Tan0016851 (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.ATGGGCCTGATGAGTCGACCAATTCCTCTACCCCGCTTCTTCCCCTTATCTTTCTTTCACTATTCCTACCCCCGGGGTTGCTTGGCCGGTCTCGAACCAGCGCTTAGTAAGCTAGGCCAAGGCCCCTTGTATAGGTTGGAGCTTCAAAGCGGACCTTCTTATTAGAGAAAGGAGAAAGGGCTTTTTCACTTGCTTACTAGGGTTGGCAGCTAAATTCAGTCTTCGAGACCCCATAACATAAGAAAGTCGTGGAGTGCATAAGCCCCCTTAGAGATAGGAGCGACTTTCTTGTGGTAGTCATTTCGAATGAGCAAGTAGGGGGCGGCAACTAAAGAGGTAGCGAGACTGACCGCAATTGCAGGAATAGGTTGACTTTCTTTCATTTTGGTTATGGAAAGTGAAAGTCGTTTCGTTTAGTACGAGATCGCTTCACACCTCGCGGTGCTTACACCTCTCGCCTATCGAAGTTCTGTTCAAAAACCTCGTCCGAGAACTTGTATAGAGAAGGATTTCCCGCGGCGCAGCGGTTCTTCCATACCAACTTAGCTGCCCGGCGCTGCTATTGGCATAACAACCGGTACACCATAGGTTGGCCCAACCCAGTCCTCTCGTACTAGGGTTGGCTCCTCGCAGTTCTCCCTTTAACACCAACGGTAGATAGGAACCGAACTGTCTCACGACGTTCTAAACCCAACTCACGTACCACTTGAATCGGCGAACAACCGAACCCTTGGGACCTTCTTCAACCCCAGGATGTGATGAGTCGACATCGAGGTGCCAAACGACTCCGTCGATAAGAGCTCTTGGGAGTCATCAGCCTGTTATCCCCGGCGTACCTTTGATCCGTTGAGCGAGAGCCCTTCCACACGGAACTCCCGGATCACTATGGCCGACTTTCGTCTCTGTTCGACCAGTCGGTCTCACAGTCAGGCAGGCTTATACCATTACGCTCACGAGCAGAATCTTAGCTTGAGCCTACCTTCGCACACCTCCGTTACTCTTTAGGAGGCATCCGCCCCAGATAAACTACCCACCTTGCAGTGTCCCGCCCCCCCCCGAAAACTCGGTGCGGCGGTTAGGCATCCTTAGACGAAAGAGTGGTCTTTCAGGATTGGTCGTTGTGTGTCACCACCTCCCACCTATCCTACACATTCGATCAAGGTTGTCACTGCGAAGCTATAGTTAAGGTGCACGGGGTCTTACCGTCTAGCCGTTGGTACTCCGCATCTTCACGGAGAATTCAATTTCACCGGGTCCATGTCGGAGACAGCGGGGCAGTCGTTACACCATTCGTGCAGGTCGCTACTTATGCGACAAGGAATTTCGCTACCTTAGGACAGTTAGAGTTACTGCCGCCGTTTACCGGGGCTTCCATTCAAAGCTTATAACACTTCTCCTTCCGACCTTCCAGCACCGGGCAGGTGTCAGACTCTATACATCGTGTTACCACTTAGCAGAGTCCTGTGTTTTTAATAAACAGTCGCTACCCCCTGGTATGTGCCGCTTTCCTAATCAAAAGATAGGAGAGCACCCCTTCTCCCGAAGTTACGGGGTCATTTTGCCGAGTTCCTTCGACATGGTTCTCTCAAGCGCCCTAGTATACTCTACTTGTTCACCTGTGTCGGTTTGGGGTACGGTCAGTTCACCGGGAGGATCGCCCTCCCAATTCGAAGTTTTTTCCTGGAAGTTTCAACCTTGTTAACTATGACAACAGTCGCGACTATAAACAGACTCGCGACTATGGCAGGGCGGTACGCTCTGCTCTCTCGAGACCCCTACTCTAATCAAAAGACTAAAGGCCCCTACTAAAAGGCGAGCACTGGAATGAGAAAGGCTTGTAGACTCGTGAGGCTGAACGACACATTCGAAAACTCAAGCGCACACTCGAAAGTGCTTCGAAAGGTGTCAGCAGGTGCGCGGAGCCGGAGCCCGCCATGTTCGCCCGCTGGGCCGAGTGTTCGCCCACTTCAGAGTCTTCGCCTTTAGATAACAAAAAAAGGTGTCCGCCCCTTAGGTCGCCAAACTACGACGAGAGTTTCGCCTTTCGGCCGCGCCAGTCGCGTAGGGCGACCGGACCAGGCCGAGTCAGAAAGGCTTTGATGACTCAAGGTTCATATTAGGGAAAGGAGAGTGAGGGGAAGAGGGGGCTGCCCTCGGCCCGATCATCCTATTCGCTCCAACAGACAGGCATGGTTCTGTAGTCAAAGCAACTTCGTCACTTTCGTGTACCCATCGGACGGCAGCCCTTTCGGGGGTTCCTTAGGGACCGATTCACTCTGCGTAGATTGACTGAACGCAGAAAGCCTTCCACTGGCAGGCGATCGTGTTTTTCACAGGATTTCTCGTTACTCATGTCAGCATTCTCACTTCTGATATCTCCAGGTGTTGTCACCAAAAACCTTCCCCGATTGACAGAACGTCCCGCTACTGACACTTGAAAAAGCTGCTTTCAAGGTCTCGTCGCTTCGGTGAATCACTTGAGCCCTGATACATTTTCGGTGCCATGGAGCTAGACCAGTGAGCTATTACGCTTTCTTCAAAGGATGGCTGCTTCCAAGCCCACCTCCTGGTTGTCATCGCTCGATCACTTCCTTTTCCACTAAGTGATTGCTTAGGGACCTTAGCGTACGATCTGGGCTGTTTCCCTCTCGACTTTGGATCTTAGCACCCCAAAAGTCTGTCTGTACAAACGATCTAGGCCTGTATTCGGAGTTTCCCTGGGGTTGGTAAGGCGAAATGGGGCCACCCTAGCCCATTGAGTGCTCTACCTCGGGCCATCGACATCATACGCTCTACTGAAATAGATTTCGCGGAAAACCAGCTATATCCGATCTTGGTTGGCCTTTCACCCCTAGCCACAAGTCATCCCCGTATTTTGCCACATACGTGGGTTCGGTCCTCCAAGGCCTGTTAGAGCTCTCTTCAACCTGCTCATGGCTAGATCGATCGGTTTCGGGTCAAATAGGAAGAACTCGAAGATTCCACCTCTGGAAAGCGCCTACACCTAATGGCTTAAGCCGCTGTTCCCATTTTCTCGCTGACCCATCATGCAAAAGGTACGCCGTTAGAGTGAGTGCGCTTTACTAAGAGAATCTCAAGTAAAGGCTTGCCGCTCCTTCGACTGATTGTTCGCATCGGATCTCAGGTTCTCTATTGCACTCCCTAAATAGGGTTCTTTTCACCTTTCCCTCACGGTACTTGTACGCTATCGGTCATTGAGGAATACTTAGGCTTAGAGGGTGGTCCCCCTTTCTCGCGTAAAAGCGATCAGAATTCGAACACGCCGCGTTTTACTGGGAAGGATCGAACCATGGGAACGAATCTACAGGGCTATCACCTTCTTTGGCCAGATCTTCCAACCTTTTCACAATTACAGTTCACTGCGCCCCTCTACAACTCGGTAAAGCGGCTTGCTGGTTTTTCCATCATCCAATCCACAACAAATCGAATGAAACCTGGCGAAAAAGAAGTGAACACTTTGCTGAGGAACGAAGCTTCGTGTTTGTTTTTCTTCAAACCCCCAATCCGCTCTCGCTCGCCGCTACTAACGGGGTCTCGGTTGATTTCCCTTCCTTTAGCTACTCAGATGTTTCAGTTCGCTAAGTTTGAAAAGTCCAAAGAGCGCAGACTAGCCACGGAGCTTGGATACGGTTTCCCGATCGGAGATCCATGGATCACAGACGGTATCTCCCCATGGCCTTTCGCCTCTGAAAGCGTCCTTCCTTCTCAATGCCCGGGCATCCATCCAATGCATTCTTTTCGATCTTGTACTGACGCGGAACACCAACCCAATCTCGACGAAAAAAAGCAAACTGATTGCATCAAAAACCGAGATTCGTCGACGTGAACGCACGCTTTGTCATGTTAGTGTGAGAACCTTAAATAAACTAACGATCAAGCTTTTAGATTTGTTTACTCAACTCGTAAAGGCAAACAAAAAAGGGATCCGCCTCGAATCAAAACTCTTTCTCCTTAGCACAAGCACTAAGTAAGCAAGCTACCTTTCTTTTCTACGCAACGATCTTTCTTCTCTTATGAAATTCAGAGTTTGATCGAGGGCGCTTCTCCCCAATATGAGATAAGTTGGCTATAGTCCGAACAGAACTCCAACTGGGCCAATTGCGTAATTATGACCTGAGGTAGCGAACAGCAAATGGATGGAAATTCTCCACTTAATGGCTGCCGCTTAACGCTCTGGCGCTCTGAATCTCGAAGGTCTTGGTAGGATTCTGACTTGCTGGCCCAGCCCTTTTCTTTCTTGCAACATGGCATCCCTTGCAACGTTTTGCAAGCTCCTTCCTTTGTTGAGCTCTGTCATCCCGCTCTTCGAGATCTTTCATTGGCGCAATCTTCTTTTCATTCAATAAAAAATTGCGATTGACTTTGATTCAAGATATCTCCTCCCTTTAATCGTACTTTAATCTAAGCTATTACTTCAGAGTCAGGCACGAGACGAAAGGAAGGTAAACAGGAGGCAGGCGCAATAGAAAGTTGGAGGCAGGCGGGCGATAGGCTTAGATCAGATGCAAGCAAGCTCAGTCTCAATATGCGCATTAGAGAAGGGGGGAGTGTGAGGTGGGTTGGCGCTTCGGTCAAGAGGCGGGATAGCGTCCCACCTTCCTGTCTTGACTGGTAGGCACAATCGCTTGAGTCTAGTTCTTGAGCGAAGGAATCGCTTTCAATGAAAATTTCTCTTTAGCAATCAGCCATCAGCCCTCTTCAAGCTGTCGAATATAGATAGGAGATCCACTTCGACGTTCAAGGCTGGCAGCAAGCGTAAGTGCAATCGCAATCCCTATGAATTTCATTAATTAATATCTCTCCCGCCCTCTAGCACTCTGTTATGGCGCAATCACTGACTGACGTTCTGAAGTTCGAGGTCTTAACGCTCTCCGCGCTGTCTCCTTCTGGTAATGCATGAGAGGCTGTCTTCCTTCCACCTCTCTCTATCGCCCTTCCTTCTTTTAGCAGCTCATCTCGAATCGTCGAATGTTTAGCGAATCGATCGTAATTGGTCTGACCGCTCAAGGCTTATCTCTCGATTCCCCTTTCTGGTCTCCGGTCATTGGTAGAAAGCCTTGAAATTCCATTTCTCTCCTCTCCAGCTTGGGAATACTTCTTTCTATTGGCTATATATCTTTACAATGCCAGTTCAAGCTATCTTCTGTCTCGAGCAAGAAAAGGTATGCGCAAGTGCAGTAGTTCAAGGCAGGCAGGTAAGGGCAGGTAGTAAAGGCAAGCGCATAGGCAGGGGATAGGCCTTCAATTCAAATCACGAGATTCAAATAGCGTATATAAATGGCTCGTGCATCTTTTCTTCTTTTAGACAAGTCTAGTAGCCTCTCGTAAGGAATTGTTATAGCAAGCATGAGCGGGAATGAGCAATGACTTGAGTTTCGTTCTTGAGTTCGAGCGGGGGTAGCATTCCGGTCTTAAGCAAAGCCGTCCTGCCCGGCCATATGTCCTGTTCAGTCAGTTGCATATCGGTCAGCATGATTGTAGCAATACAAATGGGTGCGGTAGACGAAGGAGCGAAGCAGCTTTCCCGATGAAAGAGGGGAAGGAGCGAAGCAGCTTTCCCGAGTTGACGAGGGGAAGGAGCGAAGCAGCTTTCCCGAGTTGACGAGGGGAAGGAGCAAAGCCACTTTACCGAGTCAACGAGGGGAAGGAGCAAAGCCACTTTACCGAGTTGTAGAGGGGAAGGAGCAAAGCCACTTTACCGAGTTGTAGAGGGGAAGGAGCGAAGCCACTTTACCGAGTTGTAGAGGGGAAGGAGCAGTGAACATGACTCTTGCAGAAGAGGAAGAAATGCGGTAAAGAGGAGTTCCAGGCGTAGGAGTTCATTCCACTATAATAGGAGAAGCAGGTGCAAAAGTCGTAGCAGTAGCACGCGCTTCCCTAGTAGCAGGAAAGGAGAATCGAATTAGTGCGCTACCTTCTCCCCAAGGCCTCCTCGGTCTTCTTGGACTTGGTTTATGTCTGATTCCACCCGAACTGCTAATGTAGGGTTTTTTGGGGTAATGGCACCGGCACACTTTTCGTCTAAATAAGTTCTCTTTCGTCTGCCGATAGTTCTGACCTGCAAAGTGGAAAATATAGGAAAGAAAACAGCGGCACACACCTTTCTTTTTACCGCTGCAAAAATTCTCATTTCTGTCAAAGAAAAAAGCACAAAACCGCGGAAAGTGCCACCCGGGTTTATAGACCAATCAACCAGGAAAGAAAGTTCCAGCTACTGGAAAACAACTCCCTCCGCCCTTGTTCTGGTTCTATATCAGACAAGACCCCTTGCCGTCGGACTTGCCTTTTAGTCATCGACGACTTCTGTATATTTGAAAGAATAAGATTCTTCAGGCTGAAGCCGCCTTATTCACCGCACTCCCTTGAATATAAATGGACGTCTTTTCTTTTTCTTTTTTAGTGGTTCTTCTTCATTTGAAACAGTTGATTCATATGCTTTTGTCTCAGCGGATGAAACAGCATATTTAGATGCAGCAGATGGGGATGCGCCTTATTCTTATCCTCTTTCTTCGGCTGCTTCAGTGAATGCACCAACGCATAAGTAAGAAGAGAGATAAGGGTTGTTAGGGGACAGGCTCACCCTTCCGTAGGGTTCCATGCTTGACGGTCAGGTAGCGGAAGTCAGGTCAATAAGGACCACAACAAGCCTCTCGGCGAGACGAGACGGGGAGTTTGAAGACACTAATCTAATACCGGGTGAAGAAGAAGAAACGAAACTCCAAAAATTCTTTATACAAATAGAGGAGGCCAAAAGAATGGGAATCATAAACAGTAAGTGACGATTCTAACTCATCCTGAACCTAGCTGGCGTCAGATTATTACTCGAAAACGGCGAGGCCAAACACGGCACTAACAGCTACAACCGAAACACAACGGCTTCCGTGGATGCATCTGTTGTTGATTCAATTGAATGCCAGTCCAGGAGTCGATTCTGATCATGAATGTCGTAGAACTATTGCATCAGCGAATGTATTCGTATCGGTAATTAGACTACTTATTATGCCAAAGGGTAGGCGTTAGACTCCTTTTATGCCACCTGGTAGGGAGTTTCATAATAGAACGTCTCCTTCGATCCCCTCTAACAGTGCGTAATTAATTGATCATCTAACACCGACACCGGCACCGACTGATTACCTTACCGGGGCTCAATGAGTGAGCACCTTTGGATCGATCCTCGGCATATAAATGACAATATGGTGGGAACTAGAAGATCGGAGAAAGAATCATAACTTCTCGCTTTCTCACGCCCTTATTAGAGTATTATCGTCGACGGCTTTCGGGCAGGGACACCAACACCTTTTGGCAACACTCGATTTTTGGAATTTTCGAACTTTGCTGCCCGATTTCTTACCCCTTTTACTCGGAATCACACTATTTGAACTCCTATAGCGTCTCCAACTCCCGTCGAGCTCACCCTTACTTCGCCTCGAAAATATGATGAATGTATCGCTGAACCGGGCGTTGCACTTTCATTAGTTAGCCCGACCTCAGGTTACCGGACACGTAGGGCACTGGCCTTGGTTTGCCCACCAACGACTTTCCGCTTGGGAAATACACAACCACCTTTTCTGGAGCAGGAACCTGAACGAGCGCAACAACTGGCGCCTTTCATTGGTTCTACGGTTGCTAGCACTGATAATAGATTCAATCAAAGGTCGAATTCACCTCCGAACGTCTTTCGTACCAACCAGAGGGCGTGACTTACAGAACGGTCTCGAGAGGACTTCTTCGCATCGGTGAAATGAATCTCTGTGGACTGGAGGTGAAATAGAGAAGGAAAGGTAGTTAGGCGAGTAAGGAGACCTCTGACTATAATTGAGAATACGGTGGGCCTCTGCTAGGCAATCGGAGTACTACTATTATTCTATTATTCCACCAGGGCCTCCGCAGACACTTCCCCCGGCGGCTAGGCCCCTGCTTTAGGCACAGGCTTTCTCGAACAAAGGAGAATGAAAGCTAATATTTCACTGTTTTCGTTCTTACTTTTGAAGCGTAAGCCGCTTGCACAAATGCTTTTGAATCAGCTCGAACAACAAGGGTACTATGATGTTCATTCAAGTTCGATCAAATCAATGGCTCATTCATCATCATCAGAATAAGAAGACTAACTAGGCAAAACCAGGATCAGAATGGATCTGAAGCTTGGGCTTACTACGAGTCAGTCAGAGGCAGCTTTCTAATATCTCGAGCCTTTTTCCCTTTCAGCCAGCGAGAAGAAGGACCAAACCCTATCTATCGCCTCACGCTCTTCCGGGGTCAAAGCAAAAGTACAGTGGACCTCACAAGGATCGCTTCTCAAATATGCACTTCGAGCTTCACCGTTCTCCGAATGTCTAACCTTTATCTATGGTTTTGAGGTTTGGTTTTGCACCGGAGGGCTGATCGGCTTGTTGGTACGGTTAGCTTGTGATCTACGACCACCCTTGCTTTCTGCTTTGTCAGTCTGGTTAGCGCCCCTATCACGTAAGGCTTCGCTTTCTTTTTTTATCTCGATAAATTATTATTTTAATAGGGGAGAATGAATATTCTAGTAAGCGTAGGGAGCGCAGGGCTCCCCCGAGACAGGAGCCCGAGCGCAATCAAGAGACCTTATAAACATAACAAATCAAATTTGCATAGTGACCAAAATTCTATAAGAATTCATAGAAATGGCAAAGCCAGAAGCATATCTAGTAGCAGACGCAAAGAGAGCATAGCCAGGTTACATAAAAGATAGCAGATCTATATTAACCTGTTTACCCTGCAGCATCCATCAGGGGGGTATCATCAGTAGCAGGGATATCGCCAGTCGATTCAGACGCTGTTCCAGGTAAAGCACCACCCGCAGAGGTATTTACATACCTTGTTTTCTTACTGGCATATGATCTTGGACATGTCTTGTTGGCTTGATGCACCAGCAGAGCTTCCAGATTTCTGATTCTGACCATAGGGTCGATGTCCCGAAGCATGTTCAGCTGCAAGAACCTGATCTGAAGCACCCTGAGTAATAAAATCAAGATCGACCCCCTTCCCTTCGTCAACTCGGTCAAGCGGCTTCGCTCCTGCCCCTCTTTCATCGGGAAAGCTGCTTCGCCCCTTACTAAGAACAAACTTTTTTCTTTTTTTTTTAATGAAGGAATATTTTCTTTTTTGATACTGGGGCTCTTATCATACTTCTTTGTTTTCCAAGAAGATTAGATCATTAAAAAAAGGAAGTTTGCTGGGGCATCCTTTTTTTCCATTTCGCTTCTATTGTTTGGGTTTGTTTATAACCAATGTAAGTGTAAAGGCGGTCAGATGAGACTCATATGATTGTATTGTACAAGGGGGCAGTCGGTGTTATAGAAAAGAAAAAATCGAAAAAAAAATGATCAAAGAAAGTAATAAAAAAAAGAAAGAAAAAAAGACGAGGAATCCAATTTCGAATTCGGTATGGATAAAAGATCTTCCTATGTTATACTATTCAATTCTCGACGATGAATCGATTTTATAGCTCAGATATTGTTATTCATGATATTTTGATACGAAAAGATATCATCGAGATGTAATTCATCCCATTTCATTTACAGGCGAAAGATTTTTCATCTCTATGGGATCCCGAGTTATTGCGAATTAAAGAAAAATGAAACGATGTTTATTCTCAATCTTGTCGCATTTATTGCTACAGCACTGTTCATTCTAGTTCCTACAGCTTCTCAATTCGATTTCATATGTAGTGAGTTTGAATTGACCCGGTTAGCTAGAAGGTTCCTTTCGCTACCGTCCTAAGGTTCAACCAACCGTTGGTTTGCTTTAACAAGATTTCACGGAAGTGAACCCGACGCGAAGTTAGTGAAACCTGAGCGTAGCTATGTCACGTGAAGTGAAGAACCTCTGCTTCCTTTTTGAGACACCTTCTTTGATTATTCCCCGGAGCACAAGAGCTAGGGTAAACTCGTCAGCTGGATAGCTATAGTACAGAGTTTCAGGGGGGAATAACTATATCGCTTTTCCGGGGGGACCGAGAAAAAGGGAAGGAGATATGGAGCCAGTGAGTGGCAACAGGTTCAGCGGTGCTATCAAAAACAGCGTTCTATGTGTTATCAGAGCCACTCGTCCCTTCTCCTTTCCTTTCAGTCAAGGTCTAACCTCGCGTAGCTAATGAAAGGGAATACCTTAAAACAAAACCGACGAGAAGCCCTGAGAGCCAGCAAGCAAACCCCCCTGACTTTACTCTCTCTCCATAAAAAAAGCCTGCGTAGTAAACTCCTTGTTTTCTTTCCGATAGCTGCCGAGTTTTTCCAGTTTTCAAGTCAAGCGAGAAAGCAAGTGGATCAGACAAAGTCTTTCTGGTTGTCTCACCAAAGAGTACTGCGTGGCGGTATACCTGTTTGTTTGTAAAAGGTGTTTAAGGATATGGTTAAGCGAGCTAGTTGGCTCAAAACTGCTTTCTATGTTAAATGCTGTAGTGTGTCGCTTATGCGCGCCTATGGCGGGTGTTGAGATCGACACGAATCCTTACCGCATCCGATATCCCTAGCAAGGCTCGAGAGACCTCGAGTGATACCTTACTTCCATAGAAGACTAATTCGTCGTCATGACGTTCGGGCAGACAGATTAGAAGAAATGTATTTATCCATGTTCTCAGTGTCTAAGCGGATTCTTGTTCCTAAACAGAGCAACTATCAGTTTAGTAGCATTGTGGACGACCCGTCGACAGACGTCGAGAGTGTTTTGGAGAAGTAAGGTATCCTAGTTCATGACCTTTTCTTAAGGTCTGTGTCAGAACAGCCTTCCATCCCTATGGAGGTGGGCCTGAATTGGCGTCCTTTCAGGTCTTCATCTCCGGTGAAAGGTGATAAGGCCCTAGTGGGCCGGATTCCCTTCCATTTGGAAGATGTTTGCAATCGCTTTATGGGATCGCGCGGTTCTTTATGTTGGCTCATTGCTTGCATGATCTTTCTTTTATCTTGTTTTCCCTCTGGACTACTTGACACACATGCGCTGAGTTACTTATGAAAAAGCCGTCTACTCATTTCATTGTTAGCGAGTAGGTGGCAGCTAAATTGAGCCTCGTGTCTCCATCGGGGTACCCCACCTGACCGATATATGAGGCCCGCGGACTCACGTTTTACCCTTTAGAGTTATGGTTGGGCTGCGGGATACTTGGGGGGTCGGAGGATTTACCGGTCACGGGCAACCGTAGAACCAACGAGCATCCCGCAGGCGAGGAACCAAACAAGCGAATAGAAAAGTGAAAATACTCGACGCCAACAGAAAATTTCTTTTTTGAAGTATACTGATCTTGAGCCTACCCGAGCGAAAGCGGAGTCTCCAGAGATCAATCAACCGGGCGCCTCCAAAGCAGTATCCAAGTTGTAATAAAAGAAACAAGAAAGAATAAGAATCCAACTAGAGAACTGAAGCTTCCCAAGACCACTTACGGTAAGGTGCGCTGGGCACGAATCCAGTAGCCAGTTTCCCTAGCAGGCAGGTCACACGTACTATAACAATCATTTGAAAAAATCAAATAAAATAAACAAACAACAGACTAACTATACTAGCAAACCAAGAAAGCACAAACCTGACTAGATAGGGGCAAGTTGAAGAAGGGTTTGGGTTCCGAGGAGCTACCAGAGCAGGGGGTTTTAACTGCCCTGATAGCCGGGAAGAGCCTTAGACTTCCGCCGGAGTTCCCGCAGGGACAGGCCAAACCAACCCAGGAACTTCACCAGCTAACTCCACACGTCGACCCAGGAGGTGAGGTCTCCCAACGCTGCCGATTGGATGCCCTGAGTCATTTGGTTTTGACGCGTGTCTGTTAG ATGGGCCTGATGAGTCGACCAATTCCTCTACCCCGCTTCTTCCCCTTATCTTTCTTTCACTATTCCTACCCCCGGGGTGTCCGCCCCTTAGGTCGCCAAACTACGACGAGAGTTTCGCCTTTCGGCCGCGCCAGTCGCTCATCCCCGTATTTTGCCACATACGTGGGTTCGGTCCTCCAAGGCCTGTTAGAGCTCTCTTCAACCTGCTCATGGCTAGATCGATCGCTTCGTGTTTGTTTTTCTTCAAACCCCCAATCCGCTCTCGCTCGCCCTATTACTTCAGAGTCAGGCACGAGACGAAAGGAAGGTAAACAGGAGGCAGGCGCAATAGAAATGCCACCCGGGTTTATAGACCAATCAACCAGGAAAGAAAGTTCCAGCTACTGGAAAACAACTCCCTCCGCCCTTGTTCTGGTTCTATATCAGACAAGACCCCTTGCCGTCGGACTTAATCATAACTTCTCGCTTTCTCACGCCCTTATTAGAGTATTATCGTCGACGGCTTTCGGGCAGGGACACCAACACCTTTTGGCAACACTCGATTTTTGGAATTTTCGAACTTTGCTCCCGACCTCAGGTTACCGGACACGTAGGGCACTGGCCTTGGTTTGCCCACCAACGACTTTCCGCTTGGGAAATACACAACCACCTTTTCTGGAGCAGGAACCTGAACGAGCGCAACAACTGGCGCCTTTCATTGGTTCTACGGTTGCTAGCACTGATAATAGATTCAATCAAAGGTCGAATTCACCTCCGAACGTCTTTCGTACCAACCAGAGGGCGCGAAAGATTTTTCATCTCTATGGGATCCCGAGTTATTGCGAATTAAAGAAAAATGAAACGATGTTTATTCTCAATCTTGTCGCATTTATTGCTACAGCACTGTTCATTCTAGTTCCTACAGCTTCTCAATTCGATTTCATATGTAGTGAGTTTGAATTGACCCGGTTAGCTAGAAGTTTTCAAGTCAAGCGAGAAAGCAAGTGGATCAGACAAAGTCTTTCTGGTTGTCTCACCAAAGAGTACTGCGTGGCGTGTGTCGCTTATGCGCGCCTATGGCGGGTGTTGAGATCGACACGAATCCTTACCGCATCCGATATCCCTAGCAAGGCTCGAGAGACCTCGATGTCTAAGCGGATTCTTGTTCCTAAACAGAGCAACTATCAGTTTAGTAGCATTGTGGACGACCCGTCGACAGACGTCGAGAGTGTTTTGGAGAAGTCTTCATCTCCGGTGAAAGGTGATAAGGCCCTAGTGGGCCGGATTCCCTTCCATTTGGAAGATGTTTGCAATCGCTTTATGGGATCGCGCGGTTCTTTATCCTACCCGAGCGAAAGCGGAGTCTCCAGAGATCAATCAACCGGGCGCCTCCAAAGCAGTATCCAAGTTGTAATAAAAGAAACAAGAAAGAATAAGAATCCAACTAGAGAACTGAAGCTTCCCAAGACCACTTACGATAGGGGCAAGTTGAAGAAGGGTTTGGGTTCCGAGGAGCTACCAGAGCAGGGGGTTTTAACTGCCCTGATAGCCGGGAAGAGCCTTAGACTTCCGCCGGAGTTCCCGCAGGGACAGGCCAAACCAACCCAGGAACTTCACCAGCTAACTCCACACGTCGACCCAGGAGGTGAGGTCTCCCAACGCTGCCGATTGGATGCCCTGAGTCATTTGGTTTTGACGCGTGTCTGTTAG ATGGGCCTGATGAGTCGACCAATTCCTCTACCCCGCTTCTTCCCCTTATCTTTCTTTCACTATTCCTACCCCCGGGGTGTCCGCCCCTTAGGTCGCCAAACTACGACGAGAGTTTCGCCTTTCGGCCGCGCCAGTCGCTCATCCCCGTATTTTGCCACATACGTGGGTTCGGTCCTCCAAGGCCTGTTAGAGCTCTCTTCAACCTGCTCATGGCTAGATCGATCGCTTCGTGTTTGTTTTTCTTCAAACCCCCAATCCGCTCTCGCTCGCCCTATTACTTCAGAGTCAGGCACGAGACGAAAGGAAGGTAAACAGGAGGCAGGCGCAATAGAAATGCCACCCGGGTTTATAGACCAATCAACCAGGAAAGAAAGTTCCAGCTACTGGAAAACAACTCCCTCCGCCCTTGTTCTGGTTCTATATCAGACAAGACCCCTTGCCGTCGGACTTAATCATAACTTCTCGCTTTCTCACGCCCTTATTAGAGTATTATCGTCGACGGCTTTCGGGCAGGGACACCAACACCTTTTGGCAACACTCGATTTTTGGAATTTTCGAACTTTGCTCCCGACCTCAGGTTACCGGACACGTAGGGCACTGGCCTTGGTTTGCCCACCAACGACTTTCCGCTTGGGAAATACACAACCACCTTTTCTGGAGCAGGAACCTGAACGAGCGCAACAACTGGCGCCTTTCATTGGTTCTACGGTTGCTAGCACTGATAATAGATTCAATCAAAGGTCGAATTCACCTCCGAACGTCTTTCGTACCAACCAGAGGGCGCGAAAGATTTTTCATCTCTATGGGATCCCGAGTTATTGCGAATTAAAGAAAAATGAAACGATGTTTATTCTCAATCTTGTCGCATTTATTGCTACAGCACTGTTCATTCTAGTTCCTACAGCTTCTCAATTCGATTTCATATGTAGTGAGTTTGAATTGACCCGGTTAGCTAGAAGTTTTCAAGTCAAGCGAGAAAGCAAGTGGATCAGACAAAGTCTTTCTGGTTGTCTCACCAAAGAGTACTGCGTGGCGTGTGTCGCTTATGCGCGCCTATGGCGGGTGTTGAGATCGACACGAATCCTTACCGCATCCGATATCCCTAGCAAGGCTCGAGAGACCTCGATGTCTAAGCGGATTCTTGTTCCTAAACAGAGCAACTATCAGTTTAGTAGCATTGTGGACGACCCGTCGACAGACGTCGAGAGTGTTTTGGAGAAGTCTTCATCTCCGGTGAAAGGTGATAAGGCCCTAGTGGGCCGGATTCCCTTCCATTTGGAAGATGTTTGCAATCGCTTTATGGGATCGCGCGGTTCTTTATCCTACCCGAGCGAAAGCGGAGTCTCCAGAGATCAATCAACCGGGCGCCTCCAAAGCAGTATCCAAGTTGTAATAAAAGAAACAAGAAAGAATAAGAATCCAACTAGAGAACTGAAGCTTCCCAAGACCACTTACGATAGGGGCAAGTTGAAGAAGGGTTTGGGTTCCGAGGAGCTACCAGAGCAGGGGGTTTTAACTGCCCTGATAGCCGGGAAGAGCCTTAGACTTCCGCCGGAGTTCCCGCAGGGACAGGCCAAACCAACCCAGGAACTTCACCAGCTAACTCCACACGTCGACCCAGGAGGTGAGGTCTCCCAACGCTGCCGATTGGATGCCCTGAGTCATTTGGTTTTGACGCGTGTCTGTTAG MGLMSRPIPLPRFFPLSFFHYSYPRGVRPLGRQTTTRVSPFGRASRSSPYFATYVGSVLQGLLELSSTCSWLDRSLRVCFSSNPQSALARPITSESGTRRKEGKQEAGAIEMPPGFIDQSTRKESSSYWKTTPSALVLVLYQTRPLAVGLNHNFSLSHALIRVLSSTAFGQGHQHLLATLDFWNFRTLLPTSGYRTRRALALVCPPTTFRLGNTQPPFLEQEPERAQQLAPFIGSTVASTDNRFNQRSNSPPNVFRTNQRARKIFHLYGIPSYCELKKNETMFILNLVAFIATALFILVPTASQFDFICSEFELTRLARSFQVKRESKWIRQSLSGCLTKEYCVACVAYARLWRVLRSTRILTASDIPSKARETSMSKRILVPKQSNYQFSSIVDDPSTDVESVLEKSSSPVKGDKALVGRIPFHLEDVCNRFMGSRGSLSYPSESGVSRDQSTGRLQSSIQVVIKETRKNKNPTRELKLPKTTYDRGKLKKGLGSEELPEQGVLTALIAGKSLRLPPEFPQGQAKPTQELHQLTPHVDPGGEVSQRCRLDALSHLVLTRVC Homology
BLAST of Tan0016851 vs. NCBI nr
Match: CAN70459.1 (hypothetical protein VITISV_033464 [Vitis vinifera]) HSP 1 Score: 79.7 bits (195), Expect = 8.8e-11 Identity = 48/80 (60.00%), Postives = 49/80 (61.25%), Query Frame = 0
BLAST of Tan0016851 vs. NCBI nr
Match: KAG8362767.1 (hypothetical protein BUALT_BualtUnG0041600 [Buddleja alternifolia]) HSP 1 Score: 75.5 bits (184), Expect = 1.7e-09 Identity = 44/77 (57.14%), Postives = 49/77 (63.64%), Query Frame = 0
BLAST of Tan0016851 vs. NCBI nr
Match: GEX75063.1 (hypothetical protein [Tanacetum cinerariifolium]) HSP 1 Score: 66.6 bits (161), Expect = 7.7e-07 Identity = 31/37 (83.78%), Postives = 34/37 (91.89%), Query Frame = 0
BLAST of Tan0016851 vs. NCBI nr
Match: TXG46219.1 (hypothetical protein EZV62_028250 [Acer yangbiense] >TXG46255.1 hypothetical protein EZV62_028286 [Acer yangbiense]) HSP 1 Score: 66.6 bits (161), Expect = 7.7e-07 Identity = 31/37 (83.78%), Postives = 34/37 (91.89%), Query Frame = 0
BLAST of Tan0016851 vs. NCBI nr
Match: KAD4584270.1 (hypothetical protein E3N88_21871 [Mikania micrantha]) HSP 1 Score: 66.6 bits (161), Expect = 7.7e-07 Identity = 39/73 (53.42%), Postives = 46/73 (63.01%), Query Frame = 0
BLAST of Tan0016851 vs. ExPASy TrEMBL
Match: A5BRD7 (Uncharacterized protein OS=Vitis vinifera OX=29760 GN=VITISV_033464 PE=4 SV=1) HSP 1 Score: 79.7 bits (195), Expect = 4.2e-11 Identity = 48/80 (60.00%), Postives = 49/80 (61.25%), Query Frame = 0
BLAST of Tan0016851 vs. ExPASy TrEMBL
Match: A0A5C7GP19 (Uncharacterized protein OS=Acer yangbiense OX=1000413 GN=EZV62_028250 PE=4 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 3.7e-07 Identity = 31/37 (83.78%), Postives = 34/37 (91.89%), Query Frame = 0
BLAST of Tan0016851 vs. ExPASy TrEMBL
Match: A0A5N6NAN1 (Uncharacterized protein OS=Mikania micrantha OX=192012 GN=E3N88_21871 PE=3 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 3.7e-07 Identity = 39/73 (53.42%), Postives = 46/73 (63.01%), Query Frame = 0
BLAST of Tan0016851 vs. ExPASy TrEMBL
Match: A0A5A7Q1W2 (Mitochondrial protein OS=Striga asiatica OX=4170 GN=STAS_15693 PE=4 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 3.7e-07 Identity = 31/37 (83.78%), Postives = 34/37 (91.89%), Query Frame = 0
BLAST of Tan0016851 vs. ExPASy TrEMBL
Match: A0A6S7KR95 (Uncharacterized protein OS=Lactuca saligna OX=75948 GN=LSAL_LOCUS1997 PE=4 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 3.7e-07 Identity = 31/37 (83.78%), Postives = 34/37 (91.89%), 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.
|