Clc01G11130 (gene) Watermelon (cordophanus) v2
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.ATAATTGATACGTACTCTTCTCTCTATTCATCGTTTTCGGTGTATCAGAAGGTTTTCAGGATTCCACTGTCGGAATCGCTTTCTTCCCCGTTTCAATTACAAAACACACGCTACTTTCTTCAACAACTACTAACCCAGAAACAAAAACCCCATCCAATTTTCTCCCTTTTTTTTTTTTTTTTGGAGCCCTCAACTGAATTTCCCAGTTTCTTCTTCAAGCGGGATCATCGGAACTACAAATTGCTTTCGAATTAAGCACTTCTACCGCCCCCAAATCCTCAATCAATGGTGCCCTTCACCTGGGGCACTTAATTTCAACCATATATGCCAATTTTTGTTCAATATACACTTTTCCAGTACTTTGGAATCTTCGTTTAATTCCCCAAATCAAATGGGTCGCTCTCGGGGGAATTTTCAGTCCGACGAGGACCCCACTCAGAGGTTAACAATTTTCTCTCTCTCTGTATTTTTTCTTGCTATCTTTGAGAATGTTTGCTGGTTTGAGGTTTTACTGAAGTTTATGAAGATACCCTTTGCGTGTTCGATTCAGTCTTGCAATTTTTCCGGGAAAAACGAATTAGTGAAACTTTATTTATTTTTTCCACAATTGGGGGAAGAAATACGTCTTTGAATAGTAGCGCATTTTTGTGAATGAAATGATTTCTGCTTAATCAGGGTAGCACACCAACTTTGTTTACTTATTTGAGTGTTTCTACTGTGCTAACTACTATTTGGGCGGTTTGTTAAACCTTTGGAAGTTGGGTTTTCATTAATATCTGATGTTTAGTACTTATTTGCTGTGAAATTTGATGCCAGGTTCAGTATTTTTGGGCTCTTGTGTACCCCATTGGTGATTATAGGTTCCTATGCCATGCTCTATTCTTTGGTTGAACATTTTTGATGAAACATTTTTCTGTTTGTGAGTAGAAGACATCTTAAATCCGATCAAATGTTTGTGTTTTTTGTGAAATATTAATCTTATCAATATGTTTATGAATGTTCATTTCATGTGTTTTATGTTCTAAGGATATATATGTTCATTTTGAATTCTAATTCCAATATACAAATCAGTATTCTTGCTTTTCTTTTCTCTTATATCGTTTTGGGTGATTGTTTGGCTTGCTTCAAGGTTTTTGTTTATTTTCTTTTCTACTTCTCTTCCTTCTCTTCTCTTATTTCTTTTTCTTTATGCTATATGGTCTGTATTGTTTCCATGAACTTTCATTCTTGATGCTGCAGATCTAGGAGAAAAAAAAATTCTTCTAGTGGAGATAATTTGGAATCTACAACGCCAGGTGATTTTCTACTTTGATCATTATTTTTTCTTTTTTTTAAAAGTTAAACGTAGAGAATTCACCTGCAAAATAAAATTGTTATGCTGATTCTTCTTCCTGTACTTTCCATCCTTCCGTTCAATAAGAATTTCTTTTTCATCTACGAGTAGAAAGCTGTAATTTAAATATCGTGTACTCTTGTTTTGAACTACTTATTTATCTCACATTTTATTTTTCTCCTTTAACCTTCTTTGGGAGAAAGGTCAAGGGACAACTGAAGGCAAAAAAGCTTTATACCACTGCAATTATTGCATTAAAGACATTACAGGGAAAATCCGCATCAAATGTGCCATGTGCCCTGACTTTGACCTTTGTATAGAATGCTTTTCTGTTGGAGCTGAGCTGACACCTCATAAAAGCAATCACCCATACAGGGTTATGGTTAGTAATGATCCCAATAGTTTGTATTTTCTCTTACATGTTGTGTAAGCTTATTGGTTTTTAGAGAATGGTGATCTGATTTTCATAACTACCTTTCTTATTTTCCCTCCAGATAGAATTATGTGTTAAGTTGAAAAGAATGATGCATTAAAACAACATATCATAGCTTCTAGGGAAGTCTAAAAACATTACAGTTGCTGCTGGATTCAAATTGAACTCTATATGCATATGCTTTTGTTTAATATGTCTTCATCTTGACAGGATAATTTATCTTTCCCCCTCATTTGCCCAGACTGGAATGCAGACGATGAAATACTACTTTTAGAGGTATGTTATTTTCTCCCAATTTCCCTTACAGATCTCTCGAAAAATAATATGCCAGCTCCAAATCTAAGTCGAAAGGGTTTATGTAAACATCATTGAAATTTCCGTTGGCCTGTATATTCTTCTTTTGCCATGAATATTCACATTTCATAATGTAGGGGATCGAGATGTATGGCTTCTGGAATTGGGCAGAAGTTGCCGAGCATGTGGGAACAAAGAGTAAAGAACAATGCATAGAACATTATTCATGTGTATATATGAACTCCCCATATTTTCCTCTACCGGTATGAGATTCTTAACACTTTTGATTCTCCTAGAACTTTGGTTCTTTCAAGTAACTTTTGGATTTTTCTCAGGACATGTCTCATGTCGTTGGAAAAAATAGAAAGGAGCTTCTTGCTATGGCTAAAGGACATGGTGAAGACAAGAAAGGTCAGTGAGACATTCTTTTTATGTTACGAGCTACATTGGCAATTCAGTTGGCGAGGAACATCCTGTCATGCTATGACTTGAAGATATATCTTGAAAGAACTATACTTTTGTCAAAAGAAAAAAGGAGTTTTGATTAGGTCTATTAGCTAGAGATACTATGGTATATAAATTTATCTTGAAAGATAAGTTAATTTTGTGAGAAATTGTTTATTTATAGATTATGGCAGGTTGCGGGTCTTTCTATGTAAAACTGACTAATGTTTCTTCTGCTTCTCAAAAAACAAGCTAGTCTCATGAGTTGAAAGAATAATTGTTAACTAATGCAGAAGTTCTTATACCTCCATTATTGTGCTATATTCCAGATGATTCTGGTATTCGTCTGATGATGCAGCTTATGATTAATTTCTTATAATGCTTCAGGATTTTCAATGCTTGGAGAGCTTAATTTGAAAGAAGAGTCCCCATTCTCTCCTTCCAGAGTGAAGTATATCAATTTTGAATGACTCTCTCTCTTTTCTTTATTTCCCTACCTTTGCATTAATATTTCCTTTTGTTATCAGAGTTGAAGATACACATAAAGTAGATCCTTCTGGCCGTTTATCATCAAGCTCTACATCAGGTGAGGTGTAATGGCTATTGTTGTTGAGTGATTGTGAATGTATATCATGTTTTAATGATAAGGTGATCCTTGGATACTTTGCTTGTTCATTTTATTGTAGAAGAAGGTAGCTTCAATATGGCCACTGCCACTGCCAACAAGAAAGCATCATCTGCAAATCAAGTTAAAGATGGCCTCGTTAAAGTGGAAGGTCTAGTGCAGATATATTCTTGAGATTGCAATTGGATGTTGATAAATGTATCTTTTTAATCGATCTTAAACCTTATCCTTTTACTGGAAGCTTGTATAATTATTCATAATTGATTGTATGTTTAGTGCACACTAGCTTTATAAATCTTCAGCCAGGATTTTTCTTTCTTTACTGTTTTCTTGGATACGGGTCATGAAAACAGTACTTTGTTCATATTGAAGGTGAAGAGTGACAACATATATTATCCTTTCTTTCTGCTTGACGTTGTGTTTTCTCTAGGTTGCTTTGTCTAGTTAAAGTTTCCCATCTTTCATGACGGAGTGCCCCCAGCAGCTTTAGTATTGCGATAGACCTCCGTTATTAGGAGGTATATGAGAAAAAGAAAGAGAGGAGGTGAGGAAAATGTAAATGAAACAAATAAATGGAAGTTATGGGAAGGAGAGTGACGTTTTCATTGTGGGCTTGTTAGTTAGGAGGGAGGGGGCTATATGTATTATGTTGGGGTTAGCATTGGGGGTATTTGAGAATTATATTTTCTAGTATAGCTCAGAGAGCTTGTAGATGAGGGAGGCTTGGCTTCCTTGGCTATTTTGGCCTAAATCGTGAATAGAAAATCCGAGTTCCATCATTTTGGTATCGGAGCCATCACTCCTCGGGGATGGTGAAGAACAAAATGGAGGCTCGACTATCTGCAATTGAGGAACAAATCACTTTGCTACAAGTGGGAATGGAAGCTAGGATGGACCAATGATTTGCGGAGATGCAACAACTGACAAATAATTTTATGGTGGCACAATTTGAAGCAATGGGGGAGCCGACAGAGGATGTTACTAGCGCTAGAAGCATGGTCAAGGAAAGGTGGAACAATAGATGAGGGACAAAGATCGGTGTCTTCTGAACATGTAGTGACCGATAAAAACAAACAACCAGCAGCTGAGGAGGCAGAGCGGTTGGGGAGTACATCAGAAAAGGAAAAAAGAGAGATACCTCTTTTCGGTATGCGTTTAAGGAAGCTGGAAATACCGATTTTCAAAGGAGAGGCGAGAGATGATCCACTCGGATGGTTCCATCGAGTTGAACGGTACTTCATTGTCAATCGATTAACAGAGAAAGACAAACTTGATGCGGCGATGCTCTGCTTGGAAGGGGAATCGTTAGAATGGTACCAATGGGGGGAAGAACGGACGCCGATGGATACATGGGCGAAGTTTAAAGAATAGATGTTACTCCGATTTTTGCCTGCGGAGGAGGAGGACCAGCGGGCACAATTCTTTAACCTAAAACAAGAAGGAACGGTAAGGGCATATGGTCGTAAATTTGAACAATTATTTGGGCCTTTGAAGGATCTATCTGACGCCTCTTTGAAAAGTAAATTTGTAAGTGGCTTAAGGAGGATATTCAATAAGAAATAAGGATGTTCAAGTTGGTGGGCCTTAAAGAAAAAATGAGGATGGCCCAATTGATTGAAGATATGGAAGAGGCCCGTCAAATGAAGTGGGGATGGGGCAGCGCCAATCAGGCCAATAAGTCGGTCGGATCAAACCCGGCCCAAACAAAGGCGGGCCCTTCGAATTCGAGCCCAATGACAGCCAAAACAATTTTCCTCAACCCTAATCGAAGTTCAGCTGCTTCGTCAAACACAGTGACCTTACACAATGTGAATGGAAAAACCTTCACTACTTGGTCGTTTCGACGATTGTCGAACCGTGAGATGCAAAGTTGGAGGGATAAAGGTCTTTGCTACCGGTGTGATGAGAAGTATAGTGCAGGCCATCACTGTAAGAAGGAATTAAATCTATTTATCCATCAAGACGACGAAGAGGGGGAGATTGTCATCGGGGTTAACGAAGAGAATGCTATAGGAGAAGAAACCCCTCCGGCAACGCTAGAAACATTAGATATGGATATGGCAGAAGCAGAATCAGTCGAGTTGTTTCTTAATTCGTTAGCCGGACTGGATTCGCCTAAAACAGTGAAATTATCGGGCACAATAGGGGAGAAGAAGGTGGTAGTGCTCATTGATAGTGGAGTGTCCCACAATTTTATTGATGAGGAGCTAGTGAACTCACTAAAATTGCCTTGATCTCCAACGTCAAGTTATGGGATCATGTTGGGCACAGGAAAGTCTGTTCAGACGACCGACATTTGCAAAGGTGTGGTTCTTAATCTCCCTAATTTAACGATTATTAATGATCTCTTCCCTTTGTCTCTGGGCAGCACCAATGTTATCTTAGGGGTTCAATGGTTAATGACACTGGGGCGACTTGAATGTGATTGGGGTACCTCAGAGATGGAATTTCAGGTGGGAGAATGGAGTCTCCTTCTTCAAGGAGACAGAAGTTTGGTGAAGTCTCAAATATCCCTTAAGTCAATGATGAAACACGTGAAGGGAGAAGGAAGGGAATATTACTTGAGTTGAATACTGTGACAACTCAATTCCACGAGAGCCAAAGTATTCATAAGAGCACCGAGATTTGCCTAGAAATTCAAGATGTGTTGCACAGGTTTCAATTAGTATTCAATCCAATAGAGGGGTTGCCACCGTTGAGGTGCCATGATCACGCCATTGAGTTGAAATCAAGGGAAGGTCCTATAAATGTACGTCCCTACCGTTACCCAGAGTTCCAGAAAGATGAGATTGAGCGACTGGTAGAGGAGATGTTGACAGCGGGGATAATTCAACCTAGTACCAGCCCTTTCTCAAGTCCTGTTCTTCTAGTCAAAAAGAAAGATGGGAGTTGGAGGTTTTGTGTTGATTACCGAGCCCTTAATCAAGCTACAGTTCCAGACAATTTTTTGATCCCAGTTGTTGATGAACTCCTTAATGAGCTATCAGGTGCTACAATATTTTCAAAGATTGTTCTAAAGTTTGGTTATCATTAGATCCGGGTTGTGCCACGGGATGTCCATAAAATAGCTTTCAGAACTCATGAAGGGCATTATGAATTTTTGGTTATGCCTTTTGGCTTACAGAACGCCCCGTCCATGTTTCAGTCGATAATGAATGACCCAAATTTGTTCTGGTCTTCTTCGATGACATCCTCATCTTTAGTTCTTCTATTAATGAACATATAGAGCATTGAACCACTGTGCTGCAACTGTTATCTGATAATCAATTGGTAGCCAATCTTAAAAAATGTACCTTTGCAGTATATCCACCATAGAATATCTTGGCCATTTGATTTTGGCAGAAGGTGTGGCAGTGGATCCATCTAAAATAGAAGCTATGAAGCAATGGCCCATACCAACAACAATTAAACAGTTGAGGGGTTCCTCAGCCTGATGGGGTATTATCGCAAGTTTGTGGTTGGGTACGGATCAATTGCTTTTCCTCTTACTTAGTTATTAAAGAAAGACAATTTCTGATGGACTAGTGAGGCGCAAACTGCATTCGATAATCTAAAGAAAGTAATGACGGAAATTCCAGTCCTGGCGCTACCAGACTTCAAAAAACCATTTGTGGTGGAGACAGAAGCTTCCGGAGTTGGGTAGGCGCTGTATTGATGCAACAAGGCCGTTCTCTGGCTTTTTTCAGTCACGCATTGCCACCCACTCATCGTCTGAAAGCTGTGTACGAACGGGAGTTAATCGCAATTGTCTTAGCAGTGCAGAAGTGGCGACCATATCTGTTGGGTCGACAATCCAGGGTACGGACAGATCAAAAGAGCCTCAAATTCTTGTTGGAACAATGGATAATAGCCGGTGACTATCAGAAGTGGGTGGCCAAACTGATGGGATATGATTTTTTGATTGAATACAAGAAGGGGCCGGAGAATTCGGTTGCGGACGCCCTATCTCAAGTTCCAACAGCAGCGGAATTATCTGCTTTAAGTTGTGTAGTAGGCGTTAACACGACTGTTTTTGTCGCTCAGATTGATCAGGACAAAGCGTTGAGGCACATCCGTTAGGCCATTTGCGAGGGGGGACAATTTCCAGCCGGTTACTCTATTTTGGGATACTTGTTATTATACAAACAGAGGATCATGTTACCCCATACATACATCCCCACATTACCATACATACATCCCCACATTACCCCTTTTGCTTCAGGAGTTTCATAATACTTCGTTGTAGAAGACTCCTTATAAAGTGGTGTATGGGGGACCAGTTCTACCATAGGTATCGTATGTGGTTGGGGCAGTGATGGTGGATGCAGTGGATGTTCGTTCAAAAGAATTGTGATGAAATGTTGAAGGACTTGAAGTCCACACTAGAGAGAACACAGCAGCAAATGCTAAACGGGGAGAGGTGGAGTTCGCCATTACAGATTGGGTATACATCAAGCTCCAACCGTATAGCAAAGCACATTGTTCATCCACAAACACCCGAAGCTAGCACCTCGATTCATAGGTCCCTTCCAGATTGTAGAACGTATAGGACCAGTGGCTTACAAGCTAGATTTAGCGGCCAATGTCAATACCCACCCGATTTTTCATGTGTCTCGGCTATGTAAAGTTGTTGGTTCTATTTTGCCAAGGACTTCAATGCCCCCCCGTTGCAAAAGAATGGATCCTTGCACATACAACTAGCCTCTATTTTGGGAGTTAGGAAGATTGGAGCGACAGTGGCATGCCCGACTGACTTTGGGTGCTGATCCAGTGGGAATACAGAAGATGCTACATGGGAAAATGGACAGCAGATCTTCGAACAGTTCCCACACTTCCACCTTGTGGACAAGGTGGTTTTTTGGGGGCAGGTACTGATAGACCCCCTGGTTATTAGGAGGTATATGAGAAAAAGAAAGAGAGGAGGTGAGGAAAAGGAAAATGTAAATGAAACAAATAAATGAGTTAGTTATGGGAAGGAGAGTGATGTTTTCATTGTGGGCCCGTTAGCTAGGAGGGAGGGGGATATATGTATTCTGTTGGGGTTAGCATTGGGGATATTTGAGAATTGTATTTTCTGGTATAGCTCAGAGAGCTTGTAGAGGAGGGAGTCTCGGCTTCCTTGGCTATTTTGACCTAAATTGTGAATAGATAATCCGAGTTCCATCATATTGTTTCTGGATAACCTTTGGCCGAAGTATGTCATGATGAAACTTAGAAGATTAGTGGACATCTTCCCTTCGCCACTCTCTTTCAGCAGATTAGTCACGCCCTTATTTATATTTCTTCAAATACTTGCATATTTTTGTTAGAGGTCTGAAGATGTTGAAGCTAATTTTGTATGATAATATAATGCAGATTCTCAAACAGACCGGAGCTTTAAAGGAAAGAAACCTAATATACCAGCAAATAAGGGCCCTTCTTTATTAGAATTGAGTGGCTACAATGAAAAGAGACAGGAGTTTGATCCAGAATATGATAATGAGGCTGAGCAGCTGCTAGCGGAGATGGAATTTAAGGATGCTGACGGCGAGGATGAGCGAGAGCTGAAAATGCGAGTGTTGCGTATATACTCGAAGAGGTAATAGTTTGTAGAATTTTGGTAGATGTATTTTTTCGAATAGGTCTAGTGTAACTCGTCTTATGCCTTTTGATGTCATACTTTTATGCGTGTTACATTGTAAGATAGAAGTGTCCAGTACACCTTGTTGGCTTTACATGTTAACAAAAATATCTATAAAAACTTGTTTACTTTTCCATTGTTTCTTTGGTTCTTACTCTCTAAATCTTATACAGCGATGTCATGTAACTATTTTGCAGGCTAGATGAGAGGAAGCGGAGAAAAGATTTTATACTACAAAGAAATTTACTTTATCCCAGTTCTTTTGAAAAGGAATTATCAGCTGAAGAGAGGGCAATATGTCGTCAATATGATGTCTTCATGCGTTTCCATTCTAAGGAAGAACACGAGGAATTGCTTCAAACAATTGTTGCAGAGCATCGGACCTTGAAAAGAATTCAAGAACTTAAGGTTTGAAAATTTGATTTTCATTATGCAGATTTATGTTAGATTCTTGTTTCTTTGGGTTTTTTAAGGAGCGTTGTATGCTGTCAATATCTCATAACTCTTGTCTGAAAATTGATTAATTAGTGCATTCAGTTCTCTGCATACTTGCCCTAAAATCTAGTATTTCAAAGAACTGCATGCTATTAGATTATTACACTTGCATCTTTATAAATCCTTACAGCTGATGGTTGTATGTATTTGGTTCCTTGCTTTAACTGGTTATTGAGGAACTTGATTTGGTATATTACTGAAATTTGAAAGGAGAGAGTGTCTTCTTGTTGCTTTTTAACCCATTTTATGGAAGAAGGGAGGAGGTGCAGGTGCTGTCATATTTGCTAGATTCAAGATTTCTGTATCTCTGTAAAAGGTCTCAGTATATCTTATGTCTTCTTTGATCTACAAATGATTATGCAGGAAGCCAGAGTGGCTGGCTGCCGTACACCGACTGAGGTAGAGATCTTTCTTGATAAGAAAAGGAAAAGAGAATCTGAAGAAGCTGATCGTAGAGTGAAAGATAGTAATCTTACAGGCCCTGGAAGTCAGGGGAATTCAATCATGTTCATACCATCTGAATCCGCTGGCAAGGATTCAAATTCACGACCGGCAGTGCAGGCTCTTTCTGGCTCTGTCAGCGACTTCGATATGTTGGGATTCAATGGCGCAGAGTTTCTCTCTGAAGCTGTAAGTGATCTCCCACTTACCAGTTAATCACAACGAACATGTTAGAGTATATATATATATTTTTTACATTCACATGTTACCTGATTTTAGATCCCGATTATTGCAAAAACCACCTGGTAAGAAACAACCCTGTAAGCGCTATTCAATGTGAGTGCACCATTAGTTTTTCATTAAAAAGAAATCCACCTTTAAAGGGTCTTATAAGAACTAAAATCTCAACTGTGTACTTGAGTCTACCTCACATCTTATTAGGATTGATTGAAGCCACAATATAGAAAGGATTAAAATGAACTCAATTTTATCGGAATGGTGGGACAAAGTCTTATCAATCTTGGGGAAATCTCCGTGCCTTCCCTTAGAGCTAAACTGCTAAACTGCTATATTTATGTAGCTCCTCAACCAAGTCTTCACTAGATTAAGATTACTCTTTGGTAAGCGAGAGACCTTGGTGAATAGGAGTGTAAAATCTCAATTAAGCTACCAGCGCCATTCAGTTTTTAAAAGCCTTTCGCTTTATTAGCTAGCTCCTTTTGAAAGTGAGAAAAACTTTGGTGCTGCACCTATTTTATGCATCCGAGGCAGCTGTTTAAGAAAAAAAATAATCATGTGGCAAATACATATATTTTTTTGTGGGTGTAAAGGAAAGGGAAACATTGATATTAGGTGCGGTCTATCATTGCTTTGTGAAAATTAAGGTCAATTGACTTGAATGGGGAAAAGAAAGAAAGAATATATAGTTTACAAATTACAAAATAGTATTCCTCGACTTAAAAAGTTCATTTGACAGATTTTTAGAAGTAATGTTTAGGGGAAATAACAGGGAAAGACAATAAAAACTATTCTTGTGAGATGTACTGTTATATTCATCTTCTCTGAACATCTTTTTTAGAATTCAAAAGTACTAAAGTCGTAGTCTGTATAGTGTCCTTAAATGCAAAATAACTTTCTTTCTTGGGGGGATAAGCTTCATGATTTAGCATAAAGAAATTCACAGTTTTCTTTTTCCCCACTAAATTACACATCAAAACAGGCTTCATCTTAGAAGAGTAGTTAGACTTGTCTTACTTTATTTCTTCTGTTGGTTCATGTTTGTTTACACATGAAGTACTTTTACTGAAGCAGTCTGAAACTTTATTGGGTTGGCAGGAAAAAAGACTATGCAGTGAAATTAGACTAACTCCACCTCTTTACCTAAGGATGGAAGAAGTTTTATCAGTAGAGATTTTCAATGGCAATGTGACCAAGAAATCTGATGCCCATCACTTATTCAAGATTGATCCAAGCAAAATTGACAGAATCTATGAGATGCTTATCAAAAAGGGGATTGCTCAGCCTTGATATTATTTCATTCTATCCTCCAATTTTCATTTTCTTTTTGTAGCTTAATTATTTACCCCTTTAATTAAATGGAAGGAAAGTTAGAATTTAGTCATCTCTTTGGAATGTAGGAGTAAGTGACCAGTATTCATACTAGAATAGAATGTAATATTAATAAATTGTGTTATATTATGGCTTTAAATCCAAATCCATTTGCTCTCTAACTTCCAAATATTATGATTTGATCCTTTTCAGTTTTTAAGTTTTTGCTCAGCATACTATTTGTCATTGTCAGCAAACTCTTTATTACTCATCCA ATAATTGATACGTACTCTTCTCTCTATTCATCGTTTTCGGTGTATCAGAAGGTTTTCAGGATTCCACTGTCGGAATCGCTTTCTTCCCCGTTTCAATTACAAAACACACGCTACTTTCTTCAACAACTACTAACCCAGAAACAAAAACCCCATCCAATTTTCTCCCTTTTTTTTTTTTTTTTGGAGCCCTCAACTGAATTTCCCAGTTTCTTCTTCAAGCGGGATCATCGGAACTACAAATTGCTTTCGAATTAAGCACTTCTACCGCCCCCAAATCCTCAATCAATGGTGCCCTTCACCTGGGGCACTTAATTTCAACCATATATGCCAATTTTTGTTCAATATACACTTTTCCAGTACTTTGGAATCTTCGTTTAATTCCCCAAATCAAATGGGTCGCTCTCGGGGGAATTTTCAGTCCGACGAGGACCCCACTCAGAGATCTAGGAGAAAAAAAAATTCTTCTAGTGGAGATAATTTGGAATCTACAACGCCAGGTCAAGGGACAACTGAAGGCAAAAAAGCTTTATACCACTGCAATTATTGCATTAAAGACATTACAGGGAAAATCCGCATCAAATGTGCCATGTGCCCTGACTTTGACCTTTGTATAGAATGCTTTTCTGTTGGAGCTGAGCTGACACCTCATAAAAGCAATCACCCATACAGGGTTATGGATAATTTATCTTTCCCCCTCATTTGCCCAGACTGGAATGCAGACGATGAAATACTACTTTTAGAGGGGATCGAGATGTATGGCTTCTGGAATTGGGCAGAAGTTGCCGAGCATGTGGGAACAAAGAGTAAAGAACAATGCATAGAACATTATTCATGTGTATATATGAACTCCCCATATTTTCCTCTACCGGACATGTCTCATGTCGTTGGAAAAAATAGAAAGGAGCTTCTTGCTATGGCTAAAGGACATGGTGAAGACAAGAAAGGATTTTCAATGCTTGGAGAGCTTAATTTGAAAGAAGAGTCCCCATTCTCTCCTTCCAGAGTGAAAGTTGAAGATACACATAAAGTAGATCCTTCTGGCCGTTTATCATCAAGCTCTACATCAGAAGAAGGTAGCTTCAATATGGCCACTGCCACTGCCAACAAGAAAGCATCATCTGCAAATCAAGTTAAAGATGGCCTCGTTAAAGTGGAAGATTCTCAAACAGACCGGAGCTTTAAAGGAAAGAAACCTAATATACCAGCAAATAAGGGCCCTTCTTTATTAGAATTGAGTGGCTACAATGAAAAGAGACAGGAGTTTGATCCAGAATATGATAATGAGGCTGAGCAGCTGCTAGCGGAGATGGAATTTAAGGATGCTGACGGCGAGGATGAGCGAGAGCTGAAAATGCGAGTGTTGCGTATATACTCGAAGAGGCTAGATGAGAGGAAGCGGAGAAAAGATTTTATACTACAAAGAAATTTACTTTATCCCAGTTCTTTTGAAAAGGAATTATCAGCTGAAGAGAGGGCAATATGTCGTCAATATGATGTCTTCATGCGTTTCCATTCTAAGGAAGAACACGAGGAATTGCTTCAAACAATTGTTGCAGAGCATCGGACCTTGAAAAGAATTCAAGAACTTAAGGAAGCCAGAGTGGCTGGCTGCCGTACACCGACTGAGGTAGAGATCTTTCTTGATAAGAAAAGGAAAAGAGAATCTGAAGAAGCTGATCGTAGAGTGAAAGATAGTAATCTTACAGGCCCTGGAAGTCAGGGGAATTCAATCATGTTCATACCATCTGAATCCGCTGGCAAGGATTCAAATTCACGACCGGCAGTGCAGGCTCTTTCTGGCTCTGTCAGCGACTTCGATATGTTGGGATTCAATGGCGCAGAGTTTCTCTCTGAAGCTGAAAAAAGACTATGCAGTGAAATTAGACTAACTCCACCTCTTTACCTAAGGATGGAAGAAGTTTTATCAGTAGAGATTTTCAATGGCAATGTGACCAAGAAATCTGATGCCCATCACTTATTCAAGATTGATCCAAGCAAAATTGACAGAATCTATGAGATGCTTATCAAAAAGGGGATTGCTCAGCCTTGATATTATTTCATTCTATCCTCCAATTTTCATTTTCTTTTTGTAGCTTAATTATTTACCCCTTTAATTAAATGGAAGGAAAGTTAGAATTTAGTCATCTCTTTGGAATGTAGGAGTAAGTGACCAGTATTCATACTAGAATAGAATGTAATATTAATAAATTGTGTTATATTATGGCTTTAAATCCAAATCCATTTGCTCTCTAACTTCCAAATATTATGATTTGATCCTTTTCAGTTTTTAAGTTTTTGCTCAGCATACTATTTGTCATTGTCAGCAAACTCTTTATTACTCATCCA ATGGGTCGCTCTCGGGGGAATTTTCAGTCCGACGAGGACCCCACTCAGAGATCTAGGAGAAAAAAAAATTCTTCTAGTGGAGATAATTTGGAATCTACAACGCCAGGTCAAGGGACAACTGAAGGCAAAAAAGCTTTATACCACTGCAATTATTGCATTAAAGACATTACAGGGAAAATCCGCATCAAATGTGCCATGTGCCCTGACTTTGACCTTTGTATAGAATGCTTTTCTGTTGGAGCTGAGCTGACACCTCATAAAAGCAATCACCCATACAGGGTTATGGATAATTTATCTTTCCCCCTCATTTGCCCAGACTGGAATGCAGACGATGAAATACTACTTTTAGAGGGGATCGAGATGTATGGCTTCTGGAATTGGGCAGAAGTTGCCGAGCATGTGGGAACAAAGAGTAAAGAACAATGCATAGAACATTATTCATGTGTATATATGAACTCCCCATATTTTCCTCTACCGGACATGTCTCATGTCGTTGGAAAAAATAGAAAGGAGCTTCTTGCTATGGCTAAAGGACATGGTGAAGACAAGAAAGGATTTTCAATGCTTGGAGAGCTTAATTTGAAAGAAGAGTCCCCATTCTCTCCTTCCAGAGTGAAAGTTGAAGATACACATAAAGTAGATCCTTCTGGCCGTTTATCATCAAGCTCTACATCAGAAGAAGGTAGCTTCAATATGGCCACTGCCACTGCCAACAAGAAAGCATCATCTGCAAATCAAGTTAAAGATGGCCTCGTTAAAGTGGAAGATTCTCAAACAGACCGGAGCTTTAAAGGAAAGAAACCTAATATACCAGCAAATAAGGGCCCTTCTTTATTAGAATTGAGTGGCTACAATGAAAAGAGACAGGAGTTTGATCCAGAATATGATAATGAGGCTGAGCAGCTGCTAGCGGAGATGGAATTTAAGGATGCTGACGGCGAGGATGAGCGAGAGCTGAAAATGCGAGTGTTGCGTATATACTCGAAGAGGCTAGATGAGAGGAAGCGGAGAAAAGATTTTATACTACAAAGAAATTTACTTTATCCCAGTTCTTTTGAAAAGGAATTATCAGCTGAAGAGAGGGCAATATGTCGTCAATATGATGTCTTCATGCGTTTCCATTCTAAGGAAGAACACGAGGAATTGCTTCAAACAATTGTTGCAGAGCATCGGACCTTGAAAAGAATTCAAGAACTTAAGGAAGCCAGAGTGGCTGGCTGCCGTACACCGACTGAGGTAGAGATCTTTCTTGATAAGAAAAGGAAAAGAGAATCTGAAGAAGCTGATCGTAGAGTGAAAGATAGTAATCTTACAGGCCCTGGAAGTCAGGGGAATTCAATCATGTTCATACCATCTGAATCCGCTGGCAAGGATTCAAATTCACGACCGGCAGTGCAGGCTCTTTCTGGCTCTGTCAGCGACTTCGATATGTTGGGATTCAATGGCGCAGAGTTTCTCTCTGAAGCTGAAAAAAGACTATGCAGTGAAATTAGACTAACTCCACCTCTTTACCTAAGGATGGAAGAAGTTTTATCAGTAGAGATTTTCAATGGCAATGTGACCAAGAAATCTGATGCCCATCACTTATTCAAGATTGATCCAAGCAAAATTGACAGAATCTATGAGATGCTTATCAAAAAGGGGATTGCTCAGCCTTGA MGRSRGNFQSDEDPTQRSRRKKNSSSGDNLESTTPGQGTTEGKKALYHCNYCIKDITGKIRIKCAMCPDFDLCIECFSVGAELTPHKSNHPYRVMDNLSFPLICPDWNADDEILLLEGIEMYGFWNWAEVAEHVGTKSKEQCIEHYSCVYMNSPYFPLPDMSHVVGKNRKELLAMAKGHGEDKKGFSMLGELNLKEESPFSPSRVKVEDTHKVDPSGRLSSSSTSEEGSFNMATATANKKASSANQVKDGLVKVEDSQTDRSFKGKKPNIPANKGPSLLELSGYNEKRQEFDPEYDNEAEQLLAEMEFKDADGEDERELKMRVLRIYSKRLDERKRRKDFILQRNLLYPSSFEKELSAEERAICRQYDVFMRFHSKEEHEELLQTIVAEHRTLKRIQELKEARVAGCRTPTEVEIFLDKKRKRESEEADRRVKDSNLTGPGSQGNSIMFIPSESAGKDSNSRPAVQALSGSVSDFDMLGFNGAEFLSEAEKRLCSEIRLTPPLYLRMEEVLSVEIFNGNVTKKSDAHHLFKIDPSKIDRIYEMLIKKGIAQP Homology
BLAST of Clc01G11130 vs. NCBI nr
Match: XP_038877795.1 (transcriptional adapter ADA2b [Benincasa hispida]) HSP 1 Score: 1075.1 bits (2779), Expect = 0.0e+00 Identity = 544/552 (98.55%), Postives = 548/552 (99.28%), Query Frame = 0
BLAST of Clc01G11130 vs. NCBI nr
Match: XP_004139515.1 (transcriptional adapter ADA2b isoform X3 [Cucumis sativus] >KGN65000.1 hypothetical protein Csa_022863 [Cucumis sativus]) HSP 1 Score: 1062.0 bits (2745), Expect = 1.8e-306 Identity = 538/551 (97.64%), Postives = 542/551 (98.37%), Query Frame = 0
BLAST of Clc01G11130 vs. NCBI nr
Match: TYK15464.1 (transcriptional adapter ADA2b isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 1058.5 bits (2736), Expect = 1.9e-305 Identity = 536/551 (97.28%), Postives = 541/551 (98.19%), Query Frame = 0
BLAST of Clc01G11130 vs. NCBI nr
Match: XP_031746027.1 (transcriptional adapter ADA2b isoform X1 [Cucumis sativus]) HSP 1 Score: 1050.4 bits (2715), Expect = 5.3e-303 Identity = 538/570 (94.39%), Postives = 542/570 (95.09%), Query Frame = 0
BLAST of Clc01G11130 vs. NCBI nr
Match: XP_031746028.1 (transcriptional adapter ADA2b isoform X2 [Cucumis sativus]) HSP 1 Score: 1044.3 bits (2699), Expect = 3.8e-301 Identity = 537/570 (94.21%), Postives = 541/570 (94.91%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy Swiss-Prot
Match: Q9ATB4 (Transcriptional adapter ADA2b OS=Arabidopsis thaliana OX=3702 GN=ADA2B PE=1 SV=1) HSP 1 Score: 641.3 bits (1653), Expect = 9.7e-183 Identity = 334/551 (60.62%), Postives = 412/551 (74.77%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy Swiss-Prot
Match: Q75LL6 (Transcriptional adapter ADA2 OS=Oryza sativa subsp. japonica OX=39947 GN=ADA2 PE=2 SV=2) HSP 1 Score: 598.6 bits (1542), Expect = 7.2e-170 Identity = 331/569 (58.17%), Postives = 405/569 (71.18%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy Swiss-Prot
Match: Q9SFD5 (Transcriptional adapter ADA2a OS=Arabidopsis thaliana OX=3702 GN=ADA2A PE=1 SV=1) HSP 1 Score: 474.2 bits (1219), Expect = 2.1e-132 Identity = 268/561 (47.77%), Postives = 369/561 (65.78%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy Swiss-Prot
Match: Q59WH0 (Transcriptional adapter 2 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) OX=237561 GN=ADA2 PE=3 SV=2) HSP 1 Score: 195.7 bits (496), Expect = 1.4e-48 Identity = 150/526 (28.52%), Postives = 237/526 (45.06%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy Swiss-Prot
Match: Q02336 (Transcriptional adapter 2 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=ADA2 PE=1 SV=1) HSP 1 Score: 193.4 bits (490), Expect = 7.0e-48 Identity = 134/504 (26.59%), Postives = 230/504 (45.63%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy TrEMBL
Match: A0A0A0LSZ8 (Transcriptional adapter OS=Cucumis sativus OX=3659 GN=Csa_1G173200 PE=4 SV=1) HSP 1 Score: 1062.0 bits (2745), Expect = 8.5e-307 Identity = 538/551 (97.64%), Postives = 542/551 (98.37%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy TrEMBL
Match: A0A5D3CWZ7 (Transcriptional adapter OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold477G00340 PE=4 SV=1) HSP 1 Score: 1058.5 bits (2736), Expect = 9.4e-306 Identity = 536/551 (97.28%), Postives = 541/551 (98.19%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy TrEMBL
Match: A0A6J1CNK0 (Transcriptional adapter OS=Momordica charantia OX=3673 GN=LOC111012650 PE=4 SV=1) HSP 1 Score: 1006.9 bits (2602), Expect = 3.3e-290 Identity = 508/552 (92.03%), Postives = 521/552 (94.38%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy TrEMBL
Match: A0A6J1EI62 (Transcriptional adapter OS=Cucurbita moschata OX=3662 GN=LOC111434308 PE=4 SV=1) HSP 1 Score: 997.7 bits (2578), Expect = 2.0e-287 Identity = 506/552 (91.67%), Postives = 523/552 (94.75%), Query Frame = 0
BLAST of Clc01G11130 vs. ExPASy TrEMBL
Match: A0A6J1IAJ4 (Transcriptional adapter OS=Cucurbita maxima OX=3661 GN=LOC111471644 PE=4 SV=1) HSP 1 Score: 995.3 bits (2572), Expect = 9.8e-287 Identity = 505/552 (91.49%), Postives = 524/552 (94.93%), Query Frame = 0
BLAST of Clc01G11130 vs. TAIR 10
Match: AT4G16420.1 (homolog of yeast ADA2 2B ) HSP 1 Score: 641.3 bits (1653), Expect = 6.9e-184 Identity = 334/551 (60.62%), Postives = 412/551 (74.77%), Query Frame = 0
BLAST of Clc01G11130 vs. TAIR 10
Match: AT4G16420.3 (homolog of yeast ADA2 2B ) HSP 1 Score: 641.0 bits (1652), Expect = 9.0e-184 Identity = 334/551 (60.62%), Postives = 412/551 (74.77%), Query Frame = 0
BLAST of Clc01G11130 vs. TAIR 10
Match: AT4G16420.2 (homolog of yeast ADA2 2B ) HSP 1 Score: 639.0 bits (1647), Expect = 3.4e-183 Identity = 333/551 (60.44%), Postives = 410/551 (74.41%), Query Frame = 0
BLAST of Clc01G11130 vs. TAIR 10
Match: AT3G07740.1 (homolog of yeast ADA2 2A ) HSP 1 Score: 474.2 bits (1219), Expect = 1.5e-133 Identity = 268/561 (47.77%), Postives = 369/561 (65.78%), Query Frame = 0
BLAST of Clc01G11130 vs. TAIR 10
Match: AT3G07740.3 (homolog of yeast ADA2 2A ) HSP 1 Score: 474.2 bits (1219), Expect = 1.5e-133 Identity = 255/517 (49.32%), Postives = 346/517 (66.92%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
Date Performed: 2022-01-31
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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