Tan0013083 (gene) Snake gourd v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGATTGTGCATTTTCTGGGCCTTGCAACATAGAGAGGGCACAAATAGGTCTTCTCTTCCACGAAAAATTACAAGTTCTTAGAGTTTTTCAAATTAAAATACTCATTGTAAAGTAATTTTTATTCCTGCTGCTCTTTCTGTCAGTATAATTTGTTGATGTGCTAGACTGAAGTTTGTTTTGCCGGTTACTTTCTGTTTTTCTTGTTTCTACTTCAAAGTGGAGGGATCGATTCACTTCTTAGTTTGATCCACCTCATCCTTTTATGTAAAGTTTAGTATATGACTTTGTTATTGTAGGACACCACTATGAAGAGTGTACTGGCTATTACGGATGACATTGTTCTGGCTACCAGCATCATTGTTAATGCTTTACAAGAGGTTGGGAATGAAGATGTTGCAAACTATGATTCACAAATAATCACTCAAGCCTTTTCTCTAAGTAAGTTTTACAATGTCCTCTCATGGGCTGTTCTAGTCAGCACTTTAATTAATTTGACATTTAGTTCGACAGTCTTGTGTTTTACAATGTCCTCTCATGGGCTGTTCTAGTCAGCACTTTAATTAATTTGACATTTAGTTCGACAGTCTTGTGTTGTTTACATTTCATTTTGAAACCTGAAGGTCTAAATTGATGCGATAGTGATGACATAACATTGGTTTATTTCATTGTTTTGATGAAAATTTTTGTTTCCTTAAAATAAACTGTCTTACTGATAATTTAGTGTCTTGGAGGATGAAAAGAAATGTTATCATCTCCTTTTATATATTTTCTTTCGGAATGAAATCAAATAGATATATACACTCTACATGTATATCAAAACTTTTTCTATATGATAATCCTGACAGCCGTAGCTTTCATAGTAGCTGAATATAAATGCCAGTGGTCAATGTCCTTAGAGTTGAGATTTTCTTGGCTCGGGTGTATTTTCTTGCATGTAGACCAATGGCTTTTCAATGTTCTTTACAGCTTCTACACCCTGTTACTCCCTCTTTTCCGGGCTTTTTATTATTTATTTGATATAATCAACTTAAACTAATGGCTTACTCTTAATTTCCCGCCTCCAAATATCCTCCTTGTTTCTATGTGCTTTCAATAGACTCTTGGAATTGGCCTTTAGAGTCATCTGAGATTTTTTTCGTTAAACCTCTCATAGAGAGCTTGGTGGGCTTTTTATTTTTTATTATATATATATATGTATATATATATGAGAAACTATAATATCATTTAATTGATATGGTATGAAATGCGCAAAAGAGGGGAGAGATCTCGATTACAAAAAGTTATGCCAACTTGCGAGAAGAGAAGTAAGACTGTAATCACAAAAGTAAGGAGTGAATTTACACCAGGATAGAGCCAAATAAAGCAATTGTTCATAGAAAGATTCAAAGTGAGATTTGTCCTAAAAAATTCGATAGTTTCTCTCTTTCCAAGTGGCCCAAAAGAATGCTTTGATGATGAATTCTCACAGGTAGACCTTTCCTTTGACAAAAGGTTGACACATGAGGAGAAATTCGAAGATATGAATTATTTTACCCGGTAGAGCAAGCTGTAAACTGAAACCTTTAATATTCGTTCCCAAAAATGACAAGCAAAAAGGCACGACATGAATAGGTGTAGCAGGTACTCCTGGTTCTGGCGATAGAGAACACACCGGTTAGGGGAGGAGACAATCTAGGAAACTTTTTTTTTTGGCAAGGTGTCTACTGCGTTGATTCCATCGTGACTTAATTTCCACAGGAAAAAATAAACCTTCTTCGGTATGGGACCCTCCCAAATGTTTTTGTATAAATCCTTGTGATTGAGGTTACCATTGGAGACAACATGCTGAGTGAGAGATTTGGTGGAGAATGTGCCATGCTCTCCCAAGGTCCAATGCCAATGGTCGGTTGTGTTAGGTCGAGTGGGAGGGATGAGAAGCGAGGATAAATTGATCTATTCCTCTGTCTCCTCTGCAGTGAGGTTTCTCCGAAGGTGAAGTTTCCAAGAAGAGCCCGTTGTTGACCGGAACTCGTTGATTAACCCAGATTTCCTTTGAGAAATGGAGTAATAACGAGGAAAAGAGTCCTTTAATGGATATGAACCAATCCATCGATCAGACCAAAAGTAAGTGCTCTTTCCATTTTCGATAACAATGGAAGTGTGATCGAAGATCAAGTGACAGTGTTCCATAATATGCTTCCATGGTCCTCGATGAGCCTTAATCTTTGATTGATCCGGTTGCAAGTCAAAATGTGAGGAACCATATTTAGCAACAATGAATCTTCTCCATAGGGCGGTCTGGTCTTGATAGAATCTCCAAGTCCACTTGGCAAGTAAGCATTAGTTCTTGGATTTCAAATCAATAATCCTCAAACCTCCTTCCGAAGTAGTGTTTTTAACAACTAACCAATTTATGGGGTGATAGCCTCTTGTTTCCTTATTACAGTGGCAAAGGAACTTTCTATACACTCGTTCTAGGGAAGTTGCAGTGTAAAAGAAAAGTTGAAAAAGGGAGAGAGAGTACGTAGGTAGGTTGATCAATGTTGTTTGTATAAGCGTGAGTCCCTCCCTTAGAAATATGAGAACCATTCGAACCCCTCAATCTACATTCAACCTTCTCAATGATTGGCTCCCAAAAACCTTTGATATGTGGTTTACCATTTAAAGGGAGACTGAGGTATATCATAGGCCAATTGGAGACTTTGCAGTTGAATTCCAATGCAAGAGAACTGATTGTTTCAACAGGTAATCGAATACCAAAAAACTCGAACTTTTGGTGGTTTATGCAGGGCCTAGAGGCATTTTCAAACTTGTAGATGGTTTTGAAAAGATTCACGAGGTTGTCCCTATTAGGTTGTGAGAATAATATGGTGTCATTTGCAAAAAGAAAATTGTTTATGGACATCGTCCCTCTCCCCACCTCTAGCCCTCTAAAGCTTCCATTATGGGCTTCCTTAGTCAATATCCAGCTCAAACAATCCATTACAAGAATAAATAGAAATGGAGAAAAAGGGTCACCTCGACGAAGATCACTAGAAGCAATGATCTTTCCCCTAAGCTTGCCATTAATAATAATGGAGAAATTTGTTGATGAAATGCATCCCTGAATCCAGTTTCTCCACAGTGTGTCGAAGCCTTTAGCCTCTAAGATTAGGTCGAGAAAGCTCAACTCAACCATGTCAAATGCTTTCTCACTATCTAGTTTGATGACCACCCCGTCTTTCTTGGATCTAGTATATTCTTCTATGAGCTCATTAGCAATGAGAGAGGCATCGATTATTTGTCTATCAACAACAAAGGCAAATTGTGATTTAGTGATCATGGAGGGGAGGACCTTTTTAAGACGATTAGAAAGAACTCGAGCAACTATTTTGTATGGACAAGTGGTGAGACTTATGGGTCTATAATCTCCCACATATTTGGCTACCTTCTTTTTAGGGATGAGGCATATGTATTTCATTGAGACTAGCATTGATAATGGCTTTCTCAAAAAAAATCTTGGAACACCCTCATCATGTCATCCTTGAGAATGTTCCAATACTTTTAAAGAATTCGTAAGTGTATCCATCGGGCCCAGGAGATTTATTAATGCCAAGGTCCTTTATAGCCTTCAAAATTTCAGCCTTAGTGAAAGGGTCTTCAAGGTCCTGAGCTTGGGCTGACGAAATCGAGTCCCAGTTTTCAATCTTTTCAGGGATCTTTGGCCTGGCTCTTTGGTGTATAAGGCTTTGTAAAAGTCAACAAATTCTGTCTCAATGTCACTGTCCAATACCTTACTAGACCCTCTTTGGTAAGGATCTCCACAATTATGTTTTTCCTCCTTCAAGTGGATAAAATTCGATGGAAAAAGCTTTTGTTTTCATCGCCTTCCACTGCCCATTTTAGTTTGCACTTTTGGCGCCAAGAGGTTTCCTCCCTACTAGCAATGTCCAGGAGTTCAGCCTTGATCGCAATGCGCCTTTGGAGAAGAATATTGTTGATTCCCTGTGTTTCCTTCACTTTGTCAATCAAGTCTAGCTTGGGCCAAGTCCACCTTCTTTACTTTATTGCACCCGAAAGTGTTCATATTCCGATCTTTTAGAAAGCCCTTGAAAGTCTTCTGCATTTGAATAAATCCATGACCAGGCCATCCCCTTAGTTGGTAGTCGCTCCACCAATTCCTTAACAAATTTGAAAAAGCTTAGGGCCCCACATTTGATGTTTGAGAGTCATGAGAATCAGATAGTGATGTGATGTTACTCGGGGAAGTTGTTTTTCCATGGCACTATTGAACTTATTGATGCAATTGGCCGTGAGGTGAAAGCGGTCAAAGGTGGGATATGCTATGATATATGATTTATTGTTATTCCATGATATATGACTAGATCAAGTGAATTTTCCATTGGATGGGGGGACCAATCAGACCACTATCCTCTATAAAGTTGTTGAAGAGCCTCGTACTTTTAGTAATAGGCTTTGCCATTGGACTTCTCAAAAGACCATCTGGGTAACATTAAAGTCTCCTCCCAAATCTAATGTTCGGTACAAAGGTGGGATAGGTCATAAACTTCTTCCCAAAGAGCACCCTTTTCAGCTGCACGGGATGAGTCGTAGATGCCATAGAGCCAAAAACTGTAGCCACCAGATAAAGAAAATTGTAAATGTAAAGGAAACAGTGCCTTCAATCACTTCGTTCACTTCAAGCGATGGGTTGTTCCATATAATAAGAATGCCTCTCAAGGAGCCATAAGCGTCAAGCGGTGCCTAAGTAATGTGTCGAGAGCTCCATATAGTTTTTATAAATCATCGAGTAATATCACATTACATTGTCTCTTGAAGGATGACAATAGTGGGGTTGGTTTTCAAGAGAATCCTTGATAAGAGTTCGTTTCTTCGAGGAGCCCAGACCACAACCTTTCCATGATAGGATAATCATAGAGATGGAGTTGACCCTTCGATGACAGAGGTGGTGAGAGCCCTATCATACTTTGTCGTGGAGGATAGTTTTTTTAGCTCACAAATAAGCTTAGCAATCATAGCCACTAATTTTCGTTTCTTCGATTTGTTTGGTATAGCCATGATATAAAGGTCATGCTTCCAAAGCAGAGGGGCAACTTTTCGAAGGTCGGGATGGATGTCTTCATCAAGTTCTGGGCCCTTTTCCTCCTTCTGCTCAAGGTCGATCAATTTTGGCTCGATAAGATTTGTCTCTCCAAATAGGTGGTGATGACAATCGGTGGGGAAGTGGGGCTCGAGGCAAATCTGGATTGGTTGAGAATCATGGCTAAGATCTTTTGCGTATAAACCATGGAGAGAAGGTGAATGAAGTGGCAATCGAGGGAAAGTCTGGATAGTGGAGGAGGAATCTAGGCAAGGGCTAGATAGAATGTCTTTAGAGTCAGAGGGGGTGTGTGATTGGTTGGTTCGGTGTTTTTTCCCATGGAGCAGGTACGTTTGTTTGCCATTTATGATGACAACTTTTTTGGATGGGGAGGGTTCCATTTGTAAGGTTTGTAAGTGGGTTTTTGGGCTAGGACTATTTATGGGGCTATGGGTAGAGTCTGGGCTATCAGAGATGGGTGAAGGGATGATAGTCAGCGCACCTGGGCTATTACCATTGTTTCAACCCAATTGAGGAGGGTCCAAGTTTGCAGCAAGAGCCAATGCTCGATCGTCGTGATGTTCAGTCGCCCTACCAGGGATTTGTTCAGACTGAGACGAGGGAGCCAATGCATTATCATTACTCGAAAGGCGCGTGAACTCGGGATAAGCGCACGAGTCAATGAGCAAAGGGTTGCACATATCAGTCACCTTTCGATTCTTTATCGTCAAGGGATTTTGTCCAAGGACGCCGACAATAAAACCGTTGTTATAATCTTTAATGAAAAAATGCTCAATGCTCACTGATAAGGGGAAAGAGGAAGATGAAAGGATAGGCACGGAAGTTGGTATGAAGCCCAAGTTGTTTTCCAATCTGATGCTTATCTCCATCATGTCAAGTCTGGAAAGAGTTTTCTTAGCAATTCACAAAATCCCCCGCATGTGTTTCCAATAAATCGAAAAGTTTCCATGCTCCATTTGCCCATTGGCAAGTTTCGAACCTTGATCCACCCTCTGTATGAAGGAATCATTAAATCTCAAAGGTAGGCCTTGTGACTTCATTTTTCAATCTTGACTGTGAAGCAACCTACTTCCACCCATTCGTTTATGGCGGAGAGATTGGACGCTTGTTCGGGCTTTCACAGATAAGGAGGGTTTGTTGGGACTAACCGCACAAAATTCAGTAATATTATGTTGCAGCGATTCGGTGATAGCAAACCAGTCGTCATGGAAGTTTTTTCTATATATAATGGCCACCGATGACAAGTTAAGTGAGGCAAGCTCGTAGGCAGGGGGTTCTGTCGACGTAGTGGCTTTGGTCGAAGAGGTGCTGGTGGTGGTGCAATGGGTTTTGAATCCTTAATGGATTGTTGGAGAGCCTCCTTAAATGAAAAGGCTTTTAAAGGTGTGAGGACGATTGGATCGGTATTTATGGAGGAGGGTGTGGTTGTGGTTGAAAGGTGGTTAGACAACAAGTCTATAAAGAGGTGCCATCCTTAGCGATTTTCTCATGCGGGAATGATGAGCCTAGTACATCCCTCGTTGTTTTCGAGCTTGGCCACCTCTGCACAGTGGCCTCGCCTATTTGATAGCTTTTCCACCCAAAAATTTTTTTCCTTCTGTACGATTCTCCTTGAAAAATTTTTGGTTCAGGGTGGAGTTTTTTTTTTTAGGTAAAAGAAACTATTTCATTGATAAATGAAATGGAGATAACTCCGAGCACCAAAAGGTGAGTTACAAGAAAGATTGCCAATTTGACACAAAAAGAGATAAATCAGAAGACTAAAAGGTGGTACATGTTTGCACCACAAGTACACAGCTTGAAAGAATATGCTCCATAAAACGCTCAAAAGGAGAGGTAATATCTCTAAAAGCCGACCATTCCTCTCGATCCAAAGATGCCATAGAAAAACACGAACAAAAGCCAACCAGAGGACCTTCTTTGAACCTTTGAACGGATGACCCACCAAAACAGAAGAAAGAAAATCAAAAATATTATTTGAGAAAGGCACAACCCAACCAAAAGCATCCAAGATACACCACCGAAACGTTGAGCAAACAAACAATGCACAAACAAATGGGTTGCAGACTCAAACTCAAATGACACATGGGACACCACGAGGGGAAAGGCTAATATAAAGCGCGCCTTCTTTGTAGTCTATCGAAGTATTTACCGCTCCCGACTCAGGATTTCCAAAGGAAAATCTTAATCTTCCTTGGATAATTATTCTTCCAAATTACCAATAAATGTCTCGTGGTAACAAATCAACAGAAGATAACAAACTCTCTGTAAGAGATTTTACAGAGAAACAACGAAGCCTCAAAGACCAAACCCAAGAATCATTGGTATTCGAAAAGATTTATAGGGGAGAGCAATTGAGAAAGAAAGGCCCATTCAATGGTCTCCAAATCATTAAATTACGCTGCTTCAAATCCCAAGCAAAGGTCCGTGGAAATCCAAAGACTTGCAACATTAGAATCGGGGACCAAAGAAAGCCTAAAAGAGTCGTGGGCAAGCAAAGATCAAGAGGACCACAAGGAAGCCAAGAATCAGTCAAAACCGTATCACAACCATTCCCGATACGCCTAATCGAACGAGAAGAAACCAAATCCAACACACACAAATGAATCTCCCAAGGGATTTATGAGGACCGATAGGGGTAAAGGAGGCCAATTGACTACCAGCACATGATCATAATACTTTGCAACAATAAGTTTTCTCCAAAGAGAATCACGCGTTCTGAGAGAAGCGCCAAATCCATTTTGCTAAGAGGGCCATGTTACGTTGCTCTAGGTTGCCAATTCCAAGACCACCCAAAGAATAGGGAGCCAGTGGTTGTCCACTTTACATTATGCACGCCACCATCACCCCTTGCTCACTCCTTCCCAAAAGAAGTCCCTAATAATCTTATCCAGAATCGAAATGACTTTCGTCGGAGTTTGAACAAAGACATATAATACAAAGGCATACTAGAGAGTGTAGCTTGTATAAGGGTATGTCTTCCACCTTTAGAAATAAAAGCGTACTTCCAGTTATGTAGTTTTTGTTGCAGACGTTCAATTATTGGAGTCCAAAAAGAAACATTTTTGGAATTCCCCCCCAAAGGCAGTCCAAGATAGGTAGTCGGCCACATACCTTGCTTGCAACCCAAAAGTCGATGACATCATCCAATCCAACTCGATTCATCAACGCGTTAAGACCCAAGATCTCACTCTTTGCAAGGTTTATTTTCAACCCGTAAGCCCGCTCAAAAAAATTTAACCACTTCAAACAGATGTTCCAACGCAGACGATCAAATTGTGAGAAAGAGCAAAGTATCATCCGCAAACTGCAAATGGTTTAAATAGAAGGATGAAACACCAATTGGATGGGTTGAAACAAGGCCCTTATTAGCACTATGGGTCACAGAAATGCTAAGACAGTGAGACCAAAAATAAAGAGGAAAGGGGATAGGGATCACCTTGTCGAATACCACGACTAGGAATAATTTTTCCACGAGGCCTACCATTTATAATAATAGAGTAGTTTGCACTCAGTAATACAACCACGAACCCATTTCCTCCGTGACACTCCCAAAACCTTTGGCTTGTAAAGCACCGCATCAAGAAAATCCCAATCAACCTGTATCAAAAGCCTTTTCTAGATCTAGCTTCAAAACTACACCTTTAAGCTTACGAATTACCTGAAGTCATCAATCAACTCATTTGCAATTAAAGAAGCATCAAGAATCTGTCTATGTGAAACAAAAGCAAGCTGGTTTTCTCGCAATGGTAGTGGCCAAGACTAACTTCAAACGGTCGATAAAACCCGAGCAACAATCTTATAAACACAAGAGATGAGACTTATGGGCGAAACTCATTAATGATTTGGAAGCAAACTTTTTAGGTACTAAGCAAATATAAGTCTCATTCATAGAAGCATTAATAACCCTAGAAGAATAAAAATCTTGAATCATGGTCAAAATGTCCTGCTTAATTGTATCCCAAAAAAATTTAAAGAATTCTGCAGTAAAACCATCAGGACTCGGAGTTTTACTGTAACCCGGAGAAAAGACAGCCCTACGAACTTCCTCCTCAGTGAACGCACCTTCAAGACCATGAGCCTGCTCTGGGGAAATAGGACTCCAATCAATATTAGTGGGCAGAAAACGGGGACCCTCATCTCTAGTGAACAAAGTAGAATAAAAGTCAACAAACTCGTGTTCAATATCGTATGCACGATAATAAGGCTAACCCCATCTCTAGAAAGGATCTCGTAAATTGAGTTCTTCCTTTCCTTGCAACGACGAAGCCTATGAAAGAACTTGGAGTTCTCATCCCACTCACTTGAGCCATTTCACTTACACCTCTGCCTCCAATAGATATGATCTTGAAGTCATAAAAACCTCAATTTGCTCCCTTAGACGCACGACACTCAATCGAGAAATCGAAAGGGTGTGTAGTGTCCTCTAATCTATCAAGGATCCAAATTGAGAGATAAAGGATTGCAATCTATTAGCCTCAAAACGATGAGATTTACTCCGATTGCAAAAAACCTTCAAACCCTTCAACTTCATCATCATCAAACCATGTCCTGCCATCCACTCAAGGAATGTTGAGACCACCAACCCAGAGACAACCTCCCTAATTGAATCAATCTGCAACCAAGAGTTCTCAAACGGAAGGGCAAGGTCCCCGGGACTACATCTCCAAAGGAAAGAGCAAGCGGAAAATGGTCCAAGTGACACGATCCAAACGTCGAAGAGTGGCAGAACCAAATTTGGCGCACAACCACCAAGTAAGTGAGAAATCTATCCAAGAGAGATAAGTATTGTGTAGGCCAAAACTTGACCAAGTGAAGTACCATTCCGCAAAGGGACATCAAACAAATTGTAAGTAGAAATCCAGCGGTTGAAAGTATTCATGCGCGATGATCGGGTTGATGGATCATGCGATTTTTCCCAAGTCCAACGAGTAACATTAAAATCTCCTCCAATAATCCAACGATCACCACCTAAACCGGCCAAATCATGTAGCTCCCGCCAAAAGTCGTCAAAGAAACCATTACTGGGGCGTGAACTGATGTAAGCTGAAAAGAAAAACCATCCGTCGAGAAAAACATGAATGGATAATGAATACAAACCTTGTATTACTTCTTTAATCATGAAATCGCTCACTCCAGTAGAATTAAAATTCCACCAAAGTAATTAAATGCATCAAGGGATGCCCACCCAATATGTGACGAACTCCAAATAGACTTTACCAATTGGTGAGTGATGAAAGCTAATTTAGTTTCTTGTAAGAGAACAATTCCGGATTTTGTTGGAGAATTGTTCTCTTAATTAATGCCTCGCTTCTTCCACTAACCAAGGCCCCAACATTCCAAGTCAAAATTTCATTGATCACCAAAGAGCCCTCCATCAAAGCCAAAGCCAAAGTGGCGATTTATCATAATGGACAAGTGGATTTCAAATTCAGAATTCCGTTGTAATTTATTCTTCCTCCCATAAGTTGAATGGAACTTTTAGATTTGGTTGGTGAGGTAGGTTGGGATGGGTAGAATGCACAAACCATGCTCTGTGAGAAAATTTGCAATGTCACGTAATTCAAGGGGAACATGACCAGCAGCTTTCGAGAAGGAGAATTATGAGGGAGACGCTCAAGAGAGGAGAAAAAGGCAAGGAAGAAGTAAACATTGAGTCTGCCCGTTGTTGAGCATCAACCAGAAGGGTTGTTAGGTCGTGGAATTGGCGGTAGAAAATCTAAAGGGGTTGTTGTATTAGGAGAAGGGTCATCCCCAAAAATTTCGGGGTCAAAAGGGTGAGGTTGGAAGTCAAAGTCGTGATTTGAATGGATAGAGGCAGGACTAGAAATATAGGCTTCTGATGTCGATGCCAAAAGCAGTTGTTTCAATTTCCATCCAACGTGGAGTGTTTAACTCCAATATGTAAAGAGGTATTCTCAATAGTGGGTCCCGCAATGAAGGATATGGAGGAGAGAGTGGGTTGAATTAAGGCTGGAGAATTCGGATTTGAAGGGCCATTTGCTACAATCAAGGAATCCAGAATTTTTGGGGGATTCCTTATTCAAAGGTGCAAATCCAAAATCAAAATTGGGTGAGATGGCAAAATAGGCAAAGGAGAAATTTTAGGAGGAAGATTTTCAATCAAATCTTATGGTAATAAAGGCCGATTCTCCACGGTATCTTGCGGAAATAAGGGTTGATTAAAAATCTCCACAACATTGGCAGCAATTAAAGTCTGCTTTCCTTTTTTAACCATCTCATCGCAAGGAATCTCCTCGGAATCAGCAGCAATTAAAATCTGTTTTCCTTTTTATCCGCCTCAACAAAAGGAAACTCGCTTTGGATCTGAATGATAGCCTCCTTCGCAATAAAGGTATCCAAACCGCTTTAATGGTCCGTAAACGATCTCAGAATCGAAACCGATCCGATTCGAGCGGTGAGGGTGGTAATGGCACGACAGATTCCGGAGCTCAATGATGCTCGGGATGAAACCGTGAGATTCCTTTGGACTTTTAGTCGTGCGGACATGAAGAGATAACCAACGATCGGTGTGATCCAAATTTGAAGGAAACCACCACACTTTTCTCCAATAAAACGGAAAACATCCATTGACCATAGGCTAAGAGGAAGATCCAAAACTTCAATCCAACCACCGTGAGAACCAATCATTCTATCCTGCAAGAAGGAAGAAGTGGAGAAAGCATGGAATTTTAACTTTGACTCACCAACCAGATGCCAAATTGAGGTATTACAAAGGTGATCAGGGAGTTTGGAGTCATAAATATGGAGCAACGCCTTGTTTTCTTGAAAGGGATTGATGGTGCAGCGAGGCAAAAAAGAAACTTTCAAGGCAGCAAGAATACTTGGCCAAGAATCAGTAATAGAATACCTTTGGCAAACCAGAATTCCATTCTCAATATCAAAAGAAACTGGAGGCTGGGAGGAGGTGGATGGTAAGGTAGGACTAGCATTTTGTTTAAGATCCACCAAACGATGTGGCTTCCTGGTAGGTTCAAATTTTGAGGAAACTATTTTATGGGATTCACTGGGTAATCTGAAATGAGAGAAAAAGGAAAACCACCCCGCTTTTGTCTTCGATGGGATAAGAATTTTCCTCCTTACACCATTGTGTGTGAGTTGTGTGATCTCCACAAAGTAGCCAAACTTATTCTTCTTCTTTCTCTATCCAAAGAGTGTTGTCGGAAGAACTTATAAGAGCAAGGGTCTTTGTATAGAGATAAAAAGGAAGAGGCTAACCAATTTAGGGAGTTCCATGATAAGGAGATGGAATGAGAGGAATTCTTCCCCAACTCGGTTATCTTTGCTTTGCTTCCTCGAGAAGAATCGTCAAAAGCAATCGTAAAGGTCTTACGATCAATGTGTATTGATCGAGTGGAGTAATTCCAAAGGGAGGATGCTGGTTGTTTTTGGTGGGCATGGTGGTCGGGGGGTCAAGGGCTAGAGCTCAAAGTAGGAGGGTGGGAGAGAAAGGGACAGAGAGAAGAGCGAAGGAGAAGGAACTGTCCCATTGGTGTTCAGTCAAGTGAACCTTTTTTTGGTGGGTATGTTTGTCAAGATCGATGGAGAAGGATTTACGGTTGAAGGAGAAAGAAAAGCAGTTTATGTTGTCGGCCATCGGAGAGCAGGATGGCGGCAATGGGTTTTGGTCATGGTTTGGGTAGGGGTGAGAGGAGAGAGAACAGAGCATATCTACGATTTCTATGATAGTGCTTCTGAATCATAGGTAATGTGAAACAGAAACTTTATGATTATGTGTTAGGCTATCAACTCCACGACCATGACCCAGGTCGAATAAGAGCTTGGTGGGTATTGATGACCCTTACATGAAAAACATTTATTTTGTGATTTGGAAGGATAACTATCCAAAGAAGATTAAGTCTTTCTTTGAAAGTCGTCAATACAAATGATGATTACAACAACGAATGTCTTATATGGTTCTATCTCAAGACTGTTATTTTATATGTAGAAGATAGGCAAAAAAATCTACTAGTCATCTTTTCATGCACTGCACGTGTGCTTATTATTTTTTATCCCATCTATTGGATGGCCTTTGCCTTTCACAAGCAACATATTCGATTTTCTCTCTATGGTTTTGGTAGGTCACCCTTTCACATGAACAAAGAAGGTTTTATGGCTTGCTTTTGTTCGGGCTTTTCTGTGGAATCTTTGGCCGGAGAGAAATGATCGAAACTTTAGGGATTCTTCTTCTCCTTTTGAATGTTTTATAGACAATGTGTTTTCTATTGCTTTTACATGGTGTAGGCATTTACAACCTTTTCGTCATTATAGCTTATCCATTTTAATCTCCAATTGGAGAGTTTTCCTGTAATTCACCCGTAGGTGTTCGGAGTCTCACCTCCTTTATTTCATTTATCAATGAAACCTTTTCCTTTACCCAAAAAAATATAATTCAGATGTGTTATTGATAGTTATTGATTTATGATAGATAAGCTGCCACTTGGAGCTTCATCCATGGACGTTATCATTTCTATCTGTAGATCTGCTTTTCCTAGTGATCAGTTGTTTGAGGAAATGTCTAGAGTTTTGAAGCCTGGTGGGGTAATATTTATTCACAAGACTTCACAGTTTGTTGCAGTTGATAAAGATGAGGTAATTACTTGGCTAGTAGTTTTTAACGTTTAAAATAGTGATTACAGAGATGGATATATTACTAGTGTTTTCTTTGCAGTCCTCAGCCCTGGTGAGAAGATTACTTTTGGCAGGCTTTCTAGAAGCTCAAGTAACCGAAAAGAAATTAGTTTCTCCATCTGAAGTAGAGAATTTTGTGGTAAGGTTCAGCGATGATTTAATTTAGTCTTTAGATAGTCCCCCCACCCCAACGGGCAAAACCACGACCTTACCTTTTAGTGGTGTTGAAAAATGGCTGGTAATTTATGACCAAAATACTTTGTTTCCCGTTGCTTCCGACGACCTCTCTTTGTAAAGATGATTGAAAACATCTTCTCTTCAATGTCTCTTTAACTTTACCCATTTGATTTTACCAAGTTTGATGTTTGATTCTGTTTTTACTTCTTGTAAGTAACTTTTTTATATATTGTGAAACTTTTTTTGCACGTAGATAAGAGCAAAGAAGCCTTCTTGGGTGATTGGCTCCTCTTTTGCTATTAAGAAGCCAGCAAAAAGTTTACCAAAGATTCAGATTGATGAAGATTCTGATTTGATTGATGAAGATAGTTTATTGACTGAGGAGGATTTGAAGAAACCCCAGCTACCAACAGGTAAAAGATGAAATGGTTGACATATTATATTTGAATTTTATTTAGTGGAAGTTACTATTTATTATTTGATCTGTTGTACAGTTGGTGACTGTGAAGTTGGCAGCACAAGAAAAGCTTGCAAGAACTGCACTTGTGGTAGGGCTGAAGCAGAGGAGAAAGTAGAAAAATTGGGATTGACTTCAGATTTATTGGAAAATCCTCAATCTGCATGTGGCAACGTAAGTGAAAACTACATAGTTATAGAAGTGGTAACGAAGCTAATAATTTTAAATCGAGTGCATATTTTTGTTTATGGATAAATAATGATTTCTAAAATGGAATTGAATTATTTATTATTCTTATGTTTTGTCAAGGGAGAACTCATTTCTGCTACTAATGTTGTACCCCTCCGTTCAGTCTCTTTGCTTTCATTTTTAATTCATCTACTTCTAATTTATCTGGTCCGCATGTTAACATTAATACAACTTGCAGTGTGGACTGGGAGATGCTTTTCGGTGCAGTACATGCCCGTACAAGGGTCTTCCGGCATTTAAACTTGGGGAGAAGGTAGGGAAAAGCTTTACAACTCTCTTCATTTTTCAATGTAGTTTGGAGAATATTACGTCACAGGGTGGGAGGATTCGAATTTCCAGCCTCTGGGAGAAAGTAGAGATAGTTGAAGACTAAAGACTAAATCGTTTTTTTTTTCATGCAGGTGTCACTACCTGGGAATTTCCTTGCTGCCGATATATGAATGATTGACACCACTATGAAGAGTGTACTGGCTATTACGGATGACATTGTTCTGGCTACCAGCATCATTGTTAATGCTTTACAAGAGGTTGGGAATGAAGATGTTGCAAACTATGATTCACAAATAATCACTCAAGCCTTTTCTCTAAATAAGCTGCCACTTGGAGCTTCATCCATGGACGTTATCATTTCTATCTGTAGATCTGCTTTTCCTAGTGATCAGTTGTTTGAGGAAATGTCTAGAGTTTTGAAGCCTGGTGGGGTAATATTTATTCACAAGACTTCACAGTTTGTTGCAGTTGATAAAGATGAGTCCTCAGCCCTGGTGAGAAGATTACTTTTGGCAGGCTTTCTAGAAGCTCAAGTAACCGAAAAGAAATTAGTTTCTCCATCTGAAGTAGAGAATTTTGTGATAAGAGCAAAGAAGCCTTCTTGGGTGATTGGCTCCTCTTTTGCTATTAAGAAGCCAGCAAAAAGTTTACCAAAGATTCAGATTGATGAAGATTCTGATTTGATTGATGAAGATAGTTTATTGACTGAGGAGGATTTGAAGAAACCCCAGCTACCAACAGTTGGTGACTGTGAAGTTGGCAGCACAAGAAAAGCTTGCAAGAACTGCACTTGTGGTAGGGCTGAAGCAGAGGAGAAAGTAGAAAAATTGGGATTGACTTCAGATTTATTGGAAAATCCTCAATCTGCATGTGGCAACTGTGGACTGGGAGATGCTTTTCGGTGCAGTACATGCCCGTACAAGGGTCTTCCGGCATTTAAACTTGGGGAGAAGGTGTCACTACCTGGGAATTTCCTTGCTGCCGATATATGA ATGATTGACACCACTATGAAGAGTGTACTGGCTATTACGGATGACATTGTTCTGGCTACCAGCATCATTGTTAATGCTTTACAAGAGGTTGGGAATGAAGATGTTGCAAACTATGATTCACAAATAATCACTCAAGCCTTTTCTCTAAATAAGCTGCCACTTGGAGCTTCATCCATGGACGTTATCATTTCTATCTGTAGATCTGCTTTTCCTAGTGATCAGTTGTTTGAGGAAATGTCTAGAGTTTTGAAGCCTGGTGGGGTAATATTTATTCACAAGACTTCACAGTTTGTTGCAGTTGATAAAGATGAGTCCTCAGCCCTGGTGAGAAGATTACTTTTGGCAGGCTTTCTAGAAGCTCAAGTAACCGAAAAGAAATTAGTTTCTCCATCTGAAGTAGAGAATTTTGTGATAAGAGCAAAGAAGCCTTCTTGGGTGATTGGCTCCTCTTTTGCTATTAAGAAGCCAGCAAAAAGTTTACCAAAGATTCAGATTGATGAAGATTCTGATTTGATTGATGAAGATAGTTTATTGACTGAGGAGGATTTGAAGAAACCCCAGCTACCAACAGTTGGTGACTGTGAAGTTGGCAGCACAAGAAAAGCTTGCAAGAACTGCACTTGTGGTAGGGCTGAAGCAGAGGAGAAAGTAGAAAAATTGGGATTGACTTCAGATTTATTGGAAAATCCTCAATCTGCATGTGGCAACTGTGGACTGGGAGATGCTTTTCGGTGCAGTACATGCCCGTACAAGGGTCTTCCGGCATTTAAACTTGGGGAGAAGGTGTCACTACCTGGGAATTTCCTTGCTGCCGATATATGA MIDTTMKSVLAITDDIVLATSIIVNALQEVGNEDVANYDSQIITQAFSLNKLPLGASSMDVIISICRSAFPSDQLFEEMSRVLKPGGVIFIHKTSQFVAVDKDESSALVRRLLLAGFLEAQVTEKKLVSPSEVENFVIRAKKPSWVIGSSFAIKKPAKSLPKIQIDEDSDLIDEDSLLTEEDLKKPQLPTVGDCEVGSTRKACKNCTCGRAEAEEKVEKLGLTSDLLENPQSACGNCGLGDAFRCSTCPYKGLPAFKLGEKVSLPGNFLAADI Homology
BLAST of Tan0013083 vs. ExPASy Swiss-Prot
Match: D1I234 (Anamorsin homolog OS=Vitis vinifera OX=29760 GN=VIT_01s0010g01180 PE=3 SV=1) HSP 1 Score: 352.8 bits (904), Expect = 3.4e-96 Identity = 184/268 (68.66%), Postives = 216/268 (80.60%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy Swiss-Prot
Match: B9RBT0 (Anamorsin homolog OS=Ricinus communis OX=3988 GN=RCOM_1680640 PE=3 SV=1) HSP 1 Score: 329.7 bits (844), Expect = 3.1e-89 Identity = 183/277 (66.06%), Postives = 214/277 (77.26%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy Swiss-Prot
Match: A9PBH9 (Anamorsin homolog OS=Populus trichocarpa OX=3694 GN=POPTRDRAFT_761104 PE=2 SV=1) HSP 1 Score: 324.3 bits (830), Expect = 1.3e-87 Identity = 178/269 (66.17%), Postives = 205/269 (76.21%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy Swiss-Prot
Match: B7FNA9 (Anamorsin homolog OS=Medicago truncatula OX=3880 PE=2 SV=1) HSP 1 Score: 303.5 bits (776), Expect = 2.4e-81 Identity = 163/268 (60.82%), Postives = 202/268 (75.37%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy Swiss-Prot
Match: C6TKZ5 (Anamorsin homolog OS=Glycine max OX=3847 PE=2 SV=1) HSP 1 Score: 301.6 bits (771), Expect = 9.0e-81 Identity = 166/268 (61.94%), Postives = 200/268 (74.63%), Query Frame = 0
BLAST of Tan0013083 vs. NCBI nr
Match: KAG6606910.1 (Delta(24)-sterol reductase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 490.7 bits (1262), Expect = 8.0e-135 Identity = 249/271 (91.88%), Postives = 261/271 (96.31%), Query Frame = 0
BLAST of Tan0013083 vs. NCBI nr
Match: KAG7036614.1 (Anamorsin-like protein, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 490.7 bits (1262), Expect = 8.0e-135 Identity = 249/271 (91.88%), Postives = 261/271 (96.31%), Query Frame = 0
BLAST of Tan0013083 vs. NCBI nr
Match: XP_023521700.1 (anamorsin homolog isoform X1 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 485.0 bits (1247), Expect = 4.4e-133 Identity = 246/268 (91.79%), Postives = 258/268 (96.27%), Query Frame = 0
BLAST of Tan0013083 vs. NCBI nr
Match: XP_022949082.1 (anamorsin homolog isoform X1 [Cucurbita moschata] >XP_022949084.1 anamorsin homolog isoform X1 [Cucurbita moschata]) HSP 1 Score: 480.3 bits (1235), Expect = 1.1e-131 Identity = 244/268 (91.04%), Postives = 256/268 (95.52%), Query Frame = 0
BLAST of Tan0013083 vs. NCBI nr
Match: XP_022998474.1 (anamorsin homolog isoform X1 [Cucurbita maxima]) HSP 1 Score: 479.2 bits (1232), Expect = 2.4e-131 Identity = 244/268 (91.04%), Postives = 256/268 (95.52%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy TrEMBL
Match: A0A6J1GB21 (Anamorsin homolog OS=Cucurbita moschata OX=3662 GN=LOC111452541 PE=3 SV=1) HSP 1 Score: 480.3 bits (1235), Expect = 5.2e-132 Identity = 244/268 (91.04%), Postives = 256/268 (95.52%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy TrEMBL
Match: A0A6J1KEF3 (Anamorsin homolog OS=Cucurbita maxima OX=3661 GN=LOC111493098 PE=3 SV=1) HSP 1 Score: 479.2 bits (1232), Expect = 1.2e-131 Identity = 244/268 (91.04%), Postives = 256/268 (95.52%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy TrEMBL
Match: A0A6J1DG24 (Anamorsin homolog OS=Momordica charantia OX=3673 GN=LOC111020730 PE=3 SV=1) HSP 1 Score: 469.2 bits (1206), Expect = 1.2e-128 Identity = 239/268 (89.18%), Postives = 250/268 (93.28%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy TrEMBL
Match: A0A6J1F8U3 (Anamorsin homolog OS=Cucurbita moschata OX=3662 GN=LOC111441879 PE=3 SV=1) HSP 1 Score: 459.1 bits (1180), Expect = 1.2e-125 Identity = 232/268 (86.57%), Postives = 251/268 (93.66%), Query Frame = 0
BLAST of Tan0013083 vs. ExPASy TrEMBL
Match: A0A5A7UEZ2 (Anamorsin homolog OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1856G00280 PE=3 SV=1) HSP 1 Score: 454.1 bits (1167), Expect = 4.0e-124 Identity = 235/268 (87.69%), Postives = 247/268 (92.16%), Query Frame = 0
BLAST of Tan0013083 vs. TAIR 10
Match: AT5G18400.1 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 292.4 bits (747), Expect = 3.9e-79 Identity = 153/269 (56.88%), Postives = 196/269 (72.86%), Query Frame = 0
BLAST of Tan0013083 vs. TAIR 10
Match: AT5G18400.2 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 292.4 bits (747), Expect = 3.9e-79 Identity = 153/269 (56.88%), Postives = 196/269 (72.86%), Query Frame = 0
BLAST of Tan0013083 vs. TAIR 10
Match: AT5G18400.3 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 292.4 bits (747), Expect = 3.9e-79 Identity = 153/269 (56.88%), Postives = 196/269 (72.86%), Query Frame = 0
BLAST of Tan0013083 vs. TAIR 10
Match: AT5G18362.1 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 127.9 bits (320), Expect = 1.3e-29 Identity = 64/96 (66.67%), Postives = 74/96 (77.08%), 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 Position : 0 Zoom : x 1
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.
|