Tan0021227 (gene) Snake gourd v1
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.CGAAAAAAAAAAAGAAAAAAAAAAAGAAAACGGTAGTAGTAGCTCTACCAAAACAAAAACGCTTTTTGAAAAGGCTGAAGAAGAAGAAGAAGATAATAGAATTGAAGTCCATATACACATTCTCATTACAAACAACCTCTCAACCAACTTCCATGGACTCTCACTCTCAGATCTTGCTCCAGCCCTAGCCGCTTTCCAGGTTCCTATTCCTTTTCCTTTCCTCCTGTTTGATTCCTCCTCCTTTCTTCCTTTTCTTTGTCGTTTTTTTTTTCTCACCTTGATTTCATCTATCCTTCATTCTCGCCGCCGTTTTCAATCCTTTGATTCTATCGTTTGTTGTTTCTGATTGTCGTAATTCTTCTCTTCTGATGTACTGCTTTCGGATCCTGTTCGCTTCTTTCTTTCCTTCTGCATTTTCTCTGCTCTGAACCATCTTGATTCTGTCTGCTTTATCATTGATTTCGGCGATTCTGGATTTAGCTTCTTCTAATGCTCTAATTCTGATTGCTTTTGCGTTTCTGGATTGCGATGGATGAATTTTAATTTCCAGAGGTTTTGTTGTGAGGATAAGGAGTGGGGCTTGCTCTGGTGCTGGTGATGAATATGGCGGACTAACGGAGAGAGGCGGCCTGGAGAGGAGAGGGGAGATGGACGAAAGAGGAGGTGGATCGTTTGTTGCTGTCAGGAGGATTTCTCAAGGTCTGGAGCGAGGAAATACTTGCCATTCGACTTCAGGTGAATATTATCTTTAATTTCGGCCTCCCTCTCTCTCTCCCCCTCACTACTCTTACTTTACATTAAATTTAGAATTTTCTTCGTCGCTTTTCTTTCGCTGAAAAGTTCTCTCTCTCTTTTGCTCTTTCTCTCTCTTTCTCTTTTTTTAATCTTATTCATAATCCGTGGTTTACTTTTTGGTTAGAAGTTTAGATCTGTGACTTGAAGTTGAGTAATGTGCGCTAAGCTCTGCTTATACTGAGGCTCTTGCTGGCTTCATGCTTGCTGAGATTCAAATCTGTATTGGTGGGTCTACTCAGTGGGATTTTTTATTTTTTAATTTTTTCAGCTCCCCTTCGACTCTTCCTTCATCGTCTATGTTATATTTGTGATCAAGTACCAGAAGTTTGTGATTTTGATATTCACAGTTTTTTTTTTAATTTTTTTTAGTGCATTGTACGTCGTCCACTAAAATTTGTGGAAGCTATAGATCTTGCTGGCAGAAATCATGAAACTCATTAATTAACCACGTTTTTGTCTGATTAGATTATTATTTTCTCCGATATACTTTTGATTGTTGGATGAACGTGATGGCAGGATTCAAGCTTGCCTTAGTTGCTTGACATAACTAAAACAATTTTCTTTGTTGATGGCGTTGTCTTTACTGCATAGTCTAATTATTTACTGTGCTATATAGCAAATATACTATTCATTTTATTTTTTTTTACTGTGCCATAGAAATTTTTTTTGCAAAGAATTTTGCTTGTGGGAGAAATATTCTGCAATTACCATCAGTGTTTTAGGAATGGGTTAAGATCTCTCCAAATTTTTACTCAATACTTACCCCTGTTTTTTACTTGACTGATCCAAACAAGAGATTATTCCCAAGTAATAATATTTCATGTTCAAATCATGTGTAAGGAAAAAAGAAGTGTAAGGATCAAATCTCCTTTGTAGACTGTAGTACATAAGTGCACTTAGTATGTGTTATGTGCTGGTAAAGGTTTTGCAATCTCGTGTCATTTCTTGCATAAACAGCTCCCTCCACCTTATCATGTGTTAATAGGACAATATTCTCTGCTTTTCATTTTGTTTCCATTTTCAATTTTGATGCTGTCTGAAGCATTTTTTCCTTATCGTTATCTGATATCTCTGCAATTTAGGACCCTCATCGTCAGTTGTCAGAAACTTGTACCGGTTGCCCTTTCATGAATCTTGGCTTTTCATGGAACTTCTGAAAGGCATACTCTTACCATTTATTCAAGTTTGGGAAACCATGAATAAGTTGGATAGCAACTAGCAAGGAAATTAAGTTTAGTGCATACATGAACTGTTGCGTGTCAGGCGTCTTATATTTTTACCATAGACATTTAAATAGCTGTCTACAGGATTAGAGGACCGTAATTGATAGATTGAAAACTTCAGTTTTCATTACTGATCTCTTTTGTTTTATTTCAGCTGAGGTTGTGGCAGGATCAGCTGCATGGCTTGGCCGGGGTCTTTCTTGCGTTTGTGCACAGAGAAGGGAAAGTGATGCACGCCCATCATTTGACTTAACCCCTGCACAGGTAACTTCATGCATTTGGTGTGTTAGCATCTATTTCCATGGAATGGAAAGGAGCCTTATTTAACTATTATTTTGATTTAAAGTGTTTGGAGACTAGAGAGTTAGTGATTTGTTTTGCCGTTTGCTTTTTCTAAAGCTCATACGACTTGGATGGACTATGAAAGGACAAAGGAGCTGTCTAGCAATGTGTTTTGTAGAAAGGAAAAGAAAAAGAATACCTCGTCTCTCTTTTTTTTTTTTTAACTGTCATTTTTTTTTAAAAAAAATATATGCTCATATTTTATATCTTTTATTAAGAGTTCAAATGATAGTCCTTTATGCTCTTATTCTTTGTGCTGCTGCATATTTTTTTTTTGAGTGGTTTGTGAAGCAAGAGGGTCTCAGTGTCTCACTCACAAAATTGTGTGTCAGGTCAGGTTATTCTTAACATTGTCTGCCATGATGGGTATGGAAAGTGATCTGATTATAACTTTTAGAGCTTGTGGGCATATGCTTATTTGAATTGAATTTGAAGTTTCAGCCTAACTTTAGATACTCTAAGAAGCACGGATACGGATACGATACGACACGGACACGGCGACACGTCATTTCTTAAAAATCTAGGACACGGACACGGCTAGGACACGTTTATTAAATATACATTTTTTAGAATATATATCATTTTTATATAAAAAGAAATTTAAAGTTAATAAGTTTATCTATCTATATGCTTAAAAAAATGATTTTGATGTATTTCGTTCTCAAACTTCATTATTTTTGTCCTATATTACATGTACCTATTTAGTATACTTGACAAGTGTTCATTATGTGCCTAACAAATACTGGACCTATATTAACTTTGTACAACTAGTTTCTAACGTATCGATAATGCTAACAAGTGTCTGATATGTGTCCAACAAGTGTCGGAGTGTCCAAGTGTCCGACACGTGTCGGACACGGACACGCTAGCCAAATTAAAGTGTCCGTGCTTCTTAGTAGATACTCAATGAGGTCGGCTGGCTTTCTTACCCCTGGCCATTAGGTTCTTTCTTCTTTCTTTTTATTACTATAAATGCCTCGCTTCTTATAAAGAAAAAAAGAATCTACACTAGAGAAAAACCACACACACTAGGAACAACTCAGCTAAGAAAGTGATCCCATAGATATTTTGTGTGGAGTTTTTTAGGGTTCAACTAAACTACATTCTAGTCTTCAGATTTACAAGCAGCGGCCACTTGATTTTTTTTTAATCATTTTACACTAAGATCCACTCTCTGTTAACGTAGATACTGTTAATGTATTGATATTAATCGAATTTATCGTAACCAACGACTTAAGCTTTTGGGTTGATTGATGATTTAACATGGTATTAGAGCAAAGGAGGTCCTATATTCGAATCCTTTAACGTCATTTTCTCCTTAACTAATATTGATTTCCACTTGTTGGGTCTTCTACAAATTTTTAAGCCCACAAGTTGGGAGGAGTGTTAGTGTATTGATGTAGTTAAATTTACCGTAATCCATTAGCTTAAACTTTTAGGTTGATTGGTTATATTTGGTCACCTTCTAAACTAGAGTCACCTACAAACTCTAGTCACTTTTTAGCAATAGTTTCTAGCTATTAAGAGAAAGGTCAAAACGAAACCAAATAAACATCTACCAATATCTATACCCATTTAGCTGTGTTTAACCCTGAATTCCTTCACAAACTAGTCTTCAAATGAAGATTCTTTTCTCAAAGTCTATATATTTTAGCTAAGTGGAAAACATTCAATCAATTCTCGCGTATGACTTCAAGCTCAAAAGCAAAATATGAGGGGAAAAAAGGAGACTCAATGAACTTTAAACAACATGCAAACTCCTCCCATGTTTTGCTTACTACTTGAATCATCAAGTGTTCTTCTCAATCTTCGATTCACTTTGTTAATGACGCTTGAGAAGTGCTTTGAAACCTTCCTTTTTAGCTTCCTAGGGTGTTTGTGACATTTGGTTTCTTAGGCTTTAACTTTCCAATGCCCTTATTTATTGAAGTGACCCATAAGTTTCCTTCTCAAATTTCTTAAGATGTATTTACTACTTTCCTATGCACTATTTAGATCTTAATTTTGCACGTGCAAAAATAAATATTCTATGTGAAAAAATTTCTGCATTTTTACATTTCACTTTTTTATTTTTGATGTCTTTGACCATACTTTTGACTTTGATTGCTCTTTCACCTTGACTGCACATCCATTCTCTATTTTATTTTTACCTTCAAGTTAGAATTTTATGACTCTTTCCAACTTAATAAAACCCAATGTATTATGTCCTAGACTTTGTTATGAAAGAGGTCCCTTGTAATTGTTGTCATTTTAACCAACTTTTCAAAGTTGCTAGAAGCTAATCTATAAGAGAAATGGATAAGATAATGCTAATCAATAATTGGGCTTAACAAATGTTTGGAAAAAAAAATATGGATAAGAGAATTTTTTAAAATTTTAAATTAGATATCTATTAGTAATGAGACTCAGATCTAAACTATCATAGGTTGACATAATGGTCATAAGGGTCTTGGAGGAATAAGAAGGAATGCGTTCAATCCATGGTGGCTATCTACATAGGATTTAATATCTTGTGTGTTTCTGTTAGGTATCCAAACCAGAAAATACTAAGAACACAAAGAAACTAATATATTGGAATATCAATAAAGAAAATTACAATATCCAATAGTCTTTCGAGAGAGCTATCTCTTTCCCTAAGTCCCACAACCACAATGGACACTACCAAAATGATGCACACCAAAATAAGGACCCTAACACTACTATTTATAACCAAGACACCCTAATTAAAATCCCCAAAATACCTCTTACTGAAATACTACCAACCTCCCACATAAAACCCATACTATAACATACTAGTACTCTCACAACCTTGTCTACCAAATGTAGTAGGGTTAGATGATTGTCATTTGTCCAGTGAGAATAGTCGAGGTGCATGCAAGCTCGGACACTCCTCAATATACATATATAATTTTGGTAGATTTCAAAATCAAGTCTTGTTTATTACATTAAGAATGAATAGAACATTCAAATTGACTTGATGTGTTTGTATGATGCCAACATTGGAAGAAGTTCAAATCAAGACAATCACGTTTATGATGAATTTTGTCATATAATCATATAAGCATAGTCAATAAAAAATCACTTTTTTACATTTTTGTTCACTACTTTCTCACGAAAATGGGGTATCAGCATTCAAGAGTGAGTATATGTACATTGTGACCTTCACATTATGGACTCTCTTTCTGGGTGAAAAATTACTTTTGATCCTTGAACTTTTACCGAAGTTAAAATTTAGTCTTGTTCTTTGTTTTGTAACGATTTAGTCATGTACTTTTAATTTTGTAATAATTTAGTCCTTGAACTTTGGTATGTAACAATCTAGTTCCTGTACTTTCAAATTTATAACAATATAGTTCCTATCATGAATCTTATCATTATGATTTAAAGGAATTTCTTATAAAGGTTGATCAATAACCTAATTAGGGACCCAATATGGTTATAAACTACCTAGTCTAAATTGTTAAATAATAAAAATCATTTAATTTTGATGAATTTTTTTTTATGGTAGGGGATTAAATTGTTACAAACTTGAAAGTATAGGGACTAAATTTGAACATACTAAAATTTGGGGATTAAATTGTTACAAATTTAAAAGTACAGGGAGTAAATTGTTACTTCCATGAAAGTTTAGGGACCGAAAGTGTGTTTTAACCCTCATTCTTTAACAAAGTTATCATATACTACTTTTTGTAAGTTAGTTTATTGACAACAAATGAAAATAAACTGTATACTAAGACTTTGATAATTATTTTCTTTTTAATGCACAAGTAATCTATCGGTAGCAGTTGCTCTCTTTAATGTAAGAGAAATTATAATGTATCTCATATAATTTAGCAGTTTATTAGAATGGTAGACTCATCATATATGTAGGCACTTAAATCACTAATTTGATTAAATTCTCAAATGTTCTACACAGTTCAAAAGTTATAATTTAGCAGTTTATCAGAATTGACATGATGTTCGACACTTGACTCAAATTTTTGAACCATATACGCATGCTATAATATTAGATCATAATGGAGTTTCAAGTGCAATTACATGAAAAGATATAGAAGTTATTTTATAACTTTTCGATACTCTTTCCAATGGTTTTGTGACTTTTGTCCTTGAGTAGTTCCTTCCTTATCCACACTTGTTTTTGCTTTGGGGCTTGGTTGATCTTGTAGGAACCTGCCTTTAATTGGTTTCTTAGTGGTAATTTTCTTTTTCTGATTTTTCATTCCTACCATTTTTCTTTCAATTTTGTGCATATTTATCACATTTTTAGTGCACTTGTACCAAAAATGTTCAATCTTTCCTCATAAGCAGCATGTAGGGAGTTTTCTTATATGAAAAGTAGATTTACATCCAGAAGTGAAATGTTTGTGGGCATGAGCATGTTTTGCACTTGACTTCATTTTATCTACTCTATTTGTGATGTGTGTGAACGGAGAAACAAAAATAGGAAACAAATAATACATACCTTTTTGGAGTTCTTTTGAATTGATTTCTTATCGATTAATTAAGTTATGAATGTTGGAATCTTAACAAAAAAAGGGTATTGAATGATGTGATTGTTTCAAAGTTCAATCTTTGACTTCAATCTTAGGCTTTGTTTTCACCAATATTGGTTTTGCAACATTAAACATCGTATCCCCCCTTTTAACGCCTATAGTGAACATATTTATGGTTTCCTTAGATTCTTCAAGTTACTAGATTTAGAAAGTTTGTTTTTCTTATATGGAAGATATTTGTGATTAACTCATTAATTTCAATGTCTTTCTCATCCTTTCTTTTTTAGTGAGCTTGCAATCCACTATCTTGTATACTTCTTTTTTTTGAGAAGAGAAACAAATTCCATTGATGAATGAAATACCACTATCTTGTCTACTTATTTCTTTTGTTTTATGTTGGCAAGCTCCAATTTAGCACTAAGGGTATACACAGGTTAGGTTAGTTTGGTTTGAGGATATTTTATGGGTTGACTCAAAATTTTGGGGTCATCAAGTCACCAACCCAAATGACCCAATTGGACATCCAACCTAACCCTTGTATGCTCATTAAGTTGGCAAAATTCTAGAAAATTGCATAAGGGGAGAGGTGGGTGGGTGGCACAACAAGATGAAATGGATGGTAGAGTGGTGGTGGATCATGACAATTTGATAGAGATAAACGACCAACTTGTGCAAAGCTCAACTGGTTTAGCCATACGCTCTCGACCAAGAGGTCAGAGATTTGAACCTCCCACCCCTATATCTTGTCGAACTCAAGAAAAAAAAATGATAGAGATAAATCATAGAGGAGTTTTGCGAAAGGGAGATGAGCAATAGAGGAGCGACTCAAATAAAACAATGGAAGGTAATATTTAGAGGGAGATCTTGAGAGTGGAGATGAGAGGGTGACTCAATTGAAACAAGGAAAGTTGAACGTGTGACAGTGAGAGGAAGATCTAGGGAGTGGGATGGGGGATTGGATGGTGGGAGGAAGATCTAGGGAGTAGGAATGAGGGGGAAAACTAGGATGGTGACTCAGTGAGAGGGAGACATGGAGAGTGTGGAGATCAGGGGTGACTTGGATAGTGAGAGATTTGGTTGGGAGAGTGGAGAATTCTAGATGAGCAGGTGGATGATTAGAGGGAGATTTAGATAGGGGAAAAGGAGATGAGGTTGAGGCCTTGTTGGGGGTGGCTAAACCCGAATCAAGGAAAAATAAACTGAAGAATCTTTCTTGCTAGAGAATTTAGGATCTTAAATAGCAGCAATAAGTGCAAGGATAGTAGAATCTTGAGAAAATTTAAACTCCTTACCACAAGAAAACAAATGGTATTCAGAATTGTAGCATTCAAAGCTTTACTTTTTTTCTTCTTCTTGACTGTTTTCTTTGTGTTAATTGGGTACTCTGCATGTACCTTATACCCTTGGCATTGAAAATATTTATTTCCTTCAATTTAGTTAAGAAGTAGAGGCACTTTTCACAGTCTTTGATATCTTTCTGTTGCTTTTTTGTGACTTATTTAGAATTTAAATTTAAAAATGATTTCTTAAATTTTTTGGTAAAAAGAGTGCTGTTTTATTCTCAAGAACTCTCTCGTTATATTATCAAGCATACTTCAAATCTATTTCTGAGTTCTTTGTAGTACTGGGAAATTTCAACCCATAAATTCTTAAGGAATTTATCGATTTAAAGAGTTTCTATACCTTTGCTTTCCTCAGTGATGGTTGCATTAGGTCTAAATCTTTTAGGAACTTCAAAATTTCTCTACCTTGTTTTTCAATAAAAAGATTTCTCTTGCAAGTTAGTAGAGCTTTTTACAATGTAATTAGATCTAGCATAAGATTTTGAAAAGCTCTCTTCTTCCTCCATGTTTTATCTTTTCAAACTGAGCAGTAAAAAAATTTAGAGTTTTCATATTTACACCGTGGACGTATTTTCATGATTGGTGTGTAAAACATCCGAAGTCTCCTTGTTGCAGCAAGTGAATAATTTGATCTTTGGGTGAGATAGCAATGAAAATGGCATGCAGACTTTGTCTTCTCATTGGATGTAATGTAGTCTTTGTTGGTCGACTTGTTTTTCTTCTTTATTTGTTTTATCCATTTTCAAGTCACGAGGAGTCCATTTTCTTCAGCCATCTTCTATACTCTCTCATCTAGTAACCTTAAGAAAGCTCCATTCTAGTATTTTAGTAGGCATAGTTGGATAAGTTAAAGCCTGATGGATATGTAACTGAGTTGATGATTTCATCTCATCCATCATCTTTTCTTCTGTGGTTTGTCATGGTTTGAATCTTCAAAGGTTGTTCTACGGTTTTCTTTATGTTCTTAGCTTTTTCGTTCTTCAATGGAAGTCAAATAGCCAAGTACCAATGCCCTTATTTATAGAAGAGGCCAATAGCATTTCCTTCTCAAGCTTGAACTCATAAATTTTGTTCTTTCATAGTTGGAACATGCTTTAACTAGTTCTGAAACTTCATACAAAGTGTTTATTGCCTTCATCCATACCTCTTTAAACTTAATTTTTCACCTACAAAATATTTTTGTACATGCAAAAACAAATCTGAGGTGCTAAAAATTTATGTGCAGTGCGCTTTGATAATTGATTTTATTGGTTTATTTTGACTTTGATTGGTCTTGGACACCTTTGCGGCATTTCTTTATAATTCCATATCTATAGAAAAACAACAAAAAAAACTATTTTTCTATCTACTGTTTAAAGTTAGAATTTGTATCTCAAAATCACAGCACATTGTTTTTTTACTAGGAGGAGTGCTTGCAGAGGCTGCAGAACCGCATAGATGTTGCTTATGATAGTTCAGCCCTTGAGCACCAGGTTTGTTATCTGCACAACGTTTTTGTCCTTCTATATGATGTAAAATCTAGGGAGATTCTGTGTCTGGCGGGGAGAGAATCTGAGACTATTTTGTTTAGTTTTTCTCCTTTATGAAGATTTGGACTCTTAATAGGAGGCTCTAAGGGCTCTATGGAACGTGGCATTCCCAGAGGAAGAACTTCGTGGTTTGATATCTGAGCAGTGGAAGGAAATGGGCTGGCAAGGAAAGGATCCATCAACAGATTTTAGGTAATCAGATTTACATTGTTGCTTCATACTTGACATTGACATGAATAGCTCTTATATTTTCTTATCAAAAGTTATTCCTGTGTTAACTCTTATTAATTGGGTTTTAGGGGTGGTGGTTTTATTTCATTGGAGAACTTGTTGTTCTTTGCCAGGAATTTCCCGGTAAGCAACTTTTTCTCACCTTGCTTTAAACTTATGAAGTCGTCTTGACTTAGTTTCCTTTTGGAAAAAAGAACTTAAAAACAAAGGTATTAAATGGAAATCGAACATACTGATTTTGACAGAAGAACCTAGACCATTACTTCATGGAGTGCATGCATGTGAATATTTTACAAAAAAGAACAAAGAATATTACTGTGTTCGGTTTTATTTAGCATAGACACATTTTATGCTTTTAGTTTCTGTCTTTTAATGATAAAGTTTCTGGACATCATTACAGAAGTCGTTCCAGGATCTCCTTCGAAAGCAAGAAGGAGATCGGTCTTTATGGGAATACCCATTTGCTGTAGCTGGGGTGAACATCACATTCATGCTTATTCAAATGCTTGATCTTGAAGCAGGTTTGCTGTCTCTATCAATCAATGTATATTCATTTAATGGGCAACTGCTACATTTTGACATCAAATTCACTTTTGTGCAGTTTGGCATGTATTTAGTTTGATTTCATGTACTTGTATGTTTTGGTATGTGGGGAGGCAAGAATGCTTACAAATACTCCATGATATTCCTGATGGGGTTGACTATTGCTTTTAGCTTTCTCGTGAATTTATTAAGATTTTACAAATTTCTACAATTTTGTTCTTCGGATTACCTCAATTTTAGAAACAGCCCTAAACGTAGACAAGACAGTTGTAGGAGCATGTAATACACGATTTACTTACCCTGCATAACACTCGGGAAAACTTCCTGAACATAAGTATAGTGTTGACTGTTGTGATGTGATTCCAGGTCTAATTAATTGTAGGCAGTCTATACTCTCTAATCTAATAGTCATGAATTTGGAAAAATAGCGTTCTTTTATCCGGAAATCAAGGGTTGATATGCTAACTTGTGGAAATGGCATGAAATGATATTTGCAGTCAAGCCACGGACACTGGTCGGAGCAACCTTCTTAAAGTTTCTTGCAGGTAATGTACACTCAATTTATTGAATGTATGGACAAATATTTTATAAAAACCATGCTTGCTAAGTGAATTGTTTTCCTGCTTGTGATTTCTGTGTCACAAATATCCTTAACAATTGTACATGGGAAATTTTCTTAAATGATTTCATGATATCATGAGGAAGAATGTTACTTGTGAAACAAGCATCTCTTTTTCTATATTTGCTAATCCAGCTTTTGCATTTTTCCTGACAGAAAACGATTCAGCATTTGACCTCCTCTATTGTATCACGTTCAAGCTAATGGATCATGAATGGCTTGCCATGCATGCATCATATATGGACTTCAATGTACGTAGAATCGAATTTTTCTTGAAATTGTTAAATTTATCATCTTAACATCTAAACTGGCTGCCGCTGTTTGATATATGCACTCATTCCCATCCAGCTATGTATTACATTGAATCAAGATCCTTTCAAATCACCTGTCTTGTCGTGATACATTCAACTATAATTGTTGGGCATCATGATCCTTGAAAAAATTCTTTTTTAAGAATCCATGGCGCATGGATTGTGTTTTCTATCCCAGATTTTCTGCCCTGAGAAACGTAGAATTAAATGTTAAATTTGAAAATTAGGCATACCCCCATGGGTTGATGTTTTGACATTATATATTTGTCCTAAAAGTCAGATATTTGAATTTCTGCCCCCTACAATGTTTTAACTCATATTATTTCATGTTCTTCCCCTCATAGACGGTAATGAAAGCAACACGACGACAACTGGAAAAAGAGCTCTTAATCGAGGATATTTCAAGACTCGAAGAACTACCTTCATACGACCTTCTCAATCGATAGTTTGTTTACCGACCAAACACCTCATTTTCTAATGGAAACAGCTCGCAAAAAAGCAAGTTACGGTATTGTCTTCGATAGCCTTTAACTAGTTAGTGTTTTTTTTTTTTTTTTTGTACATGATTATTCTCTGTTCTTCCCATTTCCAAGTGGCTTGCTCTTTTGGTCCTTTGGCGGCTTAAGTAGTATATCCATCCATTCCACTTCAATTCTTCAGAGAGAAAGCCCTTTCACCCCTCTTTCCACCTTTTTTTTCACCTTCTTTATTGTGGTTTTCTATTTTTGCTCTTTGTTTCTTCTCGGAATTTGAGGCTGAGACTTATTTTGCAATTAAGTTTGATGGATGAGCTGTTAATTTCTTACTCTTCATACAAGATTTCCTCTCATGACTTGTGAATGTGAAACTACATCATAATATTTTTCTTTTTTTTTTTTTGTTTTGTTTTGTTTTGTATTGTTTTGGGATCTAAACTATGAGATTTAATGCAAGAGAAAGAGTGTGC CGAAAAAAAAAAAGAAAAAAAAAAAGAAAACGGTAGTAGTAGCTCTACCAAAACAAAAACGCTTTTTGAAAAGGCTGAAGAAGAAGAAGAAGATAATAGAATTGAAGTCCATATACACATTCTCATTACAAACAACCTCTCAACCAACTTCCATGGACTCTCACTCTCAGATCTTGCTCCAGCCCTAGCCGCTTTCCAGAGGTTTTGTTGTGAGGATAAGGAGTGGGGCTTGCTCTGGTGCTGGTGATGAATATGGCGGACTAACGGAGAGAGGCGGCCTGGAGAGGAGAGGGGAGATGGACGAAAGAGGAGGTGGATCGTTTGTTGCTGTCAGGAGGATTTCTCAAGGTCTGGAGCGAGGAAATACTTGCCATTCGACTTCAGCTGAGGTTGTGGCAGGATCAGCTGCATGGCTTGGCCGGGGTCTTTCTTGCGTTTGTGCACAGAGAAGGGAAAGTGATGCACGCCCATCATTTGACTTAACCCCTGCACAGGAGGAGTGCTTGCAGAGGCTGCAGAACCGCATAGATGTTGCTTATGATAGTTCAGCCCTTGAGCACCAGGAGGCTCTAAGGGCTCTATGGAACGTGGCATTCCCAGAGGAAGAACTTCGTGGTTTGATATCTGAGCAGTGGAAGGAAATGGGCTGGCAAGGAAAGGATCCATCAACAGATTTTAGGGGTGGTGGTTTTATTTCATTGGAGAACTTGTTGTTCTTTGCCAGGAATTTCCCGAAGTCGTTCCAGGATCTCCTTCGAAAGCAAGAAGGAGATCGGTCTTTATGGGAATACCCATTTGCTGTAGCTGGGGTGAACATCACATTCATGCTTATTCAAATGCTTGATCTTGAAGCAGTCAAGCCACGGACACTGGTCGGAGCAACCTTCTTAAAGTTTCTTGCAGAAAACGATTCAGCATTTGACCTCCTCTATTGTATCACGTTCAAGCTAATGGATCATGAATGGCTTGCCATGCATGCATCATATATGGACTTCAATACGGTAATGAAAGCAACACGACGACAACTGGAAAAAGAGCTCTTAATCGAGGATATTTCAAGACTCGAAGAACTACCTTCATACGACCTTCTCAATCGATAGTTTGTTTACCGACCAAACACCTCATTTTCTAATGGAAACAGCTCGCAAAAAAGCAAGTTACGGTATTGTCTTCGATAGCCTTTAACTAGTTAGTGTTTTTTTTTTTTTTTTTGTACATGATTATTCTCTGTTCTTCCCATTTCCAAGTGGCTTGCTCTTTTGGTCCTTTGGCGGCTTAAGTAGTATATCCATCCATTCCACTTCAATTCTTCAGAGAGAAAGCCCTTTCACCCCTCTTTCCACCTTTTTTTTCACCTTCTTTATTGTGGTTTTCTATTTTTGCTCTTTGTTTCTTCTCGGAATTTGAGGCTGAGACTTATTTTGCAATTAAGTTTGATGGATGAGCTGTTAATTTCTTACTCTTCATACAAGATTTCCTCTCATGACTTGTGAATGTGAAACTACATCATAATATTTTTCTTTTTTTTTTTTTGTTTTGTTTTGTTTTGTATTGTTTTGGGATCTAAACTATGAGATTTAATGCAAGAGAAAGAGTGTGC ATGGACGAAAGAGGAGGTGGATCGTTTGTTGCTGTCAGGAGGATTTCTCAAGGTCTGGAGCGAGGAAATACTTGCCATTCGACTTCAGCTGAGGTTGTGGCAGGATCAGCTGCATGGCTTGGCCGGGGTCTTTCTTGCGTTTGTGCACAGAGAAGGGAAAGTGATGCACGCCCATCATTTGACTTAACCCCTGCACAGGAGGAGTGCTTGCAGAGGCTGCAGAACCGCATAGATGTTGCTTATGATAGTTCAGCCCTTGAGCACCAGGAGGCTCTAAGGGCTCTATGGAACGTGGCATTCCCAGAGGAAGAACTTCGTGGTTTGATATCTGAGCAGTGGAAGGAAATGGGCTGGCAAGGAAAGGATCCATCAACAGATTTTAGGGGTGGTGGTTTTATTTCATTGGAGAACTTGTTGTTCTTTGCCAGGAATTTCCCGAAGTCGTTCCAGGATCTCCTTCGAAAGCAAGAAGGAGATCGGTCTTTATGGGAATACCCATTTGCTGTAGCTGGGGTGAACATCACATTCATGCTTATTCAAATGCTTGATCTTGAAGCAGTCAAGCCACGGACACTGGTCGGAGCAACCTTCTTAAAGTTTCTTGCAGAAAACGATTCAGCATTTGACCTCCTCTATTGTATCACGTTCAAGCTAATGGATCATGAATGGCTTGCCATGCATGCATCATATATGGACTTCAATACGGTAATGAAAGCAACACGACGACAACTGGAAAAAGAGCTCTTAATCGAGGATATTTCAAGACTCGAAGAACTACCTTCATACGACCTTCTCAATCGATAG MDERGGGSFVAVRRISQGLERGNTCHSTSAEVVAGSAAWLGRGLSCVCAQRRESDARPSFDLTPAQEECLQRLQNRIDVAYDSSALEHQEALRALWNVAFPEEELRGLISEQWKEMGWQGKDPSTDFRGGGFISLENLLFFARNFPKSFQDLLRKQEGDRSLWEYPFAVAGVNITFMLIQMLDLEAVKPRTLVGATFLKFLAENDSAFDLLYCITFKLMDHEWLAMHASYMDFNTVMKATRRQLEKELLIEDISRLEELPSYDLLNR Homology
BLAST of Tan0021227 vs. ExPASy Swiss-Prot
Match: Q54YW1 (ELMO domain-containing protein A OS=Dictyostelium discoideum OX=44689 GN=elmoA PE=1 SV=1) HSP 1 Score: 118.2 bits (295), Expect = 1.4e-25 Identity = 63/194 (32.47%), Postives = 99/194 (51.03%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy Swiss-Prot
Match: Q54RS7 (ELMO domain-containing protein C OS=Dictyostelium discoideum OX=44689 GN=elmoC PE=4 SV=1) HSP 1 Score: 109.8 bits (273), Expect = 4.9e-23 Identity = 68/215 (31.63%), Postives = 117/215 (54.42%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy Swiss-Prot
Match: Q54VR8 (ELMO domain-containing protein B OS=Dictyostelium discoideum OX=44689 GN=elmoB PE=4 SV=1) HSP 1 Score: 97.8 bits (242), Expect = 1.9e-19 Identity = 53/170 (31.18%), Postives = 93/170 (54.71%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy Swiss-Prot
Match: Q8IZ81 (ELMO domain-containing protein 2 OS=Homo sapiens OX=9606 GN=ELMOD2 PE=1 SV=1) HSP 1 Score: 97.4 bits (241), Expect = 2.5e-19 Identity = 44/108 (40.74%), Postives = 66/108 (61.11%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy Swiss-Prot
Match: Q08DZ3 (ELMO domain-containing protein 2 OS=Bos taurus OX=9913 GN=ELMOD2 PE=1 SV=1) HSP 1 Score: 94.7 bits (234), Expect = 1.6e-18 Identity = 42/108 (38.89%), Postives = 67/108 (62.04%), Query Frame = 0
BLAST of Tan0021227 vs. NCBI nr
Match: XP_008459793.1 (PREDICTED: ELMO domain-containing protein A-like isoform X1 [Cucumis melo]) HSP 1 Score: 529.3 bits (1362), Expect = 2.0e-146 Identity = 260/267 (97.38%), Postives = 263/267 (98.50%), Query Frame = 0
BLAST of Tan0021227 vs. NCBI nr
Match: XP_038875760.1 (ELMO domain-containing protein A-like isoform X1 [Benincasa hispida]) HSP 1 Score: 528.9 bits (1361), Expect = 2.6e-146 Identity = 260/267 (97.38%), Postives = 263/267 (98.50%), Query Frame = 0
BLAST of Tan0021227 vs. NCBI nr
Match: XP_004140510.1 (ELMO domain-containing protein A isoform X1 [Cucumis sativus] >KGN46512.1 hypothetical protein Csa_005207 [Cucumis sativus]) HSP 1 Score: 526.6 bits (1355), Expect = 1.3e-145 Identity = 259/267 (97.00%), Postives = 262/267 (98.13%), Query Frame = 0
BLAST of Tan0021227 vs. NCBI nr
Match: XP_023004750.1 (ELMO domain-containing protein A-like isoform X1 [Cucurbita maxima]) HSP 1 Score: 522.7 bits (1345), Expect = 1.9e-144 Identity = 257/267 (96.25%), Postives = 263/267 (98.50%), Query Frame = 0
BLAST of Tan0021227 vs. NCBI nr
Match: XP_022960492.1 (ELMO domain-containing protein A-like isoform X1 [Cucurbita moschata] >KAG6592941.1 ELMO domain-containing protein A, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 520.0 bits (1338), Expect = 1.2e-143 Identity = 256/267 (95.88%), Postives = 262/267 (98.13%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy TrEMBL
Match: A0A1S3CBG7 (ELMO domain-containing protein A-like isoform X1 OS=Cucumis melo OX=3656 GN=LOC103498817 PE=4 SV=1) HSP 1 Score: 529.3 bits (1362), Expect = 9.6e-147 Identity = 260/267 (97.38%), Postives = 263/267 (98.50%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy TrEMBL
Match: A0A0A0KDT2 (ELMO domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G105170 PE=4 SV=1) HSP 1 Score: 526.6 bits (1355), Expect = 6.2e-146 Identity = 259/267 (97.00%), Postives = 262/267 (98.13%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy TrEMBL
Match: A0A6J1KVH1 (ELMO domain-containing protein A-like isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111497960 PE=4 SV=1) HSP 1 Score: 522.7 bits (1345), Expect = 9.0e-145 Identity = 257/267 (96.25%), Postives = 263/267 (98.50%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy TrEMBL
Match: A0A6J1H7J5 (ELMO domain-containing protein A-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111461213 PE=4 SV=1) HSP 1 Score: 520.0 bits (1338), Expect = 5.8e-144 Identity = 256/267 (95.88%), Postives = 262/267 (98.13%), Query Frame = 0
BLAST of Tan0021227 vs. ExPASy TrEMBL
Match: A0A6J1F3S5 (ELMO domain-containing protein A-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111439718 PE=4 SV=1) HSP 1 Score: 516.2 bits (1328), Expect = 8.4e-143 Identity = 255/267 (95.51%), Postives = 260/267 (97.38%), Query Frame = 0
BLAST of Tan0021227 vs. TAIR 10
Match: AT2G44770.1 (ELMO/CED-12 family protein ) HSP 1 Score: 448.0 bits (1151), Expect = 5.4e-126 Identity = 219/267 (82.02%), Postives = 244/267 (91.39%), Query Frame = 0
BLAST of Tan0021227 vs. TAIR 10
Match: AT3G60260.1 (ELMO/CED-12 family protein ) HSP 1 Score: 445.3 bits (1144), Expect = 3.5e-125 Identity = 214/267 (80.15%), Postives = 244/267 (91.39%), Query Frame = 0
BLAST of Tan0021227 vs. TAIR 10
Match: AT3G60260.2 (ELMO/CED-12 family protein ) HSP 1 Score: 445.3 bits (1144), Expect = 3.5e-125 Identity = 214/267 (80.15%), Postives = 244/267 (91.39%), Query Frame = 0
BLAST of Tan0021227 vs. TAIR 10
Match: AT3G60260.4 (ELMO/CED-12 family protein ) HSP 1 Score: 445.3 bits (1144), Expect = 3.5e-125 Identity = 214/267 (80.15%), Postives = 244/267 (91.39%), Query Frame = 0
BLAST of Tan0021227 vs. TAIR 10
Match: AT3G60260.3 (ELMO/CED-12 family protein ) HSP 1 Score: 404.8 bits (1039), Expect = 5.3e-113 Identity = 191/243 (78.60%), Postives = 219/243 (90.12%), 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:
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