Tan0004437 (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.ATGGTTGCTGATACCGAAACTCTGCTGGATAATGATAACGTTCATATTCCTTATGCCGCTGGTCTCTTGATGGTTCGTCCCGGTGAACCGCTCAATGAGATGATGATGGATACCTACTTCAGTGAAGACTACTCTCTCATCTTGGATTCCTTTGAAGAAAGGAGTACTAAGGTTCTTCGTGACTTGGTATTCAGGATATCAACGATAGTTAGACAAGAAAAATCGATTCTCACAATTTACTTCCACAACTTCTCACGATTCGATGGAATTTTATTGCTTAAGCACCTAGCATGTCATCACAAGAACTACAAGCGAAAACCACTGATGAGGAACAATAGGCTTTACGAGTTAGCTGTCTATGAAAAGAAGAAGATGTTATTCCGCTTTAGAGACTCCTTGAATCTCCTCCCTGGCAAACTGAGCTCACTAGCTAAAAATTTATGCCCAGCTCTTGGTCTGAAAGGGTCTATTCAATATGATAAGGTTACACCAGAAAATCTGTCAATTATGAAAAAAGACTTGTTAGACTATATGAAGCAGGATATCCTGCTGCTTGGAGGTGTAATGCAAAAAGCACAAGAGATATATTGGAAGCTGTACACTATTGACATAGAAAGCAAGATAACCCTTTCTTCCCTTGCTCTAAGCATCTATCGTATGAAATACTACGATGTATCTAATTTTCCAATCCACATCCCAACCCAAAATGAAGACAACTTTATAAGGCGTGCATACTATGGTGGTCATACAGATACATACATTCCATATGGGGAGAACCTTTACTACTACGATGTGAACTCTCTCTATCCCTTTGTAATGAAGGAATTTCCAATGCCTGGTGGTGTTCCTGTCTGGCATGGTAATCTGGAAGGCATGGACTTAGATAGCATCTTTGGCTTTATTGAGGCATATGTGGTATGTCCGAAGACTATAAAGAGGCCCTTTCTACCCTATCGAGACAAGAATAACACTCTGATCTTTCCAACCGGGGAATTTGTTGGAGTCTACTATAGCGAGGAGTTAAAGTATGCAAGAGATCTAGGCTACACAGTGCTCCCAATCTCAGGCTACCTCTTTGAAAGAAAGGAAAGCCCATTCAAGGACTTTGTTAGCTCACTCTTTGAAAGCAGGTTAGAGGCAAGGAGATCAGGTAATGAGTCCTTGGCCTATGTGTACAAGATCCTTATGAATTCGTTATACGGTCGATTTGGCATTAACCCTAAAAGCACCATAACCGAGGTCTGCGATGAAAGTCGATACAAAGATTTGATCAGGCATAGTGAGTTGATATTCGCTGATATGCTTAGCGAGAACAACTACATCGTTGCCTACCATAGCAATACCGGGACGAGCTATGATTATTGGAACCCACCGAAGAACTCAGCTGTCCAACTAGCAGCAGCGATCACGGCCTCAGCAAGGATATATATGTACCCTTATATTTCAAGAGAGGACTGCTACTACACGGACACAGACTCAGTTGTGCTTGGTCAGCCACTACCGGATGATGTGATTTCTTCTTCTGTCTTAGGTCAGTTTAAGCTAGAGGACAGAATCATGAAAGGATACTTTTTAGCTCCGAAATCCTATTACTACATCACAAAAGATGGAACAGATGTTCTCAAGTTCAAGGGACCAGCGAAAAACATGGTTCAACCTGAATGGTTTGAGTCACAGTACGCGGACCCATCTCGTACACAACAGGTACCCGTGGAAGCCAACTTCCGGATTGATTGGCACACACTTCACATCAGAAAGAAAGACACATGGGTCAGGCTTGGGATTAAGCCGGAGACCAAGAGGATACCAGTATATCAAAGTGATGTCTGGGTCGATACAAATCCAATTTCGATCAATGACTTTCCCGGCATAGATTACATTGGAAAACGAATAATCAAATCACAACAGAAACAGATTACAGAATCTCAATATGAACTTCAAAGTTTAAAGGAGAAATTATCTCAGCTGGAAAAAGATAAAGAGGAGAAATTTCTCATTGATGCTAAGAAGAAAGAGAAAAGTCTTCTCACTACTGCTGACGAGACTAGTCTGAGTGTTGCCAGAACGCTATTAGATAAAGAAGAACGAGTAAGATTTGGCTTGTCACAAGTTTTGGAACTTTCAGAAGCTTTCCGATCACGGCGCAAAAGCAAGGGTTTGGCCAACAAGGGCGAGGGAAATCCTTCTGGAGACGAGAGGGTAGAAGGTAAGGTAGCAAAGAGACGACCATTTTTATATACCAACGCGATTTTGTGGATCCTAACACTAACATTTATTTTTGATTTAGAAGTTCCTCCTCTCTTTCTGTTTATCTATGAGCGTCTCATTGAATGTTTTCAGCATCTCAAATCCTTATGGGAGGGAGCTGGAGCTGAGCCACTGCCAGGCTTACCTTCAGACATCCCTGATTCCGCAAAAACGACTCCCATTTTGATTGGGATTGGTGCGTGTGTTATAATAATTATTCTATATAATTTTTATTTTTAATAATAATGGATTGTTTTACTTAATGAACTACGGCGACCTGATTCTCTCATACAAAGATTCTTTCTTAAGAGATACGTAGGTAGCCCACGATGTGGGTCCGGTCTAAGAATGTAATTCGCTTGCATGCGAGGCGGCACGCCAGGTAGAGCTATCGCGCGCGGGCGAAGGAGATGCATTTTTTTACTGGTAGTACTGTACAAGCTCTTAGGGATCAATTCTATTATTATTTCTGCCTTTCTTTCCCTAGGAACAGGCAAATCAAAAATTTCACTTCGAATTCCGGACCTCAACATCCTGCTGCTCATGGTGTTTCACGATCAGTATTGGAAATGAACGGAGAAGTGGTTGAACGTGCGGAACCACATATTGGATTACTCCAGTGCGGCACGAAGCCGCTGACGTCGAGTCGGCTCCTATGCCGCTAGCTATGCCCTGCTTGGTCCCCCGGCACGGCACTATAAAATGTTGGGTTGAGCAAGAATACAGCGACTAGGGAAACGCAGAATGGAATTGAAGGCATAGTCTCAATAAACAAAATTTTGTTCCAACCAACGAGTGGCGGATTTGGATGGAGTCTCGCAAAAGAAGATCCTTACCTTTATATACAAAGGGCGCGGGAGGGCAACAACTAGCTGCTCTCATCTTTCATTTTGTTGCGTCCTTCTTTTTTTTATTCATATTCAATCTTCCGCTTTCATCGCTCGTAGTCGCTCTCTTCCTTAATGCTATCTTCTTCTTAGCCTCGTTTGGCGCTATATACCTTATTTGGCTTCTCTTACGTGTCCATGAACATTCGAGTCTACGCCCATCTTTCTGAGTTCAAAGAGGGTTTCGCGAGTCCAAAACAGGAGGTTTAGTGTGAGTCCACAGGGAGTCCGTTTCTGGGCCACTCACATGTTGTCAATTCGAATGCTTTCTAATTTGCTTTAAGGTCCGACCATCGACTTTCATCTTGACTAGTAGAGCAAGGAATTCCTTTCTTTTTTCTTATGGTAAGTGGTCCGACGTCTTCTTTTATTTAAGACTGATCTTCCTTCCCCCTTGCCTTTAGAGCTGGGGCAATCAGTCCATTCATTCCTGCCCTTCATTCAATAGATCGCTTAGCTCTATTTCTCAGTCAATCCCCTTTCTTTGTTCATGGCTTTTCATTTTTTGTAAAGCTTTTCTTTTCTGTAAAGATCTCGATGACCCTGAATGAGAAGTTGTTTTTTTACGGTCTTGGCCTGATAAAAGTGATCTCTGAAACTGAAAGCTTTTCGACTGAAAAGTTACCAATTAGGTCAGTAGCTGCCTTTAGAGCTGGGATAAGTAGGTAGCTGATAGACCAAATAAGCACAGTAGCAGTTTAGAGCCGAAGGAGCTCTTTTTTTGATTCTAAACAATTTGAGATTCTATAGCCTACGTACTTGCCTTTAGGGGATCGAAGTTGGATGAATCTCCAGTGGTTCCTTCCATCGGCGTCATCGAACCACGTTAGCAATCCAGAAATGTCACGGAAAACTCGAATTCGCAAGGAATTCTATCCCATTGGCTTTGAGGAGGACTAGTAGATTCGATGGCAGTGCGCCAGGGAAAGGGCCAAGCTGTACAAGAATACCCCCAAACAAATACTAAACAAAGGGTTCCACAAGCAAGCTATTATTCTGGGGATCCCCATTGAGGAGCATCAAACCCTAATGAAAGATCTCTCCCCATTAGCAACAGGTCATCCATCATTTTCCAGCCACAAACAAGAAGGGATCTCCTACTGAACGATAGGAAAGTGAGTTCTTCCAGTTGGCATTCATTAGTCCGCTTGGGTAGGAGCACCTGGTTGATCGCCCAACAAAATAGTTGTTTAGCGAATGACTCAACCTATGCATCCGGTATTTACACACTCTACTTCGAGGTGTAAATCACTGAAACTCTTTACCCTACCCTGTATTAATGAAAGAATCGAATTTTTGACTTTGACCTTGCGAGCACCCACTCAAAATAGGGAGGGCGCACTACCGCGAGAGAAAGAGCTCCTAACTACCGTACAATCAATATCTCGTTACCCCCCCATGCATACAATAGCTACGAGCTGCCGTAAGCGCTGTTGCACGAGTACACTAACAAGAGAGGAACTACGAGTAGTCACTCTGCTACTTTAAGATATTGCGTATAAATAAAGAGAGAGATAGCCTGGTTCCTATAGGCTCTTGACTCTTGAGCGGCTGAGAATGTTATGTCAAAAGGACCCATGACGATGAAGGAGAAGAAGGAGTAGGAGTAGGAGCTAGCCTGCCTTTTTTTATAAGAGTAGGGGCGGAATCGAATGATTACGATCTCGACAGTGCTGGAATTCTTTCAAGCTGTGGCCCCCTTTTTGAGCGCCTTTCCAGAGGCGCAGCGCTGCCGGAGGTCCCCGATCAACAACAGGTGGCAGCTCAAGAGGCGCAGCCGCAGACGCCGGCACTGATGAATCAACAAGAGGTGGAAGTGCCCTCCCCCGATACAAATTTTAACTACGATCCTATTGAGCCCCCACTACTTCTTCATTCAGGGGGGGAAAGCCTTTCCCAAATCTATTTGAGTTTGATTTGCTTTGTAGGATCAAAGGGAAGGAGCTTCCTCCTTCTCATTTCTTCTTCGAGATGCTTCTTGAGAGTCAAAGAAGAATCATCTTAAAGATGGAGGAGCTTTCTCCGGGTAGGGGCTGGCTATTGGACGGGGCCCGGGTTATCAAGGCTCAAAATGGCAAGGACTTCTCATTGAGCAGGCTCAATGCTATCTTGAACAGTCAAGAGAACGAGGGCCGCAATAGCTCCTACTTTCACTCTCTTCTTTCTAAAGAAGCCCGCTCTGGATCTGGGCGGGATCTATCAGCAGCGGCATTCTCCCTTGACTCGAGACCATTTTAGAATCATGGAATTCTCTCCCGGAGCAGCGGAACTAACGACTTTATTAGAAAGTCGAATTACCAACTTTTACACGAATTTTCAAGTGGATGAGATCGGTCGAGTGGTCTCAGTTGGAGATGGGATTGCACGTGTTTATGGATTGAAGGAGATTCAAGCTGGGGAAATGGTGGAATTTGCCAGCGGTGTAAAAGGAATAGCCTTAAATCTTGAGAATGAGAATGTAGGGATTGTTGTCTTTGGTAGTGATACCGCTATTAAAGAAGGAGATCTTGTCAAGCGCACTGGATCGATTGTGGATGTTCCTGCGGGAAAGGCTATGCTCGGGCGTGTGGTCGACGCGTTGGGAGTACCTATTGATGGAAGAGGGGCTCTAAGCGATCACGAGCGAAGACGTGTCGAAGTGAAAGCCCTGGGATTATTGAACGTAAATCTGTGCACGAGCCTATGCAAACTGGGTTAAAAGCGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACTGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATTGGACAGAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCAGAAGGGAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCAGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGGGGGAATATTTCCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACCAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCCGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTGGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTGGAAACAGAGCTCTTTTATCGCGGAATTAGACCTGCTATTAACGTCGGCTTATCTGTCAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTGCTCAATTTGGGTCAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTGAAAAACAAATTCTAGTCATTTATGCTGCTGTCAATGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCGGAATTACTACAATCCCTTTTAGAAAAGGTGGGTTAACTAACGAAAGAAAGATGGAACCAGATGCATTCTTAAAAGAAAGCGCTTTGCCTTACCTATGATGCAAAATCAAACTGGATGATGCAAGCTGGAGGGGGTCCCCAGTGAATGTGAAATGTAGGTTTCAGAAAAAAAAAGGAACCGAGGTTATGAGAGTAAGTGGAGTTGGGCGGGCTACTCTCCAGGGCCTCATTCATATCTCGAGGAGTGCGTTAGTGTTTCGACTGAGGGACAAGTCAGTGTACTTTAGGAAGCTGTTGAGTACCCGATGAGATAGAATTGAAATGTGTCCATTCCAGAATACACGACTAAATAGACACATTTAACAAACCTGAAGCATTGGAGGGTGTCGAAAGACTTGTAATGGAACGCAATAGCACAATTAGCATTTTTGCTTAAGAAAAGCACTCGAACAGTATTTTGATTGCTAGTTTGGGGTAGTTTGGGAACAGTGAGATTAGCTATGACGTTAGGTGAATCAGTCACGATAGAGGGAATTTTCTCTCATTGATGCGGCAAAGACTTTTTCCGTTTTTGTCAAGACGATAAAAGAAAGATAAATAAAGGGAGGATTGAACTGCATCTTTAATAGCTTTTTCTCTTTCTTGCTTCTCGTTTCATAGAACGCGTAGTTCCTTGTATTATCGGATTTTCTACCTAGGGTTTCGAAATGGTTTAAACACCAATTCCACAGGTAAAGGGTTTGGTATGTAAGTCAAAAGGCCTGATTTTCCTGGAATCCTACCAAGATTTTATAATAAACCAAGGGAAGTTATTTATATATATAGTCTGAAAAGATGGATTCAAAAGAGACCCGGATCAATTACTTGAAATTACGGAAATGGTGACTCCAATAACGACCGGTTTGCGGTGTCCGGTCCGTCCTTTCTAGGCCTTTTGACTATTAAAGATTCATTAACCATTTAGCCAAACATGCACATCCTTAAGAGTCATTGCTCAAGAAGAGCCTTCCAAACTCGATTATCCCACTGTAGAGTAGGAGGTTGTCACCGCCTTTTGCCTAATAAATAGCGGTGAAATTACACCACAACTGAAAGAGAAGGACTCGCCATAGTACATTCTGTACAGAAGTTTCGGCTAGATTAGGCACAAAATCGTCTATGTGGACCACCAGGCCTTGCAAAAGCGGGGGTACTACTGGCCGGGCATGCGAGACGACGTTGCGGAGTATGTGAAGACGTGCCTCGTGTGTCAACAGGACAAGGTCGAGCGGGACAGACTCCTGAGGCTCTTGGAGTCGTAGCCTGTACCACAAAGACCATGGGAGAGTGTCTCCATAGATTTTTTCGCGGCTCTGCCAAAAAAGGGAGTATGGGTCTTGATCGTGGTGGACCGACTCACAAACAAAAAGAAAGATGCAAATTTTTTGCAACGAGACCATCCATATTCCTTAAATGGGCAAGACTCGCTCAGATCTTTTTCGATAATATCTTCATTGCATGGAATGCCACACTCAATTGTCAGCGACAGGGGACCCGGTCTTCATTAGCTATTTCTGGCAGGAGCTCTTTCGTTTACAAGGGACACAATTTAACATGAGTACAGCTTTCCACCCCCAGACCGAGGTGGTTAACCGGTGCTTAGAGAACTACCTGGGATGCTTTACAAGCGATAGACCAAGGGAATGGGTACGTTGGTTACCATGGGCAGAATAGTGGTACAATACCACTTATCATTCGGCAACCAAACAAAGACCGTTTGAAGTGGTATATGGGCGCCCACGACCTCACATTACGTCCTCGTCCTATACTCATGAGTCCAACAAAGTGCATCAAGTTGATTGCGACTTACGCTAGGGATTGTGTTTTGCAACTTTGAAAGGATAATTTGCATGGAGCTCAGGCCCAGACAAGAAGCAGATAAATATCGATCTAAACGAGAATTTTCTGTGGGACATGGAAGAGTTCAAGGCTGTCCGTGCCCTGAAAGAGAAAAAGATCACCATCACCAGCATATATCTTACCGGTGATGCGAAGGAGAACCCGGATGGAGCCGGACGGACGGCCGTCAATCGAAAGCTCAAAAAGGAAGTGAAGGATCAGTTCCTCCCATGCAATGTGGCATGGCTCGCTCCTGACTCATTGAGGAAGGGGCACGGTAAGAGATTATGTGAAGGACCCTAAAGCAAGCTATTGAATTTGTCCTAACCAAAGAAAGTCGATCTATCGATTACGTTCATCTCATAAAGATGTTCCTTTTCACTCCTAAATGAAAGCTAAACTAAACGACAATAACATAACTCCTAGCGCAAAAGAGTAGCCGCTGCGATGCCTATGCTATTTTCTTTCCTATAGAGCTTGGGCCCACGCACAAACTCCTATCGAAAAGCTAGTAAGTAGCCTTTTTGTTTCTATAGCTTCAAAGCCAAAGAGGAAGTTTCTTCTGATTGGAAGGTTTCCGCTGTAGCAGTAAAGAAGAAGGAAATTTCTGCTGCAAAAATCAGAGTTGTTTCAATACCAAAGGAGTGA ATGGTTGCTGATACCGAAACTCTGCTGGATAATGATAACGTTCATATTCCTTATGCCGCTGGTCTCTTGATGGTTCGTCCCGGTGAACCGCTCAATGAGATGATGATGGATACCTACTTCAGTGAAGACTACTCTCTCATCTTGGATTCCTTTGAAGAAAGGAGTACTAAGGTTCTTCGTGACTTGGTATTCAGGATATCAACGATAGTTAGACAAGAAAAATCGATTCTCACAATTTACTTCCACAACTTCTCACGATTCGATGGAATTTTATTGCTTAAGCACCTAGCATGTCATCACAAGAACTACAAGCGAAAACCACTGATGAGGAACAATAGGCTTTACGAGTTAGCTGTCTATGAAAAGAAGAAGATGTTATTCCGCTTTAGAGACTCCTTGAATCTCCTCCCTGGCAAACTGAGCTCACTAGCTAAAAATTTATGCCCAGCTCTTGGTCTGAAAGGGTCTATTCAATATGATAAGGTTACACCAGAAAATCTGTCAATTATGAAAAAAGACTTGTTAGACTATATGAAGCAGGATATCCTGCTGCTTGGAGGTGTAATGCAAAAAGCACAAGAGATATATTGGAAGCTGTACACTATTGACATAGAAAGCAAGATAACCCTTTCTTCCCTTGCTCTAAGCATCTATCGTATGAAATACTACGATGTATCTAATTTTCCAATCCACATCCCAACCCAAAATGAAGACAACTTTATAAGGCGTGCATACTATGGTGGTCATACAGATACATACATTCCATATGGGGAGAACCTTTACTACTACGATGTGAACTCTCTCTATCCCTTTGTAATGAAGGAATTTCCAATGCCTGGTGGTGTTCCTGTCTGGCATGGTAATCTGGAAGGCATGGACTTAGATAGCATCTTTGGCTTTATTGAGGCATATGTGGTATGTCCGAAGACTATAAAGAGGCCCTTTCTACCCTATCGAGACAAGAATAACACTCTGATCTTTCCAACCGGGGAATTTGTTGGAGTCTACTATAGCGAGGAGTTAAAGTATGCAAGAGATCTAGGCTACACAGTGCTCCCAATCTCAGGCTACCTCTTTGAAAGAAAGGAAAGCCCATTCAAGGACTTTGTTAGCTCACTCTTTGAAAGCAGGTTAGAGGCAAGGAGATCAGGTAATGAGTCCTTGGCCTATGTGTACAAGATCCTTATGAATTCGTTATACGGTCGATTTGGCATTAACCCTAAAAGCACCATAACCGAGGTCTGCGATGAAAGTCGATACAAAGATTTGATCAGGCATAGTGAGTTGATATTCGCTGATATGCTTAGCGAGAACAACTACATCGTTGCCTACCATAGCAATACCGGGACGAGCTATGATTATTGGAACCCACCGAAGAACTCAGCTGTCCAACTAGCAGCAGCGATCACGGCCTCAGCAAGGATATATATGTACCCTTATATTTCAAGAGAGGACTGCTACTACACGGACACAGACTCAGTTGTGCTTGGTCAGCCACTACCGGATGATGTGATTTCTTCTTCTGTCTTAGGTCAGTTTAAGCTAGAGGACAGAATCATGAAAGGATACTTTTTAGCTCCGAAATCCTATTACTACATCACAAAAGATGGAACAGATGTTCTCAAGTTCAAGGGACCAGCGAAAAACATGGTTCAACCTGAATGGTTTGAGTCACAGTACGCGGACCCATCTCGTACACAACAGGTACCCGTGGAAGCCAACTTCCGGATTGATTGGCACACACTTCACATCAGAAAGAAAGACACATGGGTCAGGCTTGGGATTAAGCCGGAGACCAAGAGGATACCAGTATATCAAAGTGATGTCTGGGTCGATACAAATCCAATTTCGATCAATGACTTTCCCGGCATAGATTACATTGGAAAACGAATAATCAAATCACAACAGAAACAGATTACAGAATCTCAATATGAACTTCAAAGTTTAAAGGAGAAATTATCTCAGCTGGAAAAAGATAAAGAGGAGAAATTTCTCATTGATGCTAAGAAGAAAGAGAAAAGTCTTCTCACTACTGCTGACGAGACTAGTCTGAGTAGGGGCTCTAAGCGATCACGAGCGAAGACGTGTCGAAGTGAAAGCCCTGGGATTATTGAACGTAAATCTGTGCACGAGCCTATGCAAACTGGGTTAAAAGCGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACTGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATTGGACAGAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCAGAAGGGAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCAGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGGGGGAATATTTCCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACCAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCCGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTGGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTGGAAACAGAGCTCTTTTATCGCGGAATTAGACCTGCTATTAACGTCGGCTTATCTGTCAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTGCTCAATTTGGGTCAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTGAAAAACAAATTCTAGTCATTTATGCTGCTGTCAATGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCGGAATTACTACAATCCCTTTTAGAAAAGGAGAACCCGGATGGAGCCGGACGGACGGCCGTCAATCGAAAGCTCAAAAAGGAAGTGAAGGATCAGTTCCTCCCATGCAATGTGGCATGGCTCGCTCCTGACTCATTGAGGAAGGGGCACGAGCTTGGGCCCACGCACAAACTCCTATCGAAAAGCTACTTCAAAGCCAAAGAGGAAGTTTCTTCTGATTGGAAGGTTTCCGCTGTAGCAGTAAAGAAGAAGGAAATTTCTGCTGCAAAAATCAGAGTTGTTTCAATACCAAAGGAGTGA ATGGTTGCTGATACCGAAACTCTGCTGGATAATGATAACGTTCATATTCCTTATGCCGCTGGTCTCTTGATGGTTCGTCCCGGTGAACCGCTCAATGAGATGATGATGGATACCTACTTCAGTGAAGACTACTCTCTCATCTTGGATTCCTTTGAAGAAAGGAGTACTAAGGTTCTTCGTGACTTGGTATTCAGGATATCAACGATAGTTAGACAAGAAAAATCGATTCTCACAATTTACTTCCACAACTTCTCACGATTCGATGGAATTTTATTGCTTAAGCACCTAGCATGTCATCACAAGAACTACAAGCGAAAACCACTGATGAGGAACAATAGGCTTTACGAGTTAGCTGTCTATGAAAAGAAGAAGATGTTATTCCGCTTTAGAGACTCCTTGAATCTCCTCCCTGGCAAACTGAGCTCACTAGCTAAAAATTTATGCCCAGCTCTTGGTCTGAAAGGGTCTATTCAATATGATAAGGTTACACCAGAAAATCTGTCAATTATGAAAAAAGACTTGTTAGACTATATGAAGCAGGATATCCTGCTGCTTGGAGGTGTAATGCAAAAAGCACAAGAGATATATTGGAAGCTGTACACTATTGACATAGAAAGCAAGATAACCCTTTCTTCCCTTGCTCTAAGCATCTATCGTATGAAATACTACGATGTATCTAATTTTCCAATCCACATCCCAACCCAAAATGAAGACAACTTTATAAGGCGTGCATACTATGGTGGTCATACAGATACATACATTCCATATGGGGAGAACCTTTACTACTACGATGTGAACTCTCTCTATCCCTTTGTAATGAAGGAATTTCCAATGCCTGGTGGTGTTCCTGTCTGGCATGGTAATCTGGAAGGCATGGACTTAGATAGCATCTTTGGCTTTATTGAGGCATATGTGGTATGTCCGAAGACTATAAAGAGGCCCTTTCTACCCTATCGAGACAAGAATAACACTCTGATCTTTCCAACCGGGGAATTTGTTGGAGTCTACTATAGCGAGGAGTTAAAGTATGCAAGAGATCTAGGCTACACAGTGCTCCCAATCTCAGGCTACCTCTTTGAAAGAAAGGAAAGCCCATTCAAGGACTTTGTTAGCTCACTCTTTGAAAGCAGGTTAGAGGCAAGGAGATCAGGTAATGAGTCCTTGGCCTATGTGTACAAGATCCTTATGAATTCGTTATACGGTCGATTTGGCATTAACCCTAAAAGCACCATAACCGAGGTCTGCGATGAAAGTCGATACAAAGATTTGATCAGGCATAGTGAGTTGATATTCGCTGATATGCTTAGCGAGAACAACTACATCGTTGCCTACCATAGCAATACCGGGACGAGCTATGATTATTGGAACCCACCGAAGAACTCAGCTGTCCAACTAGCAGCAGCGATCACGGCCTCAGCAAGGATATATATGTACCCTTATATTTCAAGAGAGGACTGCTACTACACGGACACAGACTCAGTTGTGCTTGGTCAGCCACTACCGGATGATGTGATTTCTTCTTCTGTCTTAGGTCAGTTTAAGCTAGAGGACAGAATCATGAAAGGATACTTTTTAGCTCCGAAATCCTATTACTACATCACAAAAGATGGAACAGATGTTCTCAAGTTCAAGGGACCAGCGAAAAACATGGTTCAACCTGAATGGTTTGAGTCACAGTACGCGGACCCATCTCGTACACAACAGGTACCCGTGGAAGCCAACTTCCGGATTGATTGGCACACACTTCACATCAGAAAGAAAGACACATGGGTCAGGCTTGGGATTAAGCCGGAGACCAAGAGGATACCAGTATATCAAAGTGATGTCTGGGTCGATACAAATCCAATTTCGATCAATGACTTTCCCGGCATAGATTACATTGGAAAACGAATAATCAAATCACAACAGAAACAGATTACAGAATCTCAATATGAACTTCAAAGTTTAAAGGAGAAATTATCTCAGCTGGAAAAAGATAAAGAGGAGAAATTTCTCATTGATGCTAAGAAGAAAGAGAAAAGTCTTCTCACTACTGCTGACGAGACTAGTCTGAGTAGGGGCTCTAAGCGATCACGAGCGAAGACGTGTCGAAGTGAAAGCCCTGGGATTATTGAACGTAAATCTGTGCACGAGCCTATGCAAACTGGGTTAAAAGCGGTAGATAGCCTGGTTCCTATAGGCCGTGGCCAACGAGAACTTATAATCGGGGACCGACAAACTGGAAAAACAGCTATAGCTATCGATACCATATTAAACCAAAAGCAAATGAACTCAAGGGCCACCTCTGAGAGTGAGACATTGTATTGTGTCTATGTAGCGATTGGACAGAAACGCTCAACTGTGGCACAATTAGTTCAAATTCTTTCAGAAGGGAATGCTTTGGAATATTCCATTCTTGTAGCAGCCACCGCTTCGGATCCAGCTCCTCTTCAATTTCTGGCCCCATATTCTGGGTGTGCCATGGGGGAATATTTCCGCGATAATGGAATGCACGCATTAATAATCTATGATGATCTTAGTAAACAGGCGGTGGCATATCGACAAATGTCATTATTGTTACGCCGACCACCAGGCCGTGAGGCTTTCCCAGGCGATGTTTTCTATTTACATTCCCGTCTCTTAGAAAGAGCCGCTAAACGATCGGACCAGACAGGTGCAGGTAGCTTGACCGCCTTACCCGTCATTGAAACACAAGCTGGAGACGTATCGGCCTATATTCCCACCAATGTGATCCCTATTACTGATGGACAAATCTGTTTGGAAACAGAGCTCTTTTATCGCGGAATTAGACCTGCTATTAACGTCGGCTTATCTGTCAGTCGCGTCGGGTCTGCCGCTCAGTTGAAAGCTATGAAACAAGTCTGCGGTAGTTCAAAACTGGAATTGGCACAATATCGCGAAGTGGCCGCCTTTGCTCAATTTGGGTCAGACCTTGATGCAGCGACTCAGGCATTACTCAATAGAGGTGCAAGGCTTACAGAAGTACCGAAACAACCACAATATGCACCACTTCCAATTGAAAAACAAATTCTAGTCATTTATGCTGCTGTCAATGGATTCTGTGATCGAATGCCACTAGACAGAATTTCTCAATATGAGAGAGCCATTCCAAGTCGTATAAAACCGGAATTACTACAATCCCTTTTAGAAAAGGAGAACCCGGATGGAGCCGGACGGACGGCCGTCAATCGAAAGCTCAAAAAGGAAGTGAAGGATCAGTTCCTCCCATGCAATGTGGCATGGCTCGCTCCTGACTCATTGAGGAAGGGGCACGAGCTTGGGCCCACGCACAAACTCCTATCGAAAAGCTACTTCAAAGCCAAAGAGGAAGTTTCTTCTGATTGGAAGGTTTCCGCTGTAGCAGTAAAGAAGAAGGAAATTTCTGCTGCAAAAATCAGAGTTGTTTCAATACCAAAGGAGTGA MVADTETLLDNDNVHIPYAAGLLMVRPGEPLNEMMMDTYFSEDYSLILDSFEERSTKVLRDLVFRISTIVRQEKSILTIYFHNFSRFDGILLLKHLACHHKNYKRKPLMRNNRLYELAVYEKKKMLFRFRDSLNLLPGKLSSLAKNLCPALGLKGSIQYDKVTPENLSIMKKDLLDYMKQDILLLGGVMQKAQEIYWKLYTIDIESKITLSSLALSIYRMKYYDVSNFPIHIPTQNEDNFIRRAYYGGHTDTYIPYGENLYYYDVNSLYPFVMKEFPMPGGVPVWHGNLEGMDLDSIFGFIEAYVVCPKTIKRPFLPYRDKNNTLIFPTGEFVGVYYSEELKYARDLGYTVLPISGYLFERKESPFKDFVSSLFESRLEARRSGNESLAYVYKILMNSLYGRFGINPKSTITEVCDESRYKDLIRHSELIFADMLSENNYIVAYHSNTGTSYDYWNPPKNSAVQLAAAITASARIYMYPYISREDCYYTDTDSVVLGQPLPDDVISSSVLGQFKLEDRIMKGYFLAPKSYYYITKDGTDVLKFKGPAKNMVQPEWFESQYADPSRTQQVPVEANFRIDWHTLHIRKKDTWVRLGIKPETKRIPVYQSDVWVDTNPISINDFPGIDYIGKRIIKSQQKQITESQYELQSLKEKLSQLEKDKEEKFLIDAKKKEKSLLTTADETSLSRGSKRSRAKTCRSESPGIIERKSVHEPMQTGLKAVDSLVPIGRGQRELIIGDRQTGKTAIAIDTILNQKQMNSRATSESETLYCVYVAIGQKRSTVAQLVQILSEGNALEYSILVAATASDPAPLQFLAPYSGCAMGEYFRDNGMHALIIYDDLSKQAVAYRQMSLLLRRPPGREAFPGDVFYLHSRLLERAAKRSDQTGAGSLTALPVIETQAGDVSAYIPTNVIPITDGQICLETELFYRGIRPAINVGLSVSRVGSAAQLKAMKQVCGSSKLELAQYREVAAFAQFGSDLDAATQALLNRGARLTEVPKQPQYAPLPIEKQILVIYAAVNGFCDRMPLDRISQYERAIPSRIKPELLQSLLEKENPDGAGRTAVNRKLKKEVKDQFLPCNVAWLAPDSLRKGHELGPTHKLLSKSYFKAKEEVSSDWKVSAVAVKKKEISAAKIRVVSIPKE Homology
BLAST of Tan0004437 vs. ExPASy Swiss-Prot
Match: P05495 (ATP synthase subunit alpha, mitochondrial OS=Nicotiana plumbaginifolia OX=4092 GN=ATPA PE=3 SV=1) HSP 1 Score: 668.7 bits (1724), Expect = 1.2e-190 Identity = 343/353 (97.17%), Postives = 348/353 (98.58%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy Swiss-Prot
Match: P05492 (ATP synthase subunit alpha, mitochondrial OS=Oenothera biennis OX=3942 GN=ATPA PE=3 SV=1) HSP 1 Score: 663.3 bits (1710), Expect = 4.9e-189 Identity = 344/371 (92.72%), Postives = 352/371 (94.88%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy Swiss-Prot
Match: P18260 (ATP synthase subunit alpha, mitochondrial OS=Helianthus annuus OX=4232 GN=ATPA PE=3 SV=1) HSP 1 Score: 660.2 bits (1702), Expect = 4.2e-188 Identity = 341/353 (96.60%), Postives = 345/353 (97.73%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy Swiss-Prot
Match: Q06735 (ATP synthase subunit alpha, mitochondrial OS=Beta vulgaris OX=161934 GN=ATPA PE=3 SV=1) HSP 1 Score: 659.8 bits (1701), Expect = 5.5e-188 Identity = 337/350 (96.29%), Postives = 345/350 (98.57%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy Swiss-Prot
Match: P05494 (ATP synthase subunit alpha, mitochondrial OS=Zea mays OX=4577 GN=ATPA PE=3 SV=1) HSP 1 Score: 654.4 bits (1687), Expect = 2.3e-186 Identity = 337/353 (95.47%), Postives = 344/353 (97.45%), Query Frame = 0
BLAST of Tan0004437 vs. NCBI nr
Match: XP_017985381.1 (PREDICTED: LOW QUALITY PROTEIN: DNA polymerase-like [Theobroma cacao]) HSP 1 Score: 1111.7 bits (2874), Expect = 0.0e+00 Identity = 552/677 (81.54%), Postives = 604/677 (89.22%), Query Frame = 0
BLAST of Tan0004437 vs. NCBI nr
Match: QCB20442.1 (DNA-polymerase-like [Actinidia chinensis]) HSP 1 Score: 1109.0 bits (2867), Expect = 0.0e+00 Identity = 554/686 (80.76%), Postives = 606/686 (88.34%), Query Frame = 0
BLAST of Tan0004437 vs. NCBI nr
Match: GFS28696.1 (hypothetical protein Acr_00g0003340 [Actinidia rufa]) HSP 1 Score: 1102.4 bits (2850), Expect = 0.0e+00 Identity = 557/694 (80.26%), Postives = 609/694 (87.75%), Query Frame = 0
BLAST of Tan0004437 vs. NCBI nr
Match: KAE9444856.1 (hypothetical protein C3L33_23246, partial [Rhododendron williamsianum]) HSP 1 Score: 1089.7 bits (2817), Expect = 0.0e+00 Identity = 544/706 (77.05%), Postives = 608/706 (86.12%), Query Frame = 0
BLAST of Tan0004437 vs. NCBI nr
Match: BBN70347.1 (hypothetical protein Prudu_1460S000600 [Prunus dulcis]) HSP 1 Score: 1079.3 bits (2790), Expect = 0.0e+00 Identity = 545/705 (77.30%), Postives = 601/705 (85.25%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy TrEMBL
Match: A0A4D6FU75 (DNA polymerase OS=Actinidia chinensis OX=3625 GN=Ac_DNA_pol_B PE=3 SV=1) HSP 1 Score: 1109.0 bits (2867), Expect = 0.0e+00 Identity = 554/686 (80.76%), Postives = 606/686 (88.34%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy TrEMBL
Match: A0A7J0D761 (Multifunctional fusion protein OS=Actinidia rufa OX=165716 GN=Acr_00g0003340 PE=3 SV=1) HSP 1 Score: 1102.4 bits (2850), Expect = 0.0e+00 Identity = 557/694 (80.26%), Postives = 609/694 (87.75%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy TrEMBL
Match: A0A6A4K4S7 (DNA polymerase (Fragment) OS=Rhododendron williamsianum OX=262921 GN=C3L33_23246 PE=3 SV=1) HSP 1 Score: 1089.7 bits (2817), Expect = 0.0e+00 Identity = 544/706 (77.05%), Postives = 608/706 (86.12%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy TrEMBL
Match: A0A5H2XR49 (DNA polymerase OS=Prunus dulcis OX=3755 GN=Prudu_1460S000600 PE=3 SV=1) HSP 1 Score: 1079.3 bits (2790), Expect = 0.0e+00 Identity = 545/705 (77.30%), Postives = 601/705 (85.25%), Query Frame = 0
BLAST of Tan0004437 vs. ExPASy TrEMBL
Match: A0A6J5W251 (DNA polymerase OS=Prunus armeniaca OX=36596 GN=ORAREDHAP_LOCUS3295 PE=3 SV=1) HSP 1 Score: 1069.7 bits (2765), Expect = 8.5e-309 Identity = 544/705 (77.16%), Postives = 599/705 (84.96%), Query Frame = 0
BLAST of Tan0004437 vs. TAIR 10
Match: AT2G07698.1 (ATPase, F1 complex, alpha subunit protein ) HSP 1 Score: 654.1 bits (1686), Expect = 2.1e-187 Identity = 332/350 (94.86%), Postives = 343/350 (98.00%), Query Frame = 0
BLAST of Tan0004437 vs. TAIR 10
Match: ATMG01190.1 (ATP synthase subunit 1 ) HSP 1 Score: 651.4 bits (1679), Expect = 1.4e-186 Identity = 331/350 (94.57%), Postives = 342/350 (97.71%), Query Frame = 0
BLAST of Tan0004437 vs. TAIR 10
Match: ATCG00120.1 (ATP synthase subunit alpha ) HSP 1 Score: 436.8 bits (1122), Expect = 5.3e-122 Identity = 226/342 (66.08%), Postives = 268/342 (78.36%), Query Frame = 0
BLAST of Tan0004437 vs. TAIR 10
Match: AT4G38510.1 (ATPase, V1 complex, subunit B protein ) HSP 1 Score: 90.5 bits (223), Expect = 9.4e-18 Identity = 69/250 (27.60%), Postives = 110/250 (44.00%), Query Frame = 0
BLAST of Tan0004437 vs. TAIR 10
Match: AT4G38510.2 (ATPase, V1 complex, subunit B protein ) HSP 1 Score: 90.5 bits (223), Expect = 9.4e-18 Identity = 69/250 (27.60%), Postives = 110/250 (44.00%), 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.
|