Tan0018417 (gene) Snake gourd v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GATGACCACACAAAAATTTGGGCTACCTTATCTACAGCAAGGCTTCCCACAATACCAAAAGGAGTTGATGAATTTACAGTTTTGGAGGAACAAAAATGGAGAAAGCCAAGGGATCATCGATGGAAGGAACTCCCTCCCTCGTAGTTCTCATCACTGGAGTGAGCCAAGGCATTGGCAGAGCTTTGGCATTGGAATTGGTCAAGAGCGGCCACACTATCATTGGCTGCTCTCGCAATCAAAACAAGCTCGACTCCCTTCGAACACAACTCTCCCACCACAACCACTTGCTCCTTAAACTTGATGTGGTTTGTCATTTTTCTTTTTTCTATAACTCCAACATTCTGTGTCTTCAGAAAATTAAATTATGCATAATCTTTTTTTTTTTTTCAGACTTCGGATGCTAGTGTTGAGGATCTAGTTCAAGCTGTCTTGGAAAGAAATCTCGTACCTGACATCCTTGGTATTATTCTTCCATATTAATTCTGTCGTGTTGATTTTGTAAAGATATTCGAATGTCCAAGTACGGAGTCTCGTTGTCCGGTCAGCTAGTCGGGGTCTGGTGGAGTTTAGGGTTTAGGAAGGATGCCAGATAGAAATATTCTTAATTTTGTCTCTCTCTCCGAGCATGTAAATTTTGTAGTGTTTTCGTTTTAAGAGATTCATTAATTTATTATTCTGAATACTTGGTTTGTGGCAGTAAACAACGCAGGTATAATTAATGAGAAGTCGAAATTTTGGGAGATTTCAGTGGACGAGTTTGATTCGATCATTGATACGAATGTAAAAGGAACAGCAAATGTACTCCGTCGTTTCATTCCTCTTATGATTGCAAATGAGAAGAGAATTATTGTTAATATATCTTCTGGCTGGGGAAGAATCGGTGCTCCAATGGTGGGTGGGTACATGAATAAGTAACTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAGTTTTCTCCGTATAGCGCCTCAAAATGGGCGATTGAGGGTTTGACTAAATCGATATCGATGGAATTGCCGGAAGGAATGGCCATTATTGCACTTCATCCTGGCATTATACACACAGACATGCTTGTAACCTGCTATGGTGAGTTGGCTGCTAACTACCCAAATCCTGAAACATGGTATGATATCAAAATTTACCTTACTTTCTTTCCTTTGCTTTGCTTATCGTCCTTTACTTCAAGGATAAAAATCTCTTGGGCTAAAAACAATAAGTGTTTTATTTTAAAAGGAAAAAAAAAAAAAGAAAAAAAGCAAAACCATAATAAGATTCTCAAAAGATCAAGAGAGAAACAAAATCAAGAAGAATCGATCAGCCACATCTGCGTGAATAGTATAAAGGGTAGACAAGGAGCACCGAATAGATAACTCATGGAGTTAGGATTACGCTCCTTCTAAATATGATAAATGGATATGCATCAAGCAAGCCGCAATAACGCCTTCTAGACCTACTAACATGGCACACCTAGACTAACACAGTGGCTCTGGCAAAAATTCTATGAATAGAGCCTCCCCACAATAGCGCAGTATCTCAAACTGCTTGACTAAAGCGATATTCCCCATAACATGAACAAAATAGGCATCGTTGGTATAGTAAACATCTCAACTATGGAGATAGTTCCTAGTAAGTAATCTATCGCACACGGGGAGCCAAGAAATAAAAGAATGCTTGTGTGTTCTGTTTAAATCAAAGGAGCCTATCCCAAAGCATTATCAGTTCTCACGATCTAATAGACACCTCAACACTCGCCACAAAAAACATGTTAAAGTCGCTTGGTTACCAAATAATCATGTCCTTGATGGAATATGAATTCCAATGAGCAGCGGAAACGTGTTTGAATCGTAAACTCGATTTGTTTTGGCTAAAAGTCAAATACCAGTATATTGGAAAAAGCACAAAATTGATGAGCAATTTAAGCATGGATTAAGCAGTAAACATGTTGTATAAGTTCCTAAACTAAAAGAAGATAAAATTTACCTTTGTAGTTTTGCAGCAACACCTTGCTTCTCAACAATTTCTACAACACAACAGTTCTTCTGAAGGGATTTGGAATTCCCGCACCGGAAGACGTTGTGAAACGTCGTTGATCCGTTGTGTAATTATATCTTAAAGTCGAACTAAACAACTTTAATTCTAGGCTAAACATGCATAAAAGAGGAAAAACAGTAAGGATAAACGATACTTACTTGTTGAAGAACCCTTTTTCAATGTTTTCCTCCTCCGGTCACGATCCCTCTCGAACCGACGAACTCCTCAAACACGAACCTCGATCCGAACAACAAGACACCTCCACAAAGTCTTCTCGGTTGTTCTCGGGAGGTTGAGGGAGAGTAGGTGGGACTCTCTTTAGATTTTGGGTGAGAAGAGATCTTAGAAAAATGAGAGAGTTCTAGAGAGAATACATTTTGCTCTCTTTGGATGAAAATAAAAAAAAATGGCAAAATCCTTATAAGATGCCTTTGAATGAACCTATTTATAATGGTGTGTGGTGGAGTTAAAATCTCCACCAATTCACCATTTTACCACAACTATATGTTATACAAATCATATTTGCATATCACATAATATAAGGTATCTCTGGAATTTTAAATTGAATAACATTCAATTTAATTTCTCTCAATTCAATTTCTCCAATAAGCACTAATTAATCAATAGGCTATACTATAGTTTATTATGAATCTCATTCACATTAAACTATATATTATGTCATATATATCTCATATATATGACATAAATACCCAAATAATGAATTTGAACACTTCAAATTCATACCAAACTGTAAACTCTCAATTTGTCCAATTTGAGCAAACCGAGGGACCTAATGGACCTACACGTGACGAGCTCCAATGATCCGAGACTAACCTATCAAACTCTTTGATCCGATTATTCAACATTCATTAGTTACGGTAACACTCTACTAAAACCCGTAGCTGCACTGTCATCACTGTAGGACAAGTTGTGTCCATCGATATAACCAAAACCCGTGAGTCGACCCTTCACTGGTTGTTCGTGAGACACTTCTTTGGGTCAACCATTGCTTTTACCCCGTGTCTACCTCTTACTCCTTAAGTCCCACTGCTCCTCTAATGAACAACTACGTTGCATGGTTCAACCATAAACAACAACCCTCTCAGGCCAATGAGAGAGTGGGGCCCCGTTGTTCAAGCCCTAGAGATAGCACTTAAGCGAACAACCCTTCTAGTTTTCCTAAGTCGGGAACGAGTGAATTCCTTCTTGCGTAGTCAAGTTCCCAGCTCCCCACGTGGTCCTGTCCCTAAGAAGATAGGCACATTGGGTGAGCAACAGTGGCCACCCTCACCCGTACTAGTCAAAGGACAAATTTCCGCAGACAGGAGTCCGTAACATGCTCAGTATTAAGGTCGAGTCACTAATGGTCATCTACGAAATTATTAGCTCTATACTGTTAACAGTGTTACATCAGTAAGTCTAATAATTCACGATCCGGTCTTGTACAATCTCATTGCACAGGATGCCCCCACTCGCATGTCAACCACATGAACGAGTCAGATCACCTCGTTTGTATCTTAATACAAAGCGGGTCGCATCCACAGCGTATCCAGGATTGGGTCTCCAACCCTATCCATATACTGTAGACCGTTAGGGTCATTAACTTGAACGCGATCCTCCTTGTGTGTCCACTACACAACGTTCAAGTTCTAGTTCTCTCATTAATACAATGACCCTAGAGCATAATTTATTAGATTAAGTTTATGAAATATGCGAGACACAAAATTCAAATAAATAACTCTTATTTATATCATAAGGCTAAAATAAATAACTCTTATTTATTTACAACATGGAATATTACAAATTACATGAGATGAGGACATACATCCCGACAAACTCCCACTTGGACCAAGCTAGTGGAGTATATGAAACATTTCTCAAATGTACAATAAAGTAATACAATAAACTAGGGCATTGAATACCCTTTTACAATACTCCCACTTGCCCTAGTCAGGAAGCACTCGAAGACCTAGACTCTCTAGGTAACCCTCAAACACCTTAGCCATGAGGGCCTTTGTAAATGGATCAGCAACGTTGTGCTCCGAAGGTATCTGCGTGACCATCACGTCTCTGCGGTGCATAATCTCCCGTATCAGTTGATACTTACGCTCAATATGCTTGCCCATTTTATGACTCCGAGGTTCTCTCGAGTTGCCTACTGCACCACTGTTGTCACAAAACAGCGTGATCGACAAGTTCATATTTGGAACAACTTCCAAATCCAACATGAATTTCCTAAGCCAAACAGCTTCCTTTGCAGATTCACAAGCCGCAACATACTCAGCTTCCATCGTGGAATCAGCGATGCATCCCTGCTTGATGCATCGCCACACTACAACTCCTTCATTCAGAATGAAGGTTGACCCCGAAGTGGTCCTAGAATCCTTATCGGTCTGAGAGTCAAAATATGTGTATCTCATAAGGATCAAATCCCCACTCCCATACACAAGGTTGTAGTTCCTCGTTCTCCTAAGATACTTGAGGATTGCCTTAACGGTTGTCCAGTGATCTAATCCTGGATTGGATTGATACCTAATGACAATCCCAACTGCATAACAGATGTCGGGCATAGTACACAGCATGACATACATCAGGCTCCCTACAACTGAAGCATAGGGGATTCGTCTCATATCCTCACCTCTTGAGGTGTCTTATGACATTGATCCTTAGACAAGTGAACCCAGGCAGCAAGCCCTTCTTGGAGTTCTGCATCTTATATCTAGACAACATCTTGTCAATATAAGACGCTCGAGACATGGCTAGCGTTCTGTTCTTCCGGTTCCGGACTATCTGGATACCTAGAACATACTGTGCCTCTCCCAAATCTTTCATTTGGAATTGCGAACCCAACCATTCCTTAATGTCAGTAAGAAATCCTACCTCATTCCCAATGAGAAGGATATCATCCACATACAATATTAGAAATGCAACAGTTTTGTCGATGATTTTCTTGTTTCAGTCCATAAATAGACCTTTTAAGCCAGCAAACACTTTTCTTTTGGGCTTGGACAATGAACCCCTTGGGTTGGTCCATGTAGATGGTCTCGTCAAGGTTGCCATTCAGAAAGGCGGTCTTGACATCAATCTGCCATACCTCATAGTCATAATATGCGAGAATGGCCAGAAAGATTCTAATCGACTTTACTATGGCAACAGGTGAAAAGGTTTCCTCATAGTCAACCCCTTCCACCTAGGTAAAACCTCTTTCCACTAGTCGAGCTTTGAAGGTCTGCACCTTCCCATCTACGCCACGTTTATGCTTGTAGATCCATTTGCAACCAATAGGTTTAACCCCATCCGGTTGATCCACAAGCTCCCAGACGGAATTGAAGTACATCGACTCCATTTCCTGGTCCATAGCTTTAATCCATTCGTCTTTGTCAACGTCTGTCATTGTCTGATCATAGGTTAATGGATCCTCGCAATCATCATCAGGGGTGACGACCTGGGTTTGAGCTAAACCCATGTAACGTTCAGGCTATCTCACAGCCCTCCCACTACGTCGAGGCATTCCCAACTCTTGGGAACGGACTTGACTAGACGAGTTAGGATCAACAACACTTGTTGATGTACTAGCACCATCAGCAACTCTTGTTGATGAACTGTCCATTTCATTCAACACAATCTTACTCCTTGGTAAGTGATCCCTTATGTGGTCTTCCTCAAGGAAAGTGACGTTTGTCGACACAAGCACCATATTATCCTTAGGATTGTAAAAGAAACCACCACTAGTCTCTTTTGGGCAACTAGAATCAGGGAGACGAACATAGCTTATCATCGACCGAACAATGTTCAACAGGATTATGTTTCTCCTCTCTGATACACCATTTTGCTGTGGCATACCAGGTGTTGAGAGTTGGGATGCAATTCCATGTTCTATCATATTGTCCTGGAATTCAGTGTCCATATACTCTCCACCTCGATTAGATCGAAGAGTTTTAATCGTTTTACCTAACAGGTTCTCAACCTCAGTCTTGAACTCCTTGAACTTTTCAAGAGTTTCGACTTCCTATGCATTAGGTAAAATATACCCATACCTCGAATAGTCATCTATGAAAGATACGAAGTATTCGTAACCACCTCGTGCTTTAACATTCATCGGACCACGAGAGGTCGAATGTATAAGCTCGAGGGCTCCTTGGCTCTATATATTTTTCCACTAAAAGGACGTTTGGTCATTTTGCCTTCAAGGCATGACTCACATCTGCAAAAAGAGTTTTCTTCCAACTCGCTAGCAGAAGTCCACTTTTCACTAGTCTCTCAATCCTATTGGGATTAATGTGGCCTAACCGTAGATGCCAAAGATGGGCACTTTCTTTGGGAGAAACTTTTACTCTCTTAGTTCGCGTTTCTGCTGTTTTAAACAATTCGGTATTCAAAACACTTTTCATCGAATTAGGGTTCAAAACATATAAATTTCTCTCAAGCGAAGCAGAACAAATCAAATTTCTATTTTGAGAAATAAACGCTTTATTACTCTTCAAAGAAACGGAAATATTTTGTTCTAATAGTCAGGAAATCGAAACTAGGTTTCTAATAAACCAAGGAACTATGTACATATTATCCAATAATAGGTACTTCCCGCCAAAGAATAGTTTCGCCGTGCTAATTGTTGCAGTTGAGACAACTTCTCCGGATCCAACCCTAAGTGTTATCTCACCCTCTTGCAGCCGCTTCCAGGAACTTAATCCTTGAAAAGAAGAGCAAACGTGATTAGTGGCGCCTGAATCCAATATCCAGACAGAGTCACTGCTCTCCACTAAACAAGTTTCTGTGACAAGTAAATCACACTTACCTGTTATCTTCTTTTCACCAAGGAACTTGGGACAACTCCTTTTCAGGTGTCCGTCCCCGTTGCAGTAGAAACACTTTCTCGCAACTTCCTTGATTTTTTTGCCTTTTAGGGCGACAACGCGGTCAACACTATCCTCTTTCAACTTTTCCTACTTCCCTTTAGGGCCTGAAGAGCCTACAAACTTTATCCCAGAGGTCAAACCCCTGTGAAAAGGTCTTAAGGCAACACTTGCCTCAGTTTCCTGTCCCCTGGTTTGCACCAAAGACTGGAAGGTTTGTAGATCGTTGAATAGGACCGTTGATCCAAGCACCTGAGGACCCTCCTTAGTGAGCGTGAACTCTTGGTCGTCATTTACCAAAATCGTATCTATATTGTTTTTCCACGAAAAATCAACGCCGACTAACTTAACAGAAGATAAAGGAGTGTTAAAAGCGTTTGACATTTTGTTGCTGAAAAAATGAAAAACTTTGTATTAGTCTAACAAAAAACTTTTAAAAATCCAATCGGGTTTTAGCAAATTTTTATCCTATGATCCCTAGGTCATTTTAAAATTTGCAATGATATCCCAAAAGTTTAGAATGACCGCCACCGTAGAGTAGACAATCCCACTCCTCCTCTGGGACGAGACTTTCTCGACCAGACCCTAATCCCAGAATAACTCTTATTCCATTAGGAATCCAGTTACCATTTTTTTGTTTGAATCCATTAACTCTTAACAAATCATGTGAGTGTCACCCTCAATCTTTAAATTTCCAAGTATCCGTCCAAACAATAGTCGTCGTAGGGAGGACTACGAAGGAAAACCAACAAGGAAATCGTATCCCTTTCGAGAATTCACGGTGTTTCGGCTTCCATGATCAAGGCCCCCGTAGGGATTGTCTGGTCCAGGCCAAACTAGCAGGCGGATCATAGGCGTCTCACGGTGTGAATCGAAAGAAGAGACTGTGGGTCTCGTTTTCAAGGTCCCACTCCCTCTCACTATAAGTACTTTCTCCATTCACGTTGAATATTGACCCATACAAATGCCACCCGTAGGGGGACGCTCCCATTTGCGCCACGAGGCCGAGTATGGATCTCACGGTGCGAACTTAACGGAGATTTGTGGATGGAAAATTAAATGTATCTCATACACTTTATTTCCTCCCACCCAACACTTGAAATTAAACGGGATTGACCTAGATAAACCGGCTAAAATTTACCTAAGTCTACCAAAATAACTCTTATATTGGATTAGCCTAAGTCTATAACCACATTATTAACTTAGGTCTATGTGAGTAAATTAATTAACTCTTAATTAACGGCACTCACGAGAATATAACCTAAGAATCTCCGGATCGAATTCACTCCTAGGTCGGTTCCCAGGTAGGGGTGTTCCGCAAAGCGTCAGCTTAAATACCCCAGCCTTAGACAGAACCTTTCTTAGACAGAGTTACTTATCAGTCTCCATTCAAAAGTCATATTTGATTTCCTAATTCTAATCTTATTAGAACTAGAAAACCTAAGTCTAATTATTCAAGTTCTAAATATTTTAAAACTAATAATTAAATTAGGTTACATGCATTTCTATGTTATAGTGTTTGATCATTCATCACATGAATAATACTATACTATAACATGCATTCATCACATGAATTAAATGCATGAGTATGCTTTTAATCTAAAAAATATAACACTTATATTTAAATAAATTAAAACATGCAAACTTTATATTATAACTCTTATGATATAAACCTATCATGCATACTGTATATTATATCTCTTATAATATAAATATGATGCATGAAATGTTTAACCTAAGGTGGGATTTTAAATCTATATGACATATATTATGCACATAGAATAATTATTTCATACATCTCATGCATAAAATAAATAAATAGCATTATTGGACCGATTTTTGGCACCCTAGGGACAGAAAATTAAATTAATTAACATTAATATAACATTTATATTAATATTAATTAAAATAAGAGAATTTGTAATGGGTAGCAATTATGGTTTTAGTATTTGTAGATATAGCAACATTTTAAAAGAATTGCAAATATGGCAAAAGTCTTTAATTTTTTTATATAATTCCAATTATACCCTTGGCTTAAACCTATTCCCTTTTTAATTGGTATTTGTTTTTCAATTGGTATTTGTTCTTCACGGTTACTTAAATATTCCTTGTTATTTTTATATTTTTATATTCAAAACAAACATGTTATGCCTGACATTTATATTTTTTATTATTTTACAATTTTAAGCATTTAAACATTTCAATTTTCTAGATTCTCAAACAGTCATACATATTTAACTACTTGTAAGGCTCTAAATTCACAGTCAAATCAAATGAGATGTATTATAATTTATTTAATATACCTATTTTTTTAGAGAATTTGTAATGGGTAGTAATTATGGTTTTAGTATTTGTAGATATAGCAACTTTTTAAAAGAATTGCAAATATGGCAAAAATCTTTAATTTTTTTCATAATTCCAATTATACTCTTGACTTAAACCTATTCCCTTTTTAATTAGTATTTGTTTTTCAATTGGTATTTGTTCTTCACGGTATTTTTCTTCTTTCGATTTTTACGACAACATCTTCTTGATTCCAGTCCAATCTTCCCAAACTCTTCTCGATTCCATTCCAATCTTCTGTCGAGTCGCAAGTTTGAGTATCTTCTCAAATTCAATCGGAGTCGCAAACCTTCACCTATTCGATCAGGTATTTTCTAGTTTGATCGGTTGAATTGCAACCCATGAATTTTCATCGAGTTTGTTTGATTATCTTCTCCAATTCGATCGAAGTCGCAAGTTTGTCTGATTATCTTCTCCAATTCGATCGCATTGTAGTATCTTCTTATTCGGTCGAAGTATCTTCCAATTCGATCTTTTCGAAGTCCAACGGAGCTTTTTTCGTGGGTATTTGATTTTTTCAATCAACATTTTTCGTGGGTATTTCTTATGTTCATTTTGTTACATCACTATTTTTCTGCTTTGGAGTCGCAAGTTTTCTTCATTTTTTGTTCTATCAGCAATACTGTTTTCTAGATGATCGACGATATACGCAACATCAGTGATATCTATCATTGTTTTCTAGATATGATCAATAGATATCGATTATATCGCTGATATCGATGAATTAATAGATATCAATGATATTAGTGATATATCTGAGTGACTATTGTGCTTCCAATTAGTGATATACGATCTTCCGTTGGAGCTCTTTTCGTGGGTATTTGAGTTTGTCAATCAACCAGATCTTTTTGTGGGTATTTTTTGTTCATTTTGTTATATCACTGTTTTTCTGCAATGTTTTGGAGTCGCAAGTCCGATTTTGGTGATTGTTTTGTTTTCTAGATATGCTAGAGAATACATATGACATCGGTGATATCGATTGATATCTATCATCATTTTTCTAGATACAATGATATCGGTGATATCATTGATCAATATATATGATATCAATGATATCAATGATCAAAAGATATCAATGATATCAGTGATACACTGTTTTCTAGATATCAACGATATCAGTTATATCATTGATCAATAGATATGAATCAGTGATCAGTAGATATCAATGATATCACTGATATCAGTGATCAATAGATATCAATACTATCAGTGATATCATTAATCAATGATATACGAGTGACTATTGTGGTGATCGATTTCTATATTACTTAATATTGTTAATGTTGTTATTACTTTTCGTAGGAACTATGATGAGAAAAATAGTTATTTTTTATAGTAGGCAATGGAATGAGAAAAATTTCTATGAGAATTACAAGACCATTGGAATTTTTGTTGATGAGATGATGTGTTTTGATGATTTTATTAATCTGATTGTGAAAGAAGTTCGAATGGATAGTTCTATTTCTTTTATAGAATTGTCGATGTTATTAGGTTAGGGATAAATGATACTCAGGATGTGGTTAAAATTCAAGAAAATAAAAATGTTACTTGGTTTTTAACTTTAGTGAAAGATCAAAATACAAGATATCCTTTATTTTCTCATATTACAAGAAGTCTAATAGAAAAGTTATGAGTAATAGGTAATAGATAGGTAGAAGTTTATCAGACAACTATCATTGATAGAAACCTATGACTTCTATCAGTGATAGTAGTCTATCACTTTTTTTTCATTAACTTTTATCAATCATTAACAGGATAGTAGTCTATCACTTCTATCAGTGATAGACAACTATAGAAGTCGAATAGGAACAAGATGTCTAATAGATAATAGAAAAGTTATGAGTAATAGGTAATAGATAGACAATTATGGTAGAAGTCTATCAGACAACTATCACTGATAGAAGTCTATCACTTCTATCAGTGATAGATATCACAATAGTAGTTTATCAAAATTAGAAGAAAAATTAGTTATTAAATAAACAGACAAAAAAATTAGTTATTAAATAAACAGACTTCTATCAGTGATATCACTGATAGCAGTGACTGGCGTGAAGTGTTTTAGTAATTTCAATTTCTCTTTTCAAATTTTTGCTATTTTTGCAAATAGATTGAGCCATTTGCTATATGGACAATTATATTGGTCCTTTTTGCTACCAACCCAATTGCCCCTTAAAATAATTTATAAAATACATTTTACAAGAAAATAAAATTAAAAAAAATAAAAATCGGCAATTGCGTCAAGCCAGACTCGAACCGCTGCCCCATGATGCCACTCCCATGCGTTTCTTGTGCACCATGCTCAACTACGCTGCAGTGGCTAGCGTTGCAACGCTGTAGTGTATAGCGCCACGCCTAGCATTCTCAACGCTGTGGCGTTGGAACACTACCCCTAGCGTTGCAACGCTGCACTGTAGCACCCTCTCCAGTAGCATGGATGGCGTCGCAACGCTAAAGAACAGTGTCACGACGCTGATGAAATTCCAGCAAACCTCCTTCACTGTTTTTCACCAAAAACGCCAGTTTTTGCTCCGTTTTCTTCACGACAACTCTTGCCACGAACGTCACAAACATACATACTCGATTTACATCAAAAAATGCACAAAACAACGAGCCCTTACATTGATCTCATCAACTTTAATGTAAATCTAAACTATGTGCCAAAAATCGAAAACATCCAAAAATGCAAACCATTAACATTCTTCTCATGAAAATTTATGTTACCAACCTAATTTTAAGATATTTAGAGAATATACAACGAAGAGCAACGATTGGCTTTAATACAAATTGAAGGGATTTGGAATTCCCGCAGTGGAAGACGTTGTGAAACGTCGTTGATCCGTTGTGTAATTTTATCTTAAAATTGAACTAAACAACTTTTAGGCTAAGCATGCATAAAATAGGAAAAACAGTAAGGATAAACGGTACTTATTGGTTGAAAAATACTTATTCAACGTTTTTCTCCTCCGGTCACGATCTCTCTCGAACGGACGAACTGCTCGAACACGAACCTCGATTCGAACAGCAAGACACCTCCACAGGGTCTTCTCGGTTGTTCTCGAGAGGTTAAGGGAGAGTAGGTGGGACTCCCTTTTGATTTTGGGCGAGGAGGGATCTTAGAAAAATGAGAGAGTTCTAGAGAGAATACCTTTTGCTCTCTTTGGATGAATGGCAAAATTCTTACAAGATGCCTTTGAATGCACGTATTTATAATGGTGTGTGGTGGAGTTAAAATCTCCACCAATTCACCATTTTACCACAACTATATGTTATACAAATCATATTTGCATATCACATAATATAAGGTATCTCATACCTTATTATACAAATCTCATTTGCATAAAATGTGGAATATTAAATTGAATCACATTCAATTTAATTTCTCTCAGTTCAATTTCTCCAATTAGCACTAATTAATCAATTAAGCTATACTATAGTTTATTATGAATCTCATTCACATTAAAGAATATATTATGTCAATCATATCTCATATAAATGACATAAATACCCTTTTAATGAATTTGACACTTCAAATCCACACCAAACTATAAACCCCCAATTTCTCAAGTTGAGCCAATCGAGGGACCTAATGAACCTACAGATGACGAGCTCCAATGATTCGAGATTAACCTGTCAAACTCTTTGACCCGGTTATTCAACATTCATTAGCTATGGTAACATTCCACTAAAGCTCGTAGCTGCACTCCCATCATTGTAGGACAAGTTGTGTTCATCGATATAACCAATGCCCGTGAGTCGACCCTTCACTTGTTGTTTGTAGACACTGTTGGGTCAAATTACCGTTTTACCCCTGTGTCTACCTCTTGCTCCTTAAGTCTCACTACTCCTCTAATGAACAACTACGTTGCATGGTCCAACCATAAACAACAACCCTCTCAGGCCAATGAGAGAGTGGGGCCCCGTTGCTCAAGCCCTGGAGACAGCACTTAAGAGAACAACCCCTCTAGTTTCCCTAAGTCGGGGACGAGTGAATTCCTTCTTGCGTAGTCAAGTTCCCAGCTCCCCACGTGGTCCTGCCCCTGAGAAGATAGGCATATTGGGTGAACAACAGTGGCCACCATCACCCGTACTAGTCAAAGGACAGACCCTCGCAAACAGGGGTTCGTAACACGCTCAGGATTAAGGTCGAGTCACTAATGGTCATCTACGAAATTATTAGCTCTATACAATTAACGGTGTTACATCAGTAAGTCTAATAATTCACGGTCCGGTCTTGTACAATCTCATTTCACAGGATGCCCCCACTCGCATGTCAACCACATGAACGAGTCAGATCATCTCGTTTGTATCTTAATACAAAGCCGGTCACATCCACAACGTATCCAGGATTAGGTCTCCAACCTTATCCATCTACTGTAGACCGTTCGGGTCATTAACTTGAACGTGATCCTCCCTGTGCGTCCACTACACACCATTCAAGTTCTAGTTCTCTCATTAATACAATGACCCTGGAGCTTAGTTTATTGGATTAAGTTTATGAAATATGCGAGACACAAAGTTCAAATAAATAAATAAGGCTCAAATAAATAACTCTTATTTATTTACAACTTGGAATATTACAAACTACACGAGATGAGGACATACATCCCAACAAATTCTTCTTCTTTCAACAAAACACTACTAAAGAGGAGAACTTCCTATCCTCTGACTTCTTAGATTTAGCCTAGGCGAGTAGCCTCCCACAATTGGGAAAAGAGAAGGGATTGTTTGAGAGAGAGATAATTTAGTAGAAGAACCAGCTTTTCACAATACTGTCAATTCATCGATCAATCTCATTCTCCCAACTCCCTACACATATCGATAGGGAGTGGAGAAGAACATGGAAGTGGGTGACAGGTTCCCCTTTAATTAAATTTATAATAATTTATTTATCAAATTAATTAATAATATAATTAAATCAATTAATTATTTTAATTTATATAAATAACCCATTAATTTAATTAAATCATATGTAATTAAATCAATTAATTAATGCTTAATTAATTAATCAAAATATCATATATTTAATTTAGGTTTTACATATGATTAAATCAAATTTAATCATACTCCCTTTTAACCTATAGTTTAATGTATATCTCATGCACATTAAATCTTAACCTATAGTTTTAAATATAAATCTCGTTCACATAATATTCGAACTCCTTCAAATATTTAATTCTCTCAATTAGTTTACTTTGAATCATATTCAAATTAAATTTATACTATAAAGTTTTAATGTACATAAAAACTTTATATTATAATGTATCTCCATACATCATGCTTATTCCCTAATGGAATATGAATATTTCAAATTCTAATAATCTAAGATCCCTTTACGAGCTAGGAAGTGGACCTAATGGACATATAGATCAGAAGTTCCAATGATACAAGATTATTAGGTTAATCTCATTAACCCCTTAATCAACATTCGTTAACTGCAGGAACACTCCACTATAGTCTCGCAGTTGCACTCTTCTCACTGGAGATATATTTCTGTGCTCATGGATATTGACCAATAACATCATGTCAATCCTTCATGAATGTTCGTAACACCAGCTGAGTCAAATTACGATTTTACCCATAAGTTACATCTTATACCTTAAGTACCGGTGCTCCTCTAATGAACAACCTGTTTATGGTCCTACCAATAAATAGAAGTCCCTCTTGGGCCAATGAGAGGGTCAGACTCTTTGTTCAAGTCCCGGACACACCACTTAAGGGAATATTCATCTACTTACCCTAAAGTCGGGAAAGAGTGAATTCTATCTTGCTAGGTTAAGTCCCCAGCGGCTGCTCGGTCTTGTCCCAAGAAGGTAGGCATATTGAGTCGGCGTTCAGGCCACTCTCACCCATACTAGTCAAAGGACAATCCCTCACAAACAGGAGTTCGTAACCTGCTCAAGATTGAGATCAAGTTGCCCAAGTCATCCTATTGAAATAGAAACCTAACTAGTCAACAGAGTTACATCTAATACTTACTATTTCGTGGTTCGGTCTTATGCGATCTCATCATATAGGATATCCTCACTCACATGTCGTCTACACGAACACGTAGTATCACTGTGTTTGTATCAAATACAAAGTGGGACATATCCATAGTATTACCAGGATAAGGTTACTATAGACCCTTTAGGTTGTATCTCAAACTGAGATCTTTTTTTTATCTCTCTCCCTTCTTGAAACCAGAGCTCTCACCCTACACTTTCTTCTTCCTTCTCGAGAAAATTAGATCTATCATCGGAGTAGTCTCTCGATCAATGCCAATTGAGCCACAAAGTCGTCGAACTGCTGCACACAAGTCACTTGTCTTTGCCACTGTCACTCATACTTCCATCGGAAGTTGCCCGCGTTGTGGGAGTTTAGATCAGGTATACCATTGCAGCCACGGATGCTCACTACAGTTGCCCTCCTCAAAACACACAAATCTGTCACTACTCGCGAATGTGCCCCCTTCGCGGGATCCGTCGTGTTGCGCAAATGTCGATCCACGCGGGCCACTTGCGCAACTAAACACCCATTATGTTGTTTGATATTTTCCCTGCGTTCGTTCATCCAACACTAAGAGATTGTTTAAGACTTGATTTCTGATGAACATCAACTAGACATGCGTTAGTGATGGGAGGGAAAGATCCTCACTAAATAACTCCATGGCACGCATTTGATCAACATTACCTTTTTAAGACTAGATCTACCACTGCCAATGGTAGGGTCCCTATCTGACGATAGAGTAAAGGCATCACTCTCACGATCACCAAAGGGTAAACCCTATTAGGGTAAAGGCACTCCTCATTGAGGAAACCTCGAAACACAAGAACCTTTTGCATCCTGATGGGTGGAGTAGGGGGAATCAATTAAACATATTAGGGAGAAGGGCTAATAGGTATGGTTTCTTCTCCTAATTTCTACAATTAGCCTTAGAGTGGCCAAGCACACTACACGTACACGTAGGTCATTTCTTTGACTTCCATGCATACTCCACAGGAATTTCAAAGTCCTCCCCTCACAACCAAACAATAACTGAATTAGGCATATCATCCATGCCAACCTCCACACAGACTCAGGATAATATCAAATGTTTAATTTCCATCCACTAACTATGGCCTTATCAAGACACACTAGCTTTCTTATAATATTTCCTGCTAATCTTAACGTTCAAGGAGCCCAAATAAGCTTCCTCCCAATGTGTCATGTACTATTCTCCAAGACCCAATGAACAACTCCACAGAGACATCCCTTCCATCATATCCCTTCCATGATAATATCTTCAAGTGGAACCATAACAAGATTGGTTCACACGTCCTTTAGAATCAGACATTTCCTGCACTGGTTGGTATTAGATTATATGATATATATTATGAGGTTACTCTCTACTTTTCCGATGTGGAATCATCAACATGCCCTTCAAGATGGTGCCTCTTTGAGTTCACCATTTTTGGATCAAATCTCAATTTAAAGGTCTCTAATACCATATTAGATTATACGGGGTTCTATCTCAAAACTAATAGTAATGAGAGGAGTAACTCATATATCTTATATATTGTGAGCTTACTCTCCACTTTTCTAATGTGAGCTCCTCAATCGTTGGTTCAGACCGCGTCAGCTAATTGAGTCCATATCATAGCCACATCCCAACCACCACCATGCAAAACCTTAATCTTCCTCTCTAAGATTTTGCTAGTCTTTTTCCCAAGTACTTCATTCATCTCTTTCATTTTACTCCATGTTAAATTAATTACCATCGCCTTCTTTGGTTATTTACTTCGCATTTGTTTGTTCAACTATAAAATAAAATTTTACTTTATTGATATGGCCTCCGACGTGTAATAACTTTATTTGACACTGTTGTTCATATTAAAACTAAACCTTTAAAGTAAATCTTTTTTTTTTTTTTTTGAGAACTAAAGTAGATCTTTTTTAGATTTTACAATAATTATTTTTAAATGTCTACTTATGGCAAGGAAATGGTTGAAAAAACTTTATATACAAAAAAATATAACTGAAGATCTTTTAAAAAATACGGATTAAATTAAAAAAAAATGACCTTTATCAACTTATCATTAAGTATAATTCTTTTCAGCATACATATCATACTAACAATACATTACTAAAACAGATGTATTATTAACCAAAACATACAAAGATTTATTGCACATTTAATAGTAATTTTCATTTTAAACATAATTAGAACATGTATAATTACCGAAAAGTAATAAATTGTTAATATTAATTTGATTGATGTATTAGGGCGGTAAAGGCTAGCACGATGATTCTTAATTTTACATCAGCAGATAATGGAGCATCTCTTAGTGTCGAAGAGTGAGGTAATTTAACAAACTGCCATTCTTATATGAACTTACCACCTAGAAGGCATATCAAAATTATATTCTATAATTAAAAAATCTGAAGTTATCTTCTAAAATTAGTTGTTATGTTTCCATAGGATTTTCATTATTTGAATAATAATTTGCACTTGTTTGACCTCTTTTTTATACGGCCCAAATAGTAAATTAATAACCCACCAAGATCCGAAGACAATGAATAAAAAATAGTACGAATTATACGTGGAA GATGACCACACAAAAATTTGGGCTACCTTATCTACAGCAAGGCTTCCCACAATACCAAAAGGAGTTGATGAATTTACAGTTTTGGAGGAACAAAAATGGAGAAAGCCAAGGGATCATCGATGGAAGGAACTCCCTCCCTCGTAGTTCTCATCACTGGAGTGAGCCAAGGCATTGGCAGAGCTTTGGCATTGGAATTGGTCAAGAGCGGCCACACTATCATTGGCTGCTCTCGCAATCAAAACAAGCTCGACTCCCTTCGAACACAACTCTCCCACCACAACCACTTGCTCCTTAAACTTGATGTGACTTCGGATGCTAGTGTTGAGGATCTAGTTCAAGCTGTCTTGGAAAGAAATCTCGTACCTGACATCCTTGTAAACAACGCAGGTATAATTAATGAGAAGTCGAAATTTTGGGAGATTTCAGTGGACGAGTTTGATTCGATCATTGATACGAATGTAAAAGGAACAGCAAATGTACTCCGTCGTTTCATTCCTCTTATGATTGCAAATGAGAAGAGAATTATTGTTAATATATCTTCTGGCTGGGGAAGAATCGGTGCTCCAATGTTTTCTCCGTATAGCGCCTCAAAATGGGCGATTGAGGGTTTGACTAAATCGATATCGATGGAATTGCCGGAAGGAATGGCCATTATTGCACTTCATCCTGGCATTATACACACAGACATGCTTGTAACCTGCTATGGGCGGTAAAGGCTAGCACGATGATTCTTAATTTTACATCAGCAGATAATGGAGCATCTCTTAGTGTCGAAGAGTGAGGTAATTTAACAAACTGCCATTCTTATATGAACTTACCACCTAGAAGGCATATCAAAATTATATTCTATAATTAAAAAATCTGAAGTTATCTTCTAAAATTAGTTGTTATGTTTCCATAGGATTTTCATTATTTGAATAATAATTTGCACTTGTTTGACCTCTTTTTTATACGGCCCAAATAGTAAATTAATAACCCACCAAGATCCGAAGACAATGAATAAAAAATAGTACGAATTATACGTGGAA ATGGAGAAAGCCAAGGGATCATCGATGGAAGGAACTCCCTCCCTCGTAGTTCTCATCACTGGAGTGAGCCAAGGCATTGGCAGAGCTTTGGCATTGGAATTGGTCAAGAGCGGCCACACTATCATTGGCTGCTCTCGCAATCAAAACAAGCTCGACTCCCTTCGAACACAACTCTCCCACCACAACCACTTGCTCCTTAAACTTGATGTGACTTCGGATGCTAGTGTTGAGGATCTAGTTCAAGCTGTCTTGGAAAGAAATCTCGTACCTGACATCCTTGTAAACAACGCAGGTATAATTAATGAGAAGTCGAAATTTTGGGAGATTTCAGTGGACGAGTTTGATTCGATCATTGATACGAATGTAAAAGGAACAGCAAATGTACTCCGTCGTTTCATTCCTCTTATGATTGCAAATGAGAAGAGAATTATTGTTAATATATCTTCTGGCTGGGGAAGAATCGGTGCTCCAATGTTTTCTCCGTATAGCGCCTCAAAATGGGCGATTGAGGGTTTGACTAAATCGATATCGATGGAATTGCCGGAAGGAATGGCCATTATTGCACTTCATCCTGGCATTATACACACAGACATGCTTGTAACCTGCTATGGGCGGTAA MEKAKGSSMEGTPSLVVLITGVSQGIGRALALELVKSGHTIIGCSRNQNKLDSLRTQLSHHNHLLLKLDVTSDASVEDLVQAVLERNLVPDILVNNAGIINEKSKFWEISVDEFDSIIDTNVKGTANVLRRFIPLMIANEKRIIVNISSGWGRIGAPMFSPYSASKWAIEGLTKSISMELPEGMAIIALHPGIIHTDMLVTCYGR Homology
BLAST of Tan0018417 vs. ExPASy Swiss-Prot
Match: Q9SY73 (NADPH-dependent pterin aldehyde reductase OS=Arabidopsis thaliana OX=3702 GN=At1g10310 PE=1 SV=1) HSP 1 Score: 250.0 bits (637), Expect = 2.9e-65 Identity = 116/199 (58.29%), Postives = 163/199 (81.91%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy Swiss-Prot
Match: Q8CN40 (Uncharacterized oxidoreductase SE_2036 OS=Staphylococcus epidermidis (strain ATCC 12228 / FDA PCI 1200) OX=176280 GN=SE_2036 PE=3 SV=1) HSP 1 Score: 104.4 bits (259), Expect = 2.0e-21 Identity = 63/192 (32.81%), Postives = 117/192 (60.94%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy Swiss-Prot
Match: Q5HLD8 (Uncharacterized oxidoreductase SERP2049 OS=Staphylococcus epidermidis (strain ATCC 35984 / RP62A) OX=176279 GN=SERP2049 PE=3 SV=1) HSP 1 Score: 104.4 bits (259), Expect = 2.0e-21 Identity = 63/192 (32.81%), Postives = 117/192 (60.94%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy Swiss-Prot
Match: Q5HGK2 (3-oxoacyl-[acyl-carrier-protein] reductase FabG OS=Staphylococcus aureus (strain COL) OX=93062 GN=fabG PE=3 SV=2) HSP 1 Score: 99.4 bits (246), Expect = 6.4e-20 Identity = 61/193 (31.61%), Postives = 110/193 (56.99%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy Swiss-Prot
Match: P0A0H9 (3-oxoacyl-[acyl-carrier-protein] reductase FabG OS=Staphylococcus aureus (strain Mu50 / ATCC 700699) OX=158878 GN=fabG PE=1 SV=1) HSP 1 Score: 99.4 bits (246), Expect = 6.4e-20 Identity = 61/193 (31.61%), Postives = 110/193 (56.99%), Query Frame = 0
BLAST of Tan0018417 vs. NCBI nr
Match: XP_022155161.1 (NADPH-dependent pterin aldehyde reductase-like isoform X1 [Momordica charantia]) HSP 1 Score: 322.0 bits (824), Expect = 4.6e-84 Identity = 160/202 (79.21%), Postives = 181/202 (89.60%), Query Frame = 0
BLAST of Tan0018417 vs. NCBI nr
Match: XP_022155162.1 (NADPH-dependent pterin aldehyde reductase-like isoform X2 [Momordica charantia]) HSP 1 Score: 316.2 bits (809), Expect = 2.5e-82 Identity = 159/202 (78.71%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of Tan0018417 vs. NCBI nr
Match: XP_008460601.1 (PREDICTED: NADPH-dependent pterin aldehyde reductase-like [Cucumis melo]) HSP 1 Score: 304.7 bits (779), Expect = 7.6e-79 Identity = 153/217 (70.51%), Postives = 180/217 (82.95%), Query Frame = 0
BLAST of Tan0018417 vs. NCBI nr
Match: XP_038876513.1 (NADPH-dependent pterin aldehyde reductase-like [Benincasa hispida]) HSP 1 Score: 302.4 bits (773), Expect = 3.8e-78 Identity = 153/205 (74.63%), Postives = 174/205 (84.88%), Query Frame = 0
BLAST of Tan0018417 vs. NCBI nr
Match: XP_004142335.3 (NADPH-dependent pterin aldehyde reductase [Cucumis sativus] >KAE8648241.1 hypothetical protein Csa_018426 [Cucumis sativus]) HSP 1 Score: 296.2 bits (757), Expect = 2.7e-76 Identity = 150/204 (73.53%), Postives = 172/204 (84.31%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy TrEMBL
Match: A0A6J1DQV8 (NADPH-dependent pterin aldehyde reductase-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111022303 PE=3 SV=1) HSP 1 Score: 322.0 bits (824), Expect = 2.2e-84 Identity = 160/202 (79.21%), Postives = 181/202 (89.60%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy TrEMBL
Match: A0A6J1DNL5 (NADPH-dependent pterin aldehyde reductase-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111022303 PE=3 SV=1) HSP 1 Score: 316.2 bits (809), Expect = 1.2e-82 Identity = 159/202 (78.71%), Postives = 180/202 (89.11%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy TrEMBL
Match: A0A1S3CCD6 (NADPH-dependent pterin aldehyde reductase-like OS=Cucumis melo OX=3656 GN=LOC103499380 PE=3 SV=1) HSP 1 Score: 304.7 bits (779), Expect = 3.7e-79 Identity = 153/217 (70.51%), Postives = 180/217 (82.95%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy TrEMBL
Match: A0A0A0KIZ2 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G077190 PE=3 SV=1) HSP 1 Score: 296.2 bits (757), Expect = 1.3e-76 Identity = 150/204 (73.53%), Postives = 172/204 (84.31%), Query Frame = 0
BLAST of Tan0018417 vs. ExPASy TrEMBL
Match: A0A6J1FZ22 (NADPH-dependent pterin aldehyde reductase-like OS=Cucurbita moschata OX=3662 GN=LOC111449178 PE=3 SV=1) HSP 1 Score: 282.0 bits (720), Expect = 2.6e-72 Identity = 145/206 (70.39%), Postives = 164/206 (79.61%), Query Frame = 0
BLAST of Tan0018417 vs. TAIR 10
Match: AT1G10310.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 250.0 bits (637), Expect = 2.1e-66 Identity = 116/199 (58.29%), Postives = 163/199 (81.91%), Query Frame = 0
BLAST of Tan0018417 vs. TAIR 10
Match: AT5G65205.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 94.7 bits (234), Expect = 1.1e-19 Identity = 71/195 (36.41%), Postives = 105/195 (53.85%), Query Frame = 0
BLAST of Tan0018417 vs. TAIR 10
Match: AT5G10050.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 94.0 bits (232), Expect = 1.9e-19 Identity = 68/191 (35.60%), Postives = 105/191 (54.97%), Query Frame = 0
BLAST of Tan0018417 vs. TAIR 10
Match: AT3G55310.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 85.1 bits (209), Expect = 8.8e-17 Identity = 59/193 (30.57%), Postives = 115/193 (59.59%), Query Frame = 0
BLAST of Tan0018417 vs. TAIR 10
Match: AT2G17845.1 (NAD(P)-binding Rossmann-fold superfamily protein ) HSP 1 Score: 84.7 bits (208), Expect = 1.2e-16 Identity = 61/196 (31.12%), Postives = 112/196 (57.14%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) 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.
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