Tan0018093 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAGAAATGCCCTAACTGTTTCATCTTCCTTTCACTCTTACTTACGTAGTTCTTCTCCTTCTTCACGCAGTCTCCTCCACCGTTTCAGCAGCTCAATATCGCCGCCACCTCTCTTTCTTCCTCCTTGCGGTTTTGCTGTTTTGCACTGATTTTCTGCTCCCTTATTGTTACTGGGTTACTGGTATTTTTTCAATCTCCATCTATATCTTTCTTCTCACTTGAGAAACATAAATTAGAACTTGGCTAAGCATGGAGGAGTTATTTGATTTATTTTCTTTCTAATTACAGTAGCCGAATAGCAACGGATAAAAAATGAAAATAGCCTTGCGGCAAATTGAGTACTGGTTTGTGTTTGGTTGTTCCTATTCGAACGTGGGTCTTCTTCTCCGGCGTTTGGCGAGCAGTGTGGGTCCTTTCCCTCTTCGCATCAGTTCGACGCTCCGACAACACTTTTCATACGATCTCACATTCCACTCAAACTTTGAGTCTCAAAACCACTCCATCTTGTGACCCACGCTCTTTTCGACCTTAAATCAATTTGCCCACAACTCGATTAGCCTGAATCGAGTTATCCATAGCCTGTGAGGTTTAGGTCTACGATTTTGAACACCTTCGGGGTCACCAACCAGCAATTGTTCATAGTCGTTGGGAGTAGTTTGGTAAGTTTCAGCACACTTTTTAGATCCATTTGAACTACTTTGAAGTCCTGTAGTTTAAATTCTTAATCATATAGGCCTTCGGTTTTCCCTTAGAGTCCGATTCACATACTTTGGAGCGCAAACCAACAAGGGATAAGGTCGATTTTGGTGGTAAACATGTGTTTTCGGGCTTTCGAACACAAATTATGTATTTTAGGATTGTTTCTAATCTTTGGTTAGCTGTTGATTGTAGGATTGACTCTATTCGAACACTAACCAGTAGGGTTTCGAGGTAGTTTGGTAAGTCTAAGTGTATTGTAGTCTATTTTGAATCCTTGCAAGTGCTGTAAAGTATGTTCTAACCATTGGAAAGTCCCTTCCTATAGTTTAAAACCAATTTGGAGTCCTTCCAAACACATTAGGCACCATCCAGAAAGGGCTAACATCTATTTTGGTAAGTTTGGTTGAGTACTTTTGGTGTAAGCCCTTGCGAGCTTGGTTTCATATGTTCAGATCGGACTCTAATCCTTGGTCACTCTTTGTTTGTAGTTTCAAGAACCCAAGCCAAGTTAGGTAACGTTTAGGTGGTAAGGATGACCCTTTTAAAGTTGTTTCAAGTGTTATAAGTTTAGTTCTAAACTTGAAATTTCTGTTTGTAGCTTTGGTTTAACTTCAGAGTGCTCAAAGTTAGTTCAAGAGAGGGTTTGGGTAAGAAAGTGCCTCTTGAACACTCCTTTGAACTTAATTTAACCTTTGGACATTGATCAAGGTTTTCGAATTGAGTTGTAATCTTAGAATCTTGCTTTTCTTGTATAGAATCTTATTTTAGAATGTCTTAGGAGTATTTTAGGACGGTGGTAAGTAGTTTCTACCTTTTGAGTCTGTTTGACTGTGTGAAACATGTTGTATGTTTTAATTATGCTATTTTTTTATTATGTATGTCTTTCTATGAATTGATGTGTGTTCTGTTATGTTGTGTATGGAATGTAACCACGTCGAATGTTAAGATTGTTTGAGATTATATGAGGTCGTGATGCTTATGATTAACAATATGTTTAATTAGGTATTGGGCTAAAATTATCAACTAGAAAGCATGTTTAAGATTGCATTATGAGTTGCACGAGCTTGGTTAGTTTAGATCAGAGGACCATGCATTTATGGAAAAGAAGGTGTTAGATTCTTGAGTATAGACGACTGGGAACTGGCATTGTGTTGTAAATAAGTGAATTGGTTATTAGGGACTCGGGTGGAAATGGTTGGGAGTTGATATGATTTAAGGAAGTTGAGTGGATGCCAATATCTCAGGCAACATGGTCGAGGTTGATATGACGCTATAGGGTGCCAATACCTCGAGTAACATGATCGGGGGTTGATACGACACTATTGGGTGCCAATACCTCGAGTAATATGGTCGGGGGTTGATACGACACTATTGGGTGTCAATACCTCGGGTAATATGGTCAAGGGTTGATACACACTATTCGGTGATGATGCCTTGGGTAACAGGGTCGAGGGTTGACATGCCAACCTTGGATAAAGAGGACATCGAGACCTTGGGTGACATGGTCAAGGGTTGATGTATCGAGTCTTGAGGCAAGTGTTGAGATCTTGGGTTAAATGGTCAAGGGTTGGTGCACGGTTCAAGGCCTTGGGTGTAAAGGCCAAGGGTCAAACACCGAGCTTCGTAGAGAAGCGTTGAGGCTTGAGTAACATGGTTAGGGCTTGATGCAACTCGAAGGTTAGTCTTGGAGAGTTCAGTGAAGATTGAATATGAGTATTGAGTGAACTCATGGATTTTGGTGTGGCCGACATGCACAGATTTTCGTGAGTTGGGCTAGTCTTGCATTTTCCTTATTTTTGTATATTGAGCAAGTTGTTAGTGTTATTAGCATTGAAAAACATGTTGGATGTGTGTGAAAAGCATGTTATTTGACTTGTTTGATGCTTGGTGGCTCATTAGGTGTGAGCTTGGTGATGAGCGAGAGGAAGCGTGTTGAGACAGACCATTGGCTTAGATAGTTTACTTCTTGTGGTGAATCTTTATATTTGTTGGTTTTATTTGTGATCAGGTTGTTGTAGTTTGTTCCTATTACCCTCTGGATTGTTGTTAAATAAAGTTTAGTGCTAGGTTGAGGATAATTTAGTTTAGATCATTGGCATTTGAGTCGCAAATTTGCTTGGAAGTCTAGAATGTTCTTAGAATTGTTAAAGTGAATGTGTTTAGTTGTTCTCTTTCATTGAATAGAGAGTAAAGTCTTAGTTTGATTTATATGTCTTTGTGTTATGTTTGAGTGCTTTATCAAGTGATTCTTGATATGAGGTCCAACTCGTTCTTGTGTTTAAGAGTTTTAAATTATTGTGCGTTGATCTAATAAAGTGGAGTTGAGTTCTTTAGTTATCTGGTTATAGAAGTGTGTTTATCTCGTCTAACAAGTAGCAAGAAAAATTTTGCACAACTCGTAGTAATGATGTTATGTTGTCGAAATTTTTGGGGCACATCGATTGCAAGCTTAGTAATGTCTGCTAAGTTAGGTTAAAATTTGGGGCGTTATGATTATAGTCGGGGAGAATAAAGGACAATACATTTTTTTAAAAAAATTGAAATGCTCTCCCTCAGATTAAATGATGCTTTGAATTTACTGGCAATAAGAGTGGTCTATGTTTATTATCTTTGTATTTTTTAAAGTGGAGGGCTTAAAGGGAACCTAAAATTTGTCCCTCTTAGCCACTCTCCCTCTATATGCTTTGTATTTCCGCCGTAAGAAGCTTCTTTTTCACTTGCCCTCTCGCTTCCTTCTTACTTTTTGCTAATTGGCTGGCTCTCTCTCTTTCTCATTCAATCTTTACAGATTTCTTAACCTCCTTTGCTTGATTTAGGTGTAGTATTTTTGAAGGGGGTGATATTTTCAATGGCGAAGAAGAGGAAGCATAGCGAAACTTTGCCAATAGTATCGATTAAGAAGGATGACGGCTCTCCCGAGAGACCCAAGCGGACGCTCATAGGATGGAAAGACAAGGAAGTCGAGAAAGAGATGAAATCTGGTTCCGATCATGTCTTTTTCCGAAATAAAGAGAAGGTTCTCGTCACTTGCTCCCGCCGAATCAATTTTAGGTACGAAATATAGGCAGGAAAGTTTGAGTTGCATACATACATCCCAAACTTGCACACTTGAATCAATAGAGCTGCTGATAGTTTCATTTTTTTTTATAAGAAAACAAAAATTTCTTATTTCACTCTCTCTTCAGGTACAAGCTGTCGTGGTGTACTAAACTTATCTATAAATGTAATCTTTAATTCGGTTATTACTTTAATAATGTGATTGGTGATGTTCAAGAAAGGAAGAAAACCAGATCACTGATTGAAGACAATTTTTAGGTAAAATTGGGATTAGGTACAAGGGTTTAGGGTTTAGGAGGGAGATGTTCAACCATCGATGAAGAAATTTTCTAGTCGCTGTGTTTTTTCTCAACCAAAGGACATTGGTCAAGGATATGACTTATGAGAGGAAAAAACAAACTCTGGACAATTATAACAAGAAGACAATGTAGAGAATTGATGGGATTGCTCAGTGATGTAATTGTTTTTTGGATAGAAGACATGAAAGTATGGGAGGTTGAATCTTTGGGCTGTATTAAACTATGAAAGCTAGCAGATTTAAAGGAAGTGTTAAAAAATTCTTGATTGACTTGGAAGGGTCTTGTGCCTTAGAAAATAAATTTTAGTTAAAACAAGTTCGTGTAGCTTTTTTGTAAAATCTATTAAGAGGTATATACAGGGCCTGGTAATTTGTGCTGTAGCTTTTCACTCATCAGTAAAAAGTTTTCCCTCCTTTAGAATGATGGGCAATTTTATTAACCTCTGTGTTGGATTAGGTATCGGCATTTGATGTTGAATATGGTATCACTTCTGCCACATTGTAAGAAGGATAACAAGGTGGAGTCGAGGTCCAGTAAGGGTGCAACACTGAATGAGCTAGTTGAACTCAAGGGATGTTCTTCCTGCCTATTTTTTGAGGTTAGAACTTTTGCTTTGCACTCTGTCCATGTCTAAACTTGGAATTGAATTCATAATCTGGAGTTTGTAAGGTACTGTGTTTTTTTTAATTTTTCTTTTTTATTAGATTTAGGATGATAACTTTTTGGTTTCTATTGTGGTATTAGAATGTATTAAGCATCCTTTTCTTTTCATTTGATTATTTTCCTACATTCTTTTTCATCATGTTTGTACATTGTGATCACATGACTTAATTTTCCATTGTTCGATCACAGTGACTTGGAATTCGATGTGTACTTGATTCTAACGGGCCTTTTTGTCCCCTGGATTTTGTTCCTACACAATAAAAACAATCATTTTATTCCCAAAGCAAATTGCAAGATTTTTCAGTTCCTTTTCTTTTTGTTTATGTAATTATTTCTATCATTTTATATGCAAGCTTGCTTATTAATCTTTTTGTCTCTAATTCCAGTGCAGAAAACATAAAGATCTGTATTTGTGGATGGCAAAGTGCCCTAGTGGGCCATCTGTGAAATTTTTAGTTAATGCCGGTAATTTTAACTTGTAATCAAATCTTATTACTGGATTTCGTGACGTGAAGTTATATTGGATTTATTAAAAAAATGGAGTTTACTTACTTTTCCATTTTTCTCTTCAGTGCATACCATGGAAGAATTGAAACTTACAGGGAACCATCTGAAAGGTTCTCGTCCTATTTTGACATTCTCGTTGAATTTTGATAAAGATGTCCACTGGAAGCTTCTGAAGGAAATAATTGTTCAGGTATTTAAAAAGCTCCTTTATGCAATTCATCCTTGAAACTATTTTTCCTTCTTACACGTGAATGTATCAAATATCAATTTCTTTGTCTTTTTCCTTTGAATACATTTTTTTTTTCATTTCTTCATTCCTTCAAACTAGAATGAGCACGATTTGAAATGGATTAGATAATGTTTGCACGACTACAGTCCAATTATCAACTAGAATGTGGTTTGTGATTATGCTAATGGCCCCTTCTCTCTCTTCTCTCTTTCCCCCCGTCGAACATAACCCTTATAGCCCACACTCCTGCCGACCACCGTATAGGCTATGGCCGACAGACAAATGCGTTCCACCTTCTCCATCGACAAAACATCTTTCTCCATCGACCTTGATTGATACTCCCGTGGCTCCCGAATCGGTCTCACAGAACACCAAAGAGATTGTTCATTCTCCTTTGCTACTCCTGCCTCCATCATTCAGTGGCTCCACGAAAACCTCAAGCTTCTTCTTAGTTCCCATCTTACCCAGAAATTTTTCAAAGAAGAACACGCCGGAGGTGATGTTTTTTGGATTGAAAAACACATCGATCGCACAGCCCATTATGTAGAACTTGTGAAACTGGAAGCCAACGGAGCCTGTTCAAAAGTCATCGTCCCTGTCGATACCAATAGAAAAGGTTGGCACCTCCTTCTAGAGCTCTTGGCAAACTACCTCACCAAGTCGCCTGTAAAACCCATTATTGTCGAACCCTCTGGCCCTCTCCCATCATCCAGAAAGCCATCCTTCAAAGAAGCCCTTACAACAACCAAATCTCAGGCCCCCTGCCCAACCCTTGTTCCCCTGCCCGATACACCAATTCGACCCTCCCCTGTCTACAACCTGGCCTCCCTTAACTTTTCGTCCTTGATCATTGTTCAATGTCACAATTTCCATGACGATTGGTTTGCTATAACCACAACTTTGCGACAGAAGATCAATCCTTTATGTGCTATTAACCCGATTCTCCCGAACAAGGCTCTCTTTACCTGCGACTCTGTTGAACAAGTCAAGAGACTAACAGAGGATGGATCTTGGCAGAATATTGGTGACTTTTGGCTTAAGTTTGAAGCATGGAACGATTCGGTATATGACAACAATTCTCAAATTCCTTCATACGAGGGTTGGATCAAGGTATGCAATCTCCCCCTGACAAATGGAATTTGGAAACCTTCAAAATCATTGGAGATGCATGCGGCGGCTTGGTTGATATCTCGAAGAGGACCCTATCCAGACTCGATTTGATGGTTGTTTGCTTGAAGGTGGCTGAAAATAAACGAGGCTTTATTCCAACATTTGTCCACCTTCTGTCCACTTCATCCTCCTCCCTCAAGGTGATTATAGACTCTTTTTACAATGAAAATCTCTGTCTGGGTTTTATTGCAGGAGCTCATGGCCGAAAGAAACCAACAGGGGCAGTAGCTCCGTCAATCTCCCCGACGTTTGACACAAATCCCAATGTCGCGAGCCCGAAGCTTCCTTTTCCCTCTGATTTGACCTCTGTTACACAATCCTTTTAGCCTACCTTTTCACCTAACCCACGTGCCTCGACTGTCTTGTCTTCTCCATCTTTACAGGAGAAGTCCTCTCTTTTGGGCTCACCTCCCACAAACCAGCATATCGACCCACTCACCTTCCCTCTTTCTCTGACCCAAACCCAATCTGAGGCCTTTGACCCTCTCAAAAAGTCTCCAACCCCACCCCGTAGACCTTCACTTCCCGACATAGCTCACATCATGATTGAAGGGAAACAAACTTACCTCCTTAAAGGGACCAAATTTCATTCTTGTACTCCCCATCACCCTTCGGACACTGAAGACCTTATCTCCAGTCCCTACCTAGAATCTGTCTCTCCTCCACCCACCATTCGCCCCTCCCCAACCATTGCTACCTAGCCCCTCGACCATTGTCAGGACCCTCCACTGCTAACATGAACAATCCATCTTACCAGCAGAAGGGTGAGACTAATGCCACTGACCCTTCCCCTGTGGTTAGCGAGGATGATTCCTTTCTTAAAAACCTTGCCCCTTGGCTAATTAAAAATGGACTATGTATCTCTGCCATTCCTAAAAAAGCCAAGAAAGGTAAAGTGACAGAGAAAAAAGTCAAGCTTGTTCGAGAGGTTAAAAACTTGGCCTCCTCCATAAATTATGGGAAGGCTTCCTTAGCTATAGACAGTGGTGGGCAAAAGACCCCATTATGTCATCTTATCCTGGAATGTGCGTGGCTTGGGCTCAAGGAAGAAACGTGCCCTCATTAAAGACTTCCTTATCAAATTGAACCCCACGATCGTCATCTTGCAAGAAACCAAAAGAAATAGCATGGACAGTCTCTTTATTAAGACCATATAGAGTTCGCGAAACGTTGCCTGGTCTGTCCTTAATGCCCATGACTCTTCTGGTGGTATTCTCATTATGTGGAATGATCCAAGCATTGAGATTATTGATATTGTCGAAGGTATTTTTACCCTATCCCACCACCTTTCACTCTCAGATGGTTACTGTTTCTGGTTGACTGGTATTTATGGTCCTTCGCGTGCTGCCAACCATTTGAGACGCATTTTGGGGTGAGCTCACTAATCTATCCTCTATCTGTACTGATCATTGGTTGTTAGGAGGTGATTTTAATGTTCCCAGGTGGTCTTTCGAAAAATCTAGTGGCAAGCCTTAGACCAAAAGTATGAAGCTCTTCAATTCATTCATCTCAGGCAATGCCCTCATTGACCCTCCTCTATCGAACGACAAATATACTTGGTCAAGTCTCAGAGACAGGCCTGTTATGTCTCTCATTGACCGCTTCCTTATTACTGGCCCATGCCTTGATAAATATGGTAGTGCACTGGTGAAAAGCCTCCCTCGTGTTACCTCAGATCATTACCCCATTATTATGACTCTTGGGCAACAGAGATGGGGTCCCAGTTATTTTAAGTTCGAAAATTTGTGGCTTGATCATGGTGCTTTTAAGCCTTTCCTAAAGAATTGGTGGATGAACAACCCCTCCTCGGGTGGCTAGGTCACGACTTCATCCAGAAGCTAAAAATGCTAAAGGGTGCCTTAAAGGAGTGGAATCTATCCACTTTTGGTAATTCTAAGATCCAGATGGTTGACTTGACCAACGAGCTTACAAAAATTGATCAACGGGAGGAAGCACTTCATATGGATGGGGCCATATGTCAGAAGAACTGATATCAAAGCTCAACTATTAGAGCTTTCCTTCCGAGAGGAGATTTCATGGAGACAGAAATGTAAACTTAAGTGGGCACTAGAAGGGGATGAAAATAGTACCTTCTTCCAAGAGACGGAAAAACACAATTGTGGAGCTTCTATCATGGACTGGTTTGAGTCTGGTCGTTGACAAGGACATTGGGGTCGAATTCATTGATCTTTACAAATCCCTCTACACCAAAGACAGTGATCCAAGGTTTCTGCCAGAGATAGACAATTGGGATCCAATTTCTCCTGAACAAGTTGTTCTTCTAACAAATGAAGTGCTAGAGATAGACAATTGGGATCCAACTTCCATTTACAGATGACGAGATCAGAAGGGCAATTATGGATCTTGGCTCTAACAAATCACTTAGGCCTGATGGTTTTACCTCTGACTCTTTAAAAAACACTGGAACATTCTCAAGGATGACATAAACAGGGTGATCCAAGATTTTTTTGAGAAGGGCATTATAAATGCAAGCTTGAATGAAACTTATATTTGCCTCATTCCTAAAAGAATTGATGCAAAAACAGTAGGAGACTACAGACCTATCAGCCTCACCACGGGTCTTTATAAAGTGATTGCTAGAGTGCTTTCTGAACGGCTCAAAACGGTTCTCCCACAAACCATTTCAGAATCTCAATTTGCCTTTGTGGTCAGACGACAGATCATTGATGCTTCCCTTATTGCAAATGAGCTCATTGAAGATTATCACAAGCCAAAAAAACAAGGTATTGTTATAAAGCTTGCCTTTGAAAAGGCTTTCGATAAGGTGGATTGAGATTTCCTTGACCTTGTCCTCGCTAAAAAAGGATTTGGTAACACTTGGAGAAAGTGGATTCGGGGGTTGTATTTCTTCTCCTAATTTCTCCATCATTATTAATGGGTGGCCCAGAGGCAAGATTATTGCTACTAGGGGGCTCAGGCAAGGTGACCTTCTCTCTCCCTTCCTTTTTATTCTAATTGTTGATTGCCTCAGCAGGCTGCTATCATCTGAAGAGCAAAAAGACCATATTAGTGGCTTTGATGTGGTAATGGGTTGCTTAGTATCAATCACCTCCAGTTTGCTGACGACACCATTCTTTTCTCTGATCCCTCAAAGGACATATTACCGCCCTCCTGGAGGCAATCAAGGTTTTTGAAAAAGCATCTGGGCTAACGATTAATCATCACAAGTCTGAAATCAATGGCATTCATCTTCCATCATCATGTATCTCAGAATTTGCTAAGGCAAATGGTTGCAAGACTGCCGAGTGACCTATGATTTATCTCGGGCTCCCTTTGAATGGTAAGCCAAAATCAAAATCATTCTGGGCCCCCATTATTGAAAAGGTTGAGAGACGCCTCAAAGGGTGGAAAGGTGCTTACCTATCTAAAGGTGGCCGATTAACTCTTATTCCGGCTACTTTACCAAACCTCCCCACATACTATTTGTCCATCTTCAAGTTACCATCGGAAGCAGCTAACACCTTGGAGAAACTCTTTCTCCATTTCCTTTGGAATGGTCCAAAAGAGAGGAGGGGATTTCATTCAATCAGCTAGAAACCTGTATGCCGACCTCTGGAAGAAGGTGGCTTAGGGCTCATTGATCTTAAACCCAAAAATAAGAGCCTCCTTGCAAAATGGATTTGGCGCTTTCATTCTGAAAAATCTTCCCTGTGGAGGAGATATATTGCTGCCAAATTCGGAACACAACATTTCGATCTTCGCCTCGAACACAAGATGCTTAGATATCATCAAGGTCCATGGAAACACATTGTGGCTGAAAAGAATTTGATCTTTGATAATGTTAGTTGTGTGGTGGGAAATGGCCAACGAACTTCCTTCTGGCATGATAAATGGGTGGGTGACAACACCACCGAAGCTCTAGCCCCTCGGCTTTTTGACTTATCTCGGAAGAGAAGTATGACTCCATTGCAGACATGAGAGGGGCGAATAACACCTCATGGGACTTGGGACTTCGTCGAAATTTAAAGGAGGAAGAAATTGCAGAATGTCTTTCAACCATACTTCCAACCACAACGTATCACACAAATACTGATACTTGGAGATGGAATCTTGATACAACAAGCCTTTTCACCTCGAAATCGCTCTCCCTCAAACTTATTTCCAGCCTTCAACACCCCTTCAGGGAGTTATACACCAACATTTGGAAAAGGCCTACACCTAAAAGGATTTGCTTCTTTCTATGGGAGGTTAGTCATGAAGGCATTAATACGGCGGATACACCCCTTCAGGGAGTTATACACCAACATTTGGAAAAGGCCTACACCTAAAAGGATTTGCTTCTTTCTATGGGAGGTTAGTCATGAAGGCATTAATACGGCGGATACACTTATAAAAAAGGCTCCTTGGATTGTTTTATCTCCTAATTGGTGCGTTCTCTGCAAACAAGACAATGAATCCATGACCCACCTTTTCACTACATGCTGATACACATCCCAAATTTGGACCAAGATTCTCAAGGCCTTTAAGTTACAGATTGTTCTCCCAAGCAAGATGGAGGTGCTTCTTGAGACTCTTCTCTTGGGCCATCCTTTTACCACTTACAGAGCTTGTTTATGGGACAACTTTATAAAAGCATTCTTTTGGTCCATCTGGATTGAGAGAAACAACAGGATCTTCCAAGACTGCGCTCGGGATCAACAAAAACTTTTCGACTCTATCATCTTTTTAGCCATCTCTTGGTGTAAATTAACTCCACACTTTTGTGATTACAGTCTCACTACTCTTGTTAAACGTTGGGACTCTCTTTTGTAATGGGTTCACAACTTTTTTTTTTTTTTTTTTTTTTTTTTGTACATTTCATACCATCAATGAAATGATTCACATGAGAATTATCAACTAGAATTCTATGTGGATTTCAGTCATGTTATACCATGAATTTTAATTTGCAGACTCCTATGGTCCTAGGTTTTCTTTCTTTCTTTTTTTCCCCTAAAAAGGAATAATCTTTCATTTTTTCCGAATGAAAGTTTGTTTTCATGCTAAAGATAAAACAACAAAATAAAATAAAAAATATTCATCAATGCACTTCTTTAATGTAATGTGCTATGGCGTAAGAATTGGGATTAGTGAATTCTTGTGTCTGGCTTCACAATTGTATGCTGACACCTCAATACTGTCCTTCTCTTCTCATGCTGCATTGATTATTTTCTAATTAAGATGGTGATAGAACCCAAAAGTGCTGAAATGTAAAAAATAACCAAACTACAAGATAAACCATGTGTTTGAGGTACTTGGACACTCCCTAACTTGAGACCACTCAAGCTCTAAACCAAATCACTGAATCAATGCTTACCATCTTCTTTCTTCTACCCTCTATTTATAACCAAATACTATGACTAACTCCATAACTACTAATATACGCTTATTAGCATTCCTATAGCTATGAGCGAAAAAATAATTGCGAAAAGTAATTAACTATAATTTCCATGTTGGCCAAAAACGTAATTGCAGACCCATTAGTAACTATAATTACTATTATTAACTATGTCTCCATCTTTTTGGCCACATAGTTTGATTTGCTGCTTATTAGCTATGTTGCAAAAAGTAATTGTAGATCCTAGTTGCCTGTCAAATTAATGGTTTTTTTTGCTAAAAATCCTGTGAAGTTATTTAGTATGTCATAATTTTAACTTCAACAACATTCTTTTCCCTCAGATTTTTGGGACTCCAAAGGAGCATCGACATTCTAAACCATACCATGATCATGTATTTGTTTTCTCCATTGTTGATGACCACATATGGTTCCGAAATTACCAGGTATACTTTATTTGTATCCAACATTTTACAAAATTTGATGCTTTCATTTGTGGATACCATCCAAATGCATATTTCAACTTGACACCCAAATCAGGTACTGGATTTAGTCTTTCTTTTTAAATTTTTTCATCACATTTTTCAAAAAGTGGCGCATGAAAGCTGAAAAATATATTCTACGTCATGTTAGACAAAGACATTGAAAAACTTCTTGAGTATTGTCAGTTTCTCAGTATAAATGTCAAATTTTTTAATGATATCGGAACTATATTAGTCATTAGCTAAGGAGTTTCTCGATCAATGCGGTTCATAGGAAGACCGAGATAAGAGCTTGGCCATGAACCCATCTTGGAGCCACAGAAAGATGCCCAAACCTTTTGCGAAGAGTCACAATTATAGTCCAATAGCTTAGACTTTCTACATATATTTGATATTGAGACCAGGAACGGGAGTAGTTTAAAAAAGATGAGATCAGAGGATTTTCTTTTCGAATACCTGTAGGAGCTTTGAATCCCCTTCTTGGTTTGCCATGGATTTGTATCTTGGAAGTTCTAGTCTACCTTATCAAGCTTTAGGGCCTGTTTGGCCCACTGGTTATTATAACACGTGTTATAATAACCTGTGAAATACTCTGCACCCCAAATACATACTATTATAACCCCAGACTATACTACTCTGCATTTTAAATAATATTATATGTTTCACAGACTATAATAACTCACATACTATTATAACCCCCTGTTATTATAACCCACTCAGCGCCCCAAACAACCCCTTAAAGGTTATGACCAAGGGTTCACTCAGACAATGAACAATGGCAGAAAAAGGAAACAATGCTCTATTTTAGAGGTAATGATCAAGGCTTCATTCATGGAACCAACAATGGTGGTGAACTTAATTTGAAGGAGATTGGAACTCTCAACTTTTTGGGGGTATGGATATGATGGGAGTGTTTAGCACTTCATTGATGCGTTATGGGAAGGACATTATGTATTAAAAAAAAACTGGAGGAAATGTGATTTGGGCGAATGTACTTGCAATACAACCTCTTCAGCAGAATATACAAGAACTCTCTACCTTGTAGGATCAGTTACTATTAAATTTTCTTGATCTCAAAACAAGAAGTTAGAATTCGAAGTTTGAGTGCCTATTTTAATGGTGTGGCTTCAGTCTGAAGTATGGAGAGTTCGTATAACCATCAGCACCACACCTGAGTGATATTGGGATATCGTGTGTTTCGAGTGGTGGGGTAATTTTTAGAATACTATCAGGATACATGTTAGAAGTATCCTTAGGAGATAAGGGGTATAATCGTCATTAGCTAAGAAATGTATCTGGGTCATGAATTCAATAGGGGTTGTGGAGGGGTTTTAGTTTGAGCAAATTTTGGGGAGTAGTTTTTTGGAGAGTCTAGGTTTCTCGAGGTGGTTGAGATCTTGTCATTTTTCTTTGTTATGTTAAAAACATTTCTATTAATTTTTAGTTCTAGTTCCTATCAGACTCCTTTGACCAATTTTCATATGATTTTTATCCCTTAAAGTTAAAATTAATGTGTTCACTTTTGCTATAACTGTTGGTATATTTGTCCTTGTTTGTGATTTGTGTGGGTGTGATCTATTCCCCAACTAACCATTACTTAATGATATGACATTTGTCTTCTTTTTTTGGTGTTATCAGATAGCTGTTCCGCATAACGAATCAGATAAAGTTGCCCGAGGAGGACTAGATAAAATGACTCTCATCGAGGTTACTATTTTTCCTCGTGATGCTTAATAAATGAGTTTTTCACAATTTTTTACTAGACTTCAAAGATTTGTTCTTTTACAGGTTGGCCCACGATTCTGTTTGAATCCAATCAAGATATTTGGTGGCAGTTTTGGAGGTCCAACCCTGTATGAGAACCCACTTTATGTATCGCCAAACCAGGTTAGATGACTACTTTTTTTCCATCTGGGATTACACTTCTTCACTATGCCTTTTAAACCTGCTTTACTTATTTTCTGAGAGCTCACGTCTGCATTAATTATCAAGAACCACGTTGAGGAGGCATTAGCTATGCTTTTACAGTTTATCAAGAACCATGTTCGTGTTTTTCAATTCAAGGTTCTTTGAAAATGATCGGTTCATCTAATTTACCATTAAGCTTTTGGTACTGTCTTTTTCACGGTTCAAACCCACCCTGAAATTGCAATGTTCTCTAGAATACTTCAGAGAACAGTTGCTCATAGCGTATGAATTTGCAATTGAACACGAATACTTTTGATCGACCAACAGTTGAACCGAGTCCTGTAATCTGAACTTTAACGAATTAGATGTAGACTTGCTCATGTTTATCGTGTCTCTCCCTAGATTCGAGCATTGGAGAAGAAGCAGAAGGCTGGGAAATACTCGAAGAAAGTCAAAGCCAAAACCAGGAGGAAGATGCACGAGCTATCGAATCCATTGGAACCGGACGAGTTTGCTGATATGTGGAAGGAATAGTCTTTCTATGGACTTTAGAGATCCTTACCTCCGGTATGAAATGGGAATTTGTTCTATAGTACTGTTATCTCTAGTGAAAATTTTGGCCTTGTTATTTATTAAAACCTCGAATTCTGTTTCTGTATTTTCAATATTTTTGTTTAAAGATTGGATATCAAGTCCTCAGTTAAGTTACTTCAGATACAATTTTACAAGATAAAATGTTATATCATATTTGACTTAAACCAAGGATAGTTCTGAAGGAAAAGAAAGAATTTAGCTTAGAAGATCATTTTATGATTTTATCAAATTATAAATAAAAAGATGCACTTTATTTAATGTTTA AAAAGAAATGCCCTAACTGTTTCATCTTCCTTTCACTCTTACTTACGTAGTTCTTCTCCTTCTTCACGCAGTCTCCTCCACCGTTTCAGCAGCTCAATATCGCCGCCACCTCTCTTTCTTCCTCCTTGCGGTTTTGCTGTTTTGCACTGATTTTCTGCTCCCTTATTGTTACTGGGTTACTGGTGTAGTATTTTTGAAGGGGGTGATATTTTCAATGGCGAAGAAGAGGAAGCATAGCGAAACTTTGCCAATAGTATCGATTAAGAAGGATGACGGCTCTCCCGAGAGACCCAAGCGGACGCTCATAGGATGGAAAGACAAGGAAGTCGAGAAAGAGATGAAATCTGGTTCCGATCATGTCTTTTTCCGAAATAAAGAGAAGGTTCTCGTCACTTGCTCCCGCCGAATCAATTTTAGGTATCGGCATTTGATGTTGAATATGGTATCACTTCTGCCACATTGTAAGAAGGATAACAAGGTGGAGTCGAGGTCCAGTAAGGGTGCAACACTGAATGAGCTAGTTGAACTCAAGGGATGTTCTTCCTGCCTATTTTTTGAGTGCAGAAAACATAAAGATCTGTATTTGTGGATGGCAAAGTGCCCTAGTGGGCCATCTGTGAAATTTTTAGTTAATGCCGTGCATACCATGGAAGAATTGAAACTTACAGGGAACCATCTGAAAGGTTCTCGTCCTATTTTGACATTCTCGTTGAATTTTGATAAAGATGTCCACTGGAAGCTTCTGAAGGAAATAATTGTTCAGATTTTTGGGACTCCAAAGGAGCATCGACATTCTAAACCATACCATGATCATGTATTTGTTTTCTCCATTGTTGATGACCACATATGGTTCCGAAATTACCAGATAGCTGTTCCGCATAACGAATCAGATAAAGTTGCCCGAGGAGGACTAGATAAAATGACTCTCATCGAGGTTGGCCCACGATTCTGTTTGAATCCAATCAAGATATTTGGTGGCAGTTTTGGAGGTCCAACCCTGTATGAGAACCCACTTTATGTATCGCCAAACCAGATTCGAGCATTGGAGAAGAAGCAGAAGGCTGGGAAATACTCGAAGAAAGTCAAAGCCAAAACCAGGAGGAAGATGCACGAGCTATCGAATCCATTGGAACCGGACGAGTTTGCTGATATGTGGAAGGAATAGTCTTTCTATGGACTTTAGAGATCCTTACCTCCGGTATGAAATGGGAATTTGTTCTATAGTACTGTTATCTCTAGTGAAAATTTTGGCCTTGTTATTTATTAAAACCTCGAATTCTGTTTCTGTATTTTCAATATTTTTGTTTAAAGATTGGATATCAAGTCCTCAGTTAAGTTACTTCAGATACAATTTTACAAGATAAAATGTTATATCATATTTGACTTAAACCAAGGATAGTTCTGAAGGAAAAGAAAGAATTTAGCTTAGAAGATCATTTTATGATTTTATCAAATTATAAATAAAAAGATGCACTTTATTTAATGTTTA ATGGCGAAGAAGAGGAAGCATAGCGAAACTTTGCCAATAGTATCGATTAAGAAGGATGACGGCTCTCCCGAGAGACCCAAGCGGACGCTCATAGGATGGAAAGACAAGGAAGTCGAGAAAGAGATGAAATCTGGTTCCGATCATGTCTTTTTCCGAAATAAAGAGAAGGTTCTCGTCACTTGCTCCCGCCGAATCAATTTTAGGTATCGGCATTTGATGTTGAATATGGTATCACTTCTGCCACATTGTAAGAAGGATAACAAGGTGGAGTCGAGGTCCAGTAAGGGTGCAACACTGAATGAGCTAGTTGAACTCAAGGGATGTTCTTCCTGCCTATTTTTTGAGTGCAGAAAACATAAAGATCTGTATTTGTGGATGGCAAAGTGCCCTAGTGGGCCATCTGTGAAATTTTTAGTTAATGCCGTGCATACCATGGAAGAATTGAAACTTACAGGGAACCATCTGAAAGGTTCTCGTCCTATTTTGACATTCTCGTTGAATTTTGATAAAGATGTCCACTGGAAGCTTCTGAAGGAAATAATTGTTCAGATTTTTGGGACTCCAAAGGAGCATCGACATTCTAAACCATACCATGATCATGTATTTGTTTTCTCCATTGTTGATGACCACATATGGTTCCGAAATTACCAGATAGCTGTTCCGCATAACGAATCAGATAAAGTTGCCCGAGGAGGACTAGATAAAATGACTCTCATCGAGGTTGGCCCACGATTCTGTTTGAATCCAATCAAGATATTTGGTGGCAGTTTTGGAGGTCCAACCCTGTATGAGAACCCACTTTATGTATCGCCAAACCAGATTCGAGCATTGGAGAAGAAGCAGAAGGCTGGGAAATACTCGAAGAAAGTCAAAGCCAAAACCAGGAGGAAGATGCACGAGCTATCGAATCCATTGGAACCGGACGAGTTTGCTGATATGTGGAAGGAATAG MAKKRKHSETLPIVSIKKDDGSPERPKRTLIGWKDKEVEKEMKSGSDHVFFRNKEKVLVTCSRRINFRYRHLMLNMVSLLPHCKKDNKVESRSSKGATLNELVELKGCSSCLFFECRKHKDLYLWMAKCPSGPSVKFLVNAVHTMEELKLTGNHLKGSRPILTFSLNFDKDVHWKLLKEIIVQIFGTPKEHRHSKPYHDHVFVFSIVDDHIWFRNYQIAVPHNESDKVARGGLDKMTLIEVGPRFCLNPIKIFGGSFGGPTLYENPLYVSPNQIRALEKKQKAGKYSKKVKAKTRRKMHELSNPLEPDEFADMWKE Homology
BLAST of Tan0018093 vs. ExPASy Swiss-Prot
Match: Q9LE16 (Ribosome biogenesis protein BRX1 homolog 1 OS=Arabidopsis thaliana OX=3702 GN=BRIX1-1 PE=2 SV=1) HSP 1 Score: 540.8 bits (1392), Expect = 1.0e-152 Identity = 254/316 (80.38%), Postives = 281/316 (88.92%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy Swiss-Prot
Match: Q9C928 (Ribosome biogenesis protein BRX1 homolog 2 OS=Arabidopsis thaliana OX=3702 GN=BRIX1-2 PE=2 SV=1) HSP 1 Score: 535.0 bits (1377), Expect = 5.6e-151 Identity = 253/318 (79.56%), Postives = 284/318 (89.31%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy Swiss-Prot
Match: Q3SZZ0 (Ribosome biogenesis protein BRX1 homolog OS=Bos taurus OX=9913 GN=BRIX1 PE=2 SV=1) HSP 1 Score: 256.1 bits (653), Expect = 5.0e-67 Identity = 130/266 (48.87%), Postives = 178/266 (66.92%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy Swiss-Prot
Match: Q8TDN6 (Ribosome biogenesis protein BRX1 homolog OS=Homo sapiens OX=9606 GN=BRIX1 PE=1 SV=2) HSP 1 Score: 256.1 bits (653), Expect = 5.0e-67 Identity = 130/266 (48.87%), Postives = 178/266 (66.92%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy Swiss-Prot
Match: Q8UVY2 (Ribosome biogenesis protein BRX1 homolog OS=Xenopus laevis OX=8355 GN=brix1 PE=2 SV=1) HSP 1 Score: 256.1 bits (653), Expect = 5.0e-67 Identity = 141/320 (44.06%), Postives = 200/320 (62.50%), Query Frame = 0
BLAST of Tan0018093 vs. NCBI nr
Match: KAG7037539.1 (Ribosome biogenesis protein BRX1-like 1 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 632.1 bits (1629), Expect = 2.6e-177 Identity = 301/316 (95.25%), Postives = 309/316 (97.78%), Query Frame = 0
BLAST of Tan0018093 vs. NCBI nr
Match: KAG6588467.1 (Ribosome biogenesis protein BRX1-like 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 632.1 bits (1629), Expect = 2.6e-177 Identity = 301/316 (95.25%), Postives = 309/316 (97.78%), Query Frame = 0
BLAST of Tan0018093 vs. NCBI nr
Match: XP_022930733.1 (ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita moschata] >XP_022930743.1 ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita moschata]) HSP 1 Score: 629.0 bits (1621), Expect = 2.2e-176 Identity = 300/316 (94.94%), Postives = 308/316 (97.47%), Query Frame = 0
BLAST of Tan0018093 vs. NCBI nr
Match: XP_023530270.1 (ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita pepo subsp. pepo] >XP_023530271.1 ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita pepo subsp. pepo] >XP_023530272.1 ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 628.2 bits (1619), Expect = 3.7e-176 Identity = 298/316 (94.30%), Postives = 308/316 (97.47%), Query Frame = 0
BLAST of Tan0018093 vs. NCBI nr
Match: XP_022968854.1 (ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita maxima] >XP_022968859.1 ribosome biogenesis protein BRX1 homolog 1-like [Cucurbita maxima]) HSP 1 Score: 624.8 bits (1610), Expect = 4.1e-175 Identity = 299/316 (94.62%), Postives = 308/316 (97.47%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy TrEMBL
Match: A0A6J1EW75 (ribosome biogenesis protein BRX1 homolog 1-like OS=Cucurbita moschata OX=3662 GN=LOC111437121 PE=3 SV=1) HSP 1 Score: 629.0 bits (1621), Expect = 1.1e-176 Identity = 300/316 (94.94%), Postives = 308/316 (97.47%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy TrEMBL
Match: A0A6J1I0V9 (ribosome biogenesis protein BRX1 homolog 1-like OS=Cucurbita maxima OX=3661 GN=LOC111467989 PE=3 SV=1) HSP 1 Score: 624.8 bits (1610), Expect = 2.0e-175 Identity = 299/316 (94.62%), Postives = 308/316 (97.47%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy TrEMBL
Match: A0A1S3BQS3 (ribosome biogenesis protein BRX1-like OS=Cucumis melo OX=3656 GN=LOC103492188 PE=3 SV=1) HSP 1 Score: 620.9 bits (1600), Expect = 2.9e-174 Identity = 296/316 (93.67%), Postives = 307/316 (97.15%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy TrEMBL
Match: A0A5D3CG95 (Ribosome biogenesis protein BRX1-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold16G003710 PE=3 SV=1) HSP 1 Score: 620.9 bits (1600), Expect = 2.9e-174 Identity = 296/316 (93.67%), Postives = 307/316 (97.15%), Query Frame = 0
BLAST of Tan0018093 vs. ExPASy TrEMBL
Match: A0A6J1HZ18 (ribosome biogenesis protein BRX1 homolog 1-like OS=Cucurbita maxima OX=3661 GN=LOC111467904 PE=3 SV=1) HSP 1 Score: 614.0 bits (1582), Expect = 3.5e-172 Identity = 295/314 (93.95%), Postives = 300/314 (95.54%), Query Frame = 0
BLAST of Tan0018093 vs. TAIR 10
Match: AT3G15460.1 (Ribosomal RNA processing Brix domain protein ) HSP 1 Score: 540.8 bits (1392), Expect = 7.3e-154 Identity = 254/316 (80.38%), Postives = 281/316 (88.92%), Query Frame = 0
BLAST of Tan0018093 vs. TAIR 10
Match: AT1G52930.1 (Ribosomal RNA processing Brix domain protein ) HSP 1 Score: 535.0 bits (1377), Expect = 4.0e-152 Identity = 253/318 (79.56%), Postives = 284/318 (89.31%), 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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