Tan0020268 (gene) Snake gourd v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.AAAAAAACCACAAAACAAAACACATTGAGGCAAAGGTATTCGGCTGTTCTTCCGCGAGACTCGAAGCCGCCATTGTTCGTTTCCAGCTCAGCTTTCTCCTCATCTTCTTCGCTTCAATTCCAACACTTTCTTGTTTCCTTTTCCATTTCACTTCCACAGCCAGATCCGCCTGCTATAGATTATTACTTTCCAATTTCCAGAAAAGGTGATGATGCTCTATCGATTTCTTAATTTCTGAAAAAATCTCAATTACGGCGTCTCGTACGAGTTCTCATTCAATTCGTTTGTGAAATTCTGTTAGTTTTTCAATGCTATGCGAAATGCACTGAGTGTTCAGTAGCCGAAGTCGTTTGACGATTTCAATTTGGGGTCTGCCTCCAGTTAATTCTTCATTCGGTGGCAGACTAGGGTTTCTGTCAATCTTCTCCTTGTTTTTTGAGATCAGGCTTCTGAACCAGCAACAGGCAAGCGGAGTGTTCTTTTTTTCCTGTTTCATATGTCTTATTGTTGATAATTTATCTTCCCTTCACGCATTACTACTATTTTTGATCATGTTGATAATTTATGCGTACATTTTTCAGAATGGAGGAAGTGGTTCCTATCTACTACAGTATCATTGCATTTTTTTGCACGGTTGGAGCCATTGCTCTGGCGATCTTTCATATTTACCGGCATCTTTTGAACTATACGGAACCTACTTATCAGAGATACATTGTGCGGATCATCTTTATGGTCCCGGTTAGTTGTCCTTCCCCACGTTTCATTTTTAGTTCATAAAAGATTCTTTGGCTTCTTCTGGTTGTGGTTTCGTTTGGAAGCATCCTTTCATGGCTGAATCGTATCTCTGATTTATGCACAACTACATATTATGTTCATTTATATCGTAGATGATATGCATGCTTCAAGCTTGAATTTCTTGATTTAATGACAATATAAATGTATTTGGTCCTTTGTTGTTTGTTTTTCTTGTTGTTACCTCATATGCATTATTGGACTTTGTATATTATTGCTCTGGTGAAGCCTCAGTTGCATCTTCTTGTTGGAAAATCCGAAGAGTCTTAAAGTTTGACACAGAGAAAGTTGAGTATAAGTTTCAAAAGTGAGGTAGGGCAGTTTGTATAGCTTTTTTGATGTTTTAGCCATCATTCTCACATACTCTCTTTCTTACCAAATTCCATATAAGCATCGTAAAGCTTGGAGAAATTCAAAAGAGATGTCAATTGGGAAGATTCGAAGATTGAGAGCGGACACAATTTAGGTATCTAGGATCAAGTCTCTTTGACCCTGGTTACAGAATGTCCAGGCATAGGAAATATTTGAAAAGAAAATGATGCTCTTTTCTAGTGGAGTTTCCCAGAGAAGAAGAACCTCTATGAGACTTAATTATGTAGAGAAAATATTGATCTGATCTAATCTCATCGATCGGTGTACTAACAGTAGCAATTTTTTTTAGAGATATTAAACGATTTATTGAAGTTAGTATTATTTTTTATTGTTATTATTGACACCGACACCATATTCATTAAGGAAAATGCAAGAAATACAATAAAAGCCACACACAAAACCATGACAACAATAAGGGGCAACCACAGCCAAAAGTGAGAAGATTACGGAAAGGAAACAAGTTGCAGCCAAAAATCCCAAGGGATGTAATGAAATGAGCATCATCGCACGCTTTCTCCTTCCCTCAAAATGCCGATTTGTTTTTATCCAGCCAAACATGTCTCTCTACAAGCATGAGCTTTTTCTTTGTCTTAGACTGGCTTACATCATCAGGCAGTCTAAAAAATGAAAAGGAAATAGAGAGGGATACAACTCAAAATAGTCTAGATACGGACGAGCCTTTCCCTTTTGGAGAAAGACTTCCTCTGAGAAAAATGACATTCCTGAATCATTGATCTCGGATTCCGGAAGGAACTTGTTTAGGATTATTACCCAAAAGCAAACCCAAGTATAGAGAAAGGAGTTCAATCTCTAGTTTGTTTTCTTTGTACAAGCTTGTTTTTTTGTTTTTTCTTCTTCTTCGTCTTTTTCCCTGTTGCCCTATTTACTGAAAACTTATTATTTTCATTTTATAAGAAAACATTTTTCATCCATGGATACTGCAGCTGAAACGTTACCGAACACATTGTATACTGACGATAATATCTCACCAGGCTTCTTGTGGACACCTTCTTAGTTCCTGGAATTTTTACCTTCTAACTCCAAACAAAAGTTTCAATGGAGGAAATTGTTTGATGCGGAAATTAACAAAAGAGTTGGTTTTGTTTTGGATGATCGGTTGATGTTTCCTCAAAAGTCAGCAAGAAGTTTTTGTAGCTTGAGTGTTCTCTTGTAAATTCCTTGCCTTCTGTCTTATTGCCAATGCCAGCTATCCTAAATTCCCAAAAGAACCTCTCTTATTTGATTTGGAAAGGGAAAACCCACAAGTAAAAAATTTCCCTTCATCCCTAGTTCCCTAGAGTGTTAAAACACTGGATTAACAAAGAAACCTCAATGACCCTTTTTCCTATAATGCGTTTCAAATGCAGGATAGGTGGTGAGGAAATCAACCCCTTGTTTATTCACCATCCATTTGTTTATGGTTGCTGGACCCATCTCTTAAAGATATTCGATGTTCTTAGTGCTCCCCCAGTAAAGCTAGAGTTTTATATTGAAATGCCTTCAAAGCCTTTTTGTCAATTTCTGTGAATTGATAGATTTTTTTATTATTTATTATTACTATTATTATTACTACTATTATTATTTGAGATTAGAAACCAAACTTTCATTGAGAAACATGAAAGGATATACCTGGCATACAGAAAGACAACCCAAACTCAAGGAGCCCAAGCCTACAAAAAGGGTCTCCAATCCAAAAGAATAACACCTGATTGATAAATACAAAAGGCCTTAGAGGTCATCGCCCACAAGGAGGTATTAAACCTAATATTTTCATCCCAAAACCGATCAATCCCTCTAAAGATCCTACTATTTCATTCAAGCCAAACGCACCGCAAGAACACACACACAAAAAAAAAGGAAAGCCTATCAAAGAACTTTCCCTTTATCCCTAAAAGGAGGGAACAACACAACATCCTCCAACATGGACCTGTAATCCCTATTACGAACAAAAGAAACCCCAAAGGAGTCCAAAAACTGGTCCCAAATCAACTGCACAAACTGGAAACTCCAGAACAAAGGATCAATATCCTCCGAAGCTCCTTTTCACAAGATGCACCATGGAGGACTCAAACACGAAGAGGAACACCTCTGCATGTGATTCAAAGTGTTGACTTTCTCATGCAAAATTTGCCAGGCAAATATTTTGACCTTCTTTGGAATTCCAACCTTCTAGAGGGAATTGATTGAAAATTATTTCAAATTTAAGAAGGGAAAACTTCCTTTTCTGGGAACAACTAGTTCGTTGCCTCAAATTGGATTGCTTTTCATATAGATTTTTGTAACTTCTTTTGTTTCCTTACAAATACCAATTGGCGGGTGTGCTTACAAGGCCTTGATTGTAGGATCGGGTTGATTTCTAGTCCCTGCCCCCTCCCTTCTAAACTTTAATCTTTTTTGGGAAGCTATCAAACTATTGCTACCCCTGCACTAAGTTTTCCAGGATACTACATGCTGAAAGAGGTTGTTGGAGCTCAAATTAGCTGCCTGAAACTTGCCATGAGTGGGAATGTTGTTGCTAGCATTTTCTGGAGTCTTCTGTTAGGAACCCAAACTCAGAAAACACAAGATGGTAATATATTGCAATATTAAAGGAAACTACAATATAACAATAGCCTTTTGAGAGGGCTATCTCTTCTCCACTAAAATTATACCCCTTCTCCCAGGTCCCTAACACTCATTTATAAACAAGGCACCCCTAACTAATTACCATTATATGCCCCTTACTAATATACCACTAATCCCCCACATATAACCCATAGAATACCATATTAGTACTCTCACTCCTTCTCAAAAGCTATAGTAAGTTTATAAAGGGGGTTTTTGGTGAAGAAGAAATTGGAACCTACGTTCAAGTATGGAGAGTTGGAAATCATTTATGCATTTTGTTCTTAGATTACAAGCGGTTAACCAGGACAACAAAAATACATCTGACTAACTAACCACTATTGTTTGCATAGTATGCTACTGATTCATCTCTCCTTTTCACACCATCTTTTGGCTCCAAATTTTTTACACTTACTGTTGATTATTCTCAATATATGCCACATGGTGCTTGTTTGTATGTACTATCTAAGTAAAACCTTTGTTTGTGTTCTTTTTTTCTTTTTTTCTTCTCCTTTTTGTTTTCCTTTTTGCATTACATTATTATTAAATCCTAAAATTGGTTCCTTGCATCACAGGTATATGCACTGATGTCCTTCTTGTCTCTTGTTTTACCTTCAAGTTCAATCTATTTTAATTCGATTCGAGAAGTGTAAGTAGTCCTTGCTAAATCAAATTGTTTGTGAAATTTTGAATTTTGTCTATTTCTACCATGCAGTTGCAGATCTACTCGTTTACTTTTCTCGTGTCTTTTATTTCATAGTAGGGAAGCCAACGTTATTTCATTGTGTGAGGTCTATTTGAGGAAGATTACTAGTGCCTACCAAAAAGAGTATAAACTTTTCTATTGGGGTGGTACAGTCTTTATAAAATGAAAAGGAGTACAAATTTTTTTAGTTTTCTCTTCACCATTGAATCATGTGTTTAACAGCTTCTTGGTCATTCCTTTTTCTGGTAGTGTTGGATTTCTTCAATTGCCATCACATGCTTCCTTCTTGAATGCTCCTTTCTCCAAAAAGTTCATAGTGTAGAGAAGTTATATGTAATTAAAAAAATTTGAACAAGAATGAAATGTGATCATTTCCATTCTCATGGCTTCATTTAAATTGTAAAAACAATTAATATCATTGTCCGTTTGGTTATGGTTATGGATCTAATATCTAACCATTAATCTTATGATTTCTTTTAGCTATGAAGCTTGGGTCATTTATAATTTTCTGTCCTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTAATAAGTTTAAGTGGTCGTGTATTGAAGCCATCATGGTGCTTGATGACATGCTGTTTTCCCCCTCTACCACTAGATGGGTAAGTTTGCAAATGTTAAATTTTGTTTTATTTTGGATTGATGTAATGATTGAGTTATTAATGACAGCATATATTGTAAAAGTTAAATTATGTTAAATTTTCTCTGAATATAATAGATGTACACCATACATGTAGATGTAGTTAATGCGTGCTTCATTTTCTTTCATGGCATTAATACGTTTTTACAAAAAATACCCATGAAAAGAATGGTGCTGAGAGATGGTTGTCTTAATATAATTTAGAACACTGTGCTCCACCTAGCTACTAGTATTAGGATTTTGTGTTAAATGTATTTTCACCAAATCCTACTCCTTTTGCTATGATTCCCCCTCTACTATTTCCTAAGCTTTCATATGTTTCCAGGATTGGATCTCCCTTATGAATTCTCTTGCTACTACACTCCTAAACTCGTCAGAAAACTGTTGGATTTGGCTTGTTATAAATCGTATTTTCTCCTATAAATCACTCTGTGATCTATCAAAATGCCTTTTCTTTGTTTAAAAAAATGGCGTTTTCAGGAAGGTTAATTTTTACTTGAGGGGAGATTTGCACTCTGGATTTCTTAGTATTCGAGTCAAAATTCGGATACCCTGGACATGGCTCTACTTCCCTATTTGGTGTTTCATGTGTCGAAAAAGAGAAAGATCCTCAAATCATCCCTTCTCTTGTGATTCAATTCTTCGATCATCATCAGAGTGTTGTTCTGGACCATCTAGGTGGAAAGAAACGAGTTTTTAAGAGTGAATAAAGATCGCTCTGGATTCTTTGTGATATTATTCTTTTGTTACCATATATTGTGCGAGCTATATACCCATTTTTGTTATCATTGTTCCATAAGGCTGAGTTTTTTCTCCCTCCTCCTGTAACCTCGTTTGGTTAATTTAGGGCCTGTTTGGTATGCAATCCGGATTCTGTTTTATGTTTTCAGAGAATATGTGTTTGGCAGATGTGTTTTCGAAAATTCTTTTCGGATTTTGTGATTCAAATAGTAGAAATTCTGAAAACAACATTTTTATGTTTTCATTGTATCCAGATTCTGAATTTAAAATTTAAAATGAAGAATTATATTAAACAAAGATAAAAATCTTAATAAATACAATATTTCAGGTTATAAACTCAATTTATTTTGTTAAATTAAAATATGTATAATATAATATATTATAAATTATATAATATTATATTATAAAATGATAATTCTATAAAATTTATAAAAATCATGTTCATAAATTAATTAATAATGATTTATATTCAATCTAATAATTAGTTTTGCAACTACAACTAATTTCATGATCTATAAATATGTTATAGGACACACTTTAAACAACTGTTTAGAATGGAATCAAATTTTCAAATATGCTACCAAACACATTTATGAAAACATGAAATACAACTCTGTTTTCATTGAAGCCATTGTTTTCAAATTTATGTTTTCAGATTGCTTACCAAACAGACCCTTAATTAATTGTATAAAAAATTAGAGTACAGGTTCTCAAGATATCAAAGGACTTTTGGTGATCTTTTGAGAACGGTACGTGTTTTGTGGAGCAAAAAACAAGAAACAACTATTCATTGAATTGGTGAAAAGAAATAAAATGCTCAAGGATACAAATTCCCATTGGGAGAGAAACCCAGCCAAACTAAAAACACAAAGCCAAAAAATAAAAAAAGAGCAATACAGGCTTTCCAAGAACAAAAGGACCCAACCATTGAACTTCTTGGAAATGCTCAAGGTATTGTTCTATCTTTTGGTGGTTGAGATTCCAGAAATGAAGATGTTTTAGGCATATGTGAGTATGGTATTTTAGGAATTTTGCTAATGCTCAGGGTACCGTTTATCTTTTGGTGGAAATGTTCTGGGTATTGTTCCATCTTATGTACATGTAACTATGAAATTTTTGCTGGGCTATTTGGAGCAGAATGGAACTAGTGCATATTTTAGGCAAATATTATGAATGGGAAGTTATTTATGTGGAGACTATGAAAAGCTTTTAAAGGTGGCTTGAGTATATATTTATTTTAAAGTTGTTGATAATTACTGTTTTGTTGATTGACCTTTTAAAACCGTTTTCAATTGTTTTTAATTTTAAAAACTGTTTGAAAAGATATCTTTGGTTCATTGTTTTATTCATTCTTCATATACTTTAAAAATAAACATTTAAGCGAAGTTTTACATATAAAAAAATCAAATCCATGCATTTAAGTAATAGTTAATGATAGGGCAAAGCACCAACGTAAGGGAAAAGTAAGAAAAGATGAAGGTGATATTCCCCATCTCTTTTTTTAATTATTTTTTTATAACCGGGTGTCGGAGCTCTGTTCCCTACGAGCGCACCCGCCTCAAGGGCCTGGACTTGGGAGACATCAAGGGTTTTTATTTATTAAACTCACCCGAGGGCTCGAACCTGAGACCTCTAAGGTCATCTCTTCACGCATTCCTGTTTATTTATGACACCCATTAATCCTCTTACCATCTTGCTGAATGTTTGGATTTGTATAAATAATTTCTGAATTTATGTGATAGTCAACTACATTCAAAAGTTAATTCAACTGAAGTTCTCATCTTCAATTAATGGTTTTGAAAATATCTCTATACTTTCCTCCATTTTAACCAAAAGAATTAGTTATTGCTCCCTCAGCGCTAGATCCAAGCCTTATTGATAAATCTCTTAGGAGGTTTTTTCTGGTGATCCAACAATCTAGAACTTTCAAACTAGTGGGCTCAGCAAGTCTAATAAACTCGTTTTGTTTGCTGTAGCATCCTGTCATATTCAGTATCTATTAATCTCCACAGGGTTATTGAAAACATTTACTCAATCAATATGGTGCCTTTCTGCAATCACCATGCATTGAACAAGTAATCATTGGGGCTAGTGAAAAGTAAATGGACTGGGAGGAAATGGGTTGAAACCAAGATGGTTACGTATGTAGGATTTAAATTTCTACAAGTTTCTTTGACATGGTTGTTGAGATTAGTTGAGTTGTGCGCAAGTTAGTTTAGACAATAGTCATGGATATGAAGAAAAGGTACCTTTTCCTCAAATATGGGGATAATCTTTCTTTGATTCACATCTTTCTAAGTTTTTTTTTTTTTTTTTTTTTTTTTTTGCTAGGAATGGCATTTTCATAACCACTAAACACTATATCGGACCTCATTTTGGACCTTTTTTGAGTTCAACAACATTTGAGGTGGAGGGATTTGAACCTGTAACCTCTGGGTCATAAGTCCATACTTTATGCTAGTTAAGCTATGCTAATATACGACAAACCTATTCAATCAAACCAACATCTTCCCGTTATTATGGATTATTAATAGATATAGAGAGAGGGAGATGGAGAGTCAATGGGTAAATATTAAATAATTCACCGGTTGAATTCAAGGTGGCCAAAGATCAAGAAATTCTCGAATTGTTGCAGCAAATAGCTTTCAGCACCTTTTAGCAGTTAACAATGTGCAAGGAAAACCATCATCTTAAAATGTATTCCAAGCGAGTATGAGCAAGTGAAATTGAGAGAGAGATAGTGGAAGAGTGAGATGGATAGAGACCGTGGAGGTCACGTGTTCAAAGAGTGAAACGACTCATACGAGTCGGAGAGAGGCAGAAAAAAGTTAGATGGAGAGAGAGAGACTGTGAGAGGGACAGAGTGAGTGAAATGGAGAGAGGACAAATAGGGGGGGATCCAATGGATAAAGGCAGAGTGAGAATTGTTGGAGAGTGAGACGAAGAGAGATAGAGAAAGTGAAATGAAGGGAGAGATTCAAGGGAGGAGGGTTGGAGGGACCAGAGAGAGAAATTGAGAGACCTTACTTGTTGGTTGCTTCGATGAGAGAGAGAACAAACTAGACATTTCATGAATAGAGGGTCAGTTGAGTAGATTGGGAAGGGAAACTAACAGAAGTGCCCAAATCTGTTACCTCACGCCTTGCCTATATAAGGCGAGGTGCTGTTCATGCTTTTGTTGCTTCTGCTCTGTGCTTTATTTTTACTTGCCATTTGTCTGAAAGGAAGTCTCGTCCCTTTCATCAGAAATTGTTGTATTTTATCCATATTGTTTTCATTTGGAGAAATGAATCGAGTTCTATTGTTTCCAGAGCTTTCTTTGTATTATTAAGTGCTTTCTGCTCTCCATTTGCAGAGCTCTTTTAATTTTTTGTAATAATAATCCATTTGCAATAGTACGAAATATTGAAGTAAGCTTCTCCATGGGTGATGTTTATTAGAAAGTCTGTCCAAACCTAACCAAGATGATCCTTTTATCTATTATCTATCTACTTGAGCATTATATCTTCTCTCTCTTATCAGGGAAAAAGAGTATCAATATGAAACTTCATCAGATAACCTTACGGGTTGCTTTTGATGCAGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAGTTTGTGATTCTGAAGCCTATATTAGTTGCTGTAACACTTATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAACCCAAAACAATCATACCTTTATCTCACCATCATCTATACTTTCTCATACACCATGGCTCTTTATGCATTGGCATTGTTTTACGTGGCATGCAAAGATTTACTCCAGCCTTTTAACCCGGTTCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGTGAATGATCTTTAGATTCTTTTTTATTGTACAAATCACTTGTTCTCTATGTGGACGTTTCCTTTGTTAGTGTGTGTAGTGTATGTGGCGTTGTGTTTATTCTTGCAAAGTATTCAGAGGAAGGTTAAATATGGTGACTCTGAAATGTTAGTGTAATCTTCTATGGGAAAAATATGTGTTTTGCAATCTAGTTTAAAAAAAACTCTAGAATGAATGACGGGTTAGACTTCAGATAAAAACTGATGCTAATTGCTTTGCTGAATGATCTTCATTGCAACCCTGCGACCCATGAAACAGTTATTTTCTACCAAAGAAAGTCTCGATACAGAAAAATTGTTCTAAATGCTTCTCGATGCAGGAAATTTTTTGTGGCAAGCTAGGGTGTGTGCTGTTATGTGGGGCATTTGGAGGGAGGAATAATATAATTTTTTAGAGGACTTGAGAGATTTTTGAACGACATTTGATCCCTTGTTAGATTCTGTGTTTCTCTATGGACTTCTGTGACGAAACTTTTTTGTATTACATATCAGGTCTTATTTTATTTGACTGGAGGCCATTTTTGTAGCTTGCCTTCTTTTGTGAGCTTTCTTTTTCTATGACCTTGTATTCTTTCATTTTTTTTCTCAATGAAAGTTTGGTTATTCGTGAAAAAAACTTCCGAGGTGATGTGCTTGGTTATCAGATAATAGCTTAATTTATGGACAAAAATGACGTGTATGCAATCATCAAAACGTCTTTTTAGTTTAGATATTTGTTGTCAGCTTGAAGATGTAGAATGGATAGCAACTCTTTTAACAAAAATTTCTTATCTATGTACTTTGGTTTAGGGCGTCCTTGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTTTGGGTCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAATATTGGTGGTTCGCGGGGTCTCACCGGAAGTCTTGCACATGCCGTAAAATTGAACGACTTCTACCACGACACGGTCCACCAGGTGAGACTTGATATAGTTTTCAAGTTAGCTTCTTTTGGAAAGGGTTTTTGTATCTCTTTGCTGGATTGTTCATTGATCTGACCACCTTTCTTTTGCAGTTTGCACCAACTTATCATGATTACGTTCTTTATAATCATAGCGATGGCGACGAAGGAACGAGGAAGTATCGATCTCGCACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAGAAACAAACACATGTTTGGAAACAAGATAGACGACATTCAACTTTCCACAATCTCATCTTCAAGTTCAAGTACTCAGTACTCCGATTCAGTCCTTGAACCAGCACATTCCGATGCAATGAAGTCTTCTCTTCTCATGGATGTCTCAAACTCTTTATCCACACCATACGACATGTCGCTTATCGACTTGGATATGTCGAGTTACCCCTCGAAAGTTGCTGCAGTGGACGAAACCGCGACGAGGTGACAAGAATAGTGGACAGGTAGGAAAAAAACGATCGTGTGAGAACGGAATACGCAAAGGAATAGAGAGATACAAATAGAGATTTTAGGGTGTTTCATATCTCTGAGTTGTGCACACTGGTGGTAACGAAAAACAAATTGTGTACAATGGCGTGTTTGTTCAGTCCATGGTGGTGCTGTATATACATGATTCTGATTTGTTATAAATTAGGATTTGATACACAAGCATGCATATAAATTCATTTTAATTATCATACTGATACTACTACATTTTTAATTTGGGGACTTTGTGTCTTTTTTAATTATTATTATTTTTCATTTTTGGGTGGGGATTGCCAGTTTCTTGTATGTACTCCATTTGGTGGATTTG AAAAAAACCACAAAACAAAACACATTGAGGCAAAGGTATTCGGCTGTTCTTCCGCGAGACTCGAAGCCGCCATTGTTCGTTTCCAGCTCAGCTTTCTCCTCATCTTCTTCGCTTCAATTCCAACACTTTCTTGTTTCCTTTTCCATTTCACTTCCACAGCCAGATCCGCCTGCTATAGATTATTACTTTCCAATTTCCAGAAAAGTTTTTCAATGCTATGCGAAATGCACTGAGTGTTCAGTAGCCGAAGTCGTTTGACGATTTCAATTTGGGGTCTGCCTCCAGTTAATTCTTCATTCGGTGGCAGACTAGGGTTTCTGTCAATCTTCTCCTTGTTTTTTGAGATCAGGCTTCTGAACCAGCAACAGAATGGAGGAAGTGGTTCCTATCTACTACAGTATCATTGCATTTTTTTGCACGGTTGGAGCCATTGCTCTGGCGATCTTTCATATTTACCGGCATCTTTTGAACTATACGGAACCTACTTATCAGAGATACATTGTGCGGATCATCTTTATGGTCCCGGTATATGCACTGATGTCCTTCTTGTCTCTTGTTTTACCTTCAAGTTCAATCTATTTTAATTCGATTCGAGAAGTCTATGAAGCTTGGGTCATTTATAATTTTCTGTCCTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTAATAAGTTTAAGTGGTCGTGTATTGAAGCCATCATGGTGCTTGATGACATGCTGTTTTCCCCCTCTACCACTAGATGGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAGTTTGTGATTCTGAAGCCTATATTAGTTGCTGTAACACTTATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAACCCAAAACAATCATACCTTTATCTCACCATCATCTATACTTTCTCATACACCATGGCTCTTTATGCATTGGCATTGTTTTACGTGGCATGCAAAGATTTACTCCAGCCTTTTAACCCGGTTCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTTGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTTTGGGTCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAATATTGGTGGTTCGCGGGGTCTCACCGGAAGTCTTGCACATGCCGTAAAATTGAACGACTTCTACCACGACACGGTCCACCAGTTTGCACCAACTTATCATGATTACGTTCTTTATAATCATAGCGATGGCGACGAAGGAACGAGGAAGTATCGATCTCGCACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAGAAACAAACACATGTTTGGAAACAAGATAGACGACATTCAACTTTCCACAATCTCATCTTCAAGTTCAAGTACTCAGTACTCCGATTCAGTCCTTGAACCAGCACATTCCGATGCAATGAAGTCTTCTCTTCTCATGGATGTCTCAAACTCTTTATCCACACCATACGACATGTCGCTTATCGACTTGGATATGTCGAGTTACCCCTCGAAAGTTGCTGCAGTGGACGAAACCGCGACGAGGTGACAAGAATAGTGGACAGGTAGGAAAAAAACGATCGTGTGAGAACGGAATACGCAAAGGAATAGAGAGATACAAATAGAGATTTTAGGGTGTTTCATATCTCTGAGTTGTGCACACTGGTGGTAACGAAAAACAAATTGTGTACAATGGCGTGTTTGTTCAGTCCATGGTGGTGCTGTATATACATGATTCTGATTTGTTATAAATTAGGATTTGATACACAAGCATGCATATAAATTCATTTTAATTATCATACTGATACTACTACATTTTTAATTTGGGGACTTTGTGTCTTTTTTAATTATTATTATTTTTCATTTTTGGGTGGGGATTGCCAGTTTCTTGTATGTACTCCATTTGGTGGATTTG ATGGAGGAAGTGGTTCCTATCTACTACAGTATCATTGCATTTTTTTGCACGGTTGGAGCCATTGCTCTGGCGATCTTTCATATTTACCGGCATCTTTTGAACTATACGGAACCTACTTATCAGAGATACATTGTGCGGATCATCTTTATGGTCCCGGTATATGCACTGATGTCCTTCTTGTCTCTTGTTTTACCTTCAAGTTCAATCTATTTTAATTCGATTCGAGAAGTCTATGAAGCTTGGGTCATTTATAATTTTCTGTCCTTGTGTCTGGCATGGGTTGGTGGTCCTGGAGCTGTTGTAATAAGTTTAAGTGGTCGTGTATTGAAGCCATCATGGTGCTTGATGACATGCTGTTTTCCCCCTCTACCACTAGATGGGCGTTTTATACGGAGGTGCAAGCAAGGCTGTTTGCAGTTTGTGATTCTGAAGCCTATATTAGTTGCTGTAACACTTATTTTATATGCAAAAGGGAAGTATGAAGATGGAAATTTCAACCCAAAACAATCATACCTTTATCTCACCATCATCTATACTTTCTCATACACCATGGCTCTTTATGCATTGGCATTGTTTTACGTGGCATGCAAAGATTTACTCCAGCCTTTTAACCCGGTTCCGAAGTTCATCATCATTAAGTCTGTTGTCTTCTTGACTTACTGGCAGGGCGTCCTTGTTTTTCTTGCTGCAAAAACTCAATGGATCAAGAATGCAGAGGAAGCTGCTCAATTTCAAGATTTCATTATATGCATTGAGATGCTTATAGCTGCTTTGGGTCATCTTTATGCATTCCCATACAAAGAATATGCAGGAGCTAATATTGGTGGTTCGCGGGGTCTCACCGGAAGTCTTGCACATGCCGTAAAATTGAACGACTTCTACCACGACACGGTCCACCAGTTTGCACCAACTTATCATGATTACGTTCTTTATAATCATAGCGATGGCGACGAAGGAACGAGGAAGTATCGATCTCGCACCTTTGTGCCTACAGGCCCTGAGATGGACACTGTTAGAAGAAACAAACACATGTTTGGAAACAAGATAGACGACATTCAACTTTCCACAATCTCATCTTCAAGTTCAAGTACTCAGTACTCCGATTCAGTCCTTGAACCAGCACATTCCGATGCAATGAAGTCTTCTCTTCTCATGGATGTCTCAAACTCTTTATCCACACCATACGACATGTCGCTTATCGACTTGGATATGTCGAGTTACCCCTCGAAAGTTGCTGCAGTGGACGAAACCGCGACGAGGTGA MEEVVPIYYSIIAFFCTVGAIALAIFHIYRHLLNYTEPTYQRYIVRIIFMVPVYALMSFLSLVLPSSSIYFNSIREVYEAWVIYNFLSLCLAWVGGPGAVVISLSGRVLKPSWCLMTCCFPPLPLDGRFIRRCKQGCLQFVILKPILVAVTLILYAKGKYEDGNFNPKQSYLYLTIIYTFSYTMALYALALFYVACKDLLQPFNPVPKFIIIKSVVFLTYWQGVLVFLAAKTQWIKNAEEAAQFQDFIICIEMLIAALGHLYAFPYKEYAGANIGGSRGLTGSLAHAVKLNDFYHDTVHQFAPTYHDYVLYNHSDGDEGTRKYRSRTFVPTGPEMDTVRRNKHMFGNKIDDIQLSTISSSSSSTQYSDSVLEPAHSDAMKSSLLMDVSNSLSTPYDMSLIDLDMSSYPSKVAAVDETATR Homology
BLAST of Tan0020268 vs. ExPASy Swiss-Prot
Match: Q6ZMB5 (Transmembrane protein 184A OS=Homo sapiens OX=9606 GN=TMEM184A PE=1 SV=1) HSP 1 Score: 244.2 bits (622), Expect = 2.6e-63 Identity = 138/345 (40.00%), Postives = 201/345 (58.26%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy Swiss-Prot
Match: Q8BG09 (Transmembrane protein 184B OS=Mus musculus OX=10090 GN=Tmem184b PE=2 SV=1) HSP 1 Score: 238.4 bits (607), Expect = 1.4e-61 Identity = 130/316 (41.14%), Postives = 189/316 (59.81%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy Swiss-Prot
Match: Q1RMW2 (Transmembrane protein 184A OS=Bos taurus OX=9913 GN=TMEM184A PE=1 SV=1) HSP 1 Score: 237.7 bits (605), Expect = 2.5e-61 Identity = 131/309 (42.39%), Postives = 189/309 (61.17%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy Swiss-Prot
Match: A2VDL9 (Transmembrane protein 184B OS=Bos taurus OX=9913 GN=TMEM184B PE=2 SV=1) HSP 1 Score: 235.7 bits (600), Expect = 9.4e-61 Identity = 129/316 (40.82%), Postives = 188/316 (59.49%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy Swiss-Prot
Match: Q4QQS1 (Transmembrane protein 184A OS=Rattus norvegicus OX=10116 GN=Tmem184a PE=1 SV=1) HSP 1 Score: 235.3 bits (599), Expect = 1.2e-60 Identity = 124/308 (40.26%), Postives = 188/308 (61.04%), Query Frame = 0
BLAST of Tan0020268 vs. NCBI nr
Match: XP_004144735.1 (transmembrane protein 184A [Cucumis sativus] >XP_011648889.1 transmembrane protein 184A [Cucumis sativus] >KAE8651636.1 hypothetical protein Csa_021361 [Cucumis sativus]) HSP 1 Score: 785.8 bits (2028), Expect = 1.9e-223 Identity = 400/420 (95.24%), Postives = 405/420 (96.43%), Query Frame = 0
BLAST of Tan0020268 vs. NCBI nr
Match: XP_038890300.1 (transmembrane protein 184B-like [Benincasa hispida] >XP_038890301.1 transmembrane protein 184B-like [Benincasa hispida]) HSP 1 Score: 781.9 bits (2018), Expect = 2.7e-222 Identity = 397/420 (94.52%), Postives = 404/420 (96.19%), Query Frame = 0
BLAST of Tan0020268 vs. NCBI nr
Match: XP_008452971.1 (PREDICTED: transmembrane protein 184A-like [Cucumis melo] >XP_016902321.1 PREDICTED: transmembrane protein 184A-like [Cucumis melo]) HSP 1 Score: 781.6 bits (2017), Expect = 3.5e-222 Identity = 398/420 (94.76%), Postives = 403/420 (95.95%), Query Frame = 0
BLAST of Tan0020268 vs. NCBI nr
Match: XP_022946050.1 (transmembrane protein 184A-like [Cucurbita moschata] >XP_022946051.1 transmembrane protein 184A-like [Cucurbita moschata]) HSP 1 Score: 778.9 bits (2010), Expect = 2.3e-221 Identity = 397/421 (94.30%), Postives = 404/421 (95.96%), Query Frame = 0
BLAST of Tan0020268 vs. NCBI nr
Match: XP_022999694.1 (transmembrane protein 184A-like [Cucurbita maxima] >XP_022999695.1 transmembrane protein 184A-like [Cucurbita maxima]) HSP 1 Score: 778.1 bits (2008), Expect = 3.9e-221 Identity = 397/421 (94.30%), Postives = 405/421 (96.20%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy TrEMBL
Match: A0A1S4E266 (transmembrane protein 184A-like OS=Cucumis melo OX=3656 GN=LOC103493816 PE=4 SV=1) HSP 1 Score: 781.6 bits (2017), Expect = 1.7e-222 Identity = 398/420 (94.76%), Postives = 403/420 (95.95%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy TrEMBL
Match: A0A6J1G2Q4 (transmembrane protein 184A-like OS=Cucurbita moschata OX=3662 GN=LOC111450258 PE=4 SV=1) HSP 1 Score: 778.9 bits (2010), Expect = 1.1e-221 Identity = 397/421 (94.30%), Postives = 404/421 (95.96%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy TrEMBL
Match: A0A6J1KHU5 (transmembrane protein 184A-like OS=Cucurbita maxima OX=3661 GN=LOC111493971 PE=4 SV=1) HSP 1 Score: 778.1 bits (2008), Expect = 1.9e-221 Identity = 397/421 (94.30%), Postives = 405/421 (96.20%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy TrEMBL
Match: A0A6J1DUV4 (transmembrane protein 184B OS=Momordica charantia OX=3673 GN=LOC111023302 PE=4 SV=1) HSP 1 Score: 771.9 bits (1992), Expect = 1.3e-219 Identity = 390/420 (92.86%), Postives = 402/420 (95.71%), Query Frame = 0
BLAST of Tan0020268 vs. ExPASy TrEMBL
Match: A0A6J1HYB4 (transmembrane protein 184B-like OS=Cucurbita maxima OX=3661 GN=LOC111468594 PE=4 SV=1) HSP 1 Score: 759.6 bits (1960), Expect = 6.9e-216 Identity = 384/420 (91.43%), Postives = 395/420 (94.05%), Query Frame = 0
BLAST of Tan0020268 vs. TAIR 10
Match: AT5G26740.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 666.4 bits (1718), Expect = 1.5e-191 Identity = 333/422 (78.91%), Postives = 375/422 (88.86%), Query Frame = 0
BLAST of Tan0020268 vs. TAIR 10
Match: AT5G26740.2 (Protein of unknown function (DUF300) ) HSP 1 Score: 666.4 bits (1718), Expect = 1.5e-191 Identity = 333/422 (78.91%), Postives = 375/422 (88.86%), Query Frame = 0
BLAST of Tan0020268 vs. TAIR 10
Match: AT5G26740.3 (Protein of unknown function (DUF300) ) HSP 1 Score: 666.4 bits (1718), Expect = 1.5e-191 Identity = 333/422 (78.91%), Postives = 375/422 (88.86%), Query Frame = 0
BLAST of Tan0020268 vs. TAIR 10
Match: AT3G05940.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 665.2 bits (1715), Expect = 3.4e-191 Identity = 329/416 (79.09%), Postives = 374/416 (89.90%), Query Frame = 0
BLAST of Tan0020268 vs. TAIR 10
Match: AT1G77220.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 157.5 bits (397), Expect = 2.3e-38 Identity = 101/269 (37.55%), Postives = 143/269 (53.16%), 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.
|