ClCG11G018420 (gene) Watermelon (Charleston Gray) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATTTTTATAGCTTCCTTGTTAAAATCCCATAAAAATCAACCGGAAAGACGAAGTTATAATTTTTCAGAAGAAGATGTGGAGCTTATCCTCCTCTTTCCTTTCTTATCCGTCGCCTAATTTCAGAGTTTCCGTTCCGGCGGCCACCCTTCGCTCCGGCACTTCTTTACCGGTGCCCCTCGATCGGCAACATTGCACTTCCGACTCCCCATTTGCTCCGGAGGTAACAACAAAACTTCTCACTCTCCACGTAGAAATGTCATTTCTCCGTTTCTAATTTTAACCCCCGGAGTGCATTTTGATTTCTTAGAAAATCGGGTTTGCCTAATGGATTGGAAGCTGACTCTCTCAAATACCTAACCTATCAGCTTAAGTATTTTAACTGAATTTGTCAGCATAAGCTTTATTTTCAAGTTCGAAGCTGTAAGTCAAAAAGTTTATAAAAAATTATTTAGATTAATAATTAAGTTTTTATTCCCCAGTTCCAAACTAAGTTAGGGATAATAACGGATATTGTTATTAGTATTTCTATTAATATTGATATCAAACTCTTCAATTTATGGCTATATGAATGGATATATTGATATGCCAACTAATATTTTAATCCATGGATGGGACTCATAAAATCCTGTCTTCTTCCTGCATTTCTTGTAATGTCACATTTTATATGGAAGGGATCAAATATTGAAAACTTGTATATTTAGTTAGAATCCAATTCTTGTAGATAGGGTGTAGATCTTTCTATACATTATATATGGTCTCTGGCTTCTTAGTTATGAAGTGGTGATCAGCAGGTTGTTAAGGCGGTAGACTCCTTGCAGTATGAATTCAGGGCAGTGGATAATTTGGTGGCTCGTAACTCTGCTAAAGTTCTCAAAGCCTTTCAGAATGCTCGGTTAGGATCTCATGTCAGTAAATCAATCCTATGCATAAGTAGATAAATTCTTGCAAAGTATGTCTCACAATGTTAAACGAATTAATAATCTATTTGTTGTTATTGGTGCATTATTTTTTGATAGAATTGATTTCAACAATCTTGTGAAAAGTATACATATTATCTAATCTCTTTGGCTTATTTGTTTCTTGTGACGCTATAAGTATTTTACTCTAGTTCATTGATGAATGGTGTTTCTTAAAAATTTCACAACCAGCATTTTGGAGGATCCACTGGTTATGGTCATGATGAAGCTGGAGGTCGTGAGGCACTTGACAATGCTTTTGCTGAGATAGTTGGAGCAGAATCCGCAATAGTCCGATCACAGGTTTCTAGCAGTTGTTAATTTTATATTTATGTTCAGAAGTAATTGCTAAGTTTGGTGTTTTTGGTTTCTCTACCATCAGTTTTTCTCAGGTACTCATGCTATTACGTGTGCTTTATTTTCACTTTTGAGGCCGGGGGATGAGGTGAGTTTATTAGTAATGAATCAATTCATTTTTTCATCTTCTGATTTATCTCCTTAAGGTTGAATATGTTTTAAACTAATTTAACCATCAGCTTTTGGCAGTAGCTGGTGCTCCATACGACACACTAGAAGAGGTCATTGGGAAAAGAGATTCTCAGGGGCTGGGTTCTTTGAAAGATTTTGGAGTAGAGTATCGAGAAGTTCCAGTGAGCTACTAGCATCCATACTAATAAAACGATATGTTGCAAGGTTTTCGAAGATTCTTATATTGATTTTTTTGGGTTACTTCTTCAGCTTGCTGAGGACGGTGGACTTGACTGGGAAAAACTTGCATGTGCTTTGAAACCTCAAACAAAATGTGCGCTCATACAAAGGTCATGTGGTTATTCTTGGCGGCGAAGTTTAAGTGTTGACGAAATAGGAAAAGCAATAAGACTGATCAAGGTAAATCTTTTGATTGCATTTCGTAACTTTTAGGGTGAAAGATTGAGTGGAAGGTCAAAAGCCAATTCTCGGTTCTGTAATGTTAAGTGTTCAACATCCACAGTTAAAGTGTCTTCCCTTCCCTAAATATTTTCTGGATTTACTTCAGATCCCAAGTAACTGGGTTGAATATTAGATATTTCAGAATGACATAGCTATCTTGCCTATTATTGAGATCATAAATATTGCTTCTGCTGTCTTTATCTTTTTCCTCAATACTTTCTGAAACTTACTCTAGTCCCTCTAATTTTCACTACCGTCCAATTTCTATACTTTTTCATCTCTCTGGGGTTATTTTAATATTATTTTATTACCGTTTTATTTATTTATTTTAAATTTCTCTGACACTCTGCTAATGTCAATACTTACACTAGAATGGAATTATTTGACGCATGCTGTAGTATGGTTTATGACCACTAGTTCATATTCTCAATATTATCAGGAAAAACAGCAATGTCATCATCCAAGTGAGCTTGGAGAAATGATATTAAATCTCCTCACGTTTTCTTTGTACTAAAAGCGACTTATCCAGTGAATAAAATACATTTGCTAATATTTTCAGATGCAAAACCCTGATTGCTTGGTGATGGTGGATAACTGTTATGGAGAATTTGTGGAAACCACTGAACCTCCAACAGTGGTAAGTGATCTCAAGCTCCTTTTTCCTACTGAAGAATAGAATTTCTATCAGTAATGGTTGGAAGGGCGCGGATTTAATTGCAGGAAGTTTGATAAAAAATCCTGGTGGAACGCTTGCACCTTGTGGCGGATATGTTGCAGGTCGTGACAAATTGGTGAAGGCGGCTGCAGCTCGTTTATCTGCACCTGGCTTGGGGGTGGATTCAGGCTCTACCCCTGGTGATATCATGAGGACATTTTTTCAAGGACTATTCCTTTCACCTCAAATGGTTGGTGAGGCAGTTAAGGTATTTTTATCCTTTCTTCCTAGTTCTCCCGAGTTAAATTTTTTGGAATGAAGGTTAATATCCATCTTTCCTGATATCAGGGAATGATCCTAATAGCTGAAGTCATGGCATCAAAAGGCTACAAAGTGCAGCCACTTCCACGTGCACCCCGCAACGACACCGTACAGGTTTGCTGCACTTTGCTTTCTCCATAATATATGTATCATGTTATGAAGCACAAATACTTCATATGAGGTAGAGAACCGGTATTGGATAGTATCAAATACCAATACTCCCAAATACTTCCTAGATACGTGATTTGATGTATCTGTATTTTAAATATGGAATACATGTGTCCCCTTCCAAAAACGTGGAGGGGACATGCTGGACCTTTTTTCTTAAAAAAGGAAAAGCAGCTCATCTAGTCTTTTCCTGAGCTGCTTTTCCAAACCAAAACTAAGGAGCCCATTTAAGAAGCCCACTGCTACAACCCAAAACTAAAAGAAGAAAAAAGTTTGAAAAAACCAAACCCTAGAATCACCTAATCTTCATCTTCAAGCTGGAGTCCCCACAAAGTCATGTAAAAAATAACTCACCTGAATATCTTCAACCGTTTAACAAAGAAGTTCTTCAGTTATTTTCGTACTTCCCCCCTGCAATCTTCTTCTTTAATCGATCTGACTTTGGTGCACCACCAACCTTTTCTATTGTATTCTATTGACTATTGTATTTCAATATCTCTGATTACTTTCTGTAATGTATTTATTGTAATTTGTGTTATTGTCAATAACTTGATTCTTTTTATTGGATTACATCTAGTATCTTTATGTTAAATTTACATATATCCTAGATTTTTTTTCCTGGAAAAAACGTGTCTTCAACATAACTGTATCCTAGTTTTTTAGAAATTCATGCATGGTCGTATCCTATCATAATCTATCCCGTATTTGTATTCATGTCTTTGCTTCGTAGGTATCATGTATGATTACATCTTATGAATTCTTATATCTCGTTCAGGCTGTACAACTTGGAAGTCGTGAAGTTTTGCTTGCATTCTGCGAGGCTGTACAGAGAAGCTCCCCTGTTGCTTCGTTTACTAAACCAGTTCCAGGAATAACTCCTGGCTATGCATCAGAGGTACAGCCATAACTATACTTTCATGAAACTTTTCTCTTTTTCCTTCCTAATTGTAGCACGTAAGTAGAAGTTTCTCACATCAAACTAGTAGAAGATGACGATTGCTGAGCGAAACTAATATCAGAATTTGATTGAAACTTCCTCAGTTCTAATGATTGTTGCTTGTGATAAAAATGGACTGTGAAAGCTTCAACGACATCGCCATTTTTAAGCATTTTGTTGTCTTAGTTTTTTATTTTTGAAACCTCCATTACCATAACAACAGGTGATCTTTGCTGATGGAACATTCATTGATGGGAGCACTAGTGAGCTTTCTTGCGACGGACCTCTGAGAGAGCCATTTGCCGTCTTTTGCCAGGTTTGTGCCATTTTTTCGTAACTTAAAACCCAATGCATGCAATGAATTCATTTTATTAATGTGTTCAAATTAAAAGCTTAGTACCTAAACTTTCAAGTTTGTATATTTTGAACCTTTAACTTTAAAAAGTTTCTAATAGGTTTAGATATTTTTAAATTTTAAGAGTCTATTGAATATAAAATTGAAAGATCAAAAACTTATTAGGCAGAAAATTGAAAGTTTAGGGACTTATTATAATTTTTTTTTGAAGTTTATGATCATATCAAGCACAAACATAAAAGTTTGAAAACTAAATTTGTAATTTAACATAATAATTTTAAAAGTTTAAATTTTATTTTGCTCTAAATTTTCAAGTTTGTTTCACTTTATCTTTGTACTCTTAGAATATCAATTTTAGTCTAAACTTGGTGGTTTGTTTTAGTTTGTTTTATTTATTCAATTGATTAATGCAGCATGAACTCTCTCATCAAGTGGAAGTTTTCTGGTGCAGGGTGGAACACATTGGACCCAGTGGGGCTTAGTTTTAGGAGAGGTTTTGAAATCTGTATAAAATAAAAATATATTTGGTGAGTATTTAAGTCAACCACCCACTTGAGAACCTTCCTTTAATTTCTCATAAAGTTTTTCTGCTCCCTTGTTAAAACCCAATTCAACCCAAATTTTAAAAGGATTAAAATCATCTTTTTTTTGGTCATGTCATTTTGAAACATATTTTTAGTGCATGTTTGTGAGTGATTTTAAAATCACTCGAAAAAATACTTTTAATCACTCAAAATTAATTTAGTTTTCAATTTTACACTTAAATACATATCATCAAAATTAATTATGAAGGATTAAAAACATGTTTCGGAGTAATTTTGAAAATGAAAAAAGTAATTTTAGTAATTTTAAAATCACTCCTAAACATGCCTCTAATCATTTTAAGATCAATTCAATGTTTAATTTTTCATTTTTTATCTCATTTTTCTTACTATTAAAATTGATTTTGAATGATTAAAAATATTTTTCGAATGATTTTAAATGTGGCAAAAGTGATTTTAACATTTTAAAATCTCTTAAACATAAAAAAGTATCTTTTTGTCAAATTTCATAGCCAAAATAGAATTCCAAACTTCATTTCTGGTGATATGCTTTATGAGTTGTCTGAAAAGTGATGTGTCTACTAAAAGTTGAAACATCTGAATTGGTCTTAAAGTAGAGTGTACAAGGCTTAGTTGGCTTCGCTTTAATGCATGGTACCTCTAGTATGCAAGGGTCGGAGCGGAAACCTTGCCTAGAAAATTTACCGGGATCAGGTTCTTCATACAGAATTATTCTTCGATTATATTTACAAAATATGTTACTTCCAATTTAATAACCAATAATAGGCATGATAATAAATTTTTGACGATATGTAAATATTTTTATTGAATTTTTTATATTTTCATAAGCTCAACATTGAGATGAAAGGTGGATCGATGTTTTTAATATTTCAAAAAAAAAAAAAATTGAAACATACAAAATCAGCACTAAAAATATTACTAAGATATAAAATAAATAATAAAATACATCATCTTGTTTTATAAGACATAAAATGTTTATTTATTAATTAATTTTTTCATATAATTTTCTTTAAAAAAATATCTAATGACATTCATCTTTTATTGATATTTTCAAAAAAAATGAAATACTGACATTTTAAATGTTTATTATAACATGAAAAATATTTGTATGGTCTCGAAATTTTAGGTTTAGTTTTCATTTTATTTTATTTTACTTTTAGTTTTTAAGTTTTGAATTTGATTTTAATTTAGTCATTAGTTTTTAAAATGTTACAATTTTATCTATGAATTTGAGTTTGTTTCAATTTGATCTATAGACTTCTAGATTTACATTTTTAAGCTTAATTTTTCACTAAATACTTATTTTTAATTTTTAGTGTTGATTTCTACAAATTGATTTAAAATAATTATAATTAATCAAGTTTAACTATTTTTTCATTACTATTAAAATTAGTTTAAAAATTTTATTTCATAATTATTTTAAATTAATTAATAGACATTAATGCCAAAAATTGCAGTGAGCCTTTGGTGAAAAATCAAGATTAAAATTATAAATTTTGAAACTTAAAAACCAAATTAAAACAATACTTAAATTAAAAAATAAAAGTGTAACTAGTTAAATCTAAAAAATAAATTGAAATTAATTAGACTGAATTATAACATTTTAAAATGTAGAGAGCAGAAGTGACTACTAAATCCCGAATGAAGGGTCCAAAAAACTTATTTTAAGCTCAAACCATACGCGTGGGTGTATATATATATACATACGCGTGGGTGTGTGTATATATATATTGCGAAGAAGTCGGACATCGCAGGTCGGCACACGGAAATGTAAAGGAATTAGTGAAAGTTACGTCGTCGTTTCGATTTTTCAAAGAAACGAGTGAAGGACGCGTTCGATACACGAGATTCACGAGTTGAAAAATCCTCCACAGACGTACTTACTTCTTCTTTTATTAGTACAATTATTTAATCTCCATTCCAAAGAAGAATTTCTTTCCCACAATTTCTAGGAATCAAGCATTGGAATCTCCAAAAACAGCCAAAGAAATTTGTATCTGGTAAGATTTGTTTCGCTTTTTCGCCATCCATTCAGATTTTCAGTGTTGTAGCATCTCCAACACTTTTGTTGTTGCGGTAATGATAAGAAAATCGATTAACAAACACATCATCGCCTATGTATATTTGACTTCACTTCGCCTTTTCTACTTCACTTTCCAACTCCGAAGAAGCAACGCTTTGGATTGGATCTTACTTTTGTGCGATCATTATGCTTTCGTAACTTTCATGTTCTCATTTGTGTCACTGTAGCTTTATTTTCTCCTTTCTCTACTGGTTCTGATTATAGGAGAATTGAATGGAAAAGTAGCTGAGATAGTGAGAAATGTGATTAGCATTGATCGCATTTCGCAAGTTTCCTCATGGAACTTAGATTGCTGCTGATTTATGCTTATTAAGCGAAGTTATGCAATCAGTATGCTTCAAGTTATTAAGACTGTTTTTTAACTGCCAATAATGATTTTCCGGAGTTGGAACTGTAGAGTGTAGAGGAGATTGCGATTCCTAGACCTAGAAGACATTTATGACAAGGGATGCAGATGGTGTTAGAACTGTCTGAGATTAAAAAATGGAGAGTCAAGCCCTTTTTAGTACTTTGGCAGTAAGGATGTGGAAGATGATCCAGAGATATGTGAATTCACCAACTTAAATTAACGCTTAGCTGGGATCTGATACAAATAATAATAAATATAATAATAAACCACTTTTTTTTTTATGTTTGTACGCATGTGTGTTATATTTATGTATAATTCATTAACTAATCTAATATGTAGTAGGTTGTATCATTGTAAGTATATGTGTAAGCTACCTACAATCTACAATTTACAAGTCCAGGGAATAACATATCACCAAGAAATAATTCATATTTAAAAAATTGTCAAGTTGCAACAATGGTAGAGATGGGATTAGGAAATGGAATGTAACTGTGCGCCTATGACTTTTATTCAATCAATTACCATTTGCTTTTATTTGAGTTTTTTTTGTTCTTACTTTTGTAGGCTCTCTTTCCACCTATACAGTGATTAAACAAACTCAATTAATCTTCTTCTGTCTTTTACTAGTAGATGAAGCTTCGAATTTAACTCTTTGCTCTGGAAATACTGAGTTGATTGTGCTTTTGGATGCTTATTAAGCTACATTTCAGTCTGCAGATCTCATTTCTTTGTAACCTCAGTGGTTAACATATCAGCAATCACAATGGACTATGGACAGATGATTTTTTTTGGAGTTACTTCCTCTGTTGTTCTCACGGCAGTATTCTCATTATGGCTCCTTACCCAACATCTGTCCAACTGGAAAAAACCAGCGGAACAAAAGGCCATTGTTATTATAATTCTTATGGCTCCTTTATATGCCGGTATCTCCTACATTGGTCTGTTGGAATTTATGGCAAGCAGTACTTTCTTTTTGTTTTTGGAATCAATTAAGGAATGTTATGAGGCTTTGGTAAGATTTTGATCCTAAAGACATTTGCGAATGAAGATTGATTTCTTGAAGTAACTTCCTAGTTTTTCCTTGTAGGTGATATCTAAGTTCTTGAGTTTACTCTACAGCTACTTGAATATATCCATAAGCAAAAACATTGTGCCAGATGAGATCAAAGGTAGAGAAATCCACCATACTTTTCCAATGACCCTCTTTCAGGTAAGCTTTTTCTCTTCTCCTCTGTTCACGTACCAAAGAGATTATACCAGGGTCATTATTTTGATGTTCATTTAAATTCAGTACATCATGACATGTTGGTACTAGAAAAACATGAAGCATAAAGGTTTCAATGTTTTATTTGCTACTATGCTTCTTGAAACATTTCATTCTTCTTTTATCTTCTCATACAAATGAATATTTGACTGTGATTGGTTCAACAAAACTAGTACAACTTAGTTGGCAATGATGATGAGATGGTCAACTGGACTGATTAAACCTTTAACATTAGGACTAAACATCATGTTTGACTACAATTCTAATGTTTTTCTTAAAACATTATTACACCACTAGCTCTATGAATATCCATCCCTGGTCAAAGTTAACACTGAAATCGTTTGTACTTGTACATTATCCGATCATTATGTTGTCAACTTCACTATTTTTTGGAGTAATTAGTTTGATCTCGTAAATACTTCTGGTCGGACTTACAGCCACGGATCTTAAGTTTATAATTATAGCTTAGTAAAACTAAACTAGTCACTTTGTTTCTTTGGGTTTTATTGGAGGATCAAAGAGTGACTTTGAATGTTGACTCCCTATCAATTGCAGCCTCACAGTGCTCGATTGAATCATCACACGTTGAAGCTTCTCAAGAACTGGACCTATCAATTTGTGGTGATTCGTCCTGTATGTTCCATCTTGATGATTGCTCTTCAACTAATTGATGTATATCCAAGCTGGCTCAGTTGGACATTTACTATCATATTAAATGTCTCAGTGTCACTTGCACTGTATTCCCTGGTGGTTTTCTATCATGTATTTGATAAGGAGTTGAAACCACATAGCCCTCTTGCGAAGTTCTTGTGCATCAAAGGGATTGTCTTTTTCTGCTTCTGGCAGGTAATTTTCTCATCCGAGTTTCTCAGATTTTCATTTAGCTTAAATATCCGAAGATGTCATCACATTCCTTTGTAGTTAAAATGTCATCGTTTCCCAAAATCTAAAACCAGCCACTTATAACTGGGCATAGAGAAATGTGCGTCTTTCTCGGGATCTGGTGCTTTACTTGCTTGGAATTTCATTACTCTATTTCTTTTTTTATATATATATTCATGAGTGTTCGGGCTAGTTTACGCACACCTCGACTATTCTTATGAGACAACCCACCTGGTGTTAAGGAAATATGTAGGTGGCGACCATGGATTGAACCCATGACCTCTTAGCCATTTATTGATACTATGTCTCATTTTTTACCACTAGGCTAACCCATGATAAACCATTACTTTATTTCTATTCATCGTGTTATCTTATGCCTACAAATCTACTTGAATTTTATTTCTAAAATCCCAACTCACATTGCATTTTCCGTCGGAAAACTGCAGACCTTTTATTCTAAACAAGATTGTTCATCTCATTTCATCCTTGTGCTCTAGAAACTCCTTGATTTTGCATCCAAATAATGTACTCTAGAAATTTTTTTGGGCAAAACAAAAAATGAGATGCTACTGCACCGCCGATGCACAGTGATGATATTGTAAGTTTATTGTAGGTTACTGGTTGCTATGATTGGTTGTAGTAGCTTAACTGACGTCATTTGGTATCGTTCGTAAGTTGGTAATGCAAGTTCTAAATACAGATGCAGAGTTTGATTAATTAAGTCAATGAAAGACAATACTTTCCTCTTGTAAGTTTGCAGCTGCCTTTTGACATATTTTGTAAGTCTTAATCAACCATAGCCGAAGTATAACTCCCACTGATTAGAATATGACCAATTTGTGAAGTTCACTGCGTCTTATTTGCTGATCTATGCATCAAGGCAATCTACTATTGAAACAAATATTTCAGGTTTTAAACTAAAACAACTTAAATCATGGTATCCCCTTTCAGGGAATCGTTCTTGAGATGCTTGCTGCAGTGGGCATAATCAAAGCAGAACATGCCTGGTTTGATGTTGAACACATAAATGAAGCCTTACAAAATACTCTAGTTTGTGTGGAGATGGTTTTCTTTGCGATGATTCAGATGTCTGCATACAGTGCTAGCCCCTACAAATCTAAATCTGCAGCAAAATCTAAAGTGGAGAAGAAGGATGAGTGA ATTTTTATAGCTTCCTTGTTAAAATCCCATAAAAATCAACCGGAAAGACGAAGTTATAATTTTTCAGAAGAAGATGTGGAGCTTATCCTCCTCTTTCCTTTCTTATCCGTCGCCTAATTTCAGAGTTTCCGTTCCGGCGGCCACCCTTCGCTCCGGCACTTCTTTACCGGTGCCCCTCGATCGGCAACATTGCACTTCCGACTCCCCATTTGCTCCGGAGGTTGTTAAGGCGGTAGACTCCTTGCAGTATGAATTCAGGGCAGTGGATAATTTGGTGGCTCGTAACTCTGCTAAAGTTCTCAAAGCCTTTCAGAATGCTCGGTTAGGATCTCATCATTTTGGAGGATCCACTGGTTATGGTCATGATGAAGCTGGAGGTCGTGAGGCACTTGACAATGCTTTTGCTGAGATAGTTGGAGCAGAATCCGCAATAGTCCGATCACAGTTTTTCTCAGGTACTCATGCTATTACGTGTGCTTTATTTTCACTTTTGAGGCCGGGGGATGAGCTTTTGGCAGTAGCTGGTGCTCCATACGACACACTAGAAGAGGTCATTGGGAAAAGAGATTCTCAGGGGCTGGGTTCTTTGAAAGATTTTGGAGTAGAGTATCGAGAAGTTCCACTTGCTGAGGACGGTGGACTTGACTGGGAAAAACTTGCATGTGCTTTGAAACCTCAAACAAAATGTGCGCTCATACAAAGGTCATGTGGTTATTCTTGGCGGCGAAGTTTAAGTGTTGACGAAATAGGAAAAGCAATAAGACTGATCAAGATGCAAAACCCTGATTGCTTGGTGATGGTGGATAACTGTTATGGAGAATTTGTGGAAACCACTGAACCTCCAACAGTGGGCGCGGATTTAATTGCAGGAAGTTTGATAAAAAATCCTGGTGGAACGCTTGCACCTTGTGGCGGATATGTTGCAGGTCGTGACAAATTGGTGAAGGCGGCTGCAGCTCGTTTATCTGCACCTGGCTTGGGGGTGGATTCAGGCTCTACCCCTGGTGATATCATGAGGACATTTTTTCAAGGACTATTCCTTTCACCTCAAATGGTTGGTGAGGCAGTTAAGAGAAGCTCCCCTGTTGCTTCGTTTACTAAACCAGTTCCAGGAATAACTCCTGGCTATGCATCAGAGGTGATCTTTGCTGATGGAACATTCATTGATGGGAGCACTAGTGAGCTTTCTTGCGACGGACCTCTGAGAGAGCCATTTGCCGTCTTTTGCCAGAGTGTACAAGGCTTAGTTGGCTTCGCTTTAATGCATGGTACCTCTAGTATGCAAGGGTCGGAGCGGAAACCTTGCCTAGAAAATTTACCGGGATCAGTATTCTCATTATGGCTCCTTACCCAACATCTGTCCAACTGGAAAAAACCAGCGGAACAAAAGGCCATTGTTATTATAATTCTTATGGCTCCTTTATATGCCGGTATCTCCTACATTGGTCTGTTGGAATTTATGGCAAGCAGTACTTTCTTTTTGTTTTTGGAATCAATTAAGGAATGTTATGAGGCTTTGGTGATATCTAAGTTCTTGAGTTTACTCTACAGCTACTTGAATATATCCATAAGCAAAAACATTGTGCCAGATGAGATCAAAGGTAGAGAAATCCACCATACTTTTCCAATGACCCTCTTTCAGCCTCACAGTGCTCGATTGAATCATCACACGTTGAAGCTTCTCAAGAACTGGACCTATCAATTTGTGGTGATTCGTCCTGTATGTTCCATCTTGATGATTGCTCTTCAACTAATTGATGTATATCCAAGCTGGCTCAGTTGGACATTTACTATCATATTAAATGTCTCAGTGTCACTTGCACTGTATTCCCTGGTGGTTTTCTATCATGTATTTGATAAGGAGTTGAAACCACATAGCCCTCTTGCGAAGTTCTTGTGCATCAAAGGGATTGTCTTTTTCTGCTTCTGGCAGGGAATCGTTCTTGAGATGCTTGCTGCAGTGGGCATAATCAAAGCAGAACATGCCTGGTTTGATGTTGAACACATAAATGAAGCCTTACAAAATACTCTAGTTTGTGTGGAGATGGTTTTCTTTGCGATGATTCAGATGTCTGCATACAGTGCTAGCCCCTACAAATCTAAATCTGCAGCAAAATCTAAAGTGGAGAAGAAGGATGAGTGA ATGTGGAGCTTATCCTCCTCTTTCCTTTCTTATCCGTCGCCTAATTTCAGAGTTTCCGTTCCGGCGGCCACCCTTCGCTCCGGCACTTCTTTACCGGTGCCCCTCGATCGGCAACATTGCACTTCCGACTCCCCATTTGCTCCGGAGGTTGTTAAGGCGGTAGACTCCTTGCAGTATGAATTCAGGGCAGTGGATAATTTGGTGGCTCGTAACTCTGCTAAAGTTCTCAAAGCCTTTCAGAATGCTCGGTTAGGATCTCATCATTTTGGAGGATCCACTGGTTATGGTCATGATGAAGCTGGAGGTCGTGAGGCACTTGACAATGCTTTTGCTGAGATAGTTGGAGCAGAATCCGCAATAGTCCGATCACAGTTTTTCTCAGGTACTCATGCTATTACGTGTGCTTTATTTTCACTTTTGAGGCCGGGGGATGAGCTTTTGGCAGTAGCTGGTGCTCCATACGACACACTAGAAGAGGTCATTGGGAAAAGAGATTCTCAGGGGCTGGGTTCTTTGAAAGATTTTGGAGTAGAGTATCGAGAAGTTCCACTTGCTGAGGACGGTGGACTTGACTGGGAAAAACTTGCATGTGCTTTGAAACCTCAAACAAAATGTGCGCTCATACAAAGGTCATGTGGTTATTCTTGGCGGCGAAGTTTAAGTGTTGACGAAATAGGAAAAGCAATAAGACTGATCAAGATGCAAAACCCTGATTGCTTGGTGATGGTGGATAACTGTTATGGAGAATTTGTGGAAACCACTGAACCTCCAACAGTGGGCGCGGATTTAATTGCAGGAAGTTTGATAAAAAATCCTGGTGGAACGCTTGCACCTTGTGGCGGATATGTTGCAGGTCGTGACAAATTGGTGAAGGCGGCTGCAGCTCGTTTATCTGCACCTGGCTTGGGGGTGGATTCAGGCTCTACCCCTGGTGATATCATGAGGACATTTTTTCAAGGACTATTCCTTTCACCTCAAATGGTTGGTGAGGCAGTTAAGAGAAGCTCCCCTGTTGCTTCGTTTACTAAACCAGTTCCAGGAATAACTCCTGGCTATGCATCAGAGGTGATCTTTGCTGATGGAACATTCATTGATGGGAGCACTAGTGAGCTTTCTTGCGACGGACCTCTGAGAGAGCCATTTGCCGTCTTTTGCCAGAGTGTACAAGGCTTAGTTGGCTTCGCTTTAATGCATGGTACCTCTAGTATGCAAGGGTCGGAGCGGAAACCTTGCCTAGAAAATTTACCGGGATCAGTATTCTCATTATGGCTCCTTACCCAACATCTGTCCAACTGGAAAAAACCAGCGGAACAAAAGGCCATTGTTATTATAATTCTTATGGCTCCTTTATATGCCGGTATCTCCTACATTGGTCTGTTGGAATTTATGGCAAGCAGTACTTTCTTTTTGTTTTTGGAATCAATTAAGGAATGTTATGAGGCTTTGGTGATATCTAAGTTCTTGAGTTTACTCTACAGCTACTTGAATATATCCATAAGCAAAAACATTGTGCCAGATGAGATCAAAGGTAGAGAAATCCACCATACTTTTCCAATGACCCTCTTTCAGCCTCACAGTGCTCGATTGAATCATCACACGTTGAAGCTTCTCAAGAACTGGACCTATCAATTTGTGGTGATTCGTCCTGTATGTTCCATCTTGATGATTGCTCTTCAACTAATTGATGTATATCCAAGCTGGCTCAGTTGGACATTTACTATCATATTAAATGTCTCAGTGTCACTTGCACTGTATTCCCTGGTGGTTTTCTATCATGTATTTGATAAGGAGTTGAAACCACATAGCCCTCTTGCGAAGTTCTTGTGCATCAAAGGGATTGTCTTTTTCTGCTTCTGGCAGGGAATCGTTCTTGAGATGCTTGCTGCAGTGGGCATAATCAAAGCAGAACATGCCTGGTTTGATGTTGAACACATAAATGAAGCCTTACAAAATACTCTAGTTTGTGTGGAGATGGTTTTCTTTGCGATGATTCAGATGTCTGCATACAGTGCTAGCCCCTACAAATCTAAATCTGCAGCAAAATCTAAAGTGGAGAAGAAGGATGAGTGA MWSLSSSFLSYPSPNFRVSVPAATLRSGTSLPVPLDRQHCTSDSPFAPEVVKAVDSLQYEFRAVDNLVARNSAKVLKAFQNARLGSHHFGGSTGYGHDEAGGREALDNAFAEIVGAESAIVRSQFFSGTHAITCALFSLLRPGDELLAVAGAPYDTLEEVIGKRDSQGLGSLKDFGVEYREVPLAEDGGLDWEKLACALKPQTKCALIQRSCGYSWRRSLSVDEIGKAIRLIKMQNPDCLVMVDNCYGEFVETTEPPTVGADLIAGSLIKNPGGTLAPCGGYVAGRDKLVKAAAARLSAPGLGVDSGSTPGDIMRTFFQGLFLSPQMVGEAVKRSSPVASFTKPVPGITPGYASEVIFADGTFIDGSTSELSCDGPLREPFAVFCQSVQGLVGFALMHGTSSMQGSERKPCLENLPGSVFSLWLLTQHLSNWKKPAEQKAIVIIILMAPLYAGISYIGLLEFMASSTFFLFLESIKECYEALVISKFLSLLYSYLNISISKNIVPDEIKGREIHHTFPMTLFQPHSARLNHHTLKLLKNWTYQFVVIRPVCSILMIALQLIDVYPSWLSWTFTIILNVSVSLALYSLVVFYHVFDKELKPHSPLAKFLCIKGIVFFCFWQGIVLEMLAAVGIIKAEHAWFDVEHINEALQNTLVCVEMVFFAMIQMSAYSASPYKSKSAAKSKVEKKDE Homology
BLAST of ClCG11G018420 vs. NCBI nr
Match: KAG6591988.1 (hypothetical protein SDJN03_14334, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1212.2 bits (3135), Expect = 0.0e+00 Identity = 628/736 (85.33%), Postives = 647/736 (87.91%), Query Frame = 0
BLAST of ClCG11G018420 vs. NCBI nr
Match: KAG7024863.1 (ynbB [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1205.7 bits (3118), Expect = 0.0e+00 Identity = 625/725 (86.21%), Postives = 646/725 (89.10%), Query Frame = 0
BLAST of ClCG11G018420 vs. NCBI nr
Match: KAA8523841.1 (hypothetical protein F0562_010264 [Nyssa sinensis]) HSP 1 Score: 977.6 bits (2526), Expect = 5.4e-281 Identity = 521/800 (65.12%), Postives = 587/800 (73.38%), Query Frame = 0
BLAST of ClCG11G018420 vs. NCBI nr
Match: RXI03688.1 (hypothetical protein DVH24_004340 [Malus domestica]) HSP 1 Score: 971.1 bits (2509), Expect = 5.1e-279 Identity = 511/757 (67.50%), Postives = 569/757 (75.17%), Query Frame = 0
BLAST of ClCG11G018420 vs. NCBI nr
Match: CAB4107049.1 (unnamed protein product [Lactuca saligna]) HSP 1 Score: 956.8 bits (2472), Expect = 1.0e-274 Identity = 501/748 (66.98%), Postives = 568/748 (75.94%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy Swiss-Prot
Match: P94479 (Uncharacterized protein YnbB OS=Bacillus subtilis (strain 168) OX=224308 GN=ynbB PE=4 SV=2) HSP 1 Score: 292.0 bits (746), Expect = 1.8e-77 Identity = 151/372 (40.59%), Postives = 223/372 (59.95%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy Swiss-Prot
Match: P45624 (Uncharacterized 33.9 kDa protein in glnA 5'region OS=Lactobacillus delbrueckii subsp. bulgaricus OX=1585 PE=4 SV=1) HSP 1 Score: 204.5 bits (519), Expect = 3.8e-51 Identity = 112/282 (39.72%), Postives = 156/282 (55.32%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy Swiss-Prot
Match: Q17QL9 (Transmembrane protein 184C OS=Bos taurus OX=9913 GN=TMEM184C PE=2 SV=1) HSP 1 Score: 140.6 bits (353), Expect = 6.7e-32 Identity = 86/262 (32.82%), Postives = 144/262 (54.96%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy Swiss-Prot
Match: Q3TPR7 (Transmembrane protein 184C OS=Mus musculus OX=10090 GN=Tmem184c PE=2 SV=1) HSP 1 Score: 138.7 bits (348), Expect = 2.6e-31 Identity = 85/262 (32.44%), Postives = 144/262 (54.96%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy Swiss-Prot
Match: Q54WM0 (Transmembrane protein 184 homolog DDB_G0279555 OS=Dictyostelium discoideum OX=44689 GN=tmem184C PE=3 SV=1) HSP 1 Score: 138.3 bits (347), Expect = 3.3e-31 Identity = 89/255 (34.90%), Postives = 141/255 (55.29%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy TrEMBL
Match: A0A5J5A352 (Uncharacterized protein OS=Nyssa sinensis OX=561372 GN=F0562_010264 PE=4 SV=1) HSP 1 Score: 977.6 bits (2526), Expect = 2.6e-281 Identity = 521/800 (65.12%), Postives = 587/800 (73.38%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy TrEMBL
Match: A0A498K8E2 (Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_004340 PE=4 SV=1) HSP 1 Score: 971.1 bits (2509), Expect = 2.5e-279 Identity = 511/757 (67.50%), Postives = 569/757 (75.17%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy TrEMBL
Match: A0A3Q7HH85 (Uncharacterized protein OS=Solanum lycopersicum OX=4081 PE=4 SV=1) HSP 1 Score: 966.8 bits (2498), Expect = 4.7e-278 Identity = 493/722 (68.28%), Postives = 569/722 (78.81%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy TrEMBL
Match: A0A6S7PJH8 (Uncharacterized protein OS=Lactuca saligna OX=75948 GN=LSAL_LOCUS34096 PE=4 SV=1) HSP 1 Score: 956.8 bits (2472), Expect = 4.8e-275 Identity = 501/748 (66.98%), Postives = 568/748 (75.94%), Query Frame = 0
BLAST of ClCG11G018420 vs. ExPASy TrEMBL
Match: A0A5N5GL16 (Uncharacterized protein OS=Pyrus ussuriensis x Pyrus communis OX=2448454 GN=D8674_022415 PE=4 SV=1) HSP 1 Score: 916.4 bits (2367), Expect = 7.2e-263 Identity = 491/750 (65.47%), Postives = 544/750 (72.53%), Query Frame = 0
BLAST of ClCG11G018420 vs. TAIR 10
Match: AT4G21570.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 389.8 bits (1000), Expect = 4.5e-108 Identity = 195/270 (72.22%), Postives = 228/270 (84.44%), Query Frame = 0
BLAST of ClCG11G018420 vs. TAIR 10
Match: AT1G11200.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 355.5 bits (911), Expect = 9.4e-98 Identity = 168/269 (62.45%), Postives = 219/269 (81.41%), Query Frame = 0
BLAST of ClCG11G018420 vs. TAIR 10
Match: AT1G77220.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 122.1 bits (305), Expect = 1.8e-27 Identity = 81/274 (29.56%), Postives = 144/274 (52.55%), Query Frame = 0
BLAST of ClCG11G018420 vs. TAIR 10
Match: AT1G23070.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 108.2 bits (269), Expect = 2.6e-23 Identity = 85/273 (31.14%), Postives = 132/273 (48.35%), Query Frame = 0
BLAST of ClCG11G018420 vs. TAIR 10
Match: AT5G26740.1 (Protein of unknown function (DUF300) ) HSP 1 Score: 106.7 bits (265), Expect = 7.6e-23 Identity = 81/266 (30.45%), Postives = 137/266 (51.50%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (Charleston Gray) v2.5
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.
|