Lsi03G009090 (gene) Bottle gourd (USVL1VR-Ls)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATAATAAGGGTGTGGTGTGTGTCAGTTTGGTTTTTAATTGGAGAAGTAAGAATGGGAGAGAAGGTGAGTAACAAGCAGGTGATTTTAAGGGATTTCGTCACCGGATTTCCGAAAGAATCGGATTTCGAAGTCAGGAGTTCCACCATTGGCTTGAAGCTTCCAGAATCCTCCGAGAAAGGAGTTTTGGTGAAAAATCTGTACTTATCTTGTGATCCTTACATGCGAATTCTCATGCAGAAAGCCGATCTTTACTTCCCCATTGATTTTTTCACTCCAGCCTCGGTAAATATTATCTTCTGTCTCTTCGTTCTTCCTCTAACATTTTCAGCTCTCGGTAAATTTAATTTAATTTTTATTGTTTCTCCTTTAAATCTGGATTTCATAGCCCCAACTGAGATTAAATTGATGAGTTAATTAATTCATTTACTTGGCCTCATTTACTTTTCTCCGATATGTTCAAATAAATCGATTAACTTCTCAATCTAGTATAACTTCCGCTGTAAAATTTACAGGGTTAAAATATCATTTTGATTTTTATAGTTTGAAATTTATTTACTCTCAAATGTTCAATTTTAATTTCTTTAATCTTAAATTTAATCTCTTAAAATTATTTATTTATTTATTTATTAAAATTAACTAAATAATAGTAATAATAATTTTAATGCAAGAAAATATAATATGTAAATATATTTTCAAATTTAGAGTGAAAATGCTAATGATTATAAAAATTTTTTGAGAAAAACTAATAATAAACAAGCAATAATGACTAAACTTGAGATCTATTAAACATATTGGGACTAAAATTGGACATGTGAAACTAAAAAACTAAAATTGAACAAATTTTGAAGTTCAATGACCAATATAGTATTTTTAAGGGGATTTTTAAAAATAGAAAAACAAAGGAAAACTATTTACACAAAATAGCAAATTTTTAGATAGTTGTGATAGACGCTGATAGAAGTATATCAGGGTCTATCAGTAATAGAAATGATATAAGTCTATCACTCATAGATATTAATAGAAGTCTATCAATGTCTCTCAGTGTTTTTTTTTTTTTTTGCTATTTTCTGTAAATAGTTTGACATTTTTTTTATATGTAAAAAATTTCCTATTTTTAACCCATTTAAAATTAAAGAAAAACAAACTTCAATAATTTGAAGAAAAAAATTATATTAAATTACTTATTTTGTCCTTATAGAGAAGAAAAAATTAGAATTTATTCCTAATATTTTGATAAGACTTCATAAATAATCCTTATAATTTTATAAACTCCAAATATATAGTTTCTAACACAGTAGGGACGGTTAATGAGGAACAGGCTGTAGAGATCGATTATTTACAAGTTATGGAACTAAATTCTAACAGTAGCTAAATTTATAATTTAAAAGGAAAAAGAAAACTTTACCTGAAGTTGAGGACACTAGAGTTGATTATTTTGAAATTTAGTTTGATTTATGGAAATGGGATAGATGAGTAAAATATTAAAGTGGTAAAAATATGGAAATTACAGGTGATATTTGGGTATGGAGTGGCAAAGATAGTGAAATCAGGTGACCCAAATTTGAAAGAAGGCGATTTGGTTTGGGGAATAACTGGTTGGGAAGAATATAGTGTGATTGAAGACTCACAAAAGCTCTTCAAAATCCATCACTCTGATGTCCCACTTTCATATTACACTGGAATTCTTGGTACCTACCAAAAATACCATTCATATATTTCAAATTATTTTTTATTTTTATTCCTTCCACTACCTGAAGATTATATTGTTTTCATATTCTTTGCTTTTGGTTTGGGATTATTATTAATAACTTTTTTTTAAGATCACTTTAGTTTGTATATATAAAGTTTAAAATATCGACGTGGATGAAAATATTCTACGAAAATTTTGATTAAATATCGATTTCGATAGATATTTTTACAAATATTATAAAAAGTAAATTTAAATTAGTAAATAAACATTTTATTATTTTTAAATAAGTAAACATGTCTATTATTTATATTATATTTATATTAGTGATATTTTGATGTTTATTTTTTCTGTTTCGTGGATTTTTCTACGATATAATGAAAATATCGATTCACCTCTTATATCAATATCGAATCCATGGAAACGTGGGAATATCGAAGAAAATATCAACATATCAATAGAAATTTAATACTATGTGTATATACTTATCATTCTCTCTTTTATGGATTTTGAAAATAAATTAAACATTTGCCTTTTTTTGTATGCTTATTTTTTTTAATATTTAACTAATTTCAATCAAAGTTAACTTCGAATAATTAACCAAATTTGAGATTTTTGTTTTTTTGGAAGTATAAGAACTATGATATAATGGAACTAAATCTTAAGTCTAGAGACCTGTGAAGTATGACACTCCATTTTAAGGGGCGTGTCTGTGTCGGACATGCTCAGTGTCACAATCGCACTTGAAGTAAGTAGATTGTGACCCCACTAGCAGTGGGGCGGACAGTGTAAGTGGCGACACGGGAGTGTCGACACATCTGGCAACGACAGAGGACCAAGAAAAGTATCATGATGCTACCGAGGAGGACGGTGCATCATCCAACACACCAAGATAAGTGGAGAACAATATCAGGTTGAGCATTAAGCAAGAAGACAAGCATCAGTGCTATCGGCATTGTCAGTGACAAGTTCAGTGGGGGCCAGTTGGGGCCCCGAGCCGTTTCCTCAGAAGAAGGAGTTTCGTTGCGATTTTGGACGAGCGGCTCTAGAGTTAGACCCATATTGATGGAATATCAAAGCACGTTGAATTTCATATCAATCAGAGTTCAGACGGGCGCTTTACAAAACTTGTGACGAGCTAGCATTATCAACGTGCAAGGGTGCCAAGGTAAAAAATGCTCAGAATGTACTATAAGGGGAGGCATGGTGTCAACTATCCACCACCCCTGGGCCTGATGGCTTAAGCGAGCTACCCCTGACATGGCGTGGGCGAGCGTTGTAAGACAAGAGTCTCGGGCATCTTTCATTGAGAATGGGATCTCGTGGATAGGGTCGACGGACGGGTGTGCCGACATTGCACCTTCTCCCATAGGCCAGAGGTTCGATATAGCACCCGCTATGCCGTTTTATCTCGGCAAACGATTTAGCATGGACACGGGAGGGTTCATACCTCGATATGTCTGGATGGATGGTTGTCCGGGTGGTCTCGATGTTGGAAAAATGCCCATGGGTTAGTTGTAATGAGTCTCGACAAGTAGTCCCGAACAAGAGAGAGAAAGCTAATAACCTTAGCCTTATGTAAAGGCAAGGTCGAGCTGCAAGACTTGCTTAAATTAGAGGCAAGTCAGATGGAGTCGCTTGATGAGGGACAATACACGTACAGGCGACGTGTATGGCTGAATAAATTTCAGTTCCGCATGAGGTCAATTTGGTTGAGTACGAGAGAACCTCGCCTAAGGCCCGACGAAGCTTCAAAAAGAATGGGAAAAATAATATTGGGGCTTGAGTTCCCCTTAAGGCTGACCATGTACGAGTGAATGTCATGGTGTCGCACGATTGGAGAAGCCCGACCGCGACACTTGGTATCAGAGCCACTCTTTTTTAGTGCAATCAGACAAGCCAAGAAAAGGAAGGCCCCAGGATCGAATTGAAGACTTCACAGATGCATCAAGAGTGCCAGTTTGGCAGGGCGGATGTGAGTCATCATTAGAGACAGCGAGTGGGTTGAAGCCAGACTTCTTATTACTCAAGAGTGTCATTTGTAGACATTACGTTGGGGGAAGTCTGTCCCGTCAGTAAGAAAGAACCAAGCTCCTTGCCAAGAGTTTGGATGTTCCGTTGACAAGGAGATGTACTAAAGGTGTATCAGGTCGGTGGCTTCAAAAGAACCATTATGACCAGGAGGGATAGTGCTGATGGTTTTAAAGCAAAAGAACCGAGAGTCATGGAGACATGCGTCGGTCAAGTGCAAGAGTTATGCATTCTAAGTCCGTATGGACGGACGTCATGGCTAGCAAGAGCCAAGTTGATTGGGAAGCAACTCGCAAGAATGGGTTGCTGTCCCGTGAATGTGCTCCCTTGGTTGGACCAAGTATGTCCCTTAAGTCATTCCACATGCCAAAGTGGATGGCTTCACCATTGTTGGGGCCAGTTCACGTTGGGGAGCACCAACGGCCTGGTAGTTCAGATCCGAGAAGCTACATCAAGAGTGAGAGAAGCATCTTAACAGCATCGCCACAGCAGGTGGCTTGGAAGTTGGCTAGAGTGTAGCGCCAACAAAGAGAAAGCTGTGTTTTGTTTCCCGATTTCGCACAGTGTCGGTGGTGCCACAAGAGTTACGTGGTTGGCTTGCCAGCCTCACCCCGAGGGGTGCACCCGTTGTGCTGCTCAGAAAGTATGTGGTGGCCCTAGAGTAGGTCATAAGTTTCGAGGGGCCGAAAGTAACCCTCGTTTTTGCTGAGGTGAGAGAATGCCGAAGCACAGGTTTCGAGGGGTCAAAAGTAACCCTCATTTTTGCTGAGGCGAGTGAATGCCGAAGCGTTGTTACCGTGGTTTGTCTGGTGAACCCAAGATGAGAGAGTCCCTAAAGGGGTAAGCCCACAACCACTTAGTTCCATTTGTCGTGCTTATGTTGCAAGTCTCGGGCCAATTCTTAGACTGGGGCGCGAGGAGGTCCAAAGGTGGGATAGCCCATAAGTAGTCTGCACTTTCATACTTGGTCTGATGCACAACTATTTCAGCGAGTCTGTTAACAACCAGCCTAGTCGGGTCGTCATCGGGACAATGTCGAGTTCAAGTGGGGGAGAGTGTTGCAATCTCACGCGACAAAGTGGATTGCGCCCCCCAAGTGTGTCATCGAGGATGATGACTGTTCAAGTGGGGGAGAGTGTTAGAATCTCAAGAAGTTTGATTGTACCCCAAGTATGTCATTGAGAACGATGACAGTTTAAGTGAGAGAGAATGTCACAATCGTACTTGAAGTAAGTAGATTGTGACCCCACTAGTAGTGGGGCGGACAGTGTAAGTGGCGACACGGGAGTGTCGACACATCTGGCAACGACAGAGGGTCAAGAGAAGTGCCATGATGCAACCGAGGAGGATGATGCATCATCCAACACACCAAGATAAGTGGGCAACCATGTCAGGTTGAGCATTAAGCAAGAAGACAAGCATCAGTGTCATCGGTAGTGTCAGTGACAAGCTTAGTGGGGGCCAGATGGGGCTCCGGGCCATTTCCTTAGAAGAAGGAGTTTTGTCACGAGTTTGAATGAGCGGCTCTAGAGTTAGACCCATATTGATGGAATATGGAAGCACGTTGAATTTCATGTCAATCGGAGTTCAGACGGGCACTCTACAAAACTTGTGACGAGGTAGCATTATCAACGTGCAAGGGTGCCAAAGTGAAAAATGCTCAGAATGTACTATAAGGGGAGGCATGGTGTCAGCTCTCCACCACCCCTGGGCCTGATGGCTTAAGCGAGCTACCCCATGACATAGACATGTGTCATGGCGTGGGTGAGCGTTGTGAGACAAGAGCCTCGAGCGTCTTTCATTGAGAATGAGATCTCGTGGACAGTGTCGGACGGCACGAGTGTGCTGACATTGTGCCTTCTCCCATGAGCCAGAGGTTCGATATAGCACCCGTTATGCCGTTTTATCTCGGCAAACGATTTAGCATGGACACGGGAGGGTTCATGCCTCGATATGTCCGGATGGATGGTTGTCCGGATGGTCTCGATGTTGGAAAAATGCCTATGGGTTAGTTGTGATGAGTCTCGACAAGTAGTCCCGAGCAAGAGAGAGAAAGCTAATAACCTTAGCCTTATGTAAAGGCAAGGTCGAGCTGCAAGACTTGGTTTAGATTAGAGGCAAGTTAGATGGAGTCGCTTGATGAGAAAAAATACACGTACATGCGACGCGTATGACCGAATGAATTTCAGTTTCGCATGAGGTCAATTCGGTTGAGGACGAGAGAACATCGCCTAAGGCCCGACGAAGCTTCAAAAAGAATGAGAAAAAGAATATTGGGGCTTCAGTTCCCCTTAAGGCTGACCATGTACGAGTGAATGTCATGGCGTCGCACGGTTGGAAAAGCCCGACCGTGACACTCAGCACACATGTCTAATATACTCAAATTTTTGTGTCCTTTATTATTATTATTATTATTATTATTTAATTTTAGACCAATGGAACACTACTGGAACACTTTTTGAATACTTGAAATTTTTTTTAGGAAGAGAAAGGAAAAATTTAGAAAATTAGCCTACTGTACAACTAATATTTCACAAATGTCCTAAAATTTATTAATATTTCATAACTTGGTTTTAACAATATTTTTGGACATTTTTAATTTTTGGTATTCTCTCTCATCTTTTAATTTTATAATATTTTAAAATAAAAATATATATAATTTTGGGAGATTTGAAAAAATAGAAAAATAAGGGAAACTATTTATCCAAAATAGCAAAATTTTTAGATAGTTGTGATAGATGCTGATAGAAGTCTATCAGGATCTATCAGCGATAGAAATGATAGAAATATATCACTGATAGATACTGATAGAAGTCTATCAATATCTATCAGTATTCTTTTTTGCTATTTTCTGTAAATAGTTTGACATTTTTTCTATATATGAAAATTTCTCTATAATTTTCGATTTGACTATTAAATATATAAGGATTTTATTTTTTAAATATCATTAATTACATTACTTTTCATCAATAAATTTTCGAAATATTTAATTCTTTCTTTATTCACATCATTTTCGAAGTTTGACTTTGTTCTTATTATTTATTAATTTCGGTCGATATTCATTTAATGCATGATATTTCAAATTAATGTTCCCTTCATTTTAGGATATTTCGTTTATTTTTTTTATATATTCCTAGCTAATAATTGATCACCTTTCTATTGAGATATAATTATATGTCGAATATATTCATAATATACTGAAAAATGTAAATATACATCGCATATATCATGATTTAGTTTTTGGCATGTTTACAAATATATTGGAAAAATGTAATATAAATCCCAGATATTGTTCGGTATAGAAGACGAGATATTGTACAAATTGTCTTGTTCATACTCTTATCAAATATACCTTGATTTATTTCTAGAAAATACAAATGTATAGTATTGTATGTATCATATATACTTTGTTTTATTCCTCTCGTAACTTTTGGTTGGTTCTTGCTTTAATTTATGATGACAACAAATTTTCAGAATTTTGGAGAAACTTTCCTTACTCGTGTAGGTTTTGAAAAGAAAACCGTTTTGGAAAGTTTATAACCCAAAAAACTTCTCTTACACGCTTCTTTTGGTAGATTCATTATTATCATAGATATTTTTTTAAAAAAATGAATGATAAGGAGGGTTGTCAAAATAAACATGGCCAGACTTTTATGTAAAGTAATAGTCCATTAGACTATTCATGTAAAAAGTAAAAAAGTTTAGATAACTGTGTAACTAGACCTATTTATTTAGATTATATGTGGAGAAAGTCGCAGAGAAAATGGTCTCGCATTTTATGTTAAGCCCAAATTGAAAGCTATAATAAATTATATGTTAAAAGACAACAAAACAAAAAGAAATCTCAATTTCTTAAAAAACATAAAAAATAGAAATATAAAATAAAATGAAACAAAAAAAAACTTGACATTTTATGTTTTTTTGTTAGTGGAGTATGTTTAGTATTTTATGTTGGATCTACATATATCCTAAAAACATAATACAAAAATAAGTGTATTCCTAAGGTGTGTTTTTTGTATCAGGTATGGCTGGTGTGACTGCATATTTTGGATTCTATGATGTTTGTTGTCCCAAGAAAGGGGAATATGTGTTTGTTTCAGCTGCTTCTGGTGCTGTTGGTCAGCTTGTTGGCCAATTTGCTAAGTCTTTGGGTTGCTATGTTGTTGGCACTGCTGGTACTCAACAAAAGGTGTGTCTCTTCATCTTTTTTCTTTTTTTTGCTTATTATTATTGTTATTATTATAGAGATAGAAAAAATGACAAACTATTTATAGAAAATAGTAAAAAAAATACCGATAGACATTGATATACTTCTATCAGTATCTATCAGTGATAAACTTCTATTATTTCTATCACTGATACACTCTGATAGACTTTTATCAGCATTTATCACGACAATCTAAAAATTTTGCTATTTTGTGTAAATAATTTTCCTTATTTTTCTATTGTTAAAAATTTCTCAAATTATTATTATTATTATTTTGGATATGTATCCCTTAATTTCTTTAATACTACTTATATTATATATGCTCTGTTGTGTGCAGATTGATCTTCTGAAAAACAAGTTGGGATTTGACGAGGCTTTCAACTACAAGCAAGAATCTGACTTGAATGCAGCATTGAAAAGGTTTTCACTTTCTTATCTCTCATTCATTGTGATCTCTATATTGTAAATCCATCCTTATTAGATCTCAATATGGTTTTTATAAATAATGCATGGATTTAATTTAGATTATTATGGTCACAATTTCGTTTCTATTATTTTATAAATAATGCATGGATTTAATTTAGATTTTATAAATAATGCATGGATTTTAAAGGCATATATTTGGGAGAGATTTTTGATTGACCAAAATATATAACTTTTTACCAGGTTTAAAATCACTTTTCTTCTAAAATTGTGATGTTTGATAATGATGAGAAAGTGATTTTAAAAACATTCAATCACTTAGAAGGTGATTTCAAGCAATTTTTATTAGGTGATTGCAAGTGATTTCTTTTTAAAATATTAATGTTTCATATTAAAAAAGTATCTTCCTATTTCACTTTATTTTGTCCTAAAAGTTTTGAAAATTTTATTTTTATTTTTCTTTTAAATTTCTTTTTGTCTATTTTTATTTTAAAAATTAATCTCAAACATGCCTCTAAGTCATTGAAAAATCACTTTTAATTTTAATGGTATAAAATTATTTTAAAAATATAGAACCAATCATTAAAATGATTGTATGATCAAAATCAAACATATCACTTGGTATAAATCACATTTTTTAAAATCATTGTTTCTAACCATCCTCTTAAACATCTCCTTTGTCGTATATATATGTTTTGAAAAAAAGAAAGAAAAAAAAAACGTACCATCAACTGTTTAAATAATGTGTTTTTTGAGAAATTGTGGTTTATATTTAGTCCGGTTGATTAAGAAATTATTTTTTTTTATTAGATTAATTGTTTTAAATGGCAAAACTGTTGAAAATATTTTCAAATATAGTAAAATGTCACTGCTATTAGTGATAGATAATGATAGACACTCATAGACATCTATCAGTGGTGACATTTTGCTATGTTTGTAAATATGTTTACTCATTTTGCTATATTTGAAAACAATCCTTTTTATTACGAACTGTGATAGTCAGTTCGATTTTGTCAATTTTGGGATCAACAAGAATCAAACCAAACCAAACTAATTGGTTTTTAATAAAGAAGAGATCCAAACCAATGTCTAATAAAGAATAAATGAATTAGTTTTTATTTGGTTCAATTTATTATTGCTTTGGTTCTCGGTTGTTGACATTTTTCATTTTTTCTTCTAAATTTTATTTTTTATTTCCAATTTTGTTTTGAATTGATCCTTTTTGCTAATTTTAAATTAAAACTGGGTCCATTTCCCCCTTTTTTTTTTTATAGATTAAAAAAAAAACATACACACTCCATAATAATTGATTTTTTTTCTAAACAATAAATATACATACACCATAATAATTAAAACAGTAAAAGATACCTAGGTTTGTGGTATCATACTTCATGCATTCACACTATATTGATGTTAGTAGGTCCCACCATTAGTGTGAACACAGGAAGGAGTGCATGCTAACACCACTGACATCAAAGGACAGGGTGCATGTTAATACCACTAACCTAAACTCACTTTGACGTTTATGGTATTGTTTTAAACGTTTGTTTTCTAGTTGTGTTTCTAATAATTTTGGGGAAAAAAACTTCTTAAATGAAATTGATTTTTCTACAAGCATGTTTGAAAAATAAAAATTAACTATCTAATAATACAGTTTTTTGAGTAATTTTAGAAGATCAAAATTGATATTTTTCTCAAAAATTAAATAATAGATTAATTTAAGGTTTTCAAATACAGTAAAATGTCACTATCTATAGTGACGATAGACACTGATAGATATCGATTAGTGTCTATCACTAATAAACAATGATAGACACTAATAGATGTCTATCACTGCTAGACACTAATAGATGTCTATCAGTGTCTATCACTGTTAGACAATAAATTTTACTATTTTTGAAAATATTTTTAGCAATTTTTTCATTTAAACTAATTAATCTTAATTTAATTTTTTATTATTATTTTATATATATATAAGAAACAATATAGCAGAGGGATGGATTATAAAAAAAAATTGACTTTAAAGTGTTTAACCACTAAAAACCCTCAAAATAAAGGGTATAATGAATAAAGATGTATTTATAATTGATAAAATCGATAAGTATAATGAAGGAAACAAATTTGTCACTTAAAAATAATTTTGAAAAAAATGCAAGACATAATAACAGTTTTATTGAAAACATCATTTTTTTTTTTTCAAAAGTGTTTAATTGTATTAAAAAATATTCCAAGCAAATCTAGAACTTTATGTCAAAAGGGGCTTGAATTCATATAAAGATTATTTTGAAAAACATTGATATTAGTTTGGTTAAAATGTAGCAATTTGGCATGTATGATTTTTTTTATCTCGTTGATTTTAGTCCAAAAGCTTTTAATAAATCTTTAAAATACTTTGTAAGTTAGAGTTAAGTTAATTCAATTGAATTTTGGTAAGCCAAAATGAACATAGTTCAATTGGCATAGTATAGTACTATGTTTAAAAATTTATAGAGAATACTGTTTAACTTTTTAAAAACCTACTATTGAAGCTATTTCTTGTGGTTTATTTTTTGGCTCTCACGACAACTTTGGGTTGCTAGATTAAAATAATCCAATATCAAATATAGTTTAGTATAAATTTAAACCTAATCTAATAATTGTATTAATGATCAAGCAAATGTATGAGTAGCAAACTTATAGATAAATGAGGTTTCAGTGCAAGTATACATTATCGATGAAGTAATAATCTTGGAGTACTCTAAGTATCGAATCCCTCAAGACTAGGTCGACTTTCAAATTAATTATGACTATAAACCAATAAAACCAAGGTAACCAATATAAGTTTATATTATGGAAAGAAAGTAACTTAAAAACAGTAAACAATGGCGGATAAATAGAGGTAACAATGCTTCAACCCATCGGGTGCTATGCCTTAGGTGATGCAGCTGGATAATACTAGAGTAGTGAGTTACGCATGAACAGAAAACTACTCCTATTCGATCTTGTGTCAAGTTTCTTTAAGAGGTCTAGACAACTAATGTCTAATGTTTCCATGGTTAGCTAGATCTTAGATTAATTCAGGTTCAGTTTCTTTATCCTAAGGGGGGTTATTTCTAAGGTGACGTGATAGTTTTATTTTTAGGCTCAAAGTCCCATATCCTTTGTGACATTTGTTTACCTTAACCTTCTCAACATTAGAGCTCCACTAGTTTGCTAAATTAAATGGCTAGTTGAACTTACCATTTGTGTCTTTAAAATCAACAAAAAGAATGCGTAAAACAAAGTGGTAGGAAATGCGACATTACTAAAGCCATAACAACCATAAGGCATTCACATTGTTGAACCCCTAAAGAGATTTAGCTCATGACTAATGATAAAATAATGATCTTTATTAAATCAAGAACCATAGCTACAAGGTAGTGTTTGATGGGTAAAGAAAGTAAGGAACTACAAGAAATAAATGAAAGAATAATGCTGGAAATACAACTCTAAGATGCCTTGAGGCAAACCCTTAAATTCGTCTTTCCCTAGGTTGAATTCTCCTTCTTCAAGAATGGATCTCCTCTCACCACTCACTTTCACGGGATGAGATGATCTAGAGCAACCATGCCTCAGAGGAACTTTCATTCTTGAGGCTGCTGACTTTAGAAGTTGAGAGAACGCCCAAGGAGACTGACTAAATGACAGAAACTTGTGGTGGAGTCATGGATGGAGTGTTGTCTATTGAAATGAGGAGCTTCCCTTCCTTACATAGACCTCAAATTGGTTGAGGATTGAAATCCAGGCTCTGAGAGTGTACCAAGTGAAATCGGAGCTGACCAACAACTTAGAATGAGAAAAATGCAACCCCCATTGATTGGGTGAATTTTAGAAAATTAGGGCCTAGTGATGTGGTTGCAGTAAAGTTTGGTGATGCGGTCGCATTGAACAAAAATTTCCAAACTGGTCAAGATCACCGGCCGAATTCACAAAATCACCTCAAAATCAGTAAATAACATCATTTAAGATAACCAAGACCCTCATAAGTTCATTTTATTCATTTAAGACTAAATTTAGGGGAAAACACATGCAATATTTCATTTTTTCTAAGTAAAAGTATGAAATTAAAGGCCTAAAACATGCATTTGAATCAATTAATTTACACTTTGAACTCTTGAAAATTGTCCATGCATTTACTCTGATAGTCTATTTTGTAAAAGCAACTGACATTTGAAGAAGTTTACACACGTTTAAGAATTAATGCATTGATGGTTTTCAAATGTAATCAGAATGAAGTATCTAAATTGGTTAGCTTATGAAAATTTAAAAGTTTAATTGACTTAAATTATAAGTTTCACACAACATTGGTCAAATGAAATTTAGACAATGAGGGTGTAAATTGATACACTTATGAAATTGATACAATTATTAGTTCAAAATTTTAATTGATACAACCTTCAAAGTTTAGGAGTATAAATTGATATTAGATTGAAAAGTAGTTATTATTATTTGCAATTCTTGATTTCTTAGACTAAAAAAACGTAACACTAATGGAGAAAGTTGGTATGATTGGATGGGGCAGATATTTCCCACAAGGCATTGATATATACTTTGAAAATGTTGGAGGGAAAATGCTGGATGCAGTTCTAGGAAACATGAGAGCTCATGGAAGAATTGCAGCCTGTGGAATGATATCACAATACAATCTGGAGAAGCCAGAGGGAGTACACAACTTAATGAACATTGTTTTGCAGCGAATTCGTGTCCAAGGCTTTGAGGTTTTTGATTACTACCATCGTTATTCTGAGTTTTTGGATGCTGTTTTGCCTCTCATTCGAGCCCGAAAGCTTACTTATGTTGAGGACATAGCCGACGGACTCAACGCCGGCCCTGCTGCTCTCGTTGGCCTCTTTTCTGGCCGCAACGTCGGGAAGCAAGTCGTTGCTGTGACGCCTCAATCATGAATATAATTTGAATTCACTGATCATTGCAAAACTCTTTTTTCATGTAATTTGATGTGTATTGTCATTGTAGAGCTTTGTTTAGTTTGAAGAAGCTTGCTTTGCAAATCCATGTCAACCTCTTTAGAGGAGCTAAAATGTGTCCTCTAAAATGTGTTAATTAATGAGTTATATAAGTTTACTCGAAAAATAGTTTTTGGGATATATATATATCTATATACATATAGGGAAGTTTTTAAAAATAGAAAAATAAGGGAAACTATTTACACAAAATAGCAAAATTTTTAGATAGTTGTGATAGACGCTGA ATAATAAGGGTGTGGTGTGTGTCAGTTTGGTTTTTAATTGGAGAAGTAAGAATGGGAGAGAAGGTGAGTAACAAGCAGGTGATTTTAAGGGATTTCGTCACCGGATTTCCGAAAGAATCGGATTTCGAAGTCAGGAGTTCCACCATTGGCTTGAAGCTTCCAGAATCCTCCGAGAAAGGAGTTTTGGTGAAAAATCTGTACTTATCTTGTGATCCTTACATGCGAATTCTCATGCAGAAAGCCGATCTTTACTTCCCCATTGATTTTTTCACTCCAGCCTCGGTGATATTTGGGTATGGAGTGGCAAAGATAGTGAAATCAGGTGACCCAAATTTGAAAGAAGGCGATTTGGTTTGGGGAATAACTGGTTGGGAAGAATATAGTGTGATTGAAGACTCACAAAAGCTCTTCAAAATCCATCACTCTGATGTCCCACTTTCATATTACACTGGAATTCTTGGGGAATATGTGTTTGTTTCAGCTGCTTCTGGTGCTGTTGGTCAGCTTGTTGGCCAATTTGCTAAGTCTTTGGGTTGCTATGTTGTTGGCACTGCTGGTACTCAACAAAAGATTGATCTTCTGAAAAACAAGTTGGGATTTGACGAGGCTTTCAACTACAAGCAAGAATCTGACTTGAATGCAGCATTGAAAAGATATTTCCCACAAGGCATTGATATATACTTTGAAAATGTTGGAGGGAAAATGCTGGATGCAGTTCTAGGAAACATGAGAGCTCATGGAAGAATTGCAGCCTGTGGAATGATATCACAATACAATCTGGAGAAGCCAGAGGGAGTACACAACTTAATGAACATTGTTTTGCAGCGAATTCGTGTCCAAGGCTTTGAGGTTTTTGATTACTACCATCGTTATTCTGAGTTTTTGGATGCTGTTTTGCCTCTCATTCGAGCCCGAAAGCTTACTTATGTTGAGGACATAGCCGACGGACTCAACGCCGGCCCTGCTGCTCTCGTTGGCCTCTTTTCTGGCCGCAACGTCGGGAAGCAAGTCGTTGCTGTGACGCCTCAATCATGAATATAATTTGAATTCACTGATCATTGCAAAACTCTTTTTTCATGTAATTTGATGTGTATTGTCATTGTAGAGCTTTGTTTAGTTTGAAGAAGCTTGCTTTGCAAATCCATGTCAACCTCTTTAGAGGAGCTAAAATGTGTCCTCTAAAATGTGTTAATTAATGAGTTATATAAGTTTACTCGAAAAATAGTTTTTGGGATATATATATATCTATATACATATAGGGAAGTTTTTAAAAATAGAAAAATAAGGGAAACTATTTACACAAAATAGCAAAATTTTTAGATAGTTGTGATAGACGCTGA ATGGGAGAGAAGGTGAGTAACAAGCAGGTGATTTTAAGGGATTTCGTCACCGGATTTCCGAAAGAATCGGATTTCGAAGTCAGGAGTTCCACCATTGGCTTGAAGCTTCCAGAATCCTCCGAGAAAGGAGTTTTGGTGAAAAATCTGTACTTATCTTGTGATCCTTACATGCGAATTCTCATGCAGAAAGCCGATCTTTACTTCCCCATTGATTTTTTCACTCCAGCCTCGGTGATATTTGGGTATGGAGTGGCAAAGATAGTGAAATCAGGTGACCCAAATTTGAAAGAAGGCGATTTGGTTTGGGGAATAACTGGTTGGGAAGAATATAGTGTGATTGAAGACTCACAAAAGCTCTTCAAAATCCATCACTCTGATGTCCCACTTTCATATTACACTGGAATTCTTGGGGAATATGTGTTTGTTTCAGCTGCTTCTGGTGCTGTTGGTCAGCTTGTTGGCCAATTTGCTAAGTCTTTGGGTTGCTATGTTGTTGGCACTGCTGGTACTCAACAAAAGATTGATCTTCTGAAAAACAAGTTGGGATTTGACGAGGCTTTCAACTACAAGCAAGAATCTGACTTGAATGCAGCATTGAAAAGATATTTCCCACAAGGCATTGATATATACTTTGAAAATGTTGGAGGGAAAATGCTGGATGCAGTTCTAGGAAACATGAGAGCTCATGGAAGAATTGCAGCCTGTGGAATGATATCACAATACAATCTGGAGAAGCCAGAGGGAGTACACAACTTAATGAACATTGTTTTGCAGCGAATTCGTGTCCAAGGCTTTGAGGTTTTTGATTACTACCATCGTTATTCTGAGTTTTTGGATGCTGTTTTGCCTCTCATTCGAGCCCGAAAGCTTACTTATGTTGAGGACATAGCCGACGGACTCAACGCCGGCCCTGCTGCTCTCGTTGGCCTCTTTTCTGGCCGCAACGTCGGGAAGCAAGTCGTTGCTGTGACGCCTCAATCATGA MGEKVSNKQVILRDFVTGFPKESDFEVRSSTIGLKLPESSEKGVLVKNLYLSCDPYMRILMQKADLYFPIDFFTPASVIFGYGVAKIVKSGDPNLKEGDLVWGITGWEEYSVIEDSQKLFKIHHSDVPLSYYTGILGEYVFVSAASGAVGQLVGQFAKSLGCYVVGTAGTQQKIDLLKNKLGFDEAFNYKQESDLNAALKRYFPQGIDIYFENVGGKMLDAVLGNMRAHGRIAACGMISQYNLEKPEGVHNLMNIVLQRIRVQGFEVFDYYHRYSEFLDAVLPLIRARKLTYVEDIADGLNAGPAALVGLFSGRNVGKQVVAVTPQS
BLAST of Lsi03G009090 vs. Swiss-Prot
Match: DBR_TOBAC (2-alkenal reductase (NADP(+)-dependent) OS=Nicotiana tabacum GN=DBR PE=1 SV=1) HSP 1 Score: 456.8 bits (1174), Expect = 1.9e-127 Identity = 225/343 (65.60%), Postives = 274/343 (79.88%), Query Frame = 1
BLAST of Lsi03G009090 vs. Swiss-Prot
Match: P2_ARATH (NADP-dependent alkenal double bond reductase P2 OS=Arabidopsis thaliana GN=P2 PE=2 SV=2) HSP 1 Score: 427.6 bits (1098), Expect = 1.3e-118 Identity = 213/339 (62.83%), Postives = 259/339 (76.40%), Query Frame = 1
BLAST of Lsi03G009090 vs. Swiss-Prot
Match: P1_ARATH (NADP-dependent alkenal double bond reductase P1 OS=Arabidopsis thaliana GN=P1 PE=1 SV=1) HSP 1 Score: 424.9 bits (1091), Expect = 8.2e-118 Identity = 216/340 (63.53%), Postives = 257/340 (75.59%), Query Frame = 1
BLAST of Lsi03G009090 vs. Swiss-Prot
Match: PULR_MENPI ((+)-pulegone reductase OS=Mentha piperita PE=1 SV=1) HSP 1 Score: 393.3 bits (1009), Expect = 2.6e-108 Identity = 188/340 (55.29%), Postives = 255/340 (75.00%), Query Frame = 1
BLAST of Lsi03G009090 vs. Swiss-Prot
Match: YFMJ_BACSU (Putative NADP-dependent oxidoreductase YfmJ OS=Bacillus subtilis (strain 168) GN=yfmJ PE=2 SV=1) HSP 1 Score: 218.4 bits (555), Expect = 1.2e-55 Identity = 136/344 (39.53%), Postives = 182/344 (52.91%), Query Frame = 1
BLAST of Lsi03G009090 vs. TrEMBL
Match: A0A0A0KTV5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G468980 PE=4 SV=1) HSP 1 Score: 504.6 bits (1298), Expect = 9.1e-140 Identity = 247/311 (79.42%), Postives = 271/311 (87.14%), Query Frame = 1
BLAST of Lsi03G009090 vs. TrEMBL
Match: A5BKL3_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0094g01120 PE=4 SV=1) HSP 1 Score: 464.2 bits (1193), Expect = 1.4e-127 Identity = 232/341 (68.04%), Postives = 267/341 (78.30%), Query Frame = 1
BLAST of Lsi03G009090 vs. TrEMBL
Match: A0A059AZY6_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_H01876 PE=4 SV=1) HSP 1 Score: 462.6 bits (1189), Expect = 3.9e-127 Identity = 229/342 (66.96%), Postives = 269/342 (78.65%), Query Frame = 1
BLAST of Lsi03G009090 vs. TrEMBL
Match: W9S476_9ROSA (NADP-dependent alkenal double bond reductase P2 OS=Morus notabilis GN=L484_020362 PE=4 SV=1) HSP 1 Score: 460.7 bits (1184), Expect = 1.5e-126 Identity = 229/341 (67.16%), Postives = 272/341 (79.77%), Query Frame = 1
BLAST of Lsi03G009090 vs. TrEMBL
Match: A0A022RAA1_ERYGU (Uncharacterized protein OS=Erythranthe guttata GN=MIMGU_mgv1a009314mg PE=4 SV=1) HSP 1 Score: 460.7 bits (1184), Expect = 1.5e-126 Identity = 228/344 (66.28%), Postives = 274/344 (79.65%), Query Frame = 1
BLAST of Lsi03G009090 vs. TAIR10
Match: AT5G17000.1 (AT5G17000.1 Zinc-binding dehydrogenase family protein) HSP 1 Score: 434.5 bits (1116), Expect = 5.8e-122 Identity = 216/340 (63.53%), Postives = 260/340 (76.47%), Query Frame = 1
BLAST of Lsi03G009090 vs. TAIR10
Match: AT3G03080.1 (AT3G03080.1 Zinc-binding dehydrogenase family protein) HSP 1 Score: 428.7 bits (1101), Expect = 3.2e-120 Identity = 215/340 (63.24%), Postives = 257/340 (75.59%), Query Frame = 1
BLAST of Lsi03G009090 vs. TAIR10
Match: AT5G16990.1 (AT5G16990.1 Zinc-binding dehydrogenase family protein) HSP 1 Score: 427.6 bits (1098), Expect = 7.1e-120 Identity = 213/339 (62.83%), Postives = 259/339 (76.40%), Query Frame = 1
BLAST of Lsi03G009090 vs. TAIR10
Match: AT5G16970.1 (AT5G16970.1 alkenal reductase) HSP 1 Score: 424.9 bits (1091), Expect = 4.6e-119 Identity = 216/340 (63.53%), Postives = 257/340 (75.59%), Query Frame = 1
BLAST of Lsi03G009090 vs. TAIR10
Match: AT5G37980.1 (AT5G37980.1 Zinc-binding dehydrogenase family protein) HSP 1 Score: 417.5 bits (1072), Expect = 7.4e-117 Identity = 212/341 (62.17%), Postives = 257/341 (75.37%), Query Frame = 1
BLAST of Lsi03G009090 vs. NCBI nr
Match: gi|659131567|ref|XP_008465751.1| (PREDICTED: 2-alkenal reductase (NADP(+)-dependent)-like [Cucumis melo]) HSP 1 Score: 568.2 bits (1463), Expect = 9.6e-159 Identity = 281/347 (80.98%), Postives = 306/347 (88.18%), Query Frame = 1
BLAST of Lsi03G009090 vs. NCBI nr
Match: gi|700195979|gb|KGN51156.1| (hypothetical protein Csa_5G468980 [Cucumis sativus]) HSP 1 Score: 504.6 bits (1298), Expect = 1.3e-139 Identity = 247/311 (79.42%), Postives = 271/311 (87.14%), Query Frame = 1
BLAST of Lsi03G009090 vs. NCBI nr
Match: gi|698423817|ref|XP_009782873.1| (PREDICTED: 2-alkenal reductase (NADP(+)-dependent) [Nicotiana sylvestris]) HSP 1 Score: 473.4 bits (1217), Expect = 3.2e-130 Identity = 233/343 (67.93%), Postives = 280/343 (81.63%), Query Frame = 1
BLAST of Lsi03G009090 vs. NCBI nr
Match: gi|747075990|ref|XP_011085050.1| (PREDICTED: 2-alkenal reductase (NADP(+)-dependent)-like [Sesamum indicum]) HSP 1 Score: 471.1 bits (1211), Expect = 1.6e-129 Identity = 231/342 (67.54%), Postives = 271/342 (79.24%), Query Frame = 1
BLAST of Lsi03G009090 vs. NCBI nr
Match: gi|225434189|ref|XP_002279359.1| (PREDICTED: 2-alkenal reductase (NADP(+)-dependent) [Vitis vinifera]) HSP 1 Score: 464.2 bits (1193), Expect = 1.9e-127 Identity = 232/341 (68.04%), Postives = 267/341 (78.30%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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