Tan0002952 (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.AAATAATTCGCCAAAACGACGTCATTCCGATGAACACAATGCGAACTGGGATTCCGTATATTCACCGTATACGGCGAAGCAAACCCAAATCTACAACGAAGCTCAAATCGCTCACCGAAAATCTATGCAATTGCCGACCATTCCGGCTTTCAGACATTTCTTGATTTAGTCAAATCAAATTCTATATATGTTACTTTTCTTCTGATTTCTTCGGAATTCGAATTCCGGACGGTGGAATTTTCAAAGTTTGTTGCTTTTCTTCGTAGAAGCCATGGATGCAATCTTCAACAAGCTCCGGAATTTGGACGCTTACCCTAAAATCAATGAAGATTTCTATAGGCGGACCTTTTCTGGTGGCTTAATCACCCTTGCTTCCTCCTTTATCATGCTCTTCCTCTTTTTCTCTGAGCTAAGTATGTTCTGGTGCTCTTTTTTTCTGAAAGTATCGCTACCCGCCGGTTATCTGATGGCTGGGTTTGATTCTAATTTGAATTTGCTGTGATTTTGGTTGTATCGGAAAGTTTTGGGAGGAGCTAGCAAAAATGGCATATTCGAGTTGTAGTTTGCCTTTACCTTGTGAAATCGCGATGCTATTTGATGTCATTGTTGCTTTTACTATTATGTGGGAATATTTTGATGCTAATTTAGCGATTTTCCCTTTCTCATTGTCTTCTTATGGCTCTTCATTATGAAGTTAAATAACAATGTGGTGCCGGTGATTGGGAGACCAGTCATCTTAGGGGCCTGGGGATAACAATTTTTCATCTAGTAGAGTTTATCCTTACTAGCAGTGGTTTTGAGAAGATGGACCGAGGAAAAGTCTCGTTTTGTGTCCCATTCCTTGGCCTTGCAGTTCATAAATTCATAGAAGCATATCAGGCTCAAACATGACTATAGGAATTATTTACCAATGGGTTCTCATAACCTAAACCTAGAGAAGCAGGTGCTTGCTCTACACTTCTACCTTTATTACAAACACCAATGATAGAAGAAAGTATTGATAATTTATTTGTCACTTATAGATATTCTCTGCCCTGCCAAAGGTTATTTCATATTTGAAAAACTGCCAAGTTCTTGCTTTTCAAGGATGTTGTGAAAAGTTATATGAGCGGGTTCAACTCTTTCTTCTACATAGTTTAGTTACTCTTTGATGAAATCGTGTAGTTGAGAAATCTCTTGCCTAAACAAATTAATATTTTGATACCAAATAATTGACTTTAAGCAATCTAGAGACTAGTGTACCTGATTAGGTTGTTTTTTAACCTTTTGAACTTTTTCCCCCCTTCTCTCTTCAAATTGTAATATAAGTTTAAGGATAGTACATGAAATTGAACAGAGTTATGGATTGAGCAGGTAAAAGAAGTCTTAATGTGGCAAAATTTTCAAGATAAAAAACTATAGGACCTCATACGTAAGTTAGATTACTAACATTTTACGGCTTCTTTAATGTACTCAAAGTGACTCATGCAACTTCAGACCTATGAGTTCAGTGAGTCACTAAAATGTCATGATTTTTTCACCTCCTCCAATTGACATCAATGATGCTCCTTCCCAAACTTGACTCATTTGAGGTAAGTGTCTTTTATGAAGACAATTCATTCACATTCTATGGACTCTTTCATTGGCTAGATCAACAGTTTCTTGTTGGGCCTTGCAAGATGTTTAATTCTCCCTTTAAGCTATATTTATATTATCAGGTGTAACCCATGATATTTCACTCCCTTCACACTTATTTCTTTTCTACTTTTTGTATGAGCCTATAGTTCAGCTATTATGTAGTTTGAAAATATATGTTAAACCATTTAATATTATATGGTTTTATATCTCCTTTTATTTTTAAAGATTTTTATGACCATCATTTGTGATGTGTGGTTGCAGGATTGTACCTCCATGCTAAAACTGAGACAAAGCTCATTGTAGATACATCAAGGGGGGGAAAATTACACATAAATGTAATTATGTTTTCGAGGCAATGATACTATATTGTTCTTCCTTTGTACATGCATTAACTTTAGATTGAATGTTCACCTTTAAAAGCTTTTAAGTCATTATCTATTCCTTTTTTTGTAGAGGTTGTGAAAATTTTTATTTCATGTGGTTCAACTAAAAGATAGAGCTGGAGATGAAGCTCTGATTGATTATCATTTTAGTTTCCAACAATGTGGAAAACTACCTAGTTTAATTTCTGTTCCCAATGCTGGTAGCCGTGGTTGGGACGAACTTTGTCTGTAGTCTGGATATTGTTTATTAATGTCGTTCAACCAATAGACTTCTTACCTAAATGTGAAATATTGCTTTTGAAACAGGTTTATATGATTATTTTTTTAAATTGACGAACTTTGTAAATGTGAATTACAATTTATGTTCCTCTTGACCTAGTTTAATCGTCTTTGTTCCATGGGTTCAAACCTCATCCTTTTCTTGTTGGCGCAGTTTGATATGAGTTTTCCTGCAATTCCGTGTTCTATACTCAGTCTTGATGCCATAGATATCAGTGGCGAGCAACATCTTGATATAGTATGTGCTGCAAGCATCAATACTCTGTCTCTAGATCTCTGATTCATTTTTTCATATTATTTTACCAGTCTATCACGTAACTTAGCTAGTATCTCACCATATACTTCAATGTAGTCTCGCATTTTCTTATGCTTGGGTACGCTATTGTCTTTCAGAGGCATAATATAATCAAGAAAAGAATTGACCACCATGGCAAAGTCATAGAAGCTAGACCAGATGGCATCGGTGCACCTAAGGTTAGTAGGTGTATTTTGATGGTTTGTGCTCACAAAATTGATTTCTTGTTTTATCTGTTTTATAATGGTTATTTGTGGGGGCTTTTGGTACCACTTGCATTTGCTATAACGTTTTACCTGCTCCATAATTTACCATACGAGGTTCAAAGCCAGACATTTTTTTTAACTAGACGAGGATAAGGTAATCTGATTTGCGTTCTAAGTTTCATTCATGTGTTTTTAAGGTTTTGAGTTCAACATGTGGGAATTTGAACATCTGATCTTTTGGTCGAGGATATAATTTCTTAACCAATTGAGTTGTACTCAGGTTGGCATTCACGTGTTTTTAAGGTTGAAGGCTAATGTTTAAAATTGCAATGTTGGGGACAAACTTTTAATAGGAAGAGCCTTTCTAGGCTCTCATGAAAATTAATATGTGAAGTATTTACAACTTTCGAGGGAAAGGATCTGCTCTTGCCAGTTGTTGGATATGCATATGCTAAGCTAACCAGAGGATATAATTTATTAACCAATTGAGTTGCCCTCAGGTTGGCATTCATGTGTTTTAAGGTTGAAGGCTAATGTTTAAAATTGCAACGTTGGGGACAAACTTTTAATAGGAAGAGCCTTTCTAGGCTCTCATGAAAATTAATATGTGAAGTATTTATAACTTTCGAGGGAAAGGATCTGCTCTTGCAAGTTGTTGGATATGCATATGCTAAGCTAACCAGAGGGTTGATGAGAATAATTTTCTATTTAGAGAGGGGGCTTGCTTTTGTAGTGCAAGTTTGGACAGTATGCCTCTCTTTATAATTAACTGCTTTGTTTAATCACTGAAATTTTGGATCTAATTTAAAAGCTTGTCTCTGCAAATTGATGTGCTTTAATGCAATAATTTTTGTTTTTTGGGATTTAAACAGTTTTAAGATGAAAGTGGATTAGAAAATGGTTGGAAAGGGATGGTAGAAGCTTCAGAGAAGTCTCTCATGCTTATGATCGTTTTTGGGGCACTGTTTTATCTAATGTATTTTTTTGGTGCAAACACTTGCAACCTTTTAGTCTTTATAGTTTATCTTTCTTCACTTGCAATTGGCTAACCTTTTTGTAATTGACATAAAGGTGATGAGAGTTTTTCCTATTTCATTGAATCATTCATCAATGAAATGGTTTCTTATATAAAAAAAAATAATGTTGCAGTGTGTTTCTCTGTGGTGCACTTTTTTATATCATTTTACTGTTTTCACGCCTTTTTCTAATTTTTCAGTTTTTTGATGTGATATGTAGTATTAATTCTTGGGAAAGTGTATGGAAGGGCTGGTCCTTCATTTACATGTTTCCCTGTGTCTTTTGTCCCTCAATCACAGTATCTTCTATGTACTTTATTTTCTGGAATTCTGGAATTTCTCATTTTGAACGAACACAAATTGCAATCAGAACCATATAAGTAACTTTTATCTTCGAAAACCATATTAGCAATGCGCGGGGAAGAATGCTTCGACCCTGCTAAAATAGCCCTACAAATTGCTGGGGAAATCCCTAGTTCTCCAATATCCAGACCAGTGCACTATCTCCTCATTGTATCCCTCTTAAAGTATATATTTTAAGAAGCAGATTCTTCCATAAACTCATTGATAATGGGGAACTGATGAGTGATAAATTTTTTTTCATATAGGATAAAAATCCCAAATATGCATCTTCTGATTATAATAGATAACTAAATGCAACTTCCGAGGTAGCTTAGGGATGACAAAGAAGTTAAAGATAAAACTCGGGTATTTAAAGTTTCTTTACAAAAAAGTAATATTTATCACCAGCTCATCTCGTGGAGACAATGATTTCTTGGATTCTTCTGTTGGTTTCTTATTTTAGAAAAAGTTCCACCACTTGTTCTTTTTTTTTTTCCGCTTTTTTTCCTGTAAATCTTTCTTTTGGCTATTGGTATTTCTTTCTGCTTAATTATTTTTGTTTTTTCATACTCCAGATTGAAAAACCGTTGCAGAGGCATGGTGGCAGGCTGGAGCACAATGAAACATACTGTGGTTCATGTTTTGGAGCAGAAACGGTACTTTGGTCCTCTATAATCCTTTGTTTAGTTTTATGGATTTGCAGTCATTCTTTGCATAGCTTTGATTAAGATTCTGGAGCAGAAAGGAAGCCATTTTTTTAAAAAAATTATTATTTGTGTATTATTATTGTTATTGTTGTTGTTATTATTTTTTAAAATATCCTTTCTGGTTTCCATTTTTTTGGTTTTCTTTATAGCACTTCATATTGGTGTGAAGCTATCTTGTAATTTTGTTATTCATTTTGTTATTTAGAGCGTCGTTATTCTGTCACGTTTTACATGTGTATTTTTACCTTCAGAAAGTACAATGTTTATGAGTGACTGGCATATTGCTGAATTAGCTGCTTTTGATTTTTTTTTTTTAAGTTCTACATATTTCTTCAAATTTGTATCAGAAATGTGAAGGGTTTTCTCCCCTTCTCTTGTTTGCAGTCAGATGATGATTGTTGTAATTCATGTGAAGAAGTTCGTGAAGCATACAGAAAGAAAGGTTGGGCCATTACCAATCAAGATTTGATAGACCAGGTACGTCAGATTGTTATAATTGCCGTTTATAGGATATTATATGGTGCTTAGGACTGGACTATAGGAGGCTACGAGGTAGCTAGTCACTTAAATGTGCAGTTCCACCAAGAAGGGGAAAATGCCATGATTTTTCTAATAATATTGTTAGAGGTTGGGATTATATGCCTTGTATTTTTTTTTTTTTTTTTGGGGGGTAAGAAACCATGCTTTCATTGAGTGAAAGGAAAATATGTATAAGGGCATAAAAAAACTGTACAAGAATTATATGCCTTGTACATAAACAATGTTGATGGATTTCAATAAAATTTTCTTGTTACTTTGTCAAAAAAAAAAAAAAAAAAACAATGTTGATGGAGTAATATAGAAGAAAGAAAATGCAAATCAAATCCTGGTTGATTACTTCGATACTTCAATGTTTGTGGCATCTGATTTCAGGAAACTTGACTCTAACCACAAATAATCTTGTACTTCTGGACAAAGAAATTAAGACTTTTACACTGTCAACCCTTGGATTAATTTAGTGTGTTAATTTTATATCATCCTTTATGCATAGATTATAATTTATTAGAGAAAATAATTTATTAGTGAAAAGAGGAGTGCAAAAGAAAGGGAGATCAGGCATCAGCCTTCAGTCACCAAAAGTTTTACACAAATTGCCTGTTGAACACAACACAACTCAAATATGATGATTGATTATTTTCTGAAAATCTAGGATACGGATGTGGAAAAGACACACACACATACTACAAAAAAAAGTTTTAAGTCAATAAACTTATTTATTTGAAACAAATTTGATGCATTTCACTTTGAAAATTTATTATTTTGCCCTTATTATTATTTATGTCTATCTATTATGCTTAACAAGTGTTATCCATATTCAATTTGTACCACTTTTGTCTGGCATGTATTCATTGTGCTAACATGTGTTGTAGTATCTGATATGTACTGGACATGGATGTATTACCCAAACCATGAGAAGGGAGACAAATCCTATTTTCAAAATTTTCCAATCTACTACCTCTTGTTTTTTGAGGCCGAAGGAGTTTGACAGTGATGCCATGCTACTGTCAAGGGCAAAAGCCATCTTATCTGTTTGCATCTATTTGTCTTCCGTCTTTTGTTTTTGGATTAATTGGAAATTATAAATCCTGACTTTTGATTGAGGCATTGTGTAGTCCTTTTTGTAATACATCCTTAGGTGTCAGGAGTTTCCACTTTGTTTTATTTCATTTATCAATGAAATCGCTTTCGGTTTTCCTTCTAAAAAAATCAATTAAGATTTCTATGCCTTTTATTTTCAGTGCCAACGCGAAGATTTTATACAGAAGGTAAAGGATGAAGAAGGTGAAGGGTGTAATATCGAAGGATCTCTTGAAGTTAATAAAGTAGCTGGAAGTTTCCACTTTGTACCTGGAAAAAGCTTTCATCAGTCAAGTTTCAATTTTCTTGGATTGCTCGCTTTGCAAACAAGCGATTACAATGTATGGGTTTATACTTTCTTGTGTAAATTTGAAACACAATACAAAAAGCATGCATGTAGCCAAGTATTGTTTATAATTTATCTTCTCTTTTCTGCTCTGATCTATATTTATTGTCCTTTACATTTTAAGTTTCATCTACATGATGCAGGTAAGTCACCAAATAAATAGATTAGCTTTTGGCGACCACTATGATGGCTTGGTAAATCCTCTCGATGGGTAATTATTTTTTTCGCCTCCTCTATAGATGCTTAATCATTGAAATGGTTCTAGTATTATCAGTAGTTTTAGTTGAAGCAGGACTGTAGATATTTAACTTTATATTTTCTAGTTTTTTTATATATATTTTTCTTACCAGTATCAGTTAAGTATTCTATATCTGATAAATATATTATTTGTTATTTGCTCATCGAACCTAATGCATACAAAATTGAATAAAATTCACGTTTCACATAATCAGAGCTTCCTTTACTACTTGTTCAGGGTGCATTGGGAATATGATAAACAGAATGTTATGCACCAGTACTTCGTCAAGGTAAGAAGCTTTATCCTAGTTTAAAATACGTTTTGGTTTCCTTGTTCCAGGGATAGACATTCTTAATATCCTGTTTCTCTTCAAAATCGAATATAAATTTTGTTTGGATACGTGACATATTTCCTGATCAGAGTTCTTACTAGCAGACAATGATACACAATAATCTACCTCTGCACCCAAATTTTAAATAAAGAAATAAACTGTAGGAATTACGACTAAAAGCGATTATGAGAGGGTAAGGACCCACCAATAAGTGAAGACTCCACTTTCAATTTATAAAGTTGTTTCCTCTTGTCATACAATTGACAAGTCATGAATTCACTTCTCGGGGATTCCTCTTCTCATCAATTTGCAGGTAATCCCAAATTCATCTGGAGTAATTTTGGCACTTGGGAAAGTGCTATTAAAATTTGAAGCTGGTACCCATTCACTATTGTGTATGATGAGTGTTGTAGTTTAGATCTGCCCCTCTCTGTTAAAGCAGCATCCATTAATCCTCATATCTGCTTTGTTACTTGGGTTTAGGGTGCAATGTTCTCTCTTGTACTTGAAAGTTGTTAGGAAGAACTCTGAATATGTCTCCATTGCAGGTGGTTCCAACCATATACACAAACATCAGAGGTCGTACTGTTCATTCAAATCAGGTATTGCTGAAAGTCCCAGGAAATGAACTTATGCATGCCATATTTTAACTTGGACGATGCCATGAACTTCATACCAATGATTCTGTGCAGTACTCTGTAACGGAGCATTTTAAGAGTGTGGAGTTTGGAAGTTCTCAGTCTATACCTGGAGTCTTCTTCTACTACGACCTTTCTCCCGTTAAGGTTGGTATTATATCTACACCCAAAGTGTTCTTGAGGACAAAAATTATAATGTTTTTCATTCTCATACTGGAACTTCAGCTGTCACTGATGGGTGATGATAATCTGATAGTTTTTGCCCACTTCACCTTGTTGCTTGATTATTGAGAATATTTGAGGAGATTTAATGCCTTAAATGGAAATCTGAAAGTATGATCTTATTATACCATAATTAAATCAGTCCTCATTATATCTATATGATGCAGTAACTTAATGCATGCGATGCACATTAAATTAGTTGGTTTGAAATTTAAAGGATTGTTTGATAACTATTTTGGTTTTAGTTTTCTATTCTTAAAAAAATGAACTTGTTTACAAGTAATTTCTTTGTTTAATAATGAAATTGTTTGTTTTAGTAGACCCTCCCCCCCCATTCTCTCTTCTCTCTCCTCCCGCGTTACACCCACACGCTTACAACCTCGCAGCACTTCGGCGACTCTCCCTCTCCTCCGACAACTGGTGTGTCGTGAGGAAACGTGCGACAACATCTCCCTCTCTCACACATTTGATTGCTGTTTTGTTAGGGCATTCAACATTTTCTCTCTTTTTCCCATCGATTCCTGGCCCTTTCTTCTCTCTTCTCCTGTTTGCCCTATCCATTCTTCGCCTTTTCGTTGCTTTTCTTTTCTGATAGCCTTTTCGGGCCAATGACTTCTTTGTCTTTTTGTCCTTTTGGCTCCTCTTTTGGTTTATTATTGTTCGACTGCTTCAAGGCTTACTTTTCTTTTGGCATTTCGCTGTTGGAGTTTTTTTGGATTTTTCCGGTGAGTTAAGGCCCATTTTTGCTGTTTTGGGGGCATCATGGGTCCTCTTGGTTGCAGTATTGGTAGCTCCAATTTTTGTGTTAGTAGTGATGGTGACCGTTTTAGTCTGGAGGATCGGCCATTGGTGTTCCGTTATTATTGTCTTTGACTCAGTTTCAATGGTTTAAGGATGGTTTTCGGGATTAAAGGTTTCATACCAACTCTTTTTTCGGAGGAGAAAGTTTAGGGACGAAGATGGAATGTTAGGACTGTTCAAGGTCCGCTTTGGCTCTTCTTGGTTTGCAGATTGCGTTTTTTAGCCTCCTTTCGGAGGTAGGAAGAGGATCAAAGTCTTTCTAGGAAGGCATAGGAATGGTTGGCTGCCGACTTTCTGCTATGGTTGGATTTAGGTTTTATTCCAAATGATTCAGGTGGATCTTGTCCTGAGTTTGGAGATGTTGCTTTGGAGGTTAATACACCTCAAGGAATGCCGTCTGAAGTCTCTGAGTCAGGAGTGTTGGATTAGAAAAGAATCTGAAGTCTTGGGCCATGATTTTGAAGGGTTGCTGGTTGTTTCTTGTCTTTTTGCTCACATTACTTGGGCAGACATTAAGTTGACTTTAGAAAGTTATTTCCGTGTTAAATTCTAGATCAACCCATTTATGGTTGATAAGGCTATTGTATTGGTGGTGGAAGGATCTAAGGATGTGATGTTGGCTCGAATTGGAAAATGGCAAAGGGTAGAGGATTTTTTTCTAAAAGTAGAGAAATGGTCGGATAAGGTTCATAGCTTGCCAAAATTTATTGGGTGCTATGGGGGTTGGGTCTCTATTAGTCATCTTCTTCTAAAATTTTGCTAGAATTTGATTGACCTTTCGGTTGCTCAGATCAAGGTTAATTCTAACCTTTGTGGGTTTCTTCCTGCTTCTATTGATGTTTCAGTTGGCTCTCTTGGAAGTTTTGATTTGAAGATTTTGAATTTTGAAGGGTTTTCACCTCCTGGGAAGGTTTTTGATTCATTGGTACAGAAAGATTTTTCAAATCCCATTGATTTGGCTTGAATTGGCCAAGTTTTGCAAGATGAGTTTGGGGAGTGGGAGCCTAGTGAGCATAGTGAAAAGCTGCTGGTTGGTGGCCTTGAGAAGGAAGGTTTGGAGGACTCTTCTTCGCTAGATACTCTAGCTGATTTTGGGGAACCTGAAAGTTTGCTTGCTGTGCTTGAGAAACCGAAAGTTAGGGATGTTTCAAATTTGGAGAAATTGTTGGTTACGACTTTTGAAGGAGATCTTCGTGAGGATGTGGATGCTGAGTTGTTTTCTTTCCCGATTCCGACCTCGGTTAAGAAGGTAAGGGATAAATTTTGTGCCAAATATTACACAAGGAGGAATGTTAAGCCTTTGCATTCCGTGGCTAGGAACCCGATTGACTTTTCTTGCCTGAATTTTCTTGAAGAAGTTGTGCCGATCATTCGGCCAAGCAAGGTTAATTCGCTGACCTCCAAGAGTTTTGGTGATATTTCATTGAAGGAAGGTCCAATTTCTTTTGACAAATGTCAGATAGGTTCGAAGGGTGATACTTTTTCAAGCTTCGGTTGGTGGAGTACGGGTTGTGGAAAACGTTTCTCCTTTGCTAGTGGGAGATTCAGATGTTGGTTCGGAGGTGAGTTTAAGTAGCCCTAAGTTGGATTCGGGTTGGAAGTCTCTGCATGGGGAGTCGGTGTGAGGGTCTCCTGTCATTAATTTATCAAGTCTCTTTGATTCTCCAAGGGCAGGTACTCCTTTGGTGATGAACGATCCTTTGGTTTCTTGTCCAAAATTGAGTCGTTTTAGCTCTATTATTAATGCAAGCGGTCTTCCGTTTAAAGAAGTGGTTGTTGGTGGGGCTCTAAGAAGCACATATACGGATACGAGACACTGATATGATACGACACGGACATGGGCACGGCACGGTGACATGTCATTTTTTAAAAATCTAGGACACATACATGGCTAGGACACGTTTATTAAAATATATATCATTTTTAAATCATAAAGAAATTTGAAGTCAATAAACTTATGCATCCACAAGCTTAAAAAATGATTTTGATGCATTTCGTTCTCAAACTTCCCATGTACCCCTTTAGTATACTTGACAAGTGTTCATTATTTGTCTAACAACTACTAGACCTATATTGACTTTGTACAACTAGTTTCTTACACATATCTATTATGCTAACAAGTGTTCGATACGTGTCCAACAAGTGTCGGACACGGACACGCTAGCCAAACTAAAGTGTTCATGCTTCTTAGGTGTGACCTTATTGTCTTGACAATGGAAATCCTTTCAAATATAGGGGGTTTGGGGATGGCTCTAAAAGAGTTGTTTTGAAGAAGTCTTTGCAAAAAGGTTTGCCCAACTGGTGTTCTGATTTTTGAATGCAATTGGTGGTTGTGGTTAGATTTCGGTCAATTCTCTTTGGAGATTGCACGTGGATCTATGGATTAGTTAGCAAAGTGGAGATGGAGCTTTATAAAGGACCGTCTTGCTGTAGGGAGGAAAGTGATAAATGTATACATGGTGGCTCGGTTTTGTTTGGTGCTCTTTTGGAACGGCTGGTTTTAGTCTTTGGAGTCCTTGGATGAACATTTTCAGCTTTTGGATGATTGTGGTTGATTGGGTTGTTCTTGTTTGAGGGTTGGAGACAAGGTTCTGTTTTGGAATGATTTTTCCCCTGGTTTTTTCTTATATGTGAAGACTATTGAGTTGGAAGCTGAGTTCTTGGATTGGGAAACTTCTTTTTGAGTCTTGGCTGATTTTTTCTTTTGATATTTGTTATAGTTGACATGATTCTATGTTTCCTTTGTAACTTTGTTGTTTTTTTATTTTCTTTTCACTCCTTTGGGAGTTGTATCTTGAGCAATAATCTCTTTTCATTTGATCAATGAAAAGTCTCATCAATTGGAACCTAAATGTCATCTAAGTTCCTTTTAGATGTTTGAATAGGTCGGTCATATTTATGTGAAAAAATCAAAAGAAGAGCATGAAACTTCTAGGTTTTTAGTGGGTAATATAAAGTAGGAAACGGAACATGTGTGTAGACTCGTACGAAAGAGAAGTGAACCATAAGGCATTCTATATAATATTTAAATCTGTGTTTGACTTCTTTTTCTATGCATTGTTCAGGTGACCTATACAGAGGAGCATGTTCCATTTTTACACTTCATGACTCACATTTGTGCCATAGTTGGAGGTACCGTATGCTCTCCTTTCTCTACCTCTTCTTCCTCTCAACCCGAGAGTAATTACATCCATATTTATATGTTTGCTTACACATGGTGTCTTTCACCCCATACATCAATTGGACAATGTATCTGAGCTCTCTTTATGGTCTCGTTTATGTAACTGTCTTTCATTTTCGTTGCTTTTGTTCTCTCGAAGGCAAACAGAAATTCTTTTGATGACCTCTTTGTTTTAAAAAAAAAATTGCAGAAATATTTCTCCTACCAGGCCATTTTTTAACGCCCTTTAATAGAAAGCAAACTTCTCACCAAATTTCTAAATGGAAGCCTATTCTAAACAAGTCTTTTCTAACCACACTTCTCACGCAAGGGCTCTGAGAATACACTCTCACAAGCAAGAACTTAAATGGGGATGATCGTCGACGAGTTGGGGAAGACATTGTATGGTTGACTGAAGAAAGACCAAACAATATGTTATGAACTCTTGAAGGACCAAAGCTTCTAAGCGAGAGGACAATGAAAGAATGAGTGCTTTTTGAGTTTCAGAATTCTTTAGATACAAAATATGCCAATTTGACAAGATGGACATCTGGGGGATTCGTTCTTAGAACCATCACTATTCTTTAGTGAAAGCATTTATTCTTCTAAAAATATTCTCTAGTGATAGATCTTAAACTCTTCATTTGAATCAACATAATTGTGGCCTGCCACTGGTGTTATGTCTCCTACCTTTCATTGTTATTAAGAAATCTAGAGAGATGTCTTAAATTTACCATCCCTCGTGTTTTGCAGGCATTTTCAGTGTTGCAGGAATTGTAGATGCATTCATATATCACGGTCAAAGAAAAATGAAGAAGAAGGTTGAAATCGGAAAATTTGGTTGATGTCTCTCAGCTCTCATTCACGTTAGTGCAGTTTTGTTCAAGCTGATGCGTTTCATTTGAGAATCAAAATACAATTGTGTCATCATTTACATGTTGCTTCCGAGACGAAGAAAAGAACAAAGATGGCGAAAAAAAAGGCAAGTTCACTTTCAGTGTAAGATAGAAGAAATTTCTGTTGCCCCCACTGCCCATTCTGACAATTTGTAAAGTACACCACATAACATAGGTTTTAATTGAGATTGTGATTGATTTCTATTGGAATCAGTTTGTGTTTTTCTTATGTGAGTGAAGATTATGGTTCAGAGCCTTGTATGCTTTTACTTGACCTACAACCTACCATTCAAATAAGATGGATGATCCCTAAGCTTTGCATTGT AAATAATTCGCCAAAACGACGTCATTCCGATGAACACAATGCGAACTGGGATTCCGTATATTCACCGTATACGGCGAAGCAAACCCAAATCTACAACGAAGCTCAAATCGCTCACCGAAAATCTATGCAATTGCCGACCATTCCGGCTTTCAGACATTTCTTGATTTAGTCAAATCAAATTCTATATATGTTACTTTTCTTCTGATTTCTTCGGAATTCGAATTCCGGACGGTGGAATTTTCAAAGTTTGTTGCTTTTCTTCGTAGAAGCCATGGATGCAATCTTCAACAAGCTCCGGAATTTGGACGCTTACCCTAAAATCAATGAAGATTTCTATAGGCGGACCTTTTCTGGTGGCTTAATCACCCTTGCTTCCTCCTTTATCATGCTCTTCCTCTTTTTCTCTGAGCTAAGATTGTACCTCCATGCTAAAACTGAGACAAAGCTCATTGTAGATACATCAAGGGGGGGAAAATTACACATAAATTTTGATATGAGTTTTCCTGCAATTCCGTGTTCTATACTCAGTCTTGATGCCATAGATATCAGTGGCGAGCAACATCTTGATATAAGGCATAATATAATCAAGAAAAGAATTGACCACCATGGCAAAGTCATAGAAGCTAGACCAGATGGCATCGGTGCACCTAAGATTGAAAAACCGTTGCAGAGGCATGGTGGCAGGCTGGAGCACAATGAAACATACTGTGGTTCATGTTTTGGAGCAGAAACGTCAGATGATGATTGTTGTAATTCATGTGAAGAAGTTCGTGAAGCATACAGAAAGAAAGGTTGGGCCATTACCAATCAAGATTTGATAGACCAGTGCCAACGCGAAGATTTTATACAGAAGGTAAAGGATGAAGAAGGTGAAGGGTGTAATATCGAAGGATCTCTTGAAGTTAATAAAGTAGCTGGAAGTTTCCACTTTGTACCTGGAAAAAGCTTTCATCAGTCAAGTTTCAATTTTCTTGGATTGCTCGCTTTGCAAACAAGCGATTACAATGTAAGTCACCAAATAAATAGATTAGCTTTTGGCGACCACTATGATGGCTTGGTAAATCCTCTCGATGGGGTGCATTGGGAATATGATAAACAGAATGTTATGCACCAGTACTTCGTCAAGGTGGTTCCAACCATATACACAAACATCAGAGGTCGTACTGTTCATTCAAATCAGTACTCTGTAACGGAGCATTTTAAGAGTGTGGAGTTTGGAAGTTCTCAGTCTATACCTGGAGTCTTCTTCTACTACGACCTTTCTCCCGTTAAGGTGACCTATACAGAGGAGCATGTTCCATTTTTACACTTCATGACTCACATTTGTGCCATAGTTGGAGGCATTTTCAGTGTTGCAGGAATTGTAGATGCATTCATATATCACGGTCAAAGAAAAATGAAGAAGAAGGTTGAAATCGGAAAATTTGGTTGATGTCTCTCAGCTCTCATTCACGTTAGTGCAGTTTTGTTCAAGCTGATGCGTTTCATTTGAGAATCAAAATACAATTGTGTCATCATTTACATGTTGCTTCCGAGACGAAGAAAAGAACAAAGATGGCGAAAAAAAAGGCAAGTTCACTTTCAGTGTAAGATAGAAGAAATTTCTGTTGCCCCCACTGCCCATTCTGACAATTTGTAAAGTACACCACATAACATAGGTTTTAATTGAGATTGTGATTGATTTCTATTGGAATCAGTTTGTGTTTTTCTTATGTGAGTGAAGATTATGGTTCAGAGCCTTGTATGCTTTTACTTGACCTACAACCTACCATTCAAATAAGATGGATGATCCCTAAGCTTTGCATTGT ATGGATGCAATCTTCAACAAGCTCCGGAATTTGGACGCTTACCCTAAAATCAATGAAGATTTCTATAGGCGGACCTTTTCTGGTGGCTTAATCACCCTTGCTTCCTCCTTTATCATGCTCTTCCTCTTTTTCTCTGAGCTAAGATTGTACCTCCATGCTAAAACTGAGACAAAGCTCATTGTAGATACATCAAGGGGGGGAAAATTACACATAAATTTTGATATGAGTTTTCCTGCAATTCCGTGTTCTATACTCAGTCTTGATGCCATAGATATCAGTGGCGAGCAACATCTTGATATAAGGCATAATATAATCAAGAAAAGAATTGACCACCATGGCAAAGTCATAGAAGCTAGACCAGATGGCATCGGTGCACCTAAGATTGAAAAACCGTTGCAGAGGCATGGTGGCAGGCTGGAGCACAATGAAACATACTGTGGTTCATGTTTTGGAGCAGAAACGTCAGATGATGATTGTTGTAATTCATGTGAAGAAGTTCGTGAAGCATACAGAAAGAAAGGTTGGGCCATTACCAATCAAGATTTGATAGACCAGTGCCAACGCGAAGATTTTATACAGAAGGTAAAGGATGAAGAAGGTGAAGGGTGTAATATCGAAGGATCTCTTGAAGTTAATAAAGTAGCTGGAAGTTTCCACTTTGTACCTGGAAAAAGCTTTCATCAGTCAAGTTTCAATTTTCTTGGATTGCTCGCTTTGCAAACAAGCGATTACAATGTAAGTCACCAAATAAATAGATTAGCTTTTGGCGACCACTATGATGGCTTGGTAAATCCTCTCGATGGGGTGCATTGGGAATATGATAAACAGAATGTTATGCACCAGTACTTCGTCAAGGTGGTTCCAACCATATACACAAACATCAGAGGTCGTACTGTTCATTCAAATCAGTACTCTGTAACGGAGCATTTTAAGAGTGTGGAGTTTGGAAGTTCTCAGTCTATACCTGGAGTCTTCTTCTACTACGACCTTTCTCCCGTTAAGGTGACCTATACAGAGGAGCATGTTCCATTTTTACACTTCATGACTCACATTTGTGCCATAGTTGGAGGCATTTTCAGTGTTGCAGGAATTGTAGATGCATTCATATATCACGGTCAAAGAAAAATGAAGAAGAAGGTTGAAATCGGAAAATTTGGTTGA MDAIFNKLRNLDAYPKINEDFYRRTFSGGLITLASSFIMLFLFFSELRLYLHAKTETKLIVDTSRGGKLHINFDMSFPAIPCSILSLDAIDISGEQHLDIRHNIIKKRIDHHGKVIEARPDGIGAPKIEKPLQRHGGRLEHNETYCGSCFGAETSDDDCCNSCEEVREAYRKKGWAITNQDLIDQCQREDFIQKVKDEEGEGCNIEGSLEVNKVAGSFHFVPGKSFHQSSFNFLGLLALQTSDYNVSHQINRLAFGDHYDGLVNPLDGVHWEYDKQNVMHQYFVKVVPTIYTNIRGRTVHSNQYSVTEHFKSVEFGSSQSIPGVFFYYDLSPVKVTYTEEHVPFLHFMTHICAIVGGIFSVAGIVDAFIYHGQRKMKKKVEIGKFG Homology
BLAST of Tan0002952 vs. ExPASy Swiss-Prot
Match: Q6NVS2 (Endoplasmic reticulum-Golgi intermediate compartment protein 3 OS=Xenopus tropicalis OX=8364 GN=ergic3 PE=2 SV=1) HSP 1 Score: 378.3 bits (970), Expect = 1.1e-103 Identity = 182/380 (47.89%), Postives = 255/380 (67.11%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy Swiss-Prot
Match: Q66KH2 (Endoplasmic reticulum-Golgi intermediate compartment protein 3 OS=Xenopus laevis OX=8355 GN=ergic3 PE=2 SV=1) HSP 1 Score: 376.7 bits (966), Expect = 3.1e-103 Identity = 184/385 (47.79%), Postives = 256/385 (66.49%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy Swiss-Prot
Match: Q803I2 (Endoplasmic reticulum-Golgi intermediate compartment protein 3 OS=Danio rerio OX=7955 GN=ergic3 PE=2 SV=1) HSP 1 Score: 376.3 bits (965), Expect = 4.1e-103 Identity = 185/385 (48.05%), Postives = 258/385 (67.01%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy Swiss-Prot
Match: Q9CQE7 (Endoplasmic reticulum-Golgi intermediate compartment protein 3 OS=Mus musculus OX=10090 GN=Ergic3 PE=1 SV=1) HSP 1 Score: 376.3 bits (965), Expect = 4.1e-103 Identity = 183/385 (47.53%), Postives = 257/385 (66.75%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy Swiss-Prot
Match: Q5EAE0 (Endoplasmic reticulum-Golgi intermediate compartment protein 3 OS=Bos taurus OX=9913 GN=ERGIC3 PE=2 SV=1) HSP 1 Score: 371.7 bits (953), Expect = 1.0e-101 Identity = 180/385 (46.75%), Postives = 254/385 (65.97%), Query Frame = 0
BLAST of Tan0002952 vs. NCBI nr
Match: XP_022984217.1 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 785.8 bits (2028), Expect = 1.7e-223 Identity = 374/386 (96.89%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. NCBI nr
Match: XP_022984218.1 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like isoform X2 [Cucurbita maxima]) HSP 1 Score: 785.8 bits (2028), Expect = 1.7e-223 Identity = 374/386 (96.89%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. NCBI nr
Match: XP_023552552.1 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 785.0 bits (2026), Expect = 2.9e-223 Identity = 373/386 (96.63%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. NCBI nr
Match: XP_022922986.1 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like [Cucurbita moschata] >KAG6576862.1 Endoplasmic reticulum-Golgi intermediate compartment protein 3, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 784.6 bits (2025), Expect = 3.8e-223 Identity = 373/386 (96.63%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. NCBI nr
Match: XP_038905933.1 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like [Benincasa hispida]) HSP 1 Score: 783.1 bits (2021), Expect = 1.1e-222 Identity = 374/386 (96.89%), Postives = 383/386 (99.22%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy TrEMBL
Match: A0A6J1J9X3 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111482601 PE=4 SV=1) HSP 1 Score: 785.8 bits (2028), Expect = 8.2e-224 Identity = 374/386 (96.89%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy TrEMBL
Match: A0A6J1J1M4 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111482601 PE=4 SV=1) HSP 1 Score: 785.8 bits (2028), Expect = 8.2e-224 Identity = 374/386 (96.89%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy TrEMBL
Match: A0A6J1E5L7 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like OS=Cucurbita moschata OX=3662 GN=LOC111430806 PE=4 SV=1) HSP 1 Score: 784.6 bits (2025), Expect = 1.8e-223 Identity = 373/386 (96.63%), Postives = 382/386 (98.96%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy TrEMBL
Match: A0A1S3C2M6 (endoplasmic reticulum-Golgi intermediate compartment protein 3-like OS=Cucumis melo OX=3656 GN=LOC103495767 PE=4 SV=1) HSP 1 Score: 776.2 bits (2003), Expect = 6.5e-221 Identity = 370/386 (95.85%), Postives = 381/386 (98.70%), Query Frame = 0
BLAST of Tan0002952 vs. ExPASy TrEMBL
Match: A0A0A0KVQ4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G107420 PE=4 SV=1) HSP 1 Score: 770.4 bits (1988), Expect = 3.6e-219 Identity = 367/386 (95.08%), Postives = 381/386 (98.70%), Query Frame = 0
BLAST of Tan0002952 vs. TAIR 10
Match: AT1G36050.2 (Endoplasmic reticulum vesicle transporter protein ) HSP 1 Score: 598.2 bits (1541), Expect = 4.7e-171 Identity = 275/385 (71.43%), Postives = 326/385 (84.68%), Query Frame = 0
BLAST of Tan0002952 vs. TAIR 10
Match: AT1G22200.1 (Endoplasmic reticulum vesicle transporter protein ) HSP 1 Score: 597.0 bits (1538), Expect = 1.0e-170 Identity = 273/385 (70.91%), Postives = 333/385 (86.49%), Query Frame = 0
BLAST of Tan0002952 vs. TAIR 10
Match: AT1G36050.1 (Endoplasmic reticulum vesicle transporter protein ) HSP 1 Score: 591.7 bits (1524), Expect = 4.4e-169 Identity = 272/382 (71.20%), Postives = 323/382 (84.55%), Query Frame = 0
BLAST of Tan0002952 vs. TAIR 10
Match: AT1G22200.2 (Endoplasmic reticulum vesicle transporter protein ) HSP 1 Score: 517.3 bits (1331), Expect = 1.1e-146 Identity = 237/335 (70.75%), Postives = 287/335 (85.67%), Query Frame = 0
BLAST of Tan0002952 vs. TAIR 10
Match: AT3G22290.1 (Endoplasmic reticulum vesicle transporter protein ) HSP 1 Score: 209.1 bits (531), Expect = 6.1e-54 Identity = 138/381 (36.22%), Postives = 210/381 (55.12%), 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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