCGTTATTTGGGACAACAACTCTACTTCAGCGTTCTTTCTCCAGCTCGCTCACTCAGAGATGAATACAACATTCCAGACAACACTTTACTATGTGGTTTGGTTAAAGACATGGCATTGCCCAAGCCATATACTATTTGAGGCAATTCATCGCCTCTTCTTGCCCACTCCAATTGAAAGGCTGAGATACTCATAAGCTAATATGGAGTGGTTGATTTTTCATGTATAATCATTGCAAGTCCCAAAAATAAAAAATAAAAGAATATCTTGTTATATTTATTGTTGTAGTAGTATACGAGAGTTTATTTATTTATTAATTCTTATATAAAGAATTTTTAAAACACGATTTATTTTCTAACTAAATTTTCAAGTCTGAATATGTTTAGTTAATATCAATTTAAAAATTATACCACTCCTTAAAATGGTATATTAATTACAAGAATTTTTTTTTGTTGCTTTTTTTAGGAAGAAGAATAAAAGACAAACTCAACCATCTCACAATTAATTACAAATGATGTCATTACAAATGAGTTTTTTTAGTACAACATGTGGGGTTGTGAATCCAACTCACTATGCTGGCTTTGGCACTATTACAAGTCAATTAAGAACAAGTTTCATTTATTTATAATCATATTCCATAGTCAAGTGAATTTACATATACTTTAATCTAATAAAAATAATTTATAATCTATAATCTATTAAAATGCTACAATCTCATTAAAAATATTTTTTTTATCATTATGTCCCTTTATCAAATTTCAAATTTACTAAAACAGGTATGTTGACTGATGAATTTTGACGAATCACAAATTGCCACATAATTATAATGACAAAATTATATGTCATTAAATTGATGTCAATTAAATAATGTCACATATTATTTTTGGCATTTGAATTGGACCAATCAACTACCAGACGTGTTGCTTCACTCAGCCCGTTGTAGGTCTCTATCTGAATACACCTTGGCAAACTGTGGTGGGGGCATCTCCTTAACAATTCCTTGAACCTTTCCCACGATTCACCCACAGATTCACCGTGCCTCTGCTGAAAATTATTAATGTCCCCTTGATACTTGGCATTCTTGCTTGGGGGAAAGTATTTCCTTAAAAACTTCTCAGCGAGATCATTCCAAGATGTAATAATGGACTCAGCTGGCATAGAGTTCAACCAGTCTCTTGCCTTGTCCCTTAGCGAGTATGAAAACAGTTTCAGACGCAATGCTTCCTTGGACACTCCTTGCATTTTGAATGAGTCACTTACTTCCAGAAAATACCTCAAGTGCAGATGAGGGTCCTCAGATGGATTTCCAAAGAATTGCCCCACAGATTGGAGCATCTAGAACATAAACGATTTTAATTCAAACCTCTCAGCTTTTATCTCTGGACTTGCTATAACTCGATGAAACCCATGAAGTGCTGGTGCGGCATAGGCCGTGATGGCCTTTTCTCCATCATCTGCCAACAGAATGGCGTTAAAAGGAGGAGCAGTTGCTGGTGCAACCATTTCTCCCTCGTTAATTCCTTTAACCACTGGATCGGGGAGCCTTGGTAATTGATCCATTGGGTTAGCTTTTACTTGCTGTCTCTCTTATTCTCCTATGAAATGTACGTTCAATCTCGTTGTCAAGTAGATACTCTAGCCTTTGCAGATCATGCATTCACCTACTGAACCCACCACACAGTGATTAAAAGAAATCCTTATAGCACAGACTTTCTCGAGCAAATATATAAAGTGTACAGTTTAAACAATTCCCCGACAACGATGCCAAAAACTTATTGGATGAAAATATATTCCTAAATGTGCAAGTGTACACTCTCGTTATAGCAAGTAATAAAAAGTTCGAATCCACAGGGAATGTTCACTACACACTTTAACAATACCTCAAGAAAGCTAAAACATAAATGCAAACAAATTTTGGGCAACGCAAGTAAAAAGATTTTTGTATAAACAAAAGAACTATTCTACACAATGACTATTGTAAATCCACACCAAGATTGAGTTCAATTAGCCTCTAACGAAATGGAAATCAGTGAATATGGTTAACTAACTTTTTTTTAAAAGGGTGAGGGGGAAGGTTGAATGTGACTTTTTCTTGGTTGCTTAAATAATGTTGTAACATTAACAATGTGAGTACAGGGCAAACAGACATGGAGCTTTTCCAGGTTTCCACGATTTTCTGCTGTTAGGGTTTATTGACAAACTTACACAACATTTAAAAACAATTTATAGCCATGCTAAGTGAGCCCTATTCCTAAGCAATCACTCTCTAACACAAGCAGAATCCAGCACGAGTTGAAGGTTATCACTCCTCATTACACTTTCCCAAGAGTTAACAAAGAGATATTTCAACAATGGTGATCAAGCATGTCGAAATAAAGTTAAGCATAACAACAACTCAATACCCATTCATCATTAACACCAACAACACAGTATATAGCTTAAGAAAAGAGTCACAACTTTTCCCCCTTACAAATAAGCTTAGCTATGCATAGTCATGGGGAAAAATCAAAAAAAGAAAACAATGAAGTGATACAAGGAGAAAATGGACGCAAGAGTGAAACAGAGGAGCTAAAGGTTCAGCTTCTTGTGGGTCTCTCTCTCTTTCCTCTACTTCAGCAACAGCTTTGGAACTCTACCTTCTTCTTGCCTTTCTCAAACTGACTTATTGGGAGGATTTCTTAAAGTGAGGGATGATTGATGTAAAAAGTGTGTTTGGAGGCTTGCTTTAATGTTGCTTTTATACCCTTTTATTTTTAGGGCAACAAACAACATTTGTGGGCCCCTAACTCTCACTTCAAGGTGATTCTTCATTTACTGCGGTAATTCCCCTTTTTATAGCTCTGTCACTGTCACTGTCAGACTGTTGCTTTTCTATACTTTTTCTGGTTGCGATGTTGTAGCATAGTTGATGCTGCAACAAAGAACCCAAAATTAGAACTTGTAACAAAAATCGCAAAGCTAAGAAGAATGACAAATATTGAATCATTTCAGGCAACACTTAGTTTATAATGGGTGTTCTTGTGGCCATCCTTAGCTAAATTATATTAAATTTCTTGTCTAAATAACTCTCTTTTGGAGAGTTATCACTAAACACGTTGAGATCGACATTTACTTTGTCTGTGATCTCGTCCTTCATAAACAGCTCCGAGTTAGTCATCTTCCAGCTTCAGCACAACTTGTTGAAGTCTTCACCAAGCCTTTGTCAACTGCTAGATTTCTTCCTCTCAAACTCAAACTCAATGTTCATTCTACATTGACCATTGGTTTGTTGAGGTGTTAAGGCTGCTCATTGAAGTTTAGTTGTGTAAATTCTTTTTTTTTTTTAATTTCTGGTATTCTGGTATAGCAGATGTGTAACTCATGTGCATACAGTAGGTTATAAATACCTTTGTTTTGTTTCATAAATATATGAGGAAACCATAGTCAATTTGTTCATTCTTGTACAATTTTGAAACCCGACATCTTCAGATGCCTGAAATTTCATATGTTCGGAATTATAGATGTCTAGATGACCATGTTTGTTTCGTAGGAAAATATACAAGGATGTCCGAAGATATTTGGATAGACACGTTTGTTTTGTATGGATTTATTCATGGGAATGTTCTAAATTTATATAATGTTTCAAAAACGCCCTTACGAATATTTATATAATTTATACATTAATTTAATATAATTTGCATTTATATAATATATTTTCTTAAAATTAATTTAATATTTTAAGTTTTTTTATATTAATTACTTATATGTATTAATTTTTGTATGTTAGTAGAATTCATATTAATATAAGACCTTTTAAAAGTAATTAATATTGAATATAATTTCATTTTCAACTTTAATATTTTGAAAAAATATAATTATATAAGATGAAATTCATTTATTATAGGTCTCTTGCAATAATGGCAAAAATATTAGGTAAAATAATAAAATTAGCATCTACATTTGGATTTTTCAAATATAGCATGTTCTTTAAAAAACACAGAGGCCCAACTTGGAAAATCTCAAATTTACCCTTAATTAGCCCAAAAACACGGAGGCCCAATAGCCCAGTCTTGTAGGATGTTGAATTCAATTTCCCACTGATATACTTGATATACCTTTGATATAATATTGATATCCCACTGATATACAACTAATATACCATTGATATAACTAATGATATCTACTGATATAACTTCTTATATATGATTATACGATTTACCATTTATTGATTTACTATTGATATAACACTAATATATATCTGATGTATATTTGATTTACATTTAATATACCGTTGATGTACCACCTCATATACAACTTATTTACTTCTGATATAACTCGTGATATGATAATCGAGATTTACCAATGATATATACTTGATATACCTGTTAAGGTTGACTTTTTATTGCAGAAACATGTGTTGGTAGCCCTGTTTGACCACGTTTTTGACCCCTTTCCCATTATTATTTGCCAAAAGGGATCACATATTCTTAAAGTAGAACATGCATAGATTATTTCTGCATAAAAGTCAAACTATGGTACTTTAGAAAAAATATGAGATAAATGCGGTCAAAGTTGGAAGAAAATAACATAATTCTGTTTTTGCATAATTGCGCCCGACACATTTTTGGAGGACAAAATGTCAAAACGCACGTTTTGATTAATGAAGGGCAAGGAGAATATTTCCCACATGTTCAAAACCGTAAGTCCAAGTTCAAGTGAGGTGGTTAGGTGAATCTCAACCATTTTCCACCTAAAATGGAGGGGAGTTTCAACCAACCTATGGTGCTATAAAAGGAAGTCATCCCTCCATCAGTAAATCATCCCTTCCAAGTTTCATTTCAACTTCTTTAGATGCTCTCTAGTTGTAGAATACGTTTTTAGGGTTTATGTTTATGTTCTAGTTGTTCATTTCCTTGTTTTTCACGCTTTTACCTTTTGTATTGCCTTTAATTCAAGTTCTTACTTCCGTTCTTTGTTCATTCTGTTCTTTTAAAGTTCTTTAGCGAGTTTCGACTCCCCTCACGCTCGAGAGAGAAGAGGGTCAAGCTAGAACTCATTGTACGACTTATTTATTCATTTAAATTCAATGAAAAATACTTTCTTTATGTTTTCGTACATTTACTTTCATGTAATCATGTTTTAAATTAGTTATCAACCTCCTTGTGGAATGCCTTAGTCAAATGATTTGATTTTCAACACGCTCGAGATTTTGGCCAGATTGCGCCTGACACTTTTTTGGGTTGGTTTCTAAAAACTTCTCTTAACGTCTTTTTTCCATTTGGCCAGTGGGAACTTGATTTATACACCAAAGCCCAACCTTGGGAAAGATGAGTTAGATAAAATAATAGGAAACCAATATTGGATGTGACTTAGGAATAAGCGCATAAAATATGGTCCTAGGCATAGACCCTCTGACCCATAATGCAAATGAGTTGGTAGATATTCTCTAGGATTGTAATCACACATACGAATATGATTGTAGGTTACCATAGCCTCTGCAGCAACTAAAAACGATAGTGAAAGAGTAGAACTCAAATCCCAAGAAAAGCCAAGAATTGCACCTGGTGCATTTTCCCAACATAGTGTGCTTTCCATATTTTTGCATCAAAACTAAGGTTGGAGAGAAGGAGGTTGAGTTTTATTAAATTGCTTGATAGTTAAAACCCCAAACAACAACATTTCATCACATTTTTCTTCCTAAATCACAATTGCATATTTGAACCATTCACTTCTTAAAAACTGTTTTGAAAAGCAACAAGTCCCTGAGGATTCGACCTTGGATTACTTCCGAGTATTACTTGTGACCATGTGCGTTGGCACGAGTCTCTAATCTTTTTAAAGGTAGAGAAAGTCCCAACAATACCTCATATACCATCGATGTACCACTGATATATAACTGATATACCACTAATATAACTATGATATCTACTGATATAACTTTTTATATCATTATATGATTTACCATTTGTTGATTTACTATTGATATACAGTTGATATATGTCTGATATACCACTGATATACAATTGATATACAATTGATATACCACTGATATACAATTGATATACAATTGATATATCATTGATATAACTATGATATCTACTAATATAAAGTATATGATTATATGATTTACCATTGATTTTACCACTCATATATCTTTTATATTTGCTTGATATACCTTTGATTTACCATTGATATACCTTAAATATGATATCTACTTATATAAATATGATAACTTTGTATTGATATATACTTATGATATGATTATATTATGCACCATTGGTCTACCATTTATATATCACTGATATATCAATGATTTTCAAATATATTACATTTGATATATATTTTGATATACTACTAATCTATCTACTAATTTTTTCAATGGTGTGGCACTAAGTTTTTTTGTTTTTGTTTTTTAACTATGTAAAGTATTTTGAATTTAATCATATCTTTATCAATTTGTTAATAATTTGTTGATATCATAGTGATTTATCATTGATTTATTACATATATAGATATGATGTATATTTGATATATAGTTGTATATCAGTATTTTAGATTTTATTTTCTTTGTTTGCACCTTTGTTTTCATTTGAAAAAAAAAGTTATGGAGATATATTAACATTATATCAACACACAAATATCATAGTTATATCAGTAGATATCATAGTTATATTAGAGGTATATCAATGGTAAATTAGAAGTATACCATGTATATATCATATATATATTAGTGGTAAATCAAATATATATCAAATTTCAAATTCTATGCTGTAAAAGTCAAAGAAACAGGAATAAAAAAAACCAGAGAAATAGAGCAGTTGTCAATGGCGTTGCAGATTATATGTAGGAGAAATCTGAAGCCATAAATTCCCATTTCATCTCCAATTCAAAGTTCATGTTCATCTCATTCTCCAATTCCTCGGTCATCTTCTAAATCAACCTCCCCATCTACTCCTTTCTGTTCATCTCCCCACCTTTCTCCCCTTCCAAAAACTCTATCAAATTCCCCACCATCTGCTGTTGGTCATCCAAGCTTCTCTTCAACGCCATCAATCCCTCCACTATCGACTCATTATCCACTATTTCCTCCTCCCCCACGAGGCTGTCGCCTCTTGTATTTAAAAATCTCCTCCTCCAATTCCCCTTCCTCGTCCTATCGCTGTTGATTTTCACAGACGAAAAACGCTACAGTTTCCCCAATTTGAACTTCTCTTCCACTCTCGAGAACATAATGTCTGTCCTCGTGGACTCCGCTTGGAATTTTAGGGCCACCGTCTTCGATATGTCGTTGCCCTTTGACTGGTACAAGACTTTGGGAGTGTTCTTGTTGTTGAAGGCTTCACCCACCATGTATCCCTTGTACGAGATCTGAAAAAGGGTAATGTTGGAATAATAAAAAATGACAAAATCAGAATTCTTTGCTATATTTGAAAATTTTAAAAGTTGGTAACATATTTTGAAATATATAAAATAGTTTTGCTACCCAATGCAATTACCCTTTATTATATTATCAAATTATATTCTTTAAAGAAGAAAAATATCAAAGATAGGCTTATCATTAAAAAAATGTTGTTTTAAAATTATGTACTTAAGATAATAGATATTATTCATAATAAGTCATTCTAAATATTAAAAGTAAATGGGGATATTATATAATTTAATTGAAGTTTATTTTATATGTACGCATAATACATAAAGTCCATCTAGGAAGAACTCCTAAGCTCATCTACAGAAGATATCCTAAGTCCTCTAGGAAGAGTTCTTAAGCTCATCTACGGTAGAGCTCCTAAGCTCATCTACGGAATATCCTAAGTTCATCTAGGAAGAGCTCTTAAGCTCATCTACAGAAGATATCCTAAGTCCATCACGGAAGAGCTCCTAAGCTCATCTACGGAAGAGCTCCTAAGCTCATCTACGGAAGATCCTAAGTCCATCTCGAAAGAGCTCTTAAGCTCATCCACGGCCGAGCTCCTAAGGGACAAGCTTTAATGTCATGTGATTCCATCAACAGTTCAATATTGGAGGGTAAACTATAGTAGGCCGACCTTTTCTCGAAGGATCATAAGCCAACCTCAGAGGTCGGGCCCGGTTACTTAGGCGCAGATGAGAACCTTCCAAGTATTATGCTCCAAGGTAGGGATAAATCCAGAGACCAACACGGACCAACGGTCCATAGCAGGTCACTTGACCCCAGAACAATGAAATACCCCGATGGGATGGGTAACTACTCCTCAAATCCCTATAAATACACCTTCACTCCACCCACTAAGGTATAAGAATATGTTTGACGCTGATCTGTTGAGCTCAAATTTTTACTGACTTGGGCATCAGAGTGGCCTACCTGTTTAGCAAGTACCTTTGAAGAATACTCCAAATGTTGCCAATCGACCTCCCAGGTCGTCCTCCGTGCCTTGACAGATTTTTGCATCAACAATTATGAAGGAATTACATTATTAATAATATTTATGATCATAAATATATAATTTTAAAACAACATTTTTTTTACAACCAATATACCTGTGATATTTTTGCATAAATTATATGATTGTCTTTTTGAAAAATTCTTGTAGTTGAAAATGAAATTTATATTAAGTTAATATGAATTAACTTGTTCTACAAAATAAAAATCTATTATATTAAATGAATTTATAAATTATATAAATATTTGTAAGGACATTTTTGGAACATTCTACAAATTTAACACATTTCCAATAAATCCTGAAATCCAAATATTCTAGACTATCTTTATAAATCTTCTTACGAAACAAATATGTTATCTGAAGATGCCTAAATGTCGGGCATCTACATTCTTGAAAAACAAACGACCCCTAAAGAATAAGATACTTCCAGCAAAAAATACACACAAACCTAAATGTGACGTTTTGCAAGTGTTAAATAATCCCAAAATTATTTGCCTCACTTGTGTCATAAATGACAAAAGAATCCGTAAGTCTCCATTATTTCTTACAAAAACGTACCTCAAACTTTCGTGATATCTTTTCAATGTCATAAGATCCCAATCCAGCCTTTCGTGATGTTTTTATGAAAATTTTGTATATCCCGCAAAAAATGTCTCCACAATTTCGTGACCTTTTTTTAGTATCGTGTGACTATAGGGTGGATCTATTCGTCTGTGCATTGATTATAGGGAGCTCAACCGTGTGACTATAAAGAATAAATACTCACTCCCTCAGATTGAAGATTTATTTGACCAGCTTCAGGGTGCTACTGTTTTCTCAAAGATTGATTTGAGGTCAGGCTATCACCAGTTGAAGATTAAAGCTTGTGACATCCAAAAGACTGCATTTAGAACACGTTATGGCCATTGTGAGTTCTTGGTCATGCCTTTCGGATTGACTAATGCTCCAGCTGTCTTTATGGATTTGATGAATAGGGTATTCAATAATTTCTTGGATAAATTTTGTCATTGTCTTCATTGATGACATCTTAGTTTATTCCAAGACAAAGCTTGAGCATGAGTTGCATTTAAGACAAGTATTAGAGGTATTACGGGAGAAGAAACTCTGTGCTAAATTTAAGAAGTGCGAGTTTTGGCTTAAGAGCATTGCCTTTCTAGGACGTGGTGTCCAAAAAGGGGATCTCAGTGGATCCAAGCAAAATTGAGGTGGTTATGAATTGGCCACGACCCACAAATGTACAGGAAATTCGAAGTTTTCTTGGCTTGGCTGGCTATTATAGAAGGTTTTTCTAAGATTTCATCTCCTTTGACTCAGCTAACAAGAAAGAATGCACATTTTCAGTGGTCAGAAGATTGTGAGCAAAGTTTTCAGGAATTGAGGAAGAGACTTGTTACTGCTCCAGTTTTAACTGTTCCTAGTGGGGACACAGATTTTGTGGTTTATAGTGATGCGTCAAGAAATGGGCTAGATTGTGTACTTATGCAAAATGGTTAAGTTATTGTCTATGCTTCACGACAACTCAAGAACCATGAACAAAATTACCCTACTCATGACTTGGAGTTAGCAGCAGTTGTGTTTGCTTTAAAAATTTGGAAGCATTACCTGTATGGTGCTCATTGTGAGATTTTCACCGACCACAAGAGTTTAAAATATTTCTTCACTCAGAAGGAATTGAATATGCGTCAACGACGTTGGTTGGAGTTAGTTAAAGATTATGATTGCACTATTAGCTACCATCCTGGTAAGGCGAATGTGGTGGCAGATGCCTTAAGTAGGAAGTCCTCAGGTTACTCAGCAGCCTTACTCACAACTCAAGAGCATTTAATTAAAGATTTTGAGAAGTTAGCGATTGATGTGACTACAGAAAGTGTATCGTCGTTGTTGGCTAGCTTGGTGGTTGAACCTTCTTTACTTAGCAGGATCAAGCATGCTCAACTTTCAGATCCAGCTTTGAAGAAGACTGTCGATGATGTTAGCAAATCTAAACGAGTTGACTTTTCAGTGTCATGTGATGGAGTTTTATGGTTTGATGATCGTCTTTGTGTACCAAATGACTAGATTATTAAGAAGGAGATCATGACTGAAGCTCATAATACTCCACCTTGGGAGTTCAAAAATATACCAAGACCTCCGAAGAACTTATTCGTGGATAGGAATGAAGCGTTGCCAACTTTGTTAGTCATTGTCTAACATGCCAGCAGGTAAAAATTGAACATCAAAGACCGTTTAACTAAATCAGCTCACTTTTTACCGGATATATCATGCAGTCAAATATTTTGCAAGTGTTAAATAATCCCAAAATTATTTCTCCATTATTTCTTACAAAAACGTACCATTCAGCCTTTCGTGATGTTTTTATGAAAATTTTGTATATCCCGCAAAAAATGTCTCCACAATTTCGTGACCATTTTTAAGTATCATGGAATTCCAACTTTTTTTTTCTTTTCACTTTTCGTGGTGTATTAAAAACATTAACAAATCCGTAAATCTCACTATTTTCCTGAAAAAAAATATACGCACACCCACCTTTTTGTTACCTTTCTTGAAAGGTCATGGAATTCCGAATTTCTCTTTACTTTTCCGTGATGTGGAAAAAAAATTACGAAAAGCTAAAAAAAAAACTCTTTTTTCCTCAAAAAACAATGCCTTCCATTTTCCTACCGTTATTAACTATTCATCAACGTCATTGAAGCTGAAATTTGTATGTACTAGGTAAACATATACTTTCACACTTAAAATGTTCTAAAAGTTAATAAATTAGAAACTGGTCCTGGAACCACTCAAAATTGAGCCTACATACTTTTGGAAATTACCCATACGTTTTTGTTGAACTAAAACCAATAACTTAAAAACCTTAATAAATTAAAAGAATAGTGTTTAAGACAAGAAGGCCGCTCAATATTATAAATATATTTATAAGGGAGATACTCTTTTATTTTTTACTTGCAACGATCATACATGAAAAATCAACCCCTCCATCCATATATCTTAGTTGATGAGTATCAAATCACTCAATTGGAGTGGGGGAGAGCTAATGAATTGCCTCAAATGGTATATGGCTTGGGCAATGGCATGTCCTTAACCAAGCCACATAATAAAGTATTGTCTGGAATGTTGTACTCATCTCTGAGGGAGCGAGCGGGAGAAAGAACACTGAAGTAGAGTTGTTGTCCCAAGTAACGATTTTCTGTCAACTCAGACCTCAAGTTCCACATTCCAGCATTATCCAATGTCAGAAGAATGGCTGCCCACGATTTGGGGAAGACTTGAATTGTATCCCTGCTGACCGCGTCTAGAAGATTGTAGTTCTTTCGTTTTTCTGGAGTCCATCTCCCAGGCTCAATGCTGTGAAATGTTAATAAAGAGTAAATTAGTTATATATATATAAACATTGATTATTTGTTCCAACTGATGATACTTACGCGACAGCAAAGAAGGAGTAGCCATTCAAATGCCACGATTGAAGACTTTTCTCGTGGTTCTCAAATACGATCTCTACGAAGTTTCGAAAAGTTGCATTAACAACATTAGGAGCAACAGTCACGGTGTTTGCACCTTCTGCTGGTCCGTCGTCAGAAATGGTATCGTACTTGAAGACCTTGTCAGCGATTCCAAAGTACTCTGCGAGCTTCAATGGAGTTTCAGGGTCAATATGAGAGACACCATTGATGGCATATCGCAGCTTACCATCCACCTTAGTGGCTGAATTGATTATCTTGATCGTGCGGGTAATATTGATGGAACCGTAGTGGTACGAGCCTTGGGGATTAGGCCTAGCAGCACTAGCAGTAAGGTTCCAACGGAAGGTACGGAATTGATTGAGGGACCAAGCCCAACCCACAGGTGCCTCGGGGATTTCAGGAGAGGCAGGGCCTTTGCCATTGGTATATCGAATGATGCCTTTACCGACAAGAACATTCTTAGTGAATCGCGTGGATGCAATCAAGTAATAGTCCTTGGGCTCTTGGTTGGCTGTGACCAGCACCGAAAAGCATTGTCCCACATGGATGTCAAGTGATTGGTAATCGTTCTGGACGACATGAGAGCCCTCCATCTCTACCAACTTCATGGTGTGGTCTTGGAATCTAATGTTAAGAGATGTCTTCAGTCCAATGTTGCAAACTCGGTACTTGTAAGTCTTCTCAGGCTTCATGGTAAACAGCGGCTCATCGGTTCCATCACCCTTTGCATTCTTCCCATTAATGAGGACACCGTCGGGCCTAGCAAGGGAGCGTCCGCTATCCAAGAAATTCTTAAGAGCAGAGTGGCTCTTGGTGTACCAGTCACCAACAAGGACAGTGTAATCATCTTCAGGGTCAGCATAAGGGACAGGAATGAGTAAACGGCTATTCACACGGAGGCCTCCAAAGCCTCCCGCTGCCCTGTGCATGGCAGTTGATGGATAGTAAAAGAAGCTTCCAATTTGGTCCTTAACTTGGAAATGGTAGGTGTAGTTTGTCCCCGGTGGGATTGGGCAATTGGTTCCAAGTAGTCCATCTTGCCACGAATTTTTGCGGTGTTGAATACCGCTCCTGCAAGTCCAATTCCATTTGATTTTATTTTATTTTCTGAATTGAGCCATTGAATGAAGAAGAAAGAGTAGTTATATATGTAAATATAAATTATAATAATTAAATACCGTACCAATGTATAAGGAAGGGTTCGTCGAGGTTGTTGAAGACATTAACGACTATGTTATTGTTGGATGTGGAGTTGATATTAGGTCCGGGGAATTGGCCGTTGATGAGAATGCCTTGCTGGGGAACGCCCAAGGGAGAGATGGTGCCATAGGTGATATTCCACGTGAAGAAGAAATAAGGGTCCTCACCCCGGACCGTTGACATTGCTGCAGCCGAGAGGCATAGCAGCACGGTAAACATCAACCCAGCCATCTATATCTCCCCGTTTTTTTCTCTTCTGATTTTCTTTTCAAATCACCGCTCTTTTTCTCGAGCAGGCTATGTATCCCAAAATAAGATGGGTTGTTGTCCCGTTCCCTGATGGCTTACCCATCCAATCCTTCATTTATATACATGCTAATGTCTATCTCTCAACCATTCAAACTACAAGTTTTTCTCCAACTTCTCCGTTTTTCTAGCCTTACGCATTTCCCTACCTCTCGTTCCTGACAATAGTGCCCACGTCCCTCTCCAACAAAATATGTATTTAAATTAGAGGCTGGCTTTGCAAAATTTGTGGAGTCAAAGACACATGTTCAAAATGGATTTTACTATTATACTGGGTCTTAACTTAAAAAGCTCATTATTTTATTTATCTAATAAAATAAATTCTCCATAAACCTCTCCCTCTTCCTTAATCCAACACCACACTCTCTTCTATGGCCCTTCAGTGGATAATAGCCAGTTTTCGTCATTTAGACACTCTCGTTGAATGGCGGCGCCGGCGTTCGGGCCGTAACTTTTCGTCCATTATTCGAGAATTCGTAACCTATTAAACAAGTTTTTAATAATCATAAATAAATAATATATTAATATATTATATGGCATAAATATAATAATTATTGGATGAGATTCGTCCATAGGCTCGCCCAATTCAAAAAATAATATCTAATCCAATTGATGGGATGATTGGACTAGAGTGATCCATCAAATGTAGATCTTAGACTGAACTTGAGTTGATGATGAAACTGACACATATTTCCAAATTTAACTATATATATATATAATATTTTTTAAGTTAATCTTAAGATCATTTTATATTGGTTATTATTATTATTATTTAACTTAAATTTGTTGAGGTCTTAAAAACATTTAAGGGAAGAACTGTTATGTTTTATTTGTTATTATCAGTATTTTTAAATTTTGCCCAAATGCAACCACTTGAAATCTAACCAAATCAATTTTTAAAAATATAATATATCAAATATAATTTAATAATCTATTATTCAAATAAAGTTGTGGACCAAATAATCTTTTATTTATTTATGGAAGTATAGTTTACCAAATTTAATTTAATAATGTAATTTTTAGATAAGCTCTGAACTCACAAAATCAATTCAAAAAGAAATATTAAAAATTTTCAAAAAATAAAAAAGATTAATTTATGGTAAACTATATTTTGGCAAACTATATTTTCATTTATGAGTTGTTTTTTAATCAGTACCCCCTAATCTGCAGCCTCCCTCAAGTAGCGTTTTCACTCTCAGGCAGGTATCAAACTCTTCTTTTGACTATGATTGAGTTCCACTAAAACCTCATGAACTGGGAATAACCTCAAAAACTCTTCTTTTTCTTTCTTTTTTTATGACCTAGTGTACAACAACTTTAACTAACGAGAGATGTGAAATTCTAGAAAGGTGGGGAATTGTGTGTGCTTACGTTATGAAGAAACGTGACTAGGGAGCAAGCTCTTAATTAAAGACCTATTTTCTGGTTGGGTTGTTGACTAGAGAGTACAGTAATCTCAAAGAATTTTTTATTTTCATATTTCGCTATTTGATTCCATCCTCTATCCCACCCTATTAAACTTCCAAAGTTTGTCTCCCCCCATGACTGATTATTAATTAAGTTAAAGAAAATATGAGACGACCTCATTTAAAGAGAACATTCAAGGATAATCTTCATCTCTTAGCGTGAGGGATTTAAATCAAAGCACACATTCAATGTCAACCCCTCAAAACTGCAGTGGGACACCTTTACTGTTGTTTAATTAATTTTTTCAAAAGTTCAATATGGTATGATATATTAGAGATGTTGAACTAATACTAAAACACCATTGATATATTACTACAACTTGATTCTAGGTCACCACATCATTGGGCCGTTCGCATTAAAAAAAAAAACCAAAGCTCCAAATCAATCTATCTACGTAATTATTTTCTAGAAGAATAAAATAATGAGCTTTTTAAGTCAAGACCCACTATAGTAAATAACATTTTGCACACGTTTTTGACTCCACATATTTTGGAGAGACCACCTCTAATTTAAGTAAATATTTTGTTGGAGAGCGATGCGGTGGGAACCACTCTCAGAATCGAGAGGGAGGGAAATACCCAAGGATAGAAAAAAAAAACGGAGAAATTAGAAAAAAAAAAACTCGTAGTTTCAATGGTTGAGAAATTGACCTTAACTTGTATATAAATGAAGGATTGGAAGGGTAAGCATCAGGGAACGGGACAACAACCCATCTTCTTGATTTTGGGATACATAGCCAGTTCGAGAAAAAGAGCGGTGATTTGGAAAAGAAAACAAAAAAAATCAGAACAGAAAAAACGGGGAGATATAGATGGGTGGGTTGATATTTACCGTGCTGCTATGCCTCTCGGCTGCAGCAATGTCAACGGTCCGGGGTGAGGACCCTTATTTCTTCTTCACGTGGAATGTCACCTATGGCACCATCTCTCCCTTGGGCGTTCCCCAACAAGGCATTCTCATCAACGGCCAATTCCCCGGACCCAATATCAACTCCACATCCAACAATAACATAGTCATTAATGTCTTCAACAACCTCGACGAACCCTTCCTTCTACATTGGTACAGTAATTATATTTATATTTACATATGCACGCATATATAACTCTTTCCTCTTCATTCAATGGCTCAATACAAAAAAATAAAATCAAATGGAATTGGACTTGCAGGAGCGGTATTCAACACCGCAAAAATTCGTGGCAAGATGGACTACTTGGAACCAATTGCCCAATCCCACCGGGGACAAACTACACCTACCATTTCCAAGTTAAGGACCAAATTGGAAGCTTCTTTTACTATCCATCAACTGCCATGCACAGGGCAGGGGGAGGCTTTGGAGGCCTCCGTGTGAATAGCCGTTTACTTATTCCTGTCCCTTATGCTGACCCTGAAGATGATTACACTGTCCTTGCTGGTGACTGGTACACCAAGAGCCACTCTGCTCTTAAGAATTTCTTGGATAGCGGACGCTCCCTTGCTAGGCCCGACGGTGTCCTCATTAATGGGAAGAATGCAAAGGGTGATGGAACCGATGAGCCGCTGTTTACCATGAAGCCTGAGAAGACTTACAAGTACCGAGTTTGCAACATTGGACTGAAGACATCTCTTAACATTAGATTCCAAGGCCACACCATGAAGTTGGTAGAGATGGAGGGCTCTCATGTCGTCCAGAACGATTACCAATCACTTGACATCCATGTGGGACAATGCTTTTCGGTGCTCGTCACAGCCAACCAAGAGCCCAAGGACTATTACTTGATTGCATCCACTCGATTCACTAAGAATGTTCTTGTCGGTAAAGGCATCATTCGATATACCAATGGCAAAGGCCCCGCCTCGCCTGAAATCCCCGAGGCACCTACAGGTTGGGCTTGGTCCCTCAATCAATTTCGTACCTTCCGTTGGAACCTTACCGCTAGTGCTGCTAGGCCTAATCCCCAAGGCTCGTACCATTACGGTTCCATCAATATTACCCGCACGATCAAGATAATCAATTCAGCCACTAAGGTGGATGGTAAGTTGCGATATGCCATCAATGGTGTCTCTCATATTGACCCTGAAACTCCATTGAAGCTCGCGGAGTACTTTGGAATCGCTGACAAGGTCTTCAAGTACGATACCATTTCCGACGACGGACCAGCAGAAGGTGCAAACACCGTGACTGTTGCTCCTAATGTTGTTAATGCAACTTTCCGAAACTTCGTAGAGATCGTATTTGAGAACCATGAGAAAAGCCTTCAATCGTGGCATTTGAATGGCTACTCCTTCTTCGCTGTCGCGTAAGTATCATCAGTTAGAAATAATCAATAATGTTTATATATATGACAAATTTATTCTTTATCAACATTACACAGCATTGAACCGGGGAAATGGGCTCCAGAAAAACGAAAGAACTACAATCTTCTAGACGCTGTGAGCAGGCATACAATCCAAGTCTTTCCCAAGTCGTGGGCAGCCGTTCTTCTTACATTAGACAATGCTGGAATGTGGAACTTGAGGTCTGAATTGACAGAAAATCGTTATTTGGGACAACAACTCTACTTCAGCGTTCTTTCTCCAGCTCGATCACTCAGAGATGAATACAACATTCCAGACAACACTTTACTATGTGGCTTGGTTAAGGACATGCCATTGCCCAAGCCATATACTATTTGAGGCAATTCATCCCCTCTTCTTGCCCACTCCAATTGAAAGACTGAGATACTCATAAGATAATATTGAGTGGTTGATTTTTCCTGTATAATCATTGCAAGTCCCAAAAATAAAAGAATATCATCTTATATTTATTGTTGTAGTAGTATTCGAGCATTGTTTTTT ATGGGTGGGTTGATGTTTACCGTGCTGCTATGCCTCTCGGCTGCAGCAATGTCAACGGTCCGGGGTGAGGACCCTTATTTCTTCTTCACGTGGAATGTCACCTATGGCACCATCACTCCCTTGGGCGTTACCCAACAAGGCATTCTCATTAACGGCCAATTCCCCGGACCCAATATCAACTCCACATCCAACAATAACATAGTCATTAATGTCTTCAACAACCTCGACGAACCCTTCCTTCTACATTGGAGCGGTATTCAACACCGCAAAAATTCGTGGCAAGATGGACTACTTGGAACCAATTGCCCAATCCCACCGGGGACAAACTACACCTACCATTTCCAAGTTAAGGACCAAATTGGAAGCTTCTTTTACTATCCATCAACTGCCATGCACAGGGCAGGGGGAGGCTTTGGAGGCCTCCGTGTGAATAGCCGTTTACTTATTCCTGTCCCTTATGCTGACCCTGAAGATGATTACACTGTCCTTGCTGGTGACTGGTACACCAAGAGCCACTCTGCTCTTAAGAATTTCTTGGATAGCGGACGCTCCCTTGCTAGGCCCGACGGTGTCCTCATTAATGGGAAGAATGCAAAGGGTGATGGAACCGATGAGCCGCTGTTTACCATGAAGCCTGAGAAGACTTACAAGTACCGAGTTTGCAACATTGGACTGAAGACATCTCTTAACATTAGATTCCAAGGCCACACCATGAAGTTGGTAGAGATGGAGGGCTCTCATGTCGTCCAGAACGATTACCAATCACTTGACATCCATGTGGGACAATGCTTTTCGGTGCTCGTCACAGCCAACCAAGAGCCCAAGGACTATTACTTGATTGCATCCACTCGATTCACTAAGAATGTTCTTGTCGGTAAAGGCATCATTCGATATACCAATGGCAAAGGCCCCGCCTCGCCTGAAATCCCCGAGGCACCTACAGGTTGGGCTTGGTCCCTCAATCAATTTCGTACCTTCCGTTGGAACCTTACCGCTAGTGCTGCTAGGCCTAATCCCCAAGGCTCGTACCATTACGGTTCCATCAATATTACCCGCACGATCAAGATAATCAATTCAGCCACTAAGGTGGATGGTAAGTTGCGATATGCCATCAATGGTGTCTCTCATATTGACCCTGAAACTCCATTGAAGCTCGCGGAGTACTTTGGAATCGCTGACAAGGTCTTCAAGTACGATACCATTTCCGACGACGGACCAGCAGAAGGTGCAAACACCGTGACTGTTGCTCCTAATGTTGTTAATGCAACTTTCCGAAACTTCGTAGAGATCGTATTTGAGAACCATGAGAAAAGCCTTCAATCGTGGCATTTGAATGGCTACTCCTTCTTCGCTGTCGCCATTGAACCGGGGAAATGGGCTCCAGAAAAACGAAAGAACTACAATCTTCTAGACGCTGTGAGCAGGCATACAATCCAAGTCTTTCCCAAGTCGTGGGCAGCCGTTCTTCTTACATTAGACAATGCTGGAATGTGGAACTTGAGGTCTGAATTGACAGAAAATCGTTATTTGGGACAACAACTCTACTTCAGCGTTCTTTCTCCAGCTCGATCACTCAGAGATGAATACAACATTCCAGACAACACTTTACTATGTGGCTTGGTTAAGGACATGCCATTGCCCAAGCCATATACTATTTGA ATGGGTGGGTTGATGTTTACCGTGCTGCTATGCCTCTCGGCTGCAGCAATGTCAACGGTCCGGGGTGAGGACCCTTATTTCTTCTTCACGTGGAATGTCACCTATGGCACCATCACTCCCTTGGGCGTTACCCAACAAGGCATTCTCATTAACGGCCAATTCCCCGGACCCAATATCAACTCCACATCCAACAATAACATAGTCATTAATGTCTTCAACAACCTCGACGAACCCTTCCTTCTACATTGGAGCGGTATTCAACACCGCAAAAATTCGTGGCAAGATGGACTACTTGGAACCAATTGCCCAATCCCACCGGGGACAAACTACACCTACCATTTCCAAGTTAAGGACCAAATTGGAAGCTTCTTTTACTATCCATCAACTGCCATGCACAGGGCAGGGGGAGGCTTTGGAGGCCTCCGTGTGAATAGCCGTTTACTTATTCCTGTCCCTTATGCTGACCCTGAAGATGATTACACTGTCCTTGCTGGTGACTGGTACACCAAGAGCCACTCTGCTCTTAAGAATTTCTTGGATAGCGGACGCTCCCTTGCTAGGCCCGACGGTGTCCTCATTAATGGGAAGAATGCAAAGGGTGATGGAACCGATGAGCCGCTGTTTACCATGAAGCCTGAGAAGACTTACAAGTACCGAGTTTGCAACATTGGACTGAAGACATCTCTTAACATTAGATTCCAAGGCCACACCATGAAGTTGGTAGAGATGGAGGGCTCTCATGTCGTCCAGAACGATTACCAATCACTTGACATCCATGTGGGACAATGCTTTTCGGTGCTCGTCACAGCCAACCAAGAGCCCAAGGACTATTACTTGATTGCATCCACTCGATTCACTAAGAATGTTCTTGTCGGTAAAGGCATCATTCGATATACCAATGGCAAAGGCCCCGCCTCGCCTGAAATCCCCGAGGCACCTACAGGTTGGGCTTGGTCCCTCAATCAATTTCGTACCTTCCGTTGGAACCTTACCGCTAGTGCTGCTAGGCCTAATCCCCAAGGCTCGTACCATTACGGTTCCATCAATATTACCCGCACGATCAAGATAATCAATTCAGCCACTAAGGTGGATGGTAAGTTGCGATATGCCATCAATGGTGTCTCTCATATTGACCCTGAAACTCCATTGAAGCTCGCGGAGTACTTTGGAATCGCTGACAAGGTCTTCAAGTACGATACCATTTCCGACGACGGACCAGCAGAAGGTGCAAACACCGTGACTGTTGCTCCTAATGTTGTTAATGCAACTTTCCGAAACTTCGTAGAGATCGTATTTGAGAACCATGAGAAAAGCCTTCAATCGTGGCATTTGAATGGCTACTCCTTCTTCGCTGTCGCCATTGAACCGGGGAAATGGGCTCCAGAAAAACGAAAGAACTACAATCTTCTAGACGCTGTGAGCAGGCATACAATCCAAGTCTTTCCCAAGTCGTGGGCAGCCGTTCTTCTTACATTAGACAATGCTGGAATGTGGAACTTGAGGTCTGAATTGACAGAAAATCGTTATTTGGGACAACAACTCTACTTCAGCGTTCTTTCTCCAGCTCGATCACTCAGAGATGAATACAACATTCCAGACAACACTTTACTATGTGGCTTGGTTAAGGACATGCCATTGCCCAAGCCATATACTATTTGA MGGLMFTVLLCLSAAAMSTVRGEDPYFFFTWNVTYGTITPLGVTQQGILINGQFPGPNINSTSNNNIVINVFNNLDEPFLLHWSGIQHRKNSWQDGLLGTNCPIPPGTNYTYHFQVKDQIGSFFYYPSTAMHRAGGGFGGLRVNSRLLIPVPYADPEDDYTVLAGDWYTKSHSALKNFLDSGRSLARPDGVLINGKNAKGDGTDEPLFTMKPEKTYKYRVCNIGLKTSLNIRFQGHTMKLVEMEGSHVVQNDYQSLDIHVGQCFSVLVTANQEPKDYYLIASTRFTKNVLVGKGIIRYTNGKGPASPEIPEAPTGWAWSLNQFRTFRWNLTASAARPNPQGSYHYGSINITRTIKIINSATKVDGKLRYAINGVSHIDPETPLKLAEYFGIADKVFKYDTISDDGPAEGANTVTVAPNVVNATFRNFVEIVFENHEKSLQSWHLNGYSFFAVAIEPGKWAPEKRKNYNLLDAVSRHTIQVFPKSWAAVLLTLDNAGMWNLRSELTENRYLGQQLYFSVLSPARSLRDEYNIPDNTLLCGLVKDMPLPKPYTI Homology
BLAST of MC02g_new0002 vs. ExPASy Swiss-Prot
Match: Q00624 (L-ascorbate oxidase homolog OS=Brassica napus OX=3708 GN=Bp10 PE=2 SV=1) HSP 1 Score: 898.7 bits (2321), Expect = 3.4e-260 Identity = 406/550 (73.82%), Postives = 465/550 (84.55%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy Swiss-Prot
Match: P29162 (L-ascorbate oxidase homolog OS=Nicotiana tabacum OX=4097 PE=2 SV=1) HSP 1 Score: 824.7 bits (2129), Expect = 6.2e-238 Identity = 375/547 (68.56%), Postives = 448/547 (81.90%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy Swiss-Prot
Match: Q9SU40 (Monocopper oxidase-like protein SKU5 OS=Arabidopsis thaliana OX=3702 GN=SKU5 PE=1 SV=1) HSP 1 Score: 553.1 bits (1424), Expect = 3.5e-156 Identity = 269/562 (47.86%), Postives = 366/562 (65.12%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy Swiss-Prot
Match: Q9FHN6 (Monocopper oxidase-like protein SKS2 OS=Arabidopsis thaliana OX=3702 GN=SKS2 PE=2 SV=1) HSP 1 Score: 525.4 bits (1352), Expect = 7.8e-148 Identity = 248/539 (46.01%), Postives = 364/539 (67.53%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy Swiss-Prot
Match: Q8VXX5 (Monocopper oxidase-like protein SKS1 OS=Arabidopsis thaliana OX=3702 GN=SKS1 PE=2 SV=1) HSP 1 Score: 523.9 bits (1348), Expect = 2.3e-147 Identity = 260/558 (46.59%), Postives = 370/558 (66.31%), Query Frame = 0
BLAST of MC02g_new0002 vs. NCBI nr
Match: XP_022153757.1 (L-ascorbate oxidase homolog [Momordica charantia]) HSP 1 Score: 1128 bits (2917), Expect = 0.0 Identity = 543/552 (98.37%), Postives = 544/552 (98.55%), Query Frame = 0
BLAST of MC02g_new0002 vs. NCBI nr
Match: XP_022153749.1 (L-ascorbate oxidase homolog [Momordica charantia]) HSP 1 Score: 1126 bits (2913), Expect = 0.0 Identity = 538/552 (97.46%), Postives = 544/552 (98.55%), Query Frame = 0
BLAST of MC02g_new0002 vs. NCBI nr
Match: KAA0040123.1 (L-ascorbate oxidase-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 1069 bits (2764), Expect = 0.0 Identity = 502/553 (90.78%), Postives = 531/553 (96.02%), Query Frame = 0
BLAST of MC02g_new0002 vs. NCBI nr
Match: KAA0040126.1 (L-ascorbate oxidase-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 1067 bits (2760), Expect = 0.0 Identity = 502/553 (90.78%), Postives = 530/553 (95.84%), Query Frame = 0
BLAST of MC02g_new0002 vs. NCBI nr
Match: XP_022137060.1 (L-ascorbate oxidase homolog [Momordica charantia]) HSP 1 Score: 1065 bits (2754), Expect = 0.0 Identity = 500/551 (90.74%), Postives = 525/551 (95.28%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy TrEMBL
Match: A0A6J1DJT4 (L-ascorbate oxidase homolog OS=Momordica charantia OX=3673 GN=LOC111021199 PE=3 SV=1) HSP 1 Score: 1128 bits (2917), Expect = 0.0 Identity = 543/552 (98.37%), Postives = 544/552 (98.55%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy TrEMBL
Match: A0A6J1DK02 (L-ascorbate oxidase homolog OS=Momordica charantia OX=3673 GN=LOC111021193 PE=3 SV=1) HSP 1 Score: 1126 bits (2913), Expect = 0.0 Identity = 538/552 (97.46%), Postives = 544/552 (98.55%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy TrEMBL
Match: A0A5A7TAM1 (L-ascorbate oxidase-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold366G00980 PE=3 SV=1) HSP 1 Score: 1069 bits (2764), Expect = 0.0 Identity = 502/553 (90.78%), Postives = 531/553 (96.02%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy TrEMBL
Match: A0A5A7TDG2 (L-ascorbate oxidase-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold366G001010 PE=3 SV=1) HSP 1 Score: 1067 bits (2760), Expect = 0.0 Identity = 502/553 (90.78%), Postives = 530/553 (95.84%), Query Frame = 0
BLAST of MC02g_new0002 vs. ExPASy TrEMBL
Match: A0A6J1C5L8 (L-ascorbate oxidase homolog OS=Momordica charantia OX=3673 GN=LOC111008621 PE=3 SV=1) HSP 1 Score: 1065 bits (2754), Expect = 0.0 Identity = 500/551 (90.74%), Postives = 525/551 (95.28%), Query Frame = 0
BLAST of MC02g_new0002 vs. TAIR 10
Match: AT3G13390.1 (SKU5 similar 11 ) HSP 1 Score: 907.9 bits (2345), Expect = 4.0e-264 Identity = 408/549 (74.32%), Postives = 469/549 (85.43%), Query Frame = 0
BLAST of MC02g_new0002 vs. TAIR 10
Match: AT1G55570.1 (SKU5 similar 12 ) HSP 1 Score: 899.4 bits (2323), Expect = 1.4e-261 Identity = 403/549 (73.41%), Postives = 465/549 (84.70%), Query Frame = 0
BLAST of MC02g_new0002 vs. TAIR 10
Match: AT3G13400.1 (SKU5 similar 13 ) HSP 1 Score: 879.4 bits (2271), Expect = 1.5e-255 Identity = 404/551 (73.32%), Postives = 468/551 (84.94%), Query Frame = 0
BLAST of MC02g_new0002 vs. TAIR 10
Match: AT1G55560.1 (SKU5 similar 14 ) HSP 1 Score: 867.5 bits (2240), Expect = 5.9e-252 Identity = 398/551 (72.23%), Postives = 466/551 (84.57%), Query Frame = 0
BLAST of MC02g_new0002 vs. TAIR 10
Match: AT1G21860.1 (SKU5 similar 7 ) HSP 1 Score: 637.9 bits (1644), Expect = 7.6e-183 Identity = 302/535 (56.45%), Postives = 385/535 (71.96%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
|