Tan0002244 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAAAAAAAACTCTCTCAAAGTCGAAGCCTTTCTGGAGCTCTCCCAACCTTACTCAAGAACAACCCACCTAGGGCTCATCTTTGCTTTCTGTCTTTGCTGTGATTTTTCTTTCGATCCCAAATCGTTGAATTTTCTGGAAAGCTTTGGATTTTCTGAGAAGGTTTTCTTGGGGTCCAGGTGAGTTTTTGGTGGATCGCTGTTGGTTCTACTGATTTTTGTTGTGGTTTTTGGTTTTTTGTTTTGTTGATTCGATTTGTGAACTTTTTATGGGGGTTTGAGCCGTTTGGTTGGTGAGAAAGTGGGTTGGAATTGAAAAGGGTTTTCTTGAATTGTTTGATGGGAATTGGTTTCACTGAAAGGAAATGAAGTTGTTGAGTTTCTGATGGATTAATTGAAAGAGGGGAAGTTGCTTGTTTGAAACTTTTTTTTTTTATTTTTATGGCTCTGGCTCCAAATAATTTTCAACTTTTTTTAAAAAAAAAAAAAAAAATTGTATATAGCTGATGATCTCATTTTCTTTTTCCTCTGGAAACCCTTTGAATCAATCTGGCTTTTGTGATCACTTTTGGGTTAACTTGTTGGAAGGGAAATAATAGATCTAAGAAGAGTAAATTTAATTGTTTTAAGTGTTTGTTTGGACAGTACTGCAAAGGAAAAAAACTTTTTGGAGAAGGAATAATCAAATACCTCAAATAACATACCCTCTTCCCGAAAAAATGATATTACTGAATCTTGCTCGTTTCCTTCTTAACACGTTTCTGCTGTTTTCCCCTTTACAATTTCCATAATGGATTTAGAACCTAAGTATGAATCTGAGGAAGCGTTGTGCCATTTTTTTCTTATATTCTTATTTCAGATTTTACTGCTGAGGAAGTTCGTGATTGAGACATGGGATCATATCAAACAATTTTATGCTTCTTAAATGGTGGATAAAAGATCTTGAAGGAATGTCTGACTTGTGTATGTATAAGGTAGAGCTTTATTTTCCCATTTTTGTCTTTTCTCTGATTATTAGTTTGAACTAACGTTGATTTTTTTCTCTGCTGAATATATCTCGCGTTCTTGGCTTTGTGTAGTTTGTTTGGTCATCTATATTGCTATCATACTCAGGATTTTTTTGTTTATCCATGACTTCATTCTTGAAGCATTTTTTAGTGTAAAAATCTAACAGCCACTGGATTGGCATGTCCTCCCACGCATGCTCAGAAAATAGTTAATGGCTGTAAAAGACCAACGGAAATATAGCTAAGTATTTTAATTGCTAGAGAATAGTCTGTTCACTGATAAATTCCCTTTGATTATTCATGACATGTTTGTAGTACACCCCATGTCTAGTGGTAGGGCTGTCATAAAACTCATGAAAAGTAAAGGATGCTTGCTGGATTGGGTGGTTAACCAGATGTCATAAATTTTGTTGTAGCATGTACTCCAAATATAGAGCTTTCCTGTTTTGCGATGGTTTAGCTCCTCATTCTTCTCAGCTTTTGATGATCACTGATACAGCTAGTCTCCATAGAGTAGATATCTGGTTGAATTTAGTTTCCTCTAGCACCCATGACAGCTCATCCATGACTATATTCTTCAGTTTTGTTTGTATTGAACATCAAGTTACTATGCGCAAGCTTGGTCATACGTCATTGGTATTCACATCCCTCACTGCACATGGGCTGAGTAAGAATTTGAGGTTCCTTTATTGGTTCTAACTATGATGTCCTATAAATAAGGCCTTGATTTCTTCACTACCAACACAGTAGTAATTAATTCTCATTCATGAACTGCCTTATGACAATAACTTTGAAGGAAGGGTTCGCTAAAGAATGCCAATGGCTTTCAACCCTGCACGAACAGTACACCAACACGAAGATCAAGAACCTCTATTTTTGTAATGAAAGGTTGCCAAAAATAAGGTAGGGCCAAAATAAGGACTATGGTCATGGCTAGTTTAAGCTTTTGAAAGTATCCTTTTCTTCATCACTGCTCTAAAAGCCATCTGATCAATATTGGCTTCAAACTCCCAGCAATATCTGGTGAGTGTTAAGTCGTATGGAGTTTCTTTAATTCTATAAATTAAGCCAATGAAGCATAGCCTAATTTTGGAGGAATCTGCTGCCAGTTCTTTTACAAACACTGTGTGTGCGCTAATGAAAATTGGCATTTTCTTATGATTAGCTACCAAACAATTTCCAATTGCCTGAACATCAAAAGCCACAAATTTTAATGGTTTAATTTTTAGATACGTTTGTCATAAAAAAAGACTGAGCTAATTTATTTAAGGAAGGCTAAACGTGACTGGAATGTGAATGGTGTGAAATTCATAGTGTCGTTTGTGTTCATGGAAAGCAATTTTGTGTACGTCTTCTCATTTGAGGTGTCTTTGGAAATAACCAGACTTCAAGTCAGTTCTGAGAAGTTTGGATGTACTCGGGATTGTCTTTTGATTGACTGCTTCGTAATCTACAGAAAACAAAACACCAACTTCCATCCTTTTTGTTAACTAGAAAAACTAGATTGGAGAGTATTAACACTCAAAGACAGGTTTAACACGCTGATTTGAATCCTTCCTTTGTTTAGTAAGCTGATTTAGGAAGGAAAGAGTCCTTAAAAAGCATAATTCTTTCTGTGGACGCTAGCACCTGAACAATATTAACACTCAAGTTTACAAAAAGAATAGAACATCCATGATGATTACAAAAGACTCCCTGAATTTGTTAAAAGGGAAGTGTAGCTATAGGAAGTAAAGAGATTAGACAATTTACACCAATAAATAGCATATAATGTATCAAAGGGTTGCTCCCTGTGCAAAAAATTCATTGAACCCAAAAAAAGGCCCGGGTGATATGCATCCACAACATAGCATTGGTTTCCTCGAAAGGGTGACTGATCTGGACAATGGTGATAAAGTCTTTGATGTCCCAAGGGATGACCAGATTCCAGCCAAAGATTTTGATGATCCTTCTCCAAAAGTTCCATGCATATGGGCAATGTATGAATAAGTGGTTCTGAGTTTCATCACTTTTCTTGCATAAAGAGCACCAACTTGGTGAGAGGGGCAAGAAAGGCATGTGCCTTTGTAGATTGTCTTTAGTACTGATGGTAAAGCTTGGGATTTGTCTATCAAACATTGGGTTTAGTTTGGTGTCCTCACAAGGATGTTGAGGGATGGCTCCCCAAGTTACTTTCAGGTTGGTGGTTTAAGGATAAAGCAAGAATGCTTCAGTTAAATTCTATTATAGAGCTCGTTTGGAAGGAAAGGAATGAGAAGCTTTTCAAATATCAGTTATATTTTCATGTTATCTTTTGTGAAAATGTACAGTTCACGGCCTCAGGTTGGAGTGCCCTTCACAAACTTTTTTTTTGTAACTACTCTATCTTTTCTATCAACTTAGACGAGAGGCATTTTGTTTGATCCCTCTTAGGCATCAGGATATCGTGTGGATCGGTTTGTGTTAATGAATTTCTCTTTGTTTCCTATTTTTTTTTTTAAAAAAAAAACTAGATTGGACAAAGATTGGTAATTGACTAACTGTTCAATCTCGTCCTTTTGAAATTGATTGTATTGTAGGGTTGATTATTCCTGGGAGTAGTGCTTGGTACAAGTTTTAGACGTGTAATCTTTACCCTTCTGTTGAGTTGATCATATTACTGGCTTAAAGACCTTGATGTATTTGGCGAATGGCCATCTTATTCCTTGGCCAATTTTGTGTTTTAGCTACATCACTACTCACCTCATTTAGGTTGAGGTCAAGCAAAAATGCCTTATCTTTTGTTTATTATGGTCTTCATCGTAGATTTAGACAGTTATTTGATACTAACAAGGCTAGGTTCCCCAACTTCCCCTAAAGAACTATTGATCCCCAACTTCCCCTAAAGAACTATTGATCAATCTTACACCTTGAATTTCATATTGAGTTCTTTTCTATCCACACACATTGATCTTGGCATGAATACTTCCAAAATGATTGTTTCTCTCCTAAAAAAAAAATGAATACTTCCAAAATGGCATCTGTACTTTTTATAGGCTATATTTAAAAGGAAATCCTTTACTTCAGTCAACTTAAAAAAGGATAATACCCTTCTTTTGCAGGTTCTCATTCCCATAATTGAGACACTAATATTTTTTTTTCCCTAAAAGAAAGAGATAAAACCAGCCTTTATTAAGATAAATGAAAGAACGATAAAAAAAAGAGAGGTCTACAAAAAGAAGGGCCAAGCCAAAAAATGGGTAGAAACTCTATTACCTGCTACTACCCCATAAAGGTAATTTCAAGTCATATGCCAAGTATTTTGAGATTAAATTGTGTACCTCTATCTCACATTGTGCCTTTGTCCTTGGGATTTTCATGGTCCTTGAATATTTTAATCCTATCCTACTACAGAACTAAGGGATAACCCTACCCACCAAGTTTAATTTCAGCCTCGCCATTAAGCCCAGGAGCTTATTCTTCTAATTGATATAATCTAACTTAGTTGTTTCAATTTTTTTTTTTCTAAAAACACTATGTTGTGATTGCTTGTGATATCTTTTTTTTTTTGGGTAAGAAGCCAAGTTTTCATTGAGAAAGAGGAAAGAAACAAGGGCATACAAAAAACAAGCCCAACTAAAAGGGAGCCCATATCTGATATGCAAATTTTTACAAAAGAAAGAAAGATGTCCTTGAAGTAGTGCAAATACTAACTTTGTTACGTGAGATAACTTCAAATTTACCACCAGATGATCAATCTTATGCCATTGATAGGATTCAAAAGATATCTTCTCTAATATTTTCACTTTAGACCAAGCATCCAATTAATATTTATAGATGTTACGAGCATTTTTTAAAAAATTTTATTTTATCTTCTATTTGTGTGACTCTCTTTACTTGTCCCTATGATGATTTGAGTGTCTTATAAACTCGGCCCATGTAGTGTGTGTGTGTATTCTACTTATATGTATTTGTCTAGAGGACCGAATTGTTGGTGCAAAGCAAACTATTCTTGTAGATTTGCTTAGCAGTAGCCCCTTTCTGTTACTATTGTGTCTCAGAGGTATGTATCTGTTTTTGCATTGCCAATTTGGCTTCCAACTGAATACCCCTTTTTTTCTAATTCCAACTCTAGACCCATCCATATAATATCATCTTATTAACAGGACTTTTGCAATTCGAGTTCAAGCTAAGGATCATGAAATGGATGCGGTAGTATAATAAGATATCACTGGTATTTGCTGATCTTGTGGTCGGTCATAAGTTGGTGTAGCTGATGTTGCCATTGAGGTGAAGGCGACATCACTAGTAACTGGTATTCTGAAATCCTTAAATTTGCTTCGTTCTGAATCAACATGTCTCTGCATATTTTTTTAGTTTTACAGATAAAAGGAGATTGATTTTAGCTTCTTGATCCACATTGAAGGTGGAAACTTTCACTCTGACAATCTCTCGTAGATGTGTACTTCATAGATACAAGAAACTAATGGTCAATAGTCTATACAAAGCTCTAGCTTAGATGGGCTCTGTATTGTTGTTTATTTTTCCAATAAGTATCAAACTATTGGTTAGAAAAAATCTAAGTTGACAAGTCATATCAATTAAATCCCAGATTAAAACTATTAGCTAAAGGTGGGTATGCGTCATTTTTAATTTTCTGAAACAAAAGAAGCAATAATTTGAGCATTGTGTGAAATCCTCCTGCTCTTTTAAAACAGATAAACATGATGTTTGAGATGATGGGCGATGATTTAGGCACTTAGCAATCATTTCTCTGCTAATTACCAATTGAGTGTATCCTGTGGAATCAATGATTTATGGATGGATGTTATATAACGATATACTTTACTATTTTCTGTTCATTCTTTTATTTCTCTATTACATTGAAAGGTCTCTTACCAATGTGATTTTTGTTTGTTTAACTCATTTAGGTTGTATTTGGGGTGTGGGGTATAATAGTCTGTGGGGTACTCTGCACCCCAAACACATACTATTATAACCTAGACTAAACAACTTTGCATTTTAAACAATATTATATAACTCTACAAACTATTATAACTCACAAACTATTATAACCTATGTTATTATAACTCACTCAGTGCCCCAAACAACCCCTTAAGATTTAAATCCTATTTTGGTCCTCAAACAGTTATAATTTAATTTAGTCCTAAAACTTTTGAATGCTCTATCCTAGTCTCTAAACTTACAAATTTTTTGTTTTCATTCTTACACTTGACGGTCCATGCCTTTGATATTTTATTAATGATCTAAACAGAATTCCAAATTCATTTGGAGACACAATTGACATTAACTTGTTACACATAGCTTTAATGACTTGTTCACATAGACATCTACTCATCATGTAACAAATGCCACGTTAGATTTCTACTAAATAATTTATAAAAAAAAATAGATGACAAGGACTTAAATTGTTTTTTATCCAAAGTTTTAGATTCCTACTAAATAATTTATTAAAAAAAATTGATGACAAGGACTTAAATTGTTTTTTATCCGAAGTTTGAGAATTGAAATAGAACATTTGAAAGTTCAAAAACTAAAGCAGGACAACAAAATAGAATTTAAACCTACATTTAACTACTTTATAGAATGTATTTATGTCTTGTGGTTTATTTCTCAAAACACGTCTTTTTAGAACATCATAGCTGTCAAAATATTTAAGTTTTATATAAAGGAAGGATATGAAGTTGTGCTATAAAAGGAACCTAGTTTCCTCCCCAAGAGGAAGCGGCTACCCAGACACTTCAAGATTAAATGTCATAATTTTGTTACTGCATGTAGTGCTGGTTTTTTGGCTTTAGGGCATGTTTGGAATGACTTTCGAAGTGCTCAACTCTTTTTTATGCACATCGAAAGTCATTCCAAACAGGTCCTTAGTTCACCTGTATAATGCGTGTTGAATTGGCTTCTGTATTTTATGAGATATAACAAGTTATCCAAATCTTTCTTAATGTAAGGGAGATAAATGCATATTCGCCTTCTATTTTGAATTCTCCAGTCTCGTAGCTTAACTACCTTGTAATGGTGTTGCAGCTCAAGGATAATATTTGGAAGGATTTCACTGGGAATGATGATTATATAGTGCCTCATCTTGGTGATGAACTTTGGGATCTATTTGAAGTGCAGAGTGATAGTCTTGAGAATTCTAATCGCAAAATTGGCTTTACAAATGATGCTTACAATGCAACTAAGTTCAGTTTTCTTGGTAAGGAGAAAGTAAGAACACAAACACCCATCATGAAGAATACAGTGCTGGAAAAAGACTCATGGCCTCATACACCTGATGGTGTTCCTACTTCATTAAACAGCGACTCATTCAAAGATGTGAAAATGGAATCAAGCAGTCTTAGTATGTCAAATCATTGCTTTAAAACAGACGTGGGTACAGACCTTGATTACTGCACAGATGATCATATTGTAACTGACAATAGTCCAGCAGATGAGAACGACATGTATCAATATTCTGTCAGTCACATGTCCCAAACAGATAATGATATTAGTTTTTTGGATGATGATCGTGAAAACAAAGAAAACAATGATCTTCTGTATTATGGGTGGCAAGATATGGAAAGCTTTGAGGACGTAGATAGGATGTTTAGGTACTCGACCTTCATTATTTTTTTTTCTCCATTTGTTTAGATTTTATGATATGAAGGCTGAATTCTTTGATCCCACTGTGATTGTGATTTGTGCATGATACAGAAATTGTGATTCAACATTTGGGCTTGGGAATCTAAGCAATGAAGATGATCTATGCTGGTTTTCCCCATCCCATGGCTCGGAAAATCTTGAAGATCCATCAAAGTCAAACTTTAAGTTTTCATGCTGTGAAGGAAGTACAATAAATGATGCATCGGAATTTAATGAAGATTCTAATCCTGTGAATTCAGACCCATCATCTAATTGTTTGAACGAAAATAATATTTTAACTGGGTGCAAGGTGAATGATGGGATTACAGATATTGGTGACTCTGCTGCTATTAGTCACTTGTTAGCTGCTGACATGTCAGATAGAAAAAGCAATTCTAGAGGTGACTTGACTCCTAAAAAACAGGTTTGTTACTGTTCTAATTTTTCTGTTTGAAATTGACTTTTCTGGATCTTTCTTCATCCTCGAACCAAGAATAAAATAAAATCTCTCTCGTTTTATTTGTAATTGAGGTCTTCTCTCCCCAACCTTGTTATAATCATTGTAAAAAATGAGTGAAGAAAGAGACATATAGAGTTTCATGTAATGAAGCATTGTAGTAAAACTCTCTAGACTCATTGTAGGATAAAGTAAAAACTGTCCAAGAGCATCCTTCTGGAACTCATCAAATTGAAAACTTATGACTGGAACCTAAACAATGTACAGAGATTTTCAAGGCTTAAATAAAGTGCAGTATGTTAGTATGGAAAATCTTCCCCATCAAGGTTTTCAAGGCATAAATATCAAATAGGGATCTGGATCTGATTCCTTGACTGGTATACGAACAGGAAGTTTGTGTCTGCACCTAGAATATACTATATAGCAATGCGTATTAACAATTTTGTTGTCTTCAGCTCTTTCTCTTACAAAATCTACAAGTAACGTCTGCCTATTTTTGCAGGAGTCATCTTATGCATCTAATCAACCACAGTCTCTACCTAGCTCTCATTATCCTTCCTTTGACACTCCAACAATTGCAGCAAATGAAAATAGAGAAAAACTGTATCACCAAGATTTACCTGCCTCGTTCAATAGGAATTTCACTTTTTTGTCTACACCAAATTCGGAAACATTCAATACTTCGTTTCCAGTTAGAAAGCAGGCGCCAAGATCTGAAAGTGAAATTGATGATGGTCACAGCGAAACTGGAGTAGTTAGCCGAGGAAGTCAAGCAGAATTAGATTCTTCAAATGCACAGGATAAGTCCTGTAGGAGCACTATGCTGGATGGAATCTCTCTGGAAGCAACTAGTTTTCGCCAGCTTCAACAAGTAATGGAGCAGGTAGTAGTACTTTACATGCTTTTCACATCATAAAATAGTGTCCACTGTCTATCTGCATGAAAATGTCATTTGCATGCATAGTAGTTCTACTTCCTTTACGCAGTGAGGTAGTCTCTTTTTGCTTACTTATCAAAACCAATAATCTGACCATGGCCATAACAAACATTGGGTGGTTTTCTTCAATCCCTAAAGTTTATGGTGTCCAGTGCTTTTATGTCATGAAATTCTGCAAGTCATAAATTAGATTGCCTATATACCTAAAACAACATGATCATGAGAAAGCACTAGCACAGCCTGACACAGGCACGTCAACACGTCACTTTCTAGAAAATCAGAACGTGGACATGGAATAATATGTTTATTAAAGGATGTACATTTCAATTATATTTGAACAATTGCATTACATTTCAATGATTTTCACATTAAGAATGTGTTTCAGTTTATGATATTTATATTTAAAAACTAATGTGAAAGAATTGATGAAATATACTTCAAGTACTTTAAGAAAATGATTACATAATTCCGATGATGATGTCCTGTGGCAGGTTTTTTTTTTTTTTAAAAAAAAAAACAACAAATCAACATTTTTTTTGTAAAATGATTCAATATCTTAGAAATTGTTTTGGTTATGTTGTATACTTTTATGCCGAAAACTTAGAAGAACAAATTTCATGTTCTTTTCATTCTTGAAATTTACTAATTTATCCTATTGAGCTAGCTTTTTCAAGCTTGCATTAGTCAAATATATTATAAATGTTTTTTAATAGCATTGATGAACCACAGATTATTTTCAACCAGCAATGGACGCTCCTTGGTTAGAACCTCACTAGCTGCGTCATTGCCCTAACGATTATGAGAACTAACTTTCTTTTTGTTATCTATGTTCCATGTTTATTCATCCTTCATAACCCTCATTGATTTTTTTACAACTCATTACGAGAGCATTGCATTTCCATAAAACTGAAAATGCTTTGATAATGAACATTAGATTCCTTCACTAGGAAGTGTGAATATTGTGATATTGTTCTTGAAACTAACTGCTCGAATTACTTATTTCAGTTGGATATTAGGACGAAACTATGCATAAGAGATAGTCTATATCGCCTGGCAAGAAGTGCAGAGCAGAGACATAACTGTGCAAATCTTAATGAGAATATTGGAGAAGATAAACTTGTGAGAGTTGCACCGTCGATTGATCAAGACGCAAACAGGCAAGTTCTTGTTGTTTACTCACCTTATTATTTCTGGGCATAATTTATCAAATATTACACTTTTGCTTTTGCTTTTACTTCTACTTCATGTTGTTGTCTAGTCAAGGCACTCCAGTTTTCTTTCTGTTACCTTCTAGCAATGTGTGTATTCTTAGGCCTCATTTAGTTGATCGGAATGAGGATGATGAAAAGTTGAATGAAATCCAATTGAAAGAAAAATTATAGAATGAAAATAATAATTCTGTATTATGTTCACTAAAACTAACTTGGTTAATATTTACTAAAACTATAGGAATGCCAATTGGCCTGTATGGCTGGCTGGTTATCAATGGTTTCTTGTTTCTGTAAACGCAGAGGATGGGTGAACCAAAAGCATTTTACTTATTTTCTTCTTCTTGTGTATAAACAATGCAGTTAAGTTTGAATTTCTTGTTCTTTTTTTTTTTTTCCGTCTATGGAGTTATTTCCAACTTTCTTACTGCGGATTTCGGTTTTAACAGGAGTGGAGGTTTTTTGGATTTGGAAACTGATACCAATCCTATAGACCGGTCAGTCGCCCACCTGCTGTTTCACCGGCCTTCGGATCCATCTATAATGCCTGCTGGTGGTAACGCCTTACCTCTGAAATCTCATAAAGTGGTATGCTTTTTTGCACCTTTCAGTTTTTGTCCTGTATTGTATTGAATAAAATATTCCAGTTGGAGAAACTCGAGAGGGTCATGTTTTTCTTTTTGATGTAATTCGTTTGCCATGTCATCTTGACACGTTCTTATATTTTGCATAAAATACCAAGATGATATAAACATGGACCGAAGAAATGGAGATGATCCATCCAAATTTCAATTTCCCTTATCAGCAGACTTATTTCCTGTCAACAACAGATTCACTGGTCTGTCACCAATCTGCAGGTGCCAGCCGAAAAACAAAATTTCCAGGACGAAACCGGTGGAGCTGCAGCTTGTGCAGATCAAAAGCCGCTGTCGAATGGGAAAAAACTATGAGCAGTAAGCTCTGTAAAATATTGTGTAATAACACACGTGAGGCCCGGCATCGATGCATGGTGTGACTCCATTCCATACTCCTTTATAATCTTAAGCTCTGTGAGATATGTTCCTCCATGCATCCTTGTTGGTCCAGCTCCTTGAAATGCTTACCTTGAAAGGCTAAGTAGGCTATAATTCTACTTGTCTTTGGCTAATGTATTAAGAGCCTGTTTAACTATGCTGATTACAAAAGTGTTATGTGCATTAGTTATTGCTTTGATAGGCTAATCACAATTCATGGGTCAAGGGTTGGAGGCTCCTCTCTTTTGGATTATATCTGCTGTTTGCTTTTTTTTTTTTTTTTTGTGGGCACTGTTAGGAAATAGCCTGGCCAAGGTTTTTGGAAATTTAAATTATTTCTGTTTGTATGTTGTAGTGTTTTAGTTAAGTTCAAAGTTTAGATTATGCAGTGTATATCTCTCTATTTAGATGGATAAATGGTGGGTTATTATGTAAAGTTCTTTTCTTTTCTTCTTTGATGTAGTATTATTTTATGCAGGGTTCAAATGAATACAATCTGGTTAATTATTTCTTCTTTGGTGCTACTCTGTTTTGGATTGTTAAGGGTACATTTTTCATTGTAATGGCAATTATTTTGAGAATTTTTAGACTATTTTTCTAATAGTTGTTTTAGAAAGCTAACTGATATATTGTATCATGTGG AAAAAAAAAAAAACTCTCTCAAAGTCGAAGCCTTTCTGGAGCTCTCCCAACCTTACTCAAGAACAACCCACCTAGGGCTCATCTTTGCTTTCTGTCTTTGCTGTGATTTTTCTTTCGATCCCAAATCGTTGAATTTTCTGGAAAGCTTTGGATTTTCTGAGAAGGTTTTCTTGGGGTCCAGATTTTACTGCTGAGGAAGTTCGTGATTGAGACATGGGATCATATCAAACAATTTTATGCTTCTTAAATGGTGGATAAAAGATCTTGAAGGAATGTCTGACTTGTGTATGTATAAGCTCAAGGATAATATTTGGAAGGATTTCACTGGGAATGATGATTATATAGTGCCTCATCTTGGTGATGAACTTTGGGATCTATTTGAAGTGCAGAGTGATAGTCTTGAGAATTCTAATCGCAAAATTGGCTTTACAAATGATGCTTACAATGCAACTAAGTTCAGTTTTCTTGGTAAGGAGAAAGTAAGAACACAAACACCCATCATGAAGAATACAGTGCTGGAAAAAGACTCATGGCCTCATACACCTGATGGTGTTCCTACTTCATTAAACAGCGACTCATTCAAAGATGTGAAAATGGAATCAAGCAGTCTTAGTATGTCAAATCATTGCTTTAAAACAGACGTGGGTACAGACCTTGATTACTGCACAGATGATCATATTGTAACTGACAATAGTCCAGCAGATGAGAACGACATGTATCAATATTCTGTCAGTCACATGTCCCAAACAGATAATGATATTAGTTTTTTGGATGATGATCGTGAAAACAAAGAAAACAATGATCTTCTGTATTATGGGTGGCAAGATATGGAAAGCTTTGAGGACGTAGATAGGATGTTTAGAAATTGTGATTCAACATTTGGGCTTGGGAATCTAAGCAATGAAGATGATCTATGCTGGTTTTCCCCATCCCATGGCTCGGAAAATCTTGAAGATCCATCAAAGTCAAACTTTAAGTTTTCATGCTGTGAAGGAAGTACAATAAATGATGCATCGGAATTTAATGAAGATTCTAATCCTGTGAATTCAGACCCATCATCTAATTGTTTGAACGAAAATAATATTTTAACTGGGTGCAAGGTGAATGATGGGATTACAGATATTGGTGACTCTGCTGCTATTAGTCACTTGTTAGCTGCTGACATGTCAGATAGAAAAAGCAATTCTAGAGGTGACTTGACTCCTAAAAAACAGGAGTCATCTTATGCATCTAATCAACCACAGTCTCTACCTAGCTCTCATTATCCTTCCTTTGACACTCCAACAATTGCAGCAAATGAAAATAGAGAAAAACTGTATCACCAAGATTTACCTGCCTCGTTCAATAGGAATTTCACTTTTTTGTCTACACCAAATTCGGAAACATTCAATACTTCGTTTCCAGTTAGAAAGCAGGCGCCAAGATCTGAAAGTGAAATTGATGATGGTCACAGCGAAACTGGAGTAGTTAGCCGAGGAAGTCAAGCAGAATTAGATTCTTCAAATGCACAGGATAAGTCCTGTAGGAGCACTATGCTGGATGGAATCTCTCTGGAAGCAACTAGTTTTCGCCAGCTTCAACAAGTAATGGAGCAGTTGGATATTAGGACGAAACTATGCATAAGAGATAGTCTATATCGCCTGGCAAGAAGTGCAGAGCAGAGACATAACTGTGCAAATCTTAATGAGAATATTGGAGAAGATAAACTTGTGAGAGTTGCACCGTCGATTGATCAAGACGCAAACAGGAGTGGAGGTTTTTTGGATTTGGAAACTGATACCAATCCTATAGACCGGTCAGTCGCCCACCTGCTGTTTCACCGGCCTTCGGATCCATCTATAATGCCTGCTGGTGGTAACGCCTTACCTCTGAAATCTCATAAAGTGGTGCCAGCCGAAAAACAAAATTTCCAGGACGAAACCGGTGGAGCTGCAGCTTGTGCAGATCAAAAGCCGCTGTCGAATGGGAAAAAACTATGAGCAGTAAGCTCTGTAAAATATTGTGTAATAACACACGTGAGGCCCGGCATCGATGCATGGTGTGACTCCATTCCATACTCCTTTATAATCTTAAGCTCTGTGAGATATGTTCCTCCATGCATCCTTGTTGGTCCAGCTCCTTGAAATGCTTACCTTGAAAGGCTAAGTAGGCTATAATTCTACTTGTCTTTGGCTAATGTATTAAGAGCCTGTTTAACTATGCTGATTACAAAAGTGTTATGTGCATTAGTTATTGCTTTGATAGGCTAATCACAATTCATGGGTCAAGGGTTGGAGGCTCCTCTCTTTTGGATTATATCTGCTGTTTGCTTTTTTTTTTTTTTTTTGTGGGCACTGTTAGGAAATAGCCTGGCCAAGGTTTTTGGAAATTTAAATTATTTCTGTTTGTATGTTGTAGTGTTTTAGTTAAGTTCAAAGTTTAGATTATGCAGTGTATATCTCTCTATTTAGATGGATAAATGGTGGGTTATTATGTAAAGTTCTTTTCTTTTCTTCTTTGATGTAGTATTATTTTATGCAGGGTTCAAATGAATACAATCTGGTTAATTATTTCTTCTTTGGTGCTACTCTGTTTTGGATTGTTAAGGGTACATTTTTCATTGTAATGGCAATTATTTTGAGAATTTTTAGACTATTTTTCTAATAGTTGTTTTAGAAAGCTAACTGATATATTGTATCATGTGG ATGCTTCTTAAATGGTGGATAAAAGATCTTGAAGGAATGTCTGACTTGTGTATGTATAAGCTCAAGGATAATATTTGGAAGGATTTCACTGGGAATGATGATTATATAGTGCCTCATCTTGGTGATGAACTTTGGGATCTATTTGAAGTGCAGAGTGATAGTCTTGAGAATTCTAATCGCAAAATTGGCTTTACAAATGATGCTTACAATGCAACTAAGTTCAGTTTTCTTGGTAAGGAGAAAGTAAGAACACAAACACCCATCATGAAGAATACAGTGCTGGAAAAAGACTCATGGCCTCATACACCTGATGGTGTTCCTACTTCATTAAACAGCGACTCATTCAAAGATGTGAAAATGGAATCAAGCAGTCTTAGTATGTCAAATCATTGCTTTAAAACAGACGTGGGTACAGACCTTGATTACTGCACAGATGATCATATTGTAACTGACAATAGTCCAGCAGATGAGAACGACATGTATCAATATTCTGTCAGTCACATGTCCCAAACAGATAATGATATTAGTTTTTTGGATGATGATCGTGAAAACAAAGAAAACAATGATCTTCTGTATTATGGGTGGCAAGATATGGAAAGCTTTGAGGACGTAGATAGGATGTTTAGAAATTGTGATTCAACATTTGGGCTTGGGAATCTAAGCAATGAAGATGATCTATGCTGGTTTTCCCCATCCCATGGCTCGGAAAATCTTGAAGATCCATCAAAGTCAAACTTTAAGTTTTCATGCTGTGAAGGAAGTACAATAAATGATGCATCGGAATTTAATGAAGATTCTAATCCTGTGAATTCAGACCCATCATCTAATTGTTTGAACGAAAATAATATTTTAACTGGGTGCAAGGTGAATGATGGGATTACAGATATTGGTGACTCTGCTGCTATTAGTCACTTGTTAGCTGCTGACATGTCAGATAGAAAAAGCAATTCTAGAGGTGACTTGACTCCTAAAAAACAGGAGTCATCTTATGCATCTAATCAACCACAGTCTCTACCTAGCTCTCATTATCCTTCCTTTGACACTCCAACAATTGCAGCAAATGAAAATAGAGAAAAACTGTATCACCAAGATTTACCTGCCTCGTTCAATAGGAATTTCACTTTTTTGTCTACACCAAATTCGGAAACATTCAATACTTCGTTTCCAGTTAGAAAGCAGGCGCCAAGATCTGAAAGTGAAATTGATGATGGTCACAGCGAAACTGGAGTAGTTAGCCGAGGAAGTCAAGCAGAATTAGATTCTTCAAATGCACAGGATAAGTCCTGTAGGAGCACTATGCTGGATGGAATCTCTCTGGAAGCAACTAGTTTTCGCCAGCTTCAACAAGTAATGGAGCAGTTGGATATTAGGACGAAACTATGCATAAGAGATAGTCTATATCGCCTGGCAAGAAGTGCAGAGCAGAGACATAACTGTGCAAATCTTAATGAGAATATTGGAGAAGATAAACTTGTGAGAGTTGCACCGTCGATTGATCAAGACGCAAACAGGAGTGGAGGTTTTTTGGATTTGGAAACTGATACCAATCCTATAGACCGGTCAGTCGCCCACCTGCTGTTTCACCGGCCTTCGGATCCATCTATAATGCCTGCTGGTGGTAACGCCTTACCTCTGAAATCTCATAAAGTGGTGCCAGCCGAAAAACAAAATTTCCAGGACGAAACCGGTGGAGCTGCAGCTTGTGCAGATCAAAAGCCGCTGTCGAATGGGAAAAAACTATGA MLLKWWIKDLEGMSDLCMYKLKDNIWKDFTGNDDYIVPHLGDELWDLFEVQSDSLENSNRKIGFTNDAYNATKFSFLGKEKVRTQTPIMKNTVLEKDSWPHTPDGVPTSLNSDSFKDVKMESSSLSMSNHCFKTDVGTDLDYCTDDHIVTDNSPADENDMYQYSVSHMSQTDNDISFLDDDRENKENNDLLYYGWQDMESFEDVDRMFRNCDSTFGLGNLSNEDDLCWFSPSHGSENLEDPSKSNFKFSCCEGSTINDASEFNEDSNPVNSDPSSNCLNENNILTGCKVNDGITDIGDSAAISHLLAADMSDRKSNSRGDLTPKKQESSYASNQPQSLPSSHYPSFDTPTIAANENREKLYHQDLPASFNRNFTFLSTPNSETFNTSFPVRKQAPRSESEIDDGHSETGVVSRGSQAELDSSNAQDKSCRSTMLDGISLEATSFRQLQQVMEQLDIRTKLCIRDSLYRLARSAEQRHNCANLNENIGEDKLVRVAPSIDQDANRSGGFLDLETDTNPIDRSVAHLLFHRPSDPSIMPAGGNALPLKSHKVVPAEKQNFQDETGGAAACADQKPLSNGKKL Homology
BLAST of Tan0002244 vs. ExPASy Swiss-Prot
Match: A8MQN2 (Protein LNK1 OS=Arabidopsis thaliana OX=3702 GN=LNK1 PE=1 SV=1) HSP 1 Score: 235.3 bits (599), Expect = 1.7e-60 Identity = 213/620 (34.35%), Postives = 298/620 (48.06%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy Swiss-Prot
Match: F4JCX9 (Protein LNK2 OS=Arabidopsis thaliana OX=3702 GN=LNK2 PE=1 SV=1) HSP 1 Score: 74.7 bits (182), Expect = 3.8e-12 Identity = 56/141 (39.72%), Postives = 73/141 (51.77%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy Swiss-Prot
Match: Q9LHH5 (Protein LNK3 OS=Arabidopsis thaliana OX=3702 GN=LNK3 PE=1 SV=1) HSP 1 Score: 55.1 bits (131), Expect = 3.1e-06 Identity = 34/109 (31.19%), Postives = 61/109 (55.96%), Query Frame = 0
BLAST of Tan0002244 vs. NCBI nr
Match: XP_004137168.1 (protein LNK1 isoform X1 [Cucumis sativus] >KAE8649302.1 hypothetical protein Csa_014684 [Cucumis sativus]) HSP 1 Score: 1020.4 bits (2637), Expect = 6.2e-294 Identity = 512/568 (90.14%), Postives = 534/568 (94.01%), Query Frame = 0
BLAST of Tan0002244 vs. NCBI nr
Match: XP_008455643.1 (PREDICTED: protein LNK1 isoform X1 [Cucumis melo] >XP_016901790.1 PREDICTED: protein LNK1 isoform X1 [Cucumis melo]) HSP 1 Score: 1011.9 bits (2615), Expect = 2.2e-291 Identity = 507/568 (89.26%), Postives = 532/568 (93.66%), Query Frame = 0
BLAST of Tan0002244 vs. NCBI nr
Match: XP_038903968.1 (protein LNK1 isoform X1 [Benincasa hispida]) HSP 1 Score: 1008.8 bits (2607), Expect = 1.9e-290 Identity = 510/569 (89.63%), Postives = 534/569 (93.85%), Query Frame = 0
BLAST of Tan0002244 vs. NCBI nr
Match: XP_022942220.1 (protein LNK1-like isoform X2 [Cucurbita moschata]) HSP 1 Score: 1000.3 bits (2585), Expect = 6.6e-288 Identity = 511/582 (87.80%), Postives = 535/582 (91.92%), Query Frame = 0
BLAST of Tan0002244 vs. NCBI nr
Match: XP_023526128.1 (protein LNK1-like isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 998.8 bits (2581), Expect = 1.9e-287 Identity = 510/581 (87.78%), Postives = 535/581 (92.08%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy TrEMBL
Match: A0A1S3C1I0 (protein LNK1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103495765 PE=4 SV=1) HSP 1 Score: 1011.9 bits (2615), Expect = 1.1e-291 Identity = 507/568 (89.26%), Postives = 532/568 (93.66%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy TrEMBL
Match: A0A6J1FVV2 (protein LNK1-like isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111447342 PE=4 SV=1) HSP 1 Score: 1000.3 bits (2585), Expect = 3.2e-288 Identity = 511/582 (87.80%), Postives = 535/582 (91.92%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy TrEMBL
Match: A0A6J1FQP0 (protein LNK1-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111447342 PE=4 SV=1) HSP 1 Score: 995.7 bits (2573), Expect = 7.9e-287 Identity = 511/583 (87.65%), Postives = 535/583 (91.77%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy TrEMBL
Match: A0A5D3CTW1 (Protein LNK1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1706G00440 PE=4 SV=1) HSP 1 Score: 995.0 bits (2571), Expect = 1.3e-286 Identity = 499/561 (88.95%), Postives = 525/561 (93.58%), Query Frame = 0
BLAST of Tan0002244 vs. ExPASy TrEMBL
Match: A0A5A7TQX8 (Protein LNK1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold316G00010 PE=4 SV=1) HSP 1 Score: 989.6 bits (2557), Expect = 5.6e-285 Identity = 496/558 (88.89%), Postives = 522/558 (93.55%), Query Frame = 0
BLAST of Tan0002244 vs. TAIR 10
Match: AT5G64170.2 (dentin sialophosphoprotein-related ) HSP 1 Score: 235.3 bits (599), Expect = 1.2e-61 Identity = 213/620 (34.35%), Postives = 298/620 (48.06%), Query Frame = 0
BLAST of Tan0002244 vs. TAIR 10
Match: AT5G64170.1 (dentin sialophosphoprotein-related ) HSP 1 Score: 218.4 bits (555), Expect = 1.5e-56 Identity = 192/555 (34.59%), Postives = 269/555 (48.47%), Query Frame = 0
BLAST of Tan0002244 vs. TAIR 10
Match: AT3G54500.1 (BEST Arabidopsis thaliana protein match is: dentin sialophosphoprotein-related (TAIR:AT5G64170.1); Has 183 Blast hits to 175 proteins in 44 species: Archae - 0; Bacteria - 4; Metazoa - 38; Fungi - 11; Plants - 120; Viruses - 0; Other Eukaryotes - 10 (source: NCBI BLink). ) HSP 1 Score: 74.7 bits (182), Expect = 2.7e-13 Identity = 56/141 (39.72%), Postives = 73/141 (51.77%), Query Frame = 0
HSP 2 Score: 36.2 bits (82), Expect = 1.1e-01 Identity = 59/248 (23.79%), Postives = 104/248 (41.94%), Query Frame = 0
BLAST of Tan0002244 vs. TAIR 10
Match: AT3G54500.2 (BEST Arabidopsis thaliana protein match is: dentin sialophosphoprotein-related (TAIR:AT5G64170.1); Has 162 Blast hits to 160 proteins in 41 species: Archae - 0; Bacteria - 0; Metazoa - 23; Fungi - 11; Plants - 118; Viruses - 0; Other Eukaryotes - 10 (source: NCBI BLink). ) HSP 1 Score: 74.7 bits (182), Expect = 2.7e-13 Identity = 56/141 (39.72%), Postives = 73/141 (51.77%), Query Frame = 0
HSP 2 Score: 41.2 bits (95), Expect = 3.3e-03 Identity = 29/85 (34.12%), Postives = 45/85 (52.94%), Query Frame = 0
BLAST of Tan0002244 vs. TAIR 10
Match: AT3G54500.3 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: dentin sialophosphoprotein-related (TAIR:AT5G64170.1). ) HSP 1 Score: 74.7 bits (182), Expect = 2.7e-13 Identity = 56/141 (39.72%), Postives = 73/141 (51.77%), Query Frame = 0
HSP 2 Score: 41.2 bits (95), Expect = 3.3e-03 Identity = 29/85 (34.12%), Postives = 45/85 (52.94%), 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.
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