ClCG01G011660 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CCCTTTCGACGGCGGCTCCCCTGGCTTCAGACAGAGCAGTACCGTGCTGCTCCAGCTCCACCATCGTGTTGCAACCCGTCGATCTTCTTCATCTCTCGATTTCAGGTATTCTTCTCCATTCCCATCTTTGTCTTCCAATGCATTCTTATGTTTTTGATCGGCCATTGAACCCGATTTCGCTCCACTATGGGTTTTGGCTGTACAATTGCTTCCCGGAATCCCTTTTCCCATTCTATCTTGTCAGATTTCATCCGATTTCTCACTCGAATTTCATCCTCAATCGACTTCATGACTAAATCTGTCTGAGCTCTATCCTGCTTCTTCATTCTTGCCTGCAATCTTTTTCTGCTTCATCTCTTCGATTTGATTTTCTGCCCCTTCATTGGCGGTACAATTTCAGTGTAATTTTCGAACCTCTGTGATTCAGTTTAAGTCCTTCCAGATTCGGCATAACCATTAAAAATCTTTCTGTCTAGTGCCTAGATGGATTCGGATTGGATTTTTTCTGGATAAGAAACAATTTCATTGATCAAATGAAATATCCAAGGATATATAAAAAGAGCCCCTTTTATAGGGCAAACAAAAGATGTTTCCAATTTTTAACGAGAAAAGAAAAACTGTGGCTTTGAAATGCTGGTAAAGATTTACACCAAAAGATTGCATTGAAGATAGCAGATTCAAGAACATCTCCGGATGATTTGGATTTGTTCTGAAAATTTTGAGCGTTTCTCTCGTCCCATATCTTCCAAAAACAGCAACCACAATGCTTGTCCATAAAGTCTCTTTAGCATTCTTGAAAGGGTGATCAATGAGGAGCATATTGGACCAATTCAATGAGCCGTTTGGAAGGACAATGTGCCAATTAAAAGCTTCAAGTATTTTCATCCAACGATCAGTCACAAAGGAACAATTTAAAAACAAGTGACTTGGTGAGTTCACTTTCTCTATGGCATAAACATCAGCATGAAGAATTCATGGACATCGTTTTTGGAGTCTATCTGATGTGTTGAGACATGAATGGGCAATCTCCCAAATGAGAAATATAATTCTCTTGGGGCTATGGTGAAAAAACCATTGTTCTCCAACTTCCATACCCATGAGTCCCTATGGTGAGATAGAGTAACGTTAGGGATGAGATGGGTAAGGGATGCCGATTCAGAAATCTCATCATCATTACGATTTCTTCTAAACTTCAGTGACCAAGCAGCATTTCCATCATTCCAAACATCTGCAATAGAAGCATCTTTGGAGTTCGCAATGTCAAAGAGCTTTGGGAAAATCCGTTTCAGAGGGCTCTCTCCAGGCCAAGCATCAGGCCAGAAGGCTATTATTCACCCTTCTGAAGCTTGTAGTGTACATTATTGAGAATGAGGTCTTTATGATATAAAATGTATTTCCAAGGGCTCCTGGATGATACTTTGTGGTTTTCTGCAGGCTTTAAATGAAAACAGTGGGAGCCAAACTTGGCTTTTATGACTTTCCTCCATAGAGAATCCTTTTGGTTGCCATAGCACCAAATCAATTTTGCAAGAAGAGCTTTATTTTGCTGTTTGATGTCTATAATGCCCAGACCACCTTCTGCAGTGGGCTGTTTTTTAAAATATTCCATTCGAGAAGATGACTAGCGTTGCTGCCTCTGTTGCCTGACCATAAAAAATTACGATGAAGCCTCTCAATTTTTTCCACCACAGTGTTAGGAACATGGAAAAGGGACGAGAAATAAGTGGGTAAGTTTGATAAAGTGGTCTTAAGTAGTGTTAATCTGCTGCCTTTAGAGGGAAAATTAAGCTGCCATGACTGTAATTTCTTGCTAATCTTGTCCAATATAGGTTGCCAAAAGGAGCCAGACTTTGGCTCTCCAAAAAGGGATAACCCCAGATAAGTTGATGGCCAAGAACCCACCTTGCAGTCAGATTTATTGGCAATGGAATCAACCCATTCCTCTTCCCAATTGATGCCTAAAAATTCAGATTTGGATCCTAAAGGGGTAGGATCTGTTTGGCTAATCCCTAAACGCTTCTGAGTAATTTTACAATAAGCTCTATGACCTATAAATCACTTCAGGCAAGCTTTTAGGCCTCTAATTTCTGTTTAATTTATATGAATTCTTTAGGTTGGGGGTTACAAGGATGCTCTAAGATAAGCTAGGTCATTATTGGAAATCGCTTTAAGGTAAATGGCCTTACTAATGGAAGGCTTGTAGCTAGGTTGGACATTTCTATGTTGTATGAGCTAGTGAGTGCCTGCATTATGCGGTTTGAATAATTAATGAATTGTTGAATGTTCTGAATTGTGTGTTTAGAGTGAATTAGTAAATGTTTGTTTATGTGACATGAATGTTGAATGAACTGGATGTCTGATTTAGGTGTCGTGAATGTGGTTTTAATGACTTGATGATATACATGTTGGCATGCAGATGAGACCTTAGTCTGGATTGTTATGATACATGGAAAATTTTTGACTACCAGAACTCATGCATAGTTATGTTTGAAGCATATTTTATGAAAAGTTGCAAACGTCTATCAAAGATCATGAGAATGTGCCATGATTGAGGAGCTACGAGAGCAAAGTATGGCTTCATAGGATGGGTGCCAGCTACCAACGGTTGGAGTTGAGTTCTACTTGATGGCCTCTTATGCACCACCAGAGAGTTTGTAACTTAATGTCTATAATTTAGGCTAAGGTGCCATGTTGGGTGAGATTGGCTCTGTTAATTGAGTGCCAACTACCATTAAATAGAATCGAGACTCCTTGGATTCTTGCTTGTGTGCCACCAATGAGTTGGTATAGTTTAATGAGATGGTATAATTGTCTGCTTTGACTAGTTGGAAAAGTTGTTACTAAACTTTGGCTCCCTCCTATTTGTCATTAGGTGCCTATCGTGCCTGTGCATGCATGTCTAACCCCTCTGTGGGTTTACATTATTTATTTACATCATTGATTGTTTAGGCTAGCTTGCGAACATCTCGACTAATCTCACGGGACAACTCACCTGACCGTACAACGTTTAGGTGCCGAGGAAACTCATAGAACATTAAATCCTAGGTAGGTGGCCACCATAAATTGAACCCATTCCTCCAAGTCCTTTATTATACTCATGACCCATTGACCACTTGACCAATCCATGAGGTTCATTAGTGGGGTTACTTACGGAGTATTTTTAATACTCTACCCTTTCCAAAAATATTGTTTTCAAGTAACAGAAAAAATATAGGAGGCATTGTCACGAAGTGTGCCATGGAGACCGTGTCTGCACAATTTTCTATGTTTTTGTTAGAACTTTGACATTTTTTAAAAAAAATCTTAAACCCTAATGTTATTTCATCTCTGGTTTATTTGGGATCCCAGCAAATTAGGTATTCTATTTTTTGTTGAGATTGCTCTGCGGAATATTCTTGTTTCCGGAAACAGAGTTAAAATTTTCTTTGCACTCTGGTTGGAGGACTTAGGAAGTTGGGCCATTACGTAATCTATCCTTGAAGAGCATTTATACGGGAGCATTTTTGTATGCATTATGCATCAATGAGCTACATTTAAATTCTTTTTCACAGGAATAGTTAGAAGACAGTAAAAATGAGCAAGTATGGCCTGCAGCTTAGGGTTAAGCCATCACAGCAGAAGCAGCCTACAAGACCGCCCCTTCGTGCTCCTCTTGGATTTCAAGAAGATGATGATGATGATGTTGAGAGAGAGATATCCCGCCAAGCTTCCAAGAATAAGGCGCTGAAGGATGTAAGTTAGAACAGGTCTCTTTATTGAGCAAAGATAATGTCATTAACAAGAATCTCAGGGTTGTATGCTAGACTTATTTTATTTTTCCACCTTGAAAAATCAAATTAGATTGAGGAGCAACACAAGAAAGCACTAGAGGAGGATCCGTCTGTTTTTGACTATGATGGAGTCTATGATGAAATGAAAGAAAAGGCTGTTCAACCTCGAGCATATGATCGTGAAGAGCGGAAGGTATGTTCATAATTTGATCTAGAAACTTGTTTGGTTCCTTTGTTACTATTTTAAATTTCTTCTCAAGGTATTGTTTTATTTATTTATTTTTTTTGTGAGATCTCAAGGTTTTAATTAATCATTAAAGTTTTATTTTTCTTAAATTTCAATGCAACTTTTTTACTTTCAAAAGGGTTTTAGGATTTGGCAGTTACATCTGTGAGCTCTCTGATTTTGACCAGCGGTTGGGTCTTGATATTATAATTTTTATGGCTGTGTTTGAAATTGGAAGTTGCTAAATGGTTCAATAACCAAATTCTTGGAAACATGCCTATAAAAACAAGAAGAAAAATACAACTAGATATTATATTATACGAACTAGAAGTACTATATATATATAAATATATTTGCAGTTCACCCAGAGTTGTGTCTTTCAGTTCAGACATTGAAACACAAAATGTAGGCTGGAAAACTGATTAGAACTTTATTTATTTACTATGCTGGGGTAACTGAGGCAACAACTTGATTTATAATACATAAACATAACGACATCTTTGAATCCTTCTAGATTTGAACTAGGTCTTATGATTCAACTAGAACTAGGAATTGAAGAAACCAGTTTGCATCTAACTTTTATTTCACTGTATCTAATGAAAGAAAAAGAAAAAAGAGATTGCTGAAAATAATTTATTTCTCTTATTTTCTTTGTTAGACAAGGGTTTTCTTAAATAAAAGAAAACCTATTACAAATAAGGAAAAAATAAATATAGCAAAAATCTTTACAATAAATACAAAGGGAGAATATAAACAAAAAAGGAAATAATCGACACTCCCCCTCAAGCTGGCTTGAAGATATCACTCATGGCCAGCTTGTCTGTTAACTTGTTGAATTGTAACTTAGGAAGACCTTTAGTTAATACGTCTGCAATTTGTTCTATTGTTGGGAGGTAGGAAATGCATATCACTCTTGCATCAATCTTTTCTTTTATGAAATGTTTATCAACTTCAATGTGTTTCTTCCTATCATGAAGGACTGGATTATGGGCAATGGAGATTGCTGCCTTGTTATCCCAATAAATGCGTATGGGCATTGTCTGAGCGAATTTCAATTCTTCCAGCAGCCTTTTTATCCATATGCCTTCACAAATACCATGGGCCCCATGCCCTAAATTCTGCTTCAGCACTACCTCTTGCAACTACACTTTGTTTTTTGCTATGCCAAGTAACTAAGTTTCCTCCAACAAAGGAGCAATACCCAGAAGTCGATCTCCTATCTGTCGTGCTACCTGCCCAATCAGCATCAGTATAAACTTCAACCTGTAGGTGGCCATATTTTTTGAAGAGTATCCCTTTCCCTGGAGTACCTTTCAAATATCTCAGGATTCTGAAGACAGCTTCAAAATGAGTTGGTCCAGGGGCATGCATGAACTGGCTTACCATACTAACTGCAAAGGCAATGTCGGGACGTGTGTGAGAGAGGTATATTAGTCTTCCCACAAGTCTCTAGTACTTCCCCTTTTCTTTGACATCATTTTCTGTTGCAGCTTCCAATTTTAAGTTCTGCTCAATGGGAGTTTTTGCAATTCGGCAACCAAGTAAACCTGTCTTTTTGAGTAGATCAAGGATATGTTTTCTTTGATTGACAAGGATACCACTTTTAGACCTAGCATACTCCATGCCAAGGAAATACTTTAAAAGGATCCTAGGTCTTTGATCTTGAAATCATTCGCCAATTTTTCCTTTACAATAGACGTTCCTGTCTCATCATTGCCTGTAAGAATGATATCATCAACATACACTATCAGAACGACTACCTTGTCATGTCCTATATCCTTGTAGAACAGTGTGATCGGCTTGACTTTGGCTGAATCCATAGCTTGTGACTGCCTTTCCAAAACGTTCAAACCAAGCTTTAGGAGACTGCTTAATCCATAGCTTGTGATTTTTTTAATTTACATACCTTGTTAATCCCAAGGTCAGCTTCAAAACCAGGTGGTAAGTCCATAAATACTTCTTCTTCAAGTTCCCCATTAAGAAACGCATTTTTAACATCAAGTTGATAAAGTGGCCAATCAAAATTAACTGCAACAGAGAGCAAAATTCTAATTGAGTTAATTTTAGCTACAGGGGCAAATGTCTCTTGATAATCAATTCCATAGGTTTGGGTGAATCCCTTAGCCACTAATCAGGCCAACATCTCGATACTATCATCAACATTACATTTTATCGTGAAAACCCACTTACATTCCACTGCTTTCTTGTCTTCTAGTAGATCAACTATGTCTCAAGTACCACTTTGTTTCAGCGCGTTCATCTCTTCCATCACTGCTAATTTTCAATTCAAATCATTTAGAGCTTCCCGTATATTCCTTGGAACAAATAAGTTGGTTATTTTGGATGTGAAAGTTCTATGAGAGGAAGGACTAATGATGTTTGGGAGAGGTGAAGTGTCCCAAAAATTCTCTTCAATGACTCTCCTTGAAGAGAAGTTGGGCTTAAAAAGGATTGATTTTCCACGAAGGATACATCTATACTCTTAAAATACTTGTTAGTTAGGGGGTCAAAACATTTGTATGCCTTCTTATGGGGAACATAGCCTAAAAAACTCATTTAATGGCCGAGGGTCCAATTTAGTTTGGGAAAGGAGGGTTCGATGAACATAAGCAGTACATCCAAAAACTTTTAAAGGTGCTGCAGTGGAGTTTTAAAATTCAACACCTTTGTAGGCATTCTATTGATTAGATAAGCAGTGGTTAGAATAGCATCCCCCACAAATATTTTTGAACATGCATAGAAAACATAAGGGCACGAGCAACTTCAAGTAAATGTTGATTTTTCTGTTCAGCAACACCATTTTGCTAAGGAGTATCGCGACATGTAGCTTGATGAACGATGCCCTTATCATGTAAAAAAGTGGTTAATGGTTCATTAAAAAATTCAGTTCCATTATTAGAGTGAAGAATGCGAATTTTAGCTTGAAATTGAGTCTGAATCATTTCGTAAAAACGAACAAAGACTTCTTTTACATCTGACTTTTTTGTTAGTAAGTAAAGCCAAGTTAAACGGGTGTGATCATTGATAAAGGTAACAAACTAACGCTTGCCATTTTTGGTCAAAACCTTAGATGGACCCCAAACATCAGTATGAATTAAGTAAAAAGGTGATGAAGATTTATAAGATTTGGGTGAAAAAGTAGATCGATGATGTTTGGCAAAAATGCAGTCTTCGCATTGAAAAACAGAACAATCAATTCCTTTAAATAAATCAAGAAACAAGTATTTTAAATAAACGAAATTAGGATGTCCTAATCTACGATGCCAAAGCATAATAGTTTCTTAAACAGAAAGAGAACTGACACTACTCAAGCCCTGAATCTTTTTATGACTAGTTGAAACTTCATCAAAGTAATAGAGACCATCAATCATTCTAGCACGTCCAACCGTCTCCCCCCGAGTCCTGATCCTGAAAGAGACAATAGGTTTCACAAAAGATAACACGGTAATTAGCATCCTTAGATATTTTGCTTATAGATAATAAATTACAAGCTAGTTGAGGAACATGGAGGATAGAACGTAGTATGAGTTTTGTACTTGGGGGAATAGTTCCTTTGCCTGCAATAGATGTAAAACTACCATCGGCAATACGAACTTTTTCTTTACAATAAACAAGGGAGTATGACTCAAATAAACACGAAAAACTAGTCATACGATCAGTAGCTCCAGAATCGATGATCCACGAAGAGGAATTTAGACACGAGAGGGCTTGAGGGGAATTACCCGTTTGTGCCAAGGAAACACTAGGATTACCCGATGAATTGGATTTTAGCAGCTTCAGGATTTGATCAATTTGCTCTTTGAGTGGACTGGAATCAACAATATTTGCGTTGGAGGCATGCTAATGGGAATTTCTCTCAAATTGCTTAGAGCTCTTCCAATTTGCAGGTTTGCCATGTAGTTTCCAACAAGTTTCCCTTGTATGACGGGGGTTTGTTGCAGTGATCACACCTGACACGATTGCTTGTCATGAGTTTTATTGGATTGATTGGAAGCTTTCATTGTAGTATTTTCAATCACTAACGCGGAACTTTCAGCTAAGTCAATTGCTTTCTTTCCAATCATAACATTCCTGCGACTTTACTCCTTGCGAACTTCAGAAAAAACATTGTTAATATTGGGAAGAGTACTTTTCCCAAGTATCTTGCCTTTAACCTCATCAAACTCAAGATTGAGACCAACAAGGAATTTGTAAATGCGACCATCTTCAACAGTTTTCAGATAATGTATTTGGTCGTCTGTGGACTTCACTCATACGTATCAAACAGATCAAGTTCTTGCCACATCCTCTTCGGAGAGTGAAAATATTGCGTAACTGAGTTGCCTCCTTGCCGTATATCACCCAACTTAAGATTCAGCTCGAACACTTGTGACTGGTTACCCAGATCAGAATACATTTGAGTCACACTGTCCCATAATTCCTTGGCCGTAGTGTAGCACATGTAGTTACTACTGATATCTTCCATCATAGAGTTGACGAGCCATGTCATAACCATGAAGTTTTCAGCGTCCCACACAGCAAATAAAGGGTCATCTGGACTTGGAGCAATTTTTTCTCTGGTGAGATATCCTATCTTCCCTTGGCCACGAATATACATTCGAACACTCTGGGACCAACGAAGAAAGTTATCCCTGTTAAGTCAAATGGTGGTGATTTGGACAGTGGGAGTGTTGGAATGGATTCGATTGTCGAAGACTTTGGCGGTAGATACCTTAGTCTTTGACATATTGAAGAGACAAAAGCACACAACCCAAACAGAAACAGATCTGAAAAAGAAAACAAAGGAACCAAAAACGGTTTTAACAAACCTAAAACTTCCACTTAGCGGCAGAACAAGAAACCACCGGAGAGTCGTTGGAACTGATTGAAAATCCCTTGGACAGTGGTGCAGACTTGGTCGGCCGGCGAAGGAGAGAACCCATGTCACGGCAGCAGTGTCGGCGTCGGCAACGGCTAGGGCATGTGGGTTTCTTTTGTGTTCCGAGATCCACGAACAATCAGCGTCGGATAGTAGTGCAGACTTGGTCGGCCGGCGGAGAAGGAGGGAACCTAGGTCACGGCAGTAGCGTCGGTGTCGGCGAGTCAGCGGCGGTGGTGGCGGCAGATTAGGTTAGATTAGGGTTTATGTTTCTTTTTCAGAAAAAATTAGGGTTTCAAACTATTTGCTTTGATACCATGCTGAAAATAGTTTATTTGTCTTATTTTCTTTGTTAGACAAGGGTTTTCTTAAATAAAAGAAAACCTATTACAAATAAGGAAACAATAAATATAGCAAAAATCTTTACAATAAATACAAATGGAGAATATAAACAAAAAAGGAAATAATCAACATTTATTTATTTACTATGCTGGGGTAATTGAGGGAACAGCTTGATTTATAATACATAAACACAACGACATCTTTGAATCCTTCTAGATTTGAACTAGGTCTTATGATTCAACTAGAACTAGGAATTGAAGAAACCAGTTTGGTTTCATCTAACTTTTATTTCACTGTATCTAATGAAAGAAAAAGAAAAAAGAGATCATCCTAGAACTTAATGTAACATAATAAAGACATCTTAAAGGAAACCTAATATGTATACAATTACAATATCACCCTAATCTAAAGTTGCCACTCTGGTGAAAACGCTTATTGGCTCCCTGCCTTACTATTGCAGCCAAAGTATATTCAAAATTTGATGAAAAAGGCACAAGAGAGAGAGAGAGAGCAGGAGATTATATATGAAAGAAAACTAGCCAAGGAGAGAAACAAAGATGATCATCTGTATGCTGGCAAGGACAAATTTGTCACTAGTGCCTACAAAAAGAAGCTTGCAGAACAAGCAAAATGGATGGAGGAAGAGCGTCTCCGACAACTTCGGGAGGAGAAAGAGGATGTATGTATAATTTTTTCACATTGTGTCTTCTACTTTTCATTTTATTATTTTATAAATTCTTATTATTTGTGAAATGCCTTGTATAGTGACAAAATGAGCAAGTGTAAGTTTTTAATATATATGATTGGAACGATATTAGAGTGTTAAGAGGGATAGCAAGGGTATAATAGTAATTAGTTAGGGCTGTTGGTTATAAATAGAGAAGGAGAATATAGAAGATAGACAATAATGTGGTGAGTGAATTAGGGCTTGAGTGTTATCTCAAGATTGGGAGGGTCCAAGTACCTCGAATTCCTTGGTTTATCTTGTATAACCATCTATTATATCTCAATATATTTGGGTTCTATCAATGGTATCAAAGTTGTTCGGTTTTGGCCATGGAGTTATGGGCAAGTTTGCATGAAGAAATATGGGAGAAGTCTACATGAAGAAATAGATCGATTAAAGAATACAATGCATGAACAAATAGATCGATGGAGGAGTGAATCGAAGGAGGAGATGAAGTCGATGTTCAAAGATGTCAAAGAGGAATTGGCAGCAATAAAACTGATCATTACACCAAAAAAAAAAAAAAAAAAAAAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAAAAAAAAAAAAAAAAAAAAAAAGGAGAATGAATACAATTGTCAATGATGTCCTTTGTCGATCTATATTTTTCTTGGAAGATTCTTGAATTTCTTTCGTCCCAAATCTTCACAAAACAGCACTGGTAATTCTTCGGAGAGGTTATGATATTAACATTGTTTTTGGGGCTGTTTTTATGTGTTAAAAAAAAGTGTGGGTTGTTTATTGTTTTGTACCCACACCTTGAGGACAAGGTGTGTTTTAGGGGTCCGTAATGATAGGAATGGTATTAGAAGTGTTCGAGGGATAGCAAGGGTATAATAGTAATTAGTTAGGGAGTTGGTTATGGAATTTGGTTATAAATAGAGATAAGGAGATTGGCAAGATAGGTAATATTGTATTGAGTGAATTAGGACTTGAATGTTACCTCAAGATTGGGAGGGTTCAAGTACCTCAAATTACTTGGTTTATTAGAAGTGTGAGTTATTTCATATTTTCTTTTTATGAGAAACTAATTGTGGGGCCCTACTTTGTACAGATTTGAAATCATGTGGCTGGATCACCATTCTTTTAGCAAGAATCTCGAAAAATGGTGGGGTGGCTTGAAGGCGGATGGATGGCCGGGTTGTGCAATGGAAAAACTGAAAGGTTGAAGGGCATCTTAAAGAGTTGGAATAAGGAGGTGTTTGGCAATGTGAGCTGCCAAAAGAAGGCTTTAACTGATAAGATAGGGAAGCTAGATAAACTAGAAGAGTTGGTAGCTTTATCTGAAGAAGATAGAAAGGAAAGGGAAGCTTGTAAGGCTGCTTTAGCTGAGAGTGACTGTTATCAAAGAGCAATGTGCTTGGCTCAAAAAAGTAACTTTAAGTGGCTACAGGAAGGTGGGAGAACTCGAGCTTTTGTCATAGATGGACTTTGGCTCGAAGAAGCAAAAATGTTGTTTCCACATAGAGAACAACTAGGGGCAATTCTCCTCAGGGAAGATGAAATTGTTGATGAGATTATTGGCTTTTAATGTGGATCAGTAGGTGCACCTGGACATCTCAACTAGGTTGACACCCTATAACACCCTCATCATATCCTATTTGAAATACTAGAAAAACAAGAAATATAAGGAATCAAAGAGTACAATCATAATAAGAAGCTTGATTACATAGGGAAAATAAAAGCCTTCCAATTCAGACAAATGTCCTGAATAGAATAATCTTCAAATAACTTGGATTGTGAACTCCAAGAAGAAGCTAAAAGACGGGCTGCTCCCCATCTATTCGACCAACCTTTAGATGTATCATGAAAAACTCGTTATTACGCTCAAACCAAATCTTAGAAACCAAAGCTTTAACAACGTTTGGCCATAGAAGTTGAGATTTAGAAGCAAAAGAAGGGCCGACTAATAGTTGCAGTATGTTTTCTCTTGCTGAATTCCCGAGAACCCAATTCACATTGAAGCATTCGAATAATTTCCACCTGCACTTTCTTGAATTAGAACAACCAAATAACAAATGTTTGAACATCTTCACCATTAGCTTAACATAGGGGCAGATTGATGGTGATAAACATTTGCGTTGAAGCTTATGTTGAATGTAGAAGAGCAATTTAGGGAGCCACAGAGCAGAACCCATGTCAAGATATTAATCCTTTTGGGGCTCTTTGATTTTCAAAGAGCTGTATAACACACCTCATCGATTGGAGAAGAAGCAATCAAATATTTTGACAAAGATTTCACCGAGTACCTTCTTGAATTATCCAAGGACCACGATCTCGAATCTTGTATTGAAGAAATTCTGTTACCTTCGATTGTACTAAGTAACTGTTGAACTTCACAAGTTTCTTCTTCCTTGAGTTGCTTGTAGAGTAATAGATTCCAAGATTGAGTAACCAAGTCCAAATGTTTGTTGACATTGCCCTTTGGAGATGAAGCAATTCTAAAGAGCTTTGGGAAGTTGGTAGTTCCATTGCTCTTGCCCAGTTGCTGAATTCTTGTGTGATGAACAGAAATAGGGACAGTTTACATTGGAAGAACGACTCCTCGGGCAAGTTCTCTACCAAGTCTATATTCCTAAACATTTAGGGGGTCATGGAAAGTAATTCCCTATGGTCAACTTTATGTGGAAGCTTAAAATTCCCAAGAAAGTGAAGATCTTCCTCTAATCCCTTGCTTATAGATGTTTAAATGCATATGAGAAGCTTCAAAGGAAGTTCCCAAAGTGGTCCCTCTCCCCCTCCATTTGTTGTCTTTGTTTCTAGAGAGATGGAACTATGGATCACTTATTTTTACATTTTGAGTTTGCTTCTAAAGGGCGGCATATTCTTTTTAGTACTTTTGGGATGACTAACTGTCTCCCTAAGAAGATTGATGATTGGATGATGGATGGTCTTGATGGTGGAAGTTTTTGTGGAAAAAGAAAAATCCTTTGGAGATGTGCTACTCGTGCGCTTTTGTGGTGTCTTTGGAAAGAAAGTAATAGTAGGATGTTTGAAGATAAATTTTTTCTTTTGATTCTTTTTGGGCTCTTGTTTAGCATACAACCTCTTGGTGGTGCACAAATTAACACCAAATTCTTTTGTAATCATAGCCTTCTTATGATTAAAAATTGGAGGCCTCTTCTTGTTTAGTTTTGCAGGAGGAGGTTTCCTCTACCCCTGCCCTTAAGTTCTTATGGCTCTCTTGATGAAATACACCTGTCTGTTATTTATTTATTTATTTATTTATTTTTTAATTTTTTAATAAAAAAAACTCAGCATTGAGAAAAAAATGAAAGGAAGTCCCGGTAAAGAAAGGGACTCCAGTTTTGGAAAAAAAAAAGACCTAAAAAATAATTACAAAAAGATTTCGGGCTGAATTTCAAAGGGAAACATTGAACCTAACAAAGGTCCAAATATCCCATTGGTCCCTCACCGCTCTAAACTTTCTATTGTTATTTTCCCCCATACACTCCAAAAAACACGCACACCGGCTTGTCACAAAAATCTCCCGTTCCAGTGAAAAGACGAATGGAGGAAAATTTTCTTATCTTCGTGAGGTCTCTTTGATAATCTCCATGAGGTCTCTTTGATAGGTTTGGAATCCTTAGCCCTGTTTTCCCTCTCCTTTGGGATGAAGCAAATAATTTCATTTATGGAATTATTGAAGTTACCTCTGGCAAAGAACTCTCTAAACTCATGTGCAGAGATCCTCCTTAATTTCCGCCCATGCAAAATCCTCCTTAATTTCCTCCCAATTATCTTGAAAGAAAGCAACAGAGAAACTATCATGCGCATGGGCTTTGTTTGTATTGCACTCAAAAACAACTTTCTTGATTTCATCTACGGTAAAAGGGGAATCCAACTCAGCCTGTTCACCTGCAAAGATGGTGGCTTCAATTAAGGCCATCCATGAAGGGTTTAGGGTTCACCTCTGGGGCATGAAAGATAATATTTCCTTTCCTTTTTGATTTCCGTATCCCTTTTTACCAACTCCCCCATCTTTCTCTAAAGAGCCAAGTAAGTTCTTGCTTCTTCTACCCGTCACCATTCTATGGAAAAATGCAGAATTACAGTCGCCATCCTTGGCCCACCTTACTTTCACATTTTTTCTCCAACTTATGGTCTCTCTCCTTACCAGCTCCACAAACTCCACTTTTAACAAGAGATGCTCTTGCTTGAGTATCTCATCCAACGGTCCTCCTCTTCAAAACCATCAATAACAATAATTTTACCTAACACCTCCTACTTTTTTATCCTTATATCTCCAAAGGTTTCTTTGATTTCTGGATTTTGGCATCGGTTAAGAGCCTTCCACTTTTCTAACTTGTACCCCTCCCAGTTACCAGGAGCCTCCACATTCCACCTTGAGGGGAAAGACAGATGGTCCAACTCCTCGATTAAGGGGCAATACCCCGAACGTCCAAACTCCGATTTTGAGAATAAAAAAAAGAGATAAGAGGCCAATTCCAATCTTATTAGATGGCCCCGAAGGGATAGATAAGAGGCCAATTCCGAAGTAATCCTAGGGCCTAACACTGGTTTTCACACTCACGTAGACCTCCATGAGTTCCTTGATTTTTGTAATTATTCACTAGGTCACATTTTGTTAGATTAAAGACCATTTCTCCAGGGTGCTCCCTTTTGTTGGCTTTGTTTAGTTTTCTTTAGTTTTTTCTTTGGTATGCACTTGTATTCTTTCATTCTCTTTGTTATGTCATCTCGATCATGGTCTTTGTTTGGTGTACGTAACATTTGACCCATAGCCTATGGCTGATATGCACTGATTGGGAATAATACCACACTTGCATTGCATCCCGGCTGTGCATATCCTTGTCACTCAACCATGTTTTTTCTTGTACGCCTAAGTAAGCACAATCCAACTGGTTGTTTTGGACTTCTTTCTTCCTCAATAAGAACGTAAAACCTGGTTATATTTTTGCAACCATGCTAAACATGTTGATAAAAATTATTTTATTGCAAGTTTGTCTAGAAGCTAGTAGTATACCTGAGATTTTCTTTAAGGGTCCAACCACGTTTTATAAGAAATGAGGATTGGGTCAAACGAGAGGTGCATTCAGAAGTGGCTTTGGGTCCAAGGTCAAAACAAGCGTTGATTTCTAGGAGTTGGGATTTTTGACCCATGACACTCGCTACCCGCCTCTATATGTTGAATTCGGATATCCCAGTACCCATTTTTAGTCTCTTTTTAACCAAAGGAATTATAAAAATTGAAGGACGTTTGTGAAGAATAGATGAATTGACTAAATTCTAATAGAATACGAAGTCGTGGACCAGGAAAGGAGGTAAAAAGGGGCCTATAAACGATGTTGACTGGCATTTTCTAGGGGCTTTCTGCCTCTAAACAAAGCCTTTGGTAGAGACATTTTTACAAAATTAACCTTTTTTATTTTATTTATTATTATCGTTTACAGTTTCTCATAAAATATTGCTGTTACATTTTGTGGAGGATGGGGTCAGATTGAACTCTCTTACACATTGTGTATTTTAACCATGCTGCACGCCCCATATCTTCATTTTTTATTATCTTTAGATAGATTTATGCTTTCCTTAATGTGTGTTTTTCATTGACAGCCAGTTAGCTGATTGTTTTTTTTTTTTTCCTTTTTTTTGTACTCATTTGCAGGTTACTAAGAAGAGCGACATTAGCGACTTTTACTTCAACCTTCAAAAGAATATTGCCTACGGTGCCAGAAACGCAATTGAGCCAAGGGAACCTCCAAAGAAGCTTCAATCAGAGAAGCAACAGAAGCAGACTGAAGTTCATATATTGGAGAAGCATGAAGAGAGTGCTAATGCGAATACCTTTGATGACCATCAGTTGTTGAAATACTCCAACTTACCTTCCCAGTCAGCGAGGACAATAGAAGAGAATCCTCATCTTGAACACGAGCACCTTTCGGTTTCAAACAAAACAACACCATCTGATATACAAGTTACTAGCCCCGCTATGCTACGTGATAAAACACGAGTTGAGGAACAGCCCAAGCATGAGCAAGGTGAACAACAACCAAAGCGCGATCACCATAAAAGAAATGAAGATGCTGTTGCTGCTGCAAAAGAGCGCTTTTTGGCTCGAAAAAGAGCAAAGGAGGTGTGAAATACTTGTTGAGCTAGATTAAACTGAGGACTAATGTGTAAATGTCGTTGTAGGGAAGATATTTGATAATTATGTTCTTAATAGTCAAAGTAGTCTTTGGGCTTTGGCTGTAACATCACATTTTTGTCTTATGGTTCGCGTGAAAGCTATCGATGATGCCCGAAGAAGTAGCTGCTTAAGTTACAGCGTCTTCATCTAAAGCAAGTAAAGTTCCCCATATAGGAACAAATATCAGGTTATGATTTGTGAAGTGCTTAAGACATGTACTATATGTAGTCCATTTTTTAGGTCACGATGTGGGAGTTGCACAGATGCATGAACTTCCAAACATGTTATTAATGCAATGGACCCTTGTGTGCATAAAGTAGG CCCTTTCGACGGCGGCTCCCCTGGCTTCAGACAGAGCAGTACCGTGCTGCTCCAGCTCCACCATCGTGTTGCAACCCGTCGATCTTCTTCATCTCTCGATTTCAGGAATAGTTAGAAGACAGTAAAAATGAGCAAGTATGGCCTGCAGCTTAGGGTTAAGCCATCACAGCAGAAGCAGCCTACAAGACCGCCCCTTCGTGCTCCTCTTGGATTTCAAGAAGATGATGATGATGATGTTGAGAGAGAGATATCCCGCCAAGCTTCCAAGAATAAGGCGCTGAAGGATATTGAGGAGCAACACAAGAAAGCACTAGAGGAGGATCCGTCTGTTTTTGACTATGATGGAGTCTATGATGAAATGAAAGAAAAGGCTGTTCAACCTCGAGCATATGATCGTGAAGAGCGGAAGCCAAAGTATATTCAAAATTTGATGAAAAAGGCACAAGAGAGAGAGAGAGAGCAGGAGATTATATATGAAAGAAAACTAGCCAAGGAGAGAAACAAAGATGATCATCTGTATGCTGGCAAGGACAAATTTGTCACTAGTGCCTACAAAAAGAAGCTTGCAGAACAAGCAAAATGGATGGAGGAAGAGCGTCTCCGACAACTTCGGGAGGAGAAAGAGGATGTTACTAAGAAGAGCGACATTAGCGACTTTTACTTCAACCTTCAAAAGAATATTGCCTACGGTGCCAGAAACGCAATTGAGCCAAGGGAACCTCCAAAGAAGCTTCAATCAGAGAAGCAACAGAAGCAGACTGAAGTTCATATATTGGAGAAGCATGAAGAGAGTGCTAATGCGAATACCTTTGATGACCATCAGTTGTTGAAATACTCCAACTTACCTTCCCAGTCAGCGAGGACAATAGAAGAGAATCCTCATCTTGAACACGAGCACCTTTCGGTTTCAAACAAAACAACACCATCTGATATACAAGTTACTAGCCCCGCTATGCTACGTGATAAAACACGAGTTGAGGAACAGCCCAAGCATGAGCAAGGTGAACAACAACCAAAGCGCGATCACCATAAAAGAAATGAAGATGCTGTTGCTGCTGCAAAAGAGCGCTTTTTGGCTCGAAAAAGAGCAAAGGAGGTGTGAAATACTTGTTGAGCTAGATTAAACTGAGGACTAATGTGTAAATGTCGTTGTAGGGAAGATATTTGATAATTATGTTCTTAATAGTCAAAGTAGTCTTTGGGCTTTGGCTGTAACATCACATTTTTGTCTTATGGTTCGCGTGAAAGCTATCGATGATGCCCGAAGAAGTAGCTGCTTAAGTTACAGCGTCTTCATCTAAAGCAAGTAAAGTTCCCCATATAGGAACAAATATCAGGTTATGATTTGTGAAGTGCTTAAGACATGTACTATATGTAGTCCATTTTTTAGGTCACGATGTGGGAGTTGCACAGATGCATGAACTTCCAAACATGTTATTAATGCAATGGACCCTTGTGTGCATAAAGTAGG ATGAGCAAGTATGGCCTGCAGCTTAGGGTTAAGCCATCACAGCAGAAGCAGCCTACAAGACCGCCCCTTCGTGCTCCTCTTGGATTTCAAGAAGATGATGATGATGATGTTGAGAGAGAGATATCCCGCCAAGCTTCCAAGAATAAGGCGCTGAAGGATATTGAGGAGCAACACAAGAAAGCACTAGAGGAGGATCCGTCTGTTTTTGACTATGATGGAGTCTATGATGAAATGAAAGAAAAGGCTGTTCAACCTCGAGCATATGATCGTGAAGAGCGGAAGCCAAAGTATATTCAAAATTTGATGAAAAAGGCACAAGAGAGAGAGAGAGAGCAGGAGATTATATATGAAAGAAAACTAGCCAAGGAGAGAAACAAAGATGATCATCTGTATGCTGGCAAGGACAAATTTGTCACTAGTGCCTACAAAAAGAAGCTTGCAGAACAAGCAAAATGGATGGAGGAAGAGCGTCTCCGACAACTTCGGGAGGAGAAAGAGGATGTTACTAAGAAGAGCGACATTAGCGACTTTTACTTCAACCTTCAAAAGAATATTGCCTACGGTGCCAGAAACGCAATTGAGCCAAGGGAACCTCCAAAGAAGCTTCAATCAGAGAAGCAACAGAAGCAGACTGAAGTTCATATATTGGAGAAGCATGAAGAGAGTGCTAATGCGAATACCTTTGATGACCATCAGTTGTTGAAATACTCCAACTTACCTTCCCAGTCAGCGAGGACAATAGAAGAGAATCCTCATCTTGAACACGAGCACCTTTCGGTTTCAAACAAAACAACACCATCTGATATACAAGTTACTAGCCCCGCTATGCTACGTGATAAAACACGAGTTGAGGAACAGCCCAAGCATGAGCAAGGTGAACAACAACCAAAGCGCGATCACCATAAAAGAAATGAAGATGCTGTTGCTGCTGCAAAAGAGCGCTTTTTGGCTCGAAAAAGAGCAAAGGAGGTGTGA MSKYGLQLRVKPSQQKQPTRPPLRAPLGFQEDDDDDVEREISRQASKNKALKDIEEQHKKALEEDPSVFDYDGVYDEMKEKAVQPRAYDREERKPKYIQNLMKKAQEREREQEIIYERKLAKERNKDDHLYAGKDKFVTSAYKKKLAEQAKWMEEERLRQLREEKEDVTKKSDISDFYFNLQKNIAYGARNAIEPREPPKKLQSEKQQKQTEVHILEKHEESANANTFDDHQLLKYSNLPSQSARTIEENPHLEHEHLSVSNKTTPSDIQVTSPAMLRDKTRVEEQPKHEQGEQQPKRDHHKRNEDAVAAAKERFLARKRAKEV
BLAST of ClCG01G011660 vs. Swiss-Prot
Match: NSRP1_MOUSE (Nuclear speckle splicing regulatory protein 1 OS=Mus musculus GN=Nsrp1 PE=1 SV=1) HSP 1 Score: 139.4 bits (350), Expect = 6.8e-32 Identity = 109/327 (33.33%), Postives = 163/327 (49.85%), Query Frame = 1
BLAST of ClCG01G011660 vs. Swiss-Prot
Match: NSRP1_BOVIN (Nuclear speckle splicing regulatory protein 1 OS=Bos taurus GN=NSRP1 PE=2 SV=1) HSP 1 Score: 137.9 bits (346), Expect = 2.0e-31 Identity = 100/310 (32.26%), Postives = 155/310 (50.00%), Query Frame = 1
BLAST of ClCG01G011660 vs. Swiss-Prot
Match: NSRP1_RAT (Nuclear speckle splicing regulatory protein 1 OS=Rattus norvegicus GN=Nsrp1 PE=1 SV=1) HSP 1 Score: 134.4 bits (337), Expect = 2.2e-30 Identity = 98/322 (30.43%), Postives = 157/322 (48.76%), Query Frame = 1
BLAST of ClCG01G011660 vs. Swiss-Prot
Match: NSRP1_HUMAN (Nuclear speckle splicing regulatory protein 1 OS=Homo sapiens GN=NSRP1 PE=1 SV=1) HSP 1 Score: 134.0 bits (336), Expect = 2.9e-30 Identity = 100/318 (31.45%), Postives = 159/318 (50.00%), Query Frame = 1
BLAST of ClCG01G011660 vs. Swiss-Prot
Match: NSRP1_DANRE (Nuclear speckle splicing regulatory protein 1 OS=Danio rerio GN=nsrp1 PE=1 SV=2) HSP 1 Score: 129.0 bits (323), Expect = 9.2e-29 Identity = 89/318 (27.99%), Postives = 159/318 (50.00%), Query Frame = 1
BLAST of ClCG01G011660 vs. TrEMBL
Match: A0A0A0LJE9_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G070270 PE=4 SV=1) HSP 1 Score: 563.9 bits (1452), Expect = 1.2e-157 Identity = 285/324 (87.96%), Postives = 300/324 (92.59%), Query Frame = 1
BLAST of ClCG01G011660 vs. TrEMBL
Match: A0A061GV10_THECC (Coiled-coil domain-containing protein 55, putative isoform 1 OS=Theobroma cacao GN=TCM_041289 PE=4 SV=1) HSP 1 Score: 386.3 bits (991), Expect = 3.6e-104 Identity = 208/324 (64.20%), Postives = 240/324 (74.07%), Query Frame = 1
BLAST of ClCG01G011660 vs. TrEMBL
Match: A0A0B0NEG8_GOSAR (Nuclear speckle splicing regulatory 1 OS=Gossypium arboreum GN=F383_10067 PE=4 SV=1) HSP 1 Score: 379.4 bits (973), Expect = 4.4e-102 Identity = 207/324 (63.89%), Postives = 239/324 (73.77%), Query Frame = 1
BLAST of ClCG01G011660 vs. TrEMBL
Match: A0A0D2PQG7_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_001G124100 PE=4 SV=1) HSP 1 Score: 372.1 bits (954), Expect = 7.0e-100 Identity = 208/327 (63.61%), Postives = 242/327 (74.01%), Query Frame = 1
BLAST of ClCG01G011660 vs. TrEMBL
Match: W9S8T2_9ROSA (Uncharacterized protein OS=Morus notabilis GN=L484_006586 PE=4 SV=1) HSP 1 Score: 372.1 bits (954), Expect = 7.0e-100 Identity = 197/331 (59.52%), Postives = 245/331 (74.02%), Query Frame = 1
BLAST of ClCG01G011660 vs. TAIR10
Match: AT2G27285.1 (AT2G27285.1 Coiled-coil domain-containing protein 55 (DUF2040)) HSP 1 Score: 312.8 bits (800), Expect = 2.5e-85 Identity = 177/326 (54.29%), Postives = 220/326 (67.48%), Query Frame = 1
BLAST of ClCG01G011660 vs. TAIR10
Match: AT2G27280.1 (AT2G27280.1 Coiled-coil domain-containing protein 55 (DUF2040)) HSP 1 Score: 267.7 bits (683), Expect = 9.3e-72 Identity = 154/324 (47.53%), Postives = 202/324 (62.35%), Query Frame = 1
BLAST of ClCG01G011660 vs. TAIR10
Match: AT1G55928.1 (AT1G55928.1 Coiled-coil domain-containing protein 55 (DUF2040)) HSP 1 Score: 223.0 bits (567), Expect = 2.6e-58 Identity = 126/279 (45.16%), Postives = 181/279 (64.87%), Query Frame = 1
BLAST of ClCG01G011660 vs. TAIR10
Match: AT3G28770.1 (AT3G28770.1 Protein of unknown function (DUF1216)) HSP 1 Score: 55.1 bits (131), Expect = 9.5e-08 Identity = 62/301 (20.60%), Postives = 136/301 (45.18%), Query Frame = 1
BLAST of ClCG01G011660 vs. NCBI nr
Match: gi|449470301|ref|XP_004152856.1| (PREDICTED: nuclear speckle splicing regulatory protein 1-like [Cucumis sativus]) HSP 1 Score: 563.9 bits (1452), Expect = 1.8e-157 Identity = 285/324 (87.96%), Postives = 300/324 (92.59%), Query Frame = 1
BLAST of ClCG01G011660 vs. NCBI nr
Match: gi|659069555|ref|XP_008450616.1| (PREDICTED: nuclear speckle splicing regulatory protein 1-like [Cucumis melo]) HSP 1 Score: 550.4 bits (1417), Expect = 2.0e-153 Identity = 279/324 (86.11%), Postives = 296/324 (91.36%), Query Frame = 1
BLAST of ClCG01G011660 vs. NCBI nr
Match: gi|590586457|ref|XP_007015711.1| (Coiled-coil domain-containing protein 55, putative isoform 1 [Theobroma cacao]) HSP 1 Score: 386.3 bits (991), Expect = 5.1e-104 Identity = 208/324 (64.20%), Postives = 240/324 (74.07%), Query Frame = 1
BLAST of ClCG01G011660 vs. NCBI nr
Match: gi|728829958|gb|KHG09401.1| (Nuclear speckle splicing regulatory 1 [Gossypium arboreum]) HSP 1 Score: 379.4 bits (973), Expect = 6.2e-102 Identity = 207/324 (63.89%), Postives = 239/324 (73.77%), Query Frame = 1
BLAST of ClCG01G011660 vs. NCBI nr
Match: gi|1009171164|ref|XP_015866594.1| (PREDICTED: nuclear speckle splicing regulatory protein 1-like [Ziziphus jujuba]) HSP 1 Score: 378.3 bits (970), Expect = 1.4e-101 Identity = 200/332 (60.24%), Postives = 242/332 (72.89%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of watermelon (Charleston Gray)
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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