Cla97C11G211620 (gene) Watermelon (97103) v2.5
|
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CAAAACCGAAATTGCCACCCACTTCCTTCCTTCATTCCCTTCTCTCTCGCCTCGCTTATACTGTTCTTTCTTCTTCACTCTCCAATTTCCCTCTCTGTTACACTGTTTTCCATCATCATTTCCCCAAAAAAAAGAAAAAAACACTGCCCTCACGCTTCACTTTCTTCAATCCCTCGACCCCATTTCATTTTCCCACTTTATGATCCTAAAATGGGTAATTTCTGTGCCTGTCTCGCACCCAAATCGATAAAGAAAAAACCCACCAAGCGCCTTCTCAACCCACCTTTGCCCACCAATTCCAGCAAAAGATGGACCCGAGTTCGTTCTTCGAGGAAAGAAAAACCCGATGCTGCTCTGACTCAAGAGCAAGTTCTCGCCGCCGCGATTCTATTTCAACAGCACCAACAGCACAACGCCCGGGACCCTTTTGATCGGACCACTTCGCTTCGATACCCGAAATCTGGGTCGAAGAATAGCAACACGTTGCCGCGGAGTTCGAGTTCCCGCGCTCGGTCACTTACCGATCCCCTGCTTCAACCCCATCAGCTTGTTAGCGAGGTATTGGTTATACCCTTTTATCTTTATGACTGCAGGTTGCAGTGTCTTTTCAAAACTATGGTGTTCTTTTTCCTGGATTTTTAGTTTATGAATTGATGGAGCCTCTGCATTTCAAAATGGGTTCTATGGTTTTTGAGTTGATGATTGGAAATTTGCGGACTGGGTAGTGGTGTTTGGGAAATAATAGTAATTCATTGTGTGCTGAAACTAACCAATTACTGGTGTTTTAATTTTGATCACTTGACTACTTTACTTTTTCCAATTTAAGATGACAGTGAAAGCTTTTCCCTCAATCACATGCTGTAAATGTAGTTGAAGACTCTTTATATTACTCAATCCGTGTAGCATCTTGAGCTTGATTGACATATTTTTATTTTTTTTCATATGATATAATATTTAATTTATCTTCACTCATAAATTTAAGCTTTTGAGTCAATTGTTAATTTAATATGGTACCAGAGCAGGTGGTCTAAGAGATTTTGTGTTCAAACACTTGTGTTATTTCCTCTCCATTTATATTGTTTTACAGTTGGGTCTTCTACATATTTCAAGTCCACAAGTGTCGGGAGTGTTAGATGATATAATGTTAAATTTAACAGCTTAAGCTATTGGGTCAATCGGTGATTTAACACTTTTAATAACTTGATGGTGAAAATTGGTTGATTTCATTTGTTTTGACAGTTTCTCCCCTCTCCATGCAGAATGTTAAACTTGAGGATATAGAAACAAATCATTTTGTTCTTGTCCATGGTGGTGGCTTTGGTGCATGGTGTTGGTACAAAACCATAGCACTTCTAGAAGAAGCGGGTTACAAAGCTACTGCAATAGATTTAACTGGTTCAGGAGTTCATTCGTTTGATCCAAATCACATCACAAGTCTTTTGCAATATGTCCAGCCGCTTACTGATTTCCTTGAAAAGCTTGCTGAGGGAGAAAAGGTCCTTAAACTTATCGATTAGTTTCTTTTTCAGTTCTATTGAATGTTTCTGATGCTTGTAGATAATGAACTAAGAGGTAAAAATTTTAACTTATACCATGCGCTAGAAATGTCTAGTTTGATGAAAAGATTGATGAAGTAACAAAGTTGAATGCCTGTGAATGAGTAATTATGGAGTCATTTACTTCTTTTTTCCTACTCATCCAACTTTGAGCTAGACATGCCACTCTCAACATCTCTGTCCATTCAAAATCGAAATTTCGATAAAATTATTCTTTCCTTCCTCACATTTTGGAACTCCCTTTTTCTATTCATACAGGTTATCTTGGTGGGACATGATTTTGGCGGTGCATGTATAGCTTATGCAATGGAGTTATTTCCTTTTAGGATTGCAAAAGCCATATTTATTGCTGCAGCAATGTTGACTAATGGACAGAACACATTAGACATGTTCTCCCAGCAGGTATCCTTGATAATCTGTTGTTGAATTTGTGATTCAGAGATACAGATTAGAAGTTTCTCATTTTGGAAGGCGTTGCACATGTATTTGAATTTGAGAGCATATGATTTTTTTTTTTTTAATAGAATGCACAGAACTTGTTTTGGCTATTTTCTTCTCTGCTGTAAACTGTAAAGAATATTAATGATTGTCAAAGAAAAAATTTAGCTCAATTTATGTGGATTACAAGCATCCTCACAATTTTTCTTCCAATATGCACAATAAATTGGGTTTACTATGCTTGTGATCATGTTATTTCCCCCATGAATTTTTCTTTCACTTTTTTGGGAGCAAGTTGCTGGTTTACTCATGGACTTTATCTTTCTTCCCAATTACCCCACTTTCCCCTCCTCTTTAGTTGGTTGCAGACTTTGGGAATTCGAATGATTGATCAACACATGCCCCTTAAGAGCATATATATTCCTGGCTCTAGATTCTGAGACATTTCACCTTTTCTATGAGCATATTCTAAAATTTCTTGAAGAACATTGTGTTTTTCCCTTTACCTTGAAGTTGAGGTACGTGAATGGTGTCTTGCTTGCCTACTGCAGGCTGGTGCAGATGATTTAATGCAGCAGGCTCAGTCATTTTCATACACAAATGGGAACAACCATCCTCCAACTGCTATCAACTTAGAAAAATCACTGTTGCGGGACTTATTTTTCAATCAAAGTCCTGCCAAGGTAATGCTATTTTTCTCAGCAATTTACCATCTTGTTTTTTACTGTCACGGTTTGTGGAGTTCTATACTAATTCTTTCCCTGAAAATTTTAAATATTGTAGAAATATGGTTTTGGCTAAACTAATTAGAAGATTGGAGGATTTCAAGGGAATTCTTTTGTTGCTATGTAAATGTGGCTGAAATAGTGGAGCCTAATCGCCTAAAATAAAGTTCATTTGATCAATTATATATGACTTGACCAATATATGTGATTATGATGATTGGTGTCCTTATATTATATTATATTATATATATATATATTTTTTTTTTTTTTGGGCAAAGATATGATATTGTTAATGACATGCGCAAAGCTTTGTTGCCATTTGAGAAAGAATCAGAGAATCAGATTTTTTTAAAGTTGATGAAAATGATTATATAGGTCTTTTCTTTGTTTAAATTAAATGATTTTGATATCAATAATTTTATACTTTATCTTTACTTTTTTGGTTATACTAAAGAAAAAAAAGAATCTTCATCTAGCCCAAGTGTTTCACACCTTCCCTAGTAGGCGACCATATTAATGAACAGACCTTTCTTTTTCTCTGGGAATTATAATTTCTGGACTATTTGGAAATATTACGGATTCGGACTGTTTGGAAACAATCAGACTGTTTCAGAAGCTGATGACGTGGACTATGGGAAGCATGGTCTTATGCAGAAAAATGAAACATGATTGCAGTGCTTTGAGATTGTGGAAGCAAGGGTTCAGCCTATGCTCCTAATCTGCTTTGGGATGATTCATATGAAAGAAAACTGAACAGTATTGTTCTGAAGTTTTACATTTACTAACGTGTGCTTCAGTAACTGCACAGTTTTTTAATAACCGTTGCTGTTGATAGCATGGATAGTACCTTAATTTGTTGCTTGTGTTCTTTTGACCCTTTTGTTTCTTACTTGTTCATTACTCTTTGTATTTATGGTCCAGGATGTTGCTCTGGCATCTGTATCAATGAGACCGATACCATTTGCGCCTATTTTGGAAAAGCTGTGCCTTTCTGATTTGAAATATGGATCAGTTAGACGGTTTTACATCGAAACTCCAGAAGACAATGCCATTCCCATCACATTACAAGACAGTATGATAAACAAAAGCCCCCCACAACAGGTCTTTAGGTTAAAAGGGGCAGATCATTCCCCTTTCTTCTCAAAGCCTCAAGCTTTAAACAAGCTATTGATAGAGATCTCAAAGATTAAAACACCATCATAGCATCATTTGAGCCAGAAGCAAGGTTAGTTAGTTGATCTTTGGAGATTGATTTCATATGCCTTCTATACGACCCAGAAATCTACAAAAATGCCGGCCGCATTGTAAGGTTAGAATGAATCAATGATGTATTGGCTGGCTCATTAAACATCAAGAAAAATCAAGAAAAATAAAGTTCTGGTACTTTATTCAAACATAAAACATGCTATTTCCCTTTGCATCTGTGTGCTATTTCTCTGCTCGGGGGGATTTATGGAATTTTTGTTCTTTCCTCTTTTGTCTAGGAATTTTTGCGACAACAAATAGATTTTTTGAGGATACACATTTGATAGATATCTCATTCAAGTCACACCCACAATTGAAAGCTTGAGGTAACTTATTTGATGTGTTCCCTCTCTAGTATGAATAATACTTGCATTAAATTTGAAAGCTTTGTTTGGAAGAACAAGTAGGTATTGGAGGTTGAGGAACATTGACATTTGAATAGAAATTTTCACCATACTTTGAATGCTTTTGTAGCAAATAACAGTGCTGTTTAGTCTGCTTTGAGGAAAAAGCCTTGGAAATGAGTTCACTTTCTTCTCACTCAACTTGTTTCCTCTGTATTAAGAAAGTGTTTTGTATATTGCTTGCACAGATGTTAAAGGTTTACTGATATCATCTTAGAGCTATTTGAACTCATCTGATCCTTCCATTTAGTTATTCAAGGGACTGTTTGGTAATGCTTATTGATTATAATCCTTGGACAGAATTGGTTTCTTCTCATTCTACCAACTGAACATGAAACTGGCTTCATTATAAAGCAATCCAGCAAAAATTTCATTTTATTGAGTCACACTTCATAGTAGTGGCTTATTGTTTTGGTTGTCTGTGTTTATACTTGTTTCCTTTAGAGCTTATGGGCTAGTTGAGTGTTAATTATCTTTTCCTTGTTCTAAGTTCAACAATATATGTAGTTGGAGAATTCAAACTTCTAATCTTTTCGTTGATAATATATGTTTTAACTAGTTGAGTTATGTTCAGATTGGCCTACAAGTGTTAATTATCAAGTTAGATAATGATTATACAAGTTGATGTGACATCTTCATGTCTCATGTGGGACGTCGTAGAGAAGTTAACATCTCATGTTACCCACATTGACTATTAATTGTAAATAAACCTTTTAATTTAAGATTAATCAATTTAGAAACTTCCATGTTTTTGTTCTAACATGTCTGAACTTTAAAAAGTGTCTAAGGTTCCTATATTTTCAATATCGTGTCTATTAAGTTTCTATATTTGTGGTTAATAAATCATTGATATATTCATTATTTTGTGAAATTATCGAATGTATTTAATTATTTATCATGACTATTTTTTAAATGTTATGATGTGATTTAAAAAGATAAAGAGAGTCTAAATTTTGAACTTCCAAATTTCTAAATGAGATTTTATGTTTACTTGTTGGAGTAGTATTCGGAGCAACTAACTTATCTCCATGCATCCCTTTGGTCACGAAGAAAAATTAAATAAAATAAATATTTTTTTAAGAAGAAAAATTTACCATGTGACAATAAGTTAATGAGCATTTTGGTAAGTTGTATAGAGATGAGTATTGGTCGGATCCACTCAAATATTTTTCTTATATTTATCAAATTTCTGCAATTTTCTCATCATAAACATGATGTCAATCCTTCCATTACCAACTAATAATGAGAGCCATTGATGTATATTACTGAATTAGGAACTTAGTCATTCGTTAATTGCTATTCCAGTTGGTGCAATTATCCATCCCTTTCCAAAAGAAAAGGAACAAGAAGTTAGCTTCATCAAGAATTATAGTAATCATAATAACAAATAACAATATCGGTAGTTATTTCAATTTTGTGTTCAACATCTTAAAAGTTTTAATTATATGGTGTGGTTATAAATATAGTAATCAGACTCAAAGTATTAGCAACATAATGTGACAAAATTTGTAGATATAACAAAATTTAGATCCAGCTCTAAGAGTATCACGGATAGATTTTGTTATATGTGCAATTTTTCTTCCATTTTTCTCATTCGTTTGGATTTTTCCTTTTGCTCCTAATTCTCACTCCTTGATCTCGTTTTGGTTATTTGGTCTCGCTCAACACAACAATGTTGAAATCGACTCTCCTTTGTCTCCTTTAGGTTTACTACGCCTCACTTACCTTTTCCTTTTCTTGATGTCAATTAATTTATGGGTTTGATTCACTATTTTCTTTCTTGTATCACTCAGAATTGAATCAATTTCTCACTTAATTTGTTACCCTTGTTTTCAATTGTTCATAGGTTGTTTTCTTGTGACAGCGAGTGTGAAAGAAAAGTTGCATCCCAGAAGGAGGAGAAGAGAACGCAGAAAAATCAGGGTGATTTTGGTAGATTTACAAGAGAATAACATAAAAAAAAAAAAAAAAAACCTTTGTTTTCAAAACGAAGGTTAATTTTCATTTGGGCTATCCATGCCCTTTTCTCAAGAAGAAGCGAATGAGCAAAAAAAGTTGTAGCAAAGAAGGAGGAGAAGAGAATGTAGAAAAAATGATTTTGGTAAATTTTACAAGAGAATGACATAAGCAAAAGCTAAAGAAAAAACATTTGTATTAAAAAATGTAGGTCAATTGTCATTTAGACCACCCATTTTGGGCTATCCATGCTATTTTTTGAAGAAGAAGTGAGCGAAGAAAAAAAGTTGCAGCCGAGAAAGAGGAGAAGAGAACGTACAAAAAAATTAGGGCAATTTTGGTTTTATAAGGGGATGACATAAACAAAAGACCAAAAATCTTTATTTTCAAAACGTTGGTCAATTTTCATTTAGGTCACCTATTCTGGGCTATCCATGTCATTTTCTTAAGAAGAAGTGAGCGATAAAAAAAAAGTTGGAGCCGAGTAATTTTACAAAGGGATGAAATAAGCAAAAGACTGGAAAAACTTTCTTTTCAAAGTGTATGTCAATTTTCATTGAGGCCACCCATGCCATTTTCTCAAGAAGAAGCGAGTGAGAGAACAAAAAGTTGCAACTGAGAAAGAGGAGAAGAACGTAAACAAATTAGGGTGATTTTGGTAATTTTACAAGATGACATAAGCAAAAGGTCAAATAACATTTGTTTTCAAAACGAAGGTCAATTTTCATTTTGGCTGCCCATTTTGAGCTATTCATGACATTTTCTTAAGAAGTGAGAGAAAATAAAGTTGCAGTCGAGGAGGAGGAAAAGAGAAAGCATAAAAATCAAGATAATTTTGGTGATTTTACAAGGAGATGACATTAGCAAAAGGCTAAAACCTTTGTTTTCACAACGTATGTCAGTTTTCATGACCTTTGTTTTCACAACGTATGTCAATTTTCATTTGGGTTACCTATTTTAGGATATCTTTCTCAAGAATAAGCGAGCTAGAAAGAAAAAGGTTGTAGTCGAGAAGAAAGAGAGAAGAACTTAGAAAAATTATGGTGATTTTGGTAGGGGATGACATAAGCAAAATGCTATCCATGTCATTTTCTTGGGAGAAAAAAATGGAAGACATAAATGGTAGAAGAAGAAAAAAACACAAAAAAGTAGAAAAATACGACGACGCAGAACCAACAAAAAAAACAACGATGCAGAACCAACTAAAAGCAAAAGAAACACAAAAAATAAAAATAAAAAATCAAAGAAGAAGAAACACAAGAAACCTAAAAAAAACTACAAAATGGGAAAGAAGGATGGAATACCTATTTGAGATTAAAGAGGTAATTTCACAGAGTAACGATAGATATAGGAGAAAAACAAAAAAAAAATTTTTTAGTTTTGAACCTTTAGGTTGATTTTCATTTAAACTCCTGTCGAGGAGCCTTTGTACAATTATTCATTTTACGTTCATTAGAGCCTCAAAACTCAATAGCGATGGTTCCACCAACAGATCCGGTAGCCTACAATTTCCAACAAACTTCCATTTTAATTAACAATAAATAATAATAATAAAAGATTTCAAATTTGAAAGTAATATTTAATAGCATCTCAGGGTCTCTAGTTATGGCTTGTGCTGGGAAGGCGATCTGCTGGCTTCCTACATTTTGCTCCTTATCTCTTCCTCTTGATCCCATTTTCATTCCGAGAAGATTTCCGAGGTACCCATTTCAAATCTCCACTTTCCCATTTCAGATTCACGTTTCTTTAGGGTTTTTTCACCCTTCTAATATTTTGCTTGTGTTGTTTTTGTTTACCAATTTGATTTCTTTTCTATAATCTTTAATGAAAATGGTGAGATTTAATGAGGTTGAAATGCCATGCGATCCTTGTTTTACTTGGGGTATCAAATGGATTGAAATGTTGAAATGCTTGTTGCTGGATGCTGTGAGAGCTTAAAATTATAGCACACTTGTGGGTAATGGACTTGGAAGAAGAAGACTGGGAATATTTGAAGCATGATACGAATAATGCATAGAAATGAATGTTGTTGAAGTATTGATATAATCAAATTTACGTAACCTTACACTTTTGGGGTGATTGGTGATTTAACATATAATCAAATTTACTAATTTGGGGGTTATTTTGTTTGAACATTTTAATGTCATTTTCTCTCCGACTAATATTATTTTCTTGTAATGTTATTTTCAAGCACACAAGTAAGGGTGTATTAAGTATTAATTTACGCAAATTTACTGAGCAGAGCATGTTTGGGAGTGATTCATTTTGATGATATGAAAATCGCACTTAGAAGTATAAAATTAATTTTGAATGATTAAAAGCGTGTTTTGGGGTGATTAGGAACATGACAAAAGTGATATTAATCATTTCAGATTCACTCCTAAACATGCATGTATAACTCATTGGCTCAAGGTTTTGGGTTGATTGGTGTTTTAATAGAATTCGTACTGTGTGGTTTCCAATTTGCGAAGTGTTATGGTAAATAGTGTATGTATAAGTTAATGGAAAATATGCAATTCTTGTATCCATTGAAATAGTATTAACATTGTAGAGTCGGCTTGGTAGTCTTCAACAGAGGCCTATTGTTTTAGAATGTGCTTGATAGTCTTTAAGAAGTGTCTTTGGATCATATGTGCTTAAACTATATACTGTTGCTGCTGTATAAGCCAAATGTATCATATTGCACTATTTTCTTATGATTTGGTTTCTCTCTGACTTTTCTGGATGTTCTTACCTCTCTGGCATTGCTCCCTGTTGTTTTTTCCTGATATATTCTAATAGTTAAACGTGTGATCACTATAATTACAATTGGGTTTTATGTTGTATTACTTGGAGAAACAAAAGGCTTGAAAATGAGGCGTGGAGTTAGCAGTGGTGGTGGACAGAGCTCCTTGGGCTACCTGTTTGGAAATGGAGAGCCAGCCAACAGTGTGCAAGCTTCTCAGAAATCCAATGGATCTTCTGAGCCGGTCTCTTCTACTTCGCAATCGACCGGTAAACAGACAGCTGCTGGAGTTCCGGGGCATCTTACTAACAATTACTATAGAGCGGATGGACAGAACTGTGGCAACTTTATCACGGTTAGGCTCCTTGTTTCACTAGTGTTGGCTTGAAATGTTTTGTGCTGTTGGTTAGTTATTCACAAGTATTCTGACCTTCCACTATCATATATATAACATCATAACTCATCAAAAGTCATCAAGTCGCAATGCTGGCAGAGGTGGAGAAATCAATCTTTCTCCTTTCACATGAGCTTTTACCCTACTAATTCTTTCGTTAACTTTCATAAAAGTAACATTTTAATCCCTGAATATTAGTTGGTAAAGACTTAGTCCTATACTTTCAAATTTGTAACAATTTAGATCCGGAACTTTAGTAAGTAACAATTAGTCCTTATACTTTATAATTTGTAATGATTTAGTTCCAATCATGAACAAGTTTGTAGGTTTTAATAGAAAAAAATTATCTTTTCTTATAAACTATAAATAATAAGTTATTATCTAACAAAAATTGACACTTAATTTGATGAGATTTTTCATGATAGGGTCTAAATTGTTACAATTTCAAAAAATAGGAATTAAATTATTACTTATTAAAGTTTAAGGATTAAATAAGTTCAAGGACCAAAAGTTTTTTAACAACAAAAAGTTGGTGTCCTCTTAAATGGGTCAAAAGTGAAGGCAGAGAGGAGATAATTGAGGCCATACTTGAAGAGAGAAAAGGGGTGAAACAGTAGGCAGAGAAGAATGGGACCAAAAATTAAGGTAGAGAGGAAATTCCTGAAATAATAGGGAAGAATGTAGTCTCATTACTCACCTGCCAATTTGTTAGAACTTTTCACCGTGGATATAACCAAAGAAAACATTCTGGTAACAATAGATGTGCTCAAGAACATTAGTTATTATTATAAATGTGAATGAACTTTGATGTTGCAAAGTACTGATGAGATACTCAAAACACTACAGAAGCACATCCCTATTTCATAACTAACTTGGATGAAATATATCCTACAAGTTTTCTTGACACTCAAATGTTGTAGAGTTAGGCGAGCCGTCTCATGAGATCAGTCGAGGTGCACGTAAGCTGGTTCGGACACTCACGGATATTAAAAAATAAAAACTTGGAAGACAGTTAACTGTTTTGATATTAGATCTGATGAGAAAGATCCCATTTTCAATCTGAAGTTTTGAACATTGCTTTGTCTAAGTATGTTGATCATGGCTTTTATTTATAACCATTGAAATGTAAATGTTGGTTTATGTGGGAGCAGGATCGTCCATCGACCAAGGTTCACGCCGCACCTGGTGGGGGATCTTCTCTGGATTTCCTTTTCGGGAACGGTAGGAGCTAAGTTGGTTAAGAACCAAGTTAGACCCTTCTTTGGCACTGGCACCTATTATGTTATGTAAACTAAAACTACTTGTATATTTTTTTTATGCACAAGGTTGTTTCCTCATGGTCAGAATTGCTGAAATGCTTGGCTCTTGATGCTTTGTGTTGAAACAAAAGTGAGTTGTTGTTGTATCTTGCTTTGCTCTCAACAAAACCGAAATTGCCACCCACTTCCTTCCTTCATTCCCTTCTCTCTCGCCTCGCTTATACTGTTCTTTCTTCTTCACTCTCCAATTTCCCTCTCTGTTACACTGTTTTCCATCATCATTTCCCCAAAAAAAAGAAAAAAACACTGCCCTCACGCTTCACTTTCTTCAATCCCTCGACCCCATTTCATTTTCCCACTTTATGATCCTAAAATGGGTAATTTCTGTGCCTGTCTCGCACCCAAATCGATAAAGAAAAAACCCACCAAGCGCCTTCTCAACCCACCTTTGCCCACCAATTCCAGCAAAAGATGGACCCGAGTTCGTTCTTCGAGGAAAGAAAAACCCGATGCTGCTCTGACTCAAGAGCAAGTTCTCGCCGCCGCGATTCTATTTCAACAGCACCAACAGCACAACGCCCGGGACCCTTTTGATCGGACCACTTCGCTTCGATACCCGAAATCTGGGTCGAAGAATAGCAACACGTTGCCGCGGAGTTCGAGTTCCCGCGCTCGGTCACTTACCGATCCCCTGCTTCAACCCCATCAGCTTGTTAGCGAGAATGTTAAACTTGAGGATATAGAAACAAATCATTTTGTTCTTGTCCATGGTGGTGGCTTTGGTGCATGGTGTTGGTACAAAACCATAGCACTTCTAGAAGAAGCGGGTTACAAAGCTACTGCAATAGATTTAACTGGTTCAGGAGTTCATTCGTTTGATCCAAATCACATCACAAGTCTTTTGCAATATGTCCAGCCGCTTACTGATTTCCTTGAAAAGCTTGCTGAGGGAGAAAAGGTTATCTTGGTGGGACATGATTTTGGCGGTGCATGTATAGCTTATGCAATGGAGTTATTTCCTTTTAGGATTGCAAAAGCCATATTTATTGCTGCAGCAATGTTGACTAATGGACAGAACACATTAGACATGTTCTCCCAGCAGGCTGGTGCAGATGATTTAATGCAGCAGGCTCAGTCATTTTCATACACAAATGGGAACAACCATCCTCCAACTGCTATCAACTTAGAAAAATCACTGTTGCGGGACTTATTTTTCAATCAAAGTCCTGCCAAGGATGTTGCTCTGGCATCTGTATCAATGAGACCGATACCATTTGCGCCTATTTTGGAAAAGCTGTGCCTTTCTGATTTGAAATATGGATCAGTTAGACGGTTTTACATCGAAACTCCAGAAGACAATGCCATTCCCATCACATTACAAGACAGTATGATAAACAAAAGCCCCCCACAACAGTTATGGCTTGTGCTGGGAAGGCGATCTGCTGGCTTCCTACATTTTGCTCCTTATCTCTTCCTCTTGATCCCATTTTCATTCCGAGAAGATTTCCGAGTTAAACGTGTGATCACTATAATTACAATTGGGTTTTATGTTGTATTACTTGGAGAAACAAAAGGCTTGAAAATGAGGCGTGGAGTTAGCAGTGGTGGTGGACAGAGCTCCTTGGGCTACCTGTTTGGAAATGGAGAGCCAGCCAACAGTGTGCAAGCTTCTCAGAAATCCAATGGATCTTCTGAGCCGGTCTCTTCTACTTCGCAATCGACCGGTAAACAGACAGCTGCTGGAGTTCCGGGGCATCTTACTAACAATTACTATAGAGCGGATGGACAGAACTGTGGCAACTTTATCACGGATCGTCCATCGACCAAGGTTCACGCCGCACCTGGTGGGGGATCTTCTCTGGATTTCCTTTTCGGGAACGGTAGGAGCTAAGTTGGTTAAGAACCAAGTTAGACCCTTCTTTGGCACTGGCACCTATTATGTTATGTAAACTAAAACTACTTGTATATTTTTTTTATGCACAAGGTTGTTTCCTCATGGTCAGAATTGCTGAAATGCTTGGCTCTTGATGCTTTGTGTTGAAACAAAAGTGAGTTGTTGTTGTATCTTGCTTTGCTCTCAA ATGGGTAATTTCTGTGCCTGTCTCGCACCCAAATCGATAAAGAAAAAACCCACCAAGCGCCTTCTCAACCCACCTTTGCCCACCAATTCCAGCAAAAGATGGACCCGAGTTCGTTCTTCGAGGAAAGAAAAACCCGATGCTGCTCTGACTCAAGAGCAAGTTCTCGCCGCCGCGATTCTATTTCAACAGCACCAACAGCACAACGCCCGGGACCCTTTTGATCGGACCACTTCGCTTCGATACCCGAAATCTGGGTCGAAGAATAGCAACACGTTGCCGCGGAGTTCGAGTTCCCGCGCTCGGTCACTTACCGATCCCCTGCTTCAACCCCATCAGCTTGTTAGCGAGAATGTTAAACTTGAGGATATAGAAACAAATCATTTTGTTCTTGTCCATGGTGGTGGCTTTGGTGCATGGTGTTGGTACAAAACCATAGCACTTCTAGAAGAAGCGGGTTACAAAGCTACTGCAATAGATTTAACTGGTTCAGGAGTTCATTCGTTTGATCCAAATCACATCACAAGTCTTTTGCAATATGTCCAGCCGCTTACTGATTTCCTTGAAAAGCTTGCTGAGGGAGAAAAGGTTATCTTGGTGGGACATGATTTTGGCGGTGCATGTATAGCTTATGCAATGGAGTTATTTCCTTTTAGGATTGCAAAAGCCATATTTATTGCTGCAGCAATGTTGACTAATGGACAGAACACATTAGACATGTTCTCCCAGCAGGCTGGTGCAGATGATTTAATGCAGCAGGCTCAGTCATTTTCATACACAAATGGGAACAACCATCCTCCAACTGCTATCAACTTAGAAAAATCACTGTTGCGGGACTTATTTTTCAATCAAAGTCCTGCCAAGGATGTTGCTCTGGCATCTGTATCAATGAGACCGATACCATTTGCGCCTATTTTGGAAAAGCTGTGCCTTTCTGATTTGAAATATGGATCAGTTAGACGGTTTTACATCGAAACTCCAGAAGACAATGCCATTCCCATCACATTACAAGACAGTATGATAAACAAAAGCCCCCCACAACAGTTATGGCTTGTGCTGGGAAGGCGATCTGCTGGCTTCCTACATTTTGCTCCTTATCTCTTCCTCTTGATCCCATTTTCATTCCGAGAAGATTTCCGAGTTAAACGTGTGATCACTATAATTACAATTGGGTTTTATGTTGTATTACTTGGAGAAACAAAAGGCTTGAAAATGAGGCGTGGAGTTAGCAGTGGTGGTGGACAGAGCTCCTTGGGCTACCTGTTTGGAAATGGAGAGCCAGCCAACAGTGTGCAAGCTTCTCAGAAATCCAATGGATCTTCTGAGCCGGTCTCTTCTACTTCGCAATCGACCGGTAAACAGACAGCTGCTGGAGTTCCGGGGCATCTTACTAACAATTACTATAGAGCGGATGGACAGAACTGTGGCAACTTTATCACGGATCGTCCATCGACCAAGGTTCACGCCGCACCTGGTGGGGGATCTTCTCTGGATTTCCTTTTCGGGAACGGTAGGAGCTAA MGNFCACLAPKSIKKKPTKRLLNPPLPTNSSKRWTRVRSSRKEKPDAALTQEQVLAAAILFQQHQQHNARDPFDRTTSLRYPKSGSKNSNTLPRSSSSRARSLTDPLLQPHQLVSENVKLEDIETNHFVLVHGGGFGAWCWYKTIALLEEAGYKATAIDLTGSGVHSFDPNHITSLLQYVQPLTDFLEKLAEGEKVILVGHDFGGACIAYAMELFPFRIAKAIFIAAAMLTNGQNTLDMFSQQAGADDLMQQAQSFSYTNGNNHPPTAINLEKSLLRDLFFNQSPAKDVALASVSMRPIPFAPILEKLCLSDLKYGSVRRFYIETPEDNAIPITLQDSMINKSPPQQLWLVLGRRSAGFLHFAPYLFLLIPFSFREDFRVKRVITIITIGFYVVLLGETKGLKMRRGVSSGGGQSSLGYLFGNGEPANSVQASQKSNGSSEPVSSTSQSTGKQTAAGVPGHLTNNYYRADGQNCGNFITDRPSTKVHAAPGGGSSLDFLFGNGRS Homology
BLAST of Cla97C11G211620 vs. NCBI nr
Match: KAG6602534.1 (putative methylesterase 11, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 771.9 bits (1992), Expect = 3.3e-219 Identity = 405/511 (79.26%), Postives = 430/511 (84.15%), Query Frame = 0
BLAST of Cla97C11G211620 vs. NCBI nr
Match: XP_038891023.1 (putative methylesterase 11, chloroplastic [Benincasa hispida]) HSP 1 Score: 671.0 bits (1730), Expect = 8.0e-189 Identity = 336/359 (93.59%), Postives = 345/359 (96.10%), Query Frame = 0
BLAST of Cla97C11G211620 vs. NCBI nr
Match: KAA0039432.1 (putative methylesterase 11 [Cucumis melo var. makuwa] >TYK00621.1 putative methylesterase 11 [Cucumis melo var. makuwa]) HSP 1 Score: 665.2 bits (1715), Expect = 4.4e-187 Identity = 334/359 (93.04%), Postives = 343/359 (95.54%), Query Frame = 0
BLAST of Cla97C11G211620 vs. NCBI nr
Match: XP_008459387.1 (PREDICTED: putative methylesterase 11, chloroplastic [Cucumis melo]) HSP 1 Score: 664.1 bits (1712), Expect = 9.8e-187 Identity = 334/359 (93.04%), Postives = 343/359 (95.54%), Query Frame = 0
BLAST of Cla97C11G211620 vs. NCBI nr
Match: XP_004141467.1 (putative methylesterase 11, chloroplastic [Cucumis sativus] >KGN52515.1 hypothetical protein Csa_008842 [Cucumis sativus]) HSP 1 Score: 659.1 bits (1699), Expect = 3.1e-185 Identity = 331/359 (92.20%), Postives = 340/359 (94.71%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy Swiss-Prot
Match: Q9FW03 (Putative methylesterase 11, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MES11 PE=1 SV=1) HSP 1 Score: 441.4 bits (1134), Expect = 1.4e-122 Identity = 241/371 (64.96%), Postives = 288/371 (77.63%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy Swiss-Prot
Match: F4I0K9 (Putative methylesterase 15, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MES15 PE=2 SV=1) HSP 1 Score: 357.5 bits (916), Expect = 2.6e-97 Identity = 189/333 (56.76%), Postives = 248/333 (74.47%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy Swiss-Prot
Match: F4IE65 (Putative methylesterase 13, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MES13 PE=2 SV=1) HSP 1 Score: 355.9 bits (912), Expect = 7.5e-97 Identity = 185/334 (55.39%), Postives = 243/334 (72.75%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy Swiss-Prot
Match: Q9FVW3 (Putative methylesterase 14, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MES14 PE=1 SV=1) HSP 1 Score: 243.4 bits (620), Expect = 5.4e-63 Identity = 135/326 (41.41%), Postives = 197/326 (60.43%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy Swiss-Prot
Match: Q940H7 (Putative methylesterase 12, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=MES12 PE=2 SV=1) HSP 1 Score: 239.2 bits (609), Expect = 1.0e-61 Identity = 138/354 (38.98%), Postives = 203/354 (57.34%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy TrEMBL
Match: A0A5D3BLC2 (Putative methylesterase 11 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold169G002410 PE=4 SV=1) HSP 1 Score: 665.2 bits (1715), Expect = 2.1e-187 Identity = 334/359 (93.04%), Postives = 343/359 (95.54%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy TrEMBL
Match: A0A1S3CBA3 (putative methylesterase 11, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103498536 PE=4 SV=1) HSP 1 Score: 664.1 bits (1712), Expect = 4.7e-187 Identity = 334/359 (93.04%), Postives = 343/359 (95.54%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy TrEMBL
Match: A0A0A0KSG7 (AB hydrolase-1 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G640000 PE=4 SV=1) HSP 1 Score: 659.1 bits (1699), Expect = 1.5e-185 Identity = 331/359 (92.20%), Postives = 340/359 (94.71%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy TrEMBL
Match: A0A061EFP9 (Methyl esterase 11 OS=Theobroma cacao OX=3641 GN=TCM_018817 PE=4 SV=1) HSP 1 Score: 649.4 bits (1674), Expect = 1.2e-182 Identity = 345/513 (67.25%), Postives = 394/513 (76.80%), Query Frame = 0
BLAST of Cla97C11G211620 vs. ExPASy TrEMBL
Match: A0A6J1C290 (putative methylesterase 11, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111006752 PE=4 SV=1) HSP 1 Score: 639.0 bits (1647), Expect = 1.6e-179 Identity = 319/359 (88.86%), Postives = 334/359 (93.04%), Query Frame = 0
BLAST of Cla97C11G211620 vs. TAIR 10
Match: AT3G29770.1 (methyl esterase 11 ) HSP 1 Score: 441.4 bits (1134), Expect = 9.6e-124 Identity = 241/371 (64.96%), Postives = 288/371 (77.63%), Query Frame = 0
BLAST of Cla97C11G211620 vs. TAIR 10
Match: AT1G69240.1 (methyl esterase 15 ) HSP 1 Score: 357.5 bits (916), Expect = 1.8e-98 Identity = 189/333 (56.76%), Postives = 248/333 (74.47%), Query Frame = 0
BLAST of Cla97C11G211620 vs. TAIR 10
Match: AT1G26360.1 (methyl esterase 13 ) HSP 1 Score: 355.9 bits (912), Expect = 5.3e-98 Identity = 185/334 (55.39%), Postives = 243/334 (72.75%), Query Frame = 0
BLAST of Cla97C11G211620 vs. TAIR 10
Match: AT1G33990.1 (methyl esterase 14 ) HSP 1 Score: 243.4 bits (620), Expect = 3.8e-64 Identity = 135/326 (41.41%), Postives = 197/326 (60.43%), Query Frame = 0
BLAST of Cla97C11G211620 vs. TAIR 10
Match: AT4G09900.1 (methyl esterase 12 ) HSP 1 Score: 239.2 bits (609), Expect = 7.2e-63 Identity = 138/354 (38.98%), Postives = 203/354 (57.34%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (97103) v2.5
Date Performed: 2022-01-31 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.
|