![](http://cucurbitgenomics.org/sites/default/files/styles/slideshow/public/carousel/101322_web.jpg?itok=EG-G51x6)
ClCG02G023800 (gene) Watermelon (Charleston Gray) v2.5
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGATCCTCTTAAGCTCTCTCCTAGACTCTTATCTCCACTGAGCTTAGCTTTGAGCTTTCTCTTAGGGCTCCTAGCTCCATGGGTCCCTTTCTCGAGCTCTCAGCTCATAGGTTCTCTAGCTTTCTTAGGCTCTCCTCATGGGTCCTTAGCTCTCTCAGGCTGTCCCATGAGTCCTTTAACTTCTTAGACTCTCCTCATGGGTCCCTCTCAGACTCTCCCATGAATCCTCTAAGTTCTTCTTGATCCCATTGGACAAAATTTACCCATGACAAAAAAACATTTAATACATATATGATAGACAAAATTGTCATCTAATACATCTAAAATACATCATTTGAGTTGTGGGATAATTATCATTTGGAGTATTTAGAACTTAAGGAGTGAGATTTATTTCAAGAAGATGTCCTCCAACTTAGCTTACCTCAGAGTGATGATCGACTCTCTTCTTTTGGAATCTTATGATAGTTGGCCGGGTATTGGAAGTTGAATGTGGATGTTGCTTGGTCAAATAAAAAAGGGATGGGTAGGCTTTGGTGGATTGTATGAAATCATATCAGATGTGCTATTTTGGGAGGCTATCAATTTATTTCTGAAGGGTGTTGCATGAGCATGTTGGAAGTTGAGGCATTACTTGAGGAGCTTAGAGATTTAGAAGGAGGGTGGTCGGGTCCAATTCCTCTGTTGGAGGTGGAGTCCGACGCACTGGAGGTCATCAGGCCTCTCAATAGGGAAGTGTATTTTTATGTTGAGATTGGTGTCCTTATTGAGGTTATTATAATTCTTTTTTTTTTTTTATTGAAAACTCTATTTATATTAAGTGTTTTTGTCATTGTCTTCAAGAGAAGAACAAAGTAGCACATGCTATAGCGCCTTTGCCATCCTCTTTGTGATGTTTTTTGATCTGAAAAGATGTTTTTCTAGATAGTTTGCCATGCCCCCTCATCATTAATAAGGTGTTAGAGAGTAGTTGGTTTTTGAGTTTGCATGAACTTTGCTAAAAATTTAAAAAAAAATTAAAAAAAAAATTAAGATCCCTTCTCAAATGAAGAATCTAATAACTTAGAAATACAGTTAATTCAAATGTACTCAATTTTAATACATTAATAATTGAGACTAAATAATTTTGGTTAACCACAATTTGATTTATGGTTTTTTAATTTTTGAAAATGGAGCATACATCATCTCCTTATAGATTTGCTTGTTTAATTGTCTGCTTAGTCTAAGAGTATTTTCACATCCAACCCATATTTTGGCACTTAAAATAAGTAGTTTGAAATGAACTTGTGTTTGTTTTTGTGTTTGTTTTTGTGTTTTTTTCTTTCTTTTTTCTTTTTTTTTTTTGGGGGGGGGGGGGTGATTGAGAATAATAAATCCAACTATTTATTTAGAAAAAATAAAATTACTGTAAAAAATAGTGAGAAATCAAACACATTTTCGATAATATTATTATAAAAAAATATTTAAATATTACAATGGTTAAATTAGTAAAAAAATGTCTTGTAACAAAATATCTCTGGACTTTCAAAATTTTCCAAAGTATTCTTAGACTAAAAAAAATAAAAGTTAAAAATTGCTCTTACCATTAGTTTTACATGAAAACTATTTGTACTTCGTGTCAAAAATACTTTTGAACTTTTAAAAAATATCCTTAAATGTTTGATATTCAATTAAGATATATAGACTAAGACTATAACAAGTAGAAAAAGAATAATGGAACCACTAATAGATCTTAAGGCTTAACAAGGTTGTACATTAGTAATTGAATGTGTGTTAATATATCGTTTGAGTTTAATACACTGAAAGAGACATAATGTTGATCCTTTTTGCAATTAAAATTACTCTATTTATTGTGATTAGTTAAAAAAAAATTGTAGTTAAGATATTTCTTTATCAATTCTTCTTGTATTTAGCTATTTATCATTTTGCTAAGTTATGAGAAAATTTTGATTTTAAAATTTTGTGAAGTTTTATTCATTAACTTGAAGTTTGTTTATATTTAGGCCATGTTTACATTAGGTGAAAGGTAATTCATCAATGGTAATGTAAAAAGTGAAACTAAGTTGATTAGTTTTGTTGTTGTTCACTTATGTTTTGTAATTGTCATGAGCTGTGGGACCCTCTTCAAAATTTGGAATCAAATTCTGCAATCAAATCGAGTAATGAAAAATGTTCAATCTTATTCTGGTTGAAAATTACATGGGACCCACTACCTTTGCCATTATAAATATTGTTATTGTAACAATATAAAAATTATGAATATGTCACATTTATTATTAATTTTACCGTTAGTGGGTCAAGCAATAACAATAACAATAACGGTAACAGTAAAATATGAAAAATTCATATTTCTAAGTAAATGCGATCAAAAGCAATTCAATTACGTTTGTGGTTAAGACATATTACAATTCATCTATCAATAAAATTTTATACGATTATACTAATTTTTATTACGAATTGGTAAATGCAGATTTAGTTATTGAGAAAAGTTGTTTGAAGAGAAAGATGCTTTTTACCAACTGCAATATATAATAACTTTGGAAACATGCGCATCTATTAACAACGGTATAAATGGACAAATATATTTTGAGTAGTGAAAGTTATTTAAAAAAAAAAAAAAAAAAAAAAAAGAAAATTAAAATTGAGAGACAAAGTAGAATTAATGCAATGAAATTTTGGAGACGTTGCGTGCGGGCAATGTCAGCTTCTTGGCCTCGGCCTTTGCAAAAAGCCTATACTGTGTTTCCCATTCCCTTCCCTAATAACGACGAGCCACAGCGCTGCCGCTGCCCCCATTTCATTTCAAAAAGCTTTCTAAAATATATTCAATTCCCATCCCAATAAACCATTTCCCTTTCTTTCTTCCTTTCCCCCATTTCTTTTTTCGTTTTTTCTCTCTTTTAATTCAACCAACAATCACATTCATCAGGCAGGCGATCCATTTTGAATGGGCTGCCCAGCTCGCTACCAATTTCTTTGACTCTTGAGCCTTTTGTTGTTCCAATCTAAGCCCGACACACGGCCATTGCTTTGCTTCACTTCACCACCCACCCCTTTCTTCTTTCTCTTTCCATTTCCTTTTGGGGCCAAACAATTCTATCAAGGGTTGTTCAGCGGCGTTAACCTCATTTCCTGCTTTTTTTTTGTTCGATCACTCTCTAACCCTTCAATTTTTCCATCTGGGTATGCTGATTCTTCGCCTATTTTGATGTTTTATGTTGCTCTGCTGCTGATTCTTCAAATTGCGAGTTCATAATCTCTCTTGGGTTTTGTTCGATTTCGTTGTTGTTGTATATTTCCAACATTGTTTATCAGTGTGCTGCATTCTCGTTATGTTCGTGCCTGTTGAGCAATTTTGAAACCATGGTGAATTTTGTCTGTCGTTTTCCTTCTTGATTCTTAACTGAAGTGGTTTAGATGGGAAAATGCTGGCTTCTAGTTATAAACAGAGGTGATTTAAGACCCGTTCTATTAATAGATAAATTGTTGTTTTCCTTTGGTTTCCTTATATTCTACTTTTCTGTTCATAGATTCTTATCGCAGCATAGATGCCAAACTCAATAAAGAGGAAAAGAGAAAATAAAAATTTGGTGCTTCTGTTGAGTTTTGTTTTCTTGCTGCTTGTACTTGTGCCAATAAATGATACTTCTTTTTCTTACTCTTAAACGCACTTTTTCTGTTGTGCAAGCAAACAATGATTCCATCCAATTATGACTGTCATTTTGTTGTAAATTTTAGTACAAACATGAGTTTTCAATTTAAAGGACCTTGAAGATTCTTCATCATAGTTTCCATTTCCAATAGGTTCTGTCCTTCCTATCCTATGTTATTATAAGAGAAGCATTCAATGATCTGAAACTTAATTGTTTTTACTTCTTGCTCATGCAATGCTTTCAAATTGCATCTGGCTTCTCATTTCTCTCGATTTCTAGATATGAATTTGATTTAGATATGTATTAAATTACGGCTTTACTGATTGATTGTTCTTGATTTGTAATTCAAGAGATTCATGTTTTGAACCTTTTTTTCCATTATAATGCAATTTGCATTGCACCTTTGAAAATAAATATAATTGAAAGTGAAGTTTGAATGGTCCGCGGAACCAGTTTTGAGATGCTTGCATATCATAAGTTTCAATGGAACTAGTCATGAGTTCTTCAAACAAGTCCCTCTGGGAATGACACTTCTTTTTTTTAACTAAATCTCACAGATGATTGTATGAGTACCATAGAATTCAGAGAGAAGGGGATGTATCAGCAGCCGAAGTCAAGGGAAGAACATGCTTCTTCTGCAGCCAGCTTCTGCAAAGAAGTGACCGAGTTGCGCCTTGCATCAATAGATTCTCAAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGTCACTTTCAGGAAAGCTTCAACTGGTGGTTTTGCTAGGAGTCGTAATGATGTACACGAGCTACTCGATTGTACTGTTTGCATGAATTTAATGCATCCCCCAATTTACCAGGTATCTTATTCTAATTGTGATGACTTTCAAAACTTCCAATGCTTGCTCATAAATCCATCCAATAAGAAAAGTAGAAAACGAAGGCATTTAATTTGAGACCCTGAATCAAAGTTGTAGCCTATAGCTAAAACCCTTATGCATCATTGAGCAAGAGCAATCCTTTTGTCCCCGGAAAGACCTTCCGATGGAGTATCAAAAACACTCTATCTAATTTCACTTTGTTCAAATGGGAGGCTAGCTATTTTGTTTAAGCATTGAATTGCATTATGGCTGAGTTATTACATTTGAGGCAATTCTAGTGCATACCAGCTAAAATAGTTATTATGGTTTAGTGTGCAAATGGGCACACTCTTTGTTCAAGCTGCAAGGCGAGGGTTCAGAACTGTTGCCCGACCTGCCGGCATGAGCTGGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCTGAGTCGCTCGAGCTCCCTTGTGTGTACCAAAACCTAGGTTGCATTGACATGTTCCCATATTACAGCAAGCTTAAACATGAGAAGAATTGTAAATACCGGCCGTACAACTGCCCTTACGCTGGAGGTGAATGTCGTGTAACTGGTGATATTCCATACCTTGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCATGATGGATGTTCCTTCAGCCATAGATATGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACTGTAAGATGTCTATCTGTGTCTTTATTTAAGATTCTTAGGAATAACGAAAGCAAAGGAGAAGCATTTCATGTAATGAACATCCTCCTGATTTCTCATTTGATCCAATTCAGGTTTTCAACTGCTTCGGACGACAATTCTGTTTGCACTTCGAAGCATTTCGCTTAGGAACAGCACCTGTTTACATGGCATTCCTCCGGTTCATGGGAGACGATGACGATGCAAAACAATTTTCTTACAGTCTGGAAGTTGGTGGAAATGGAAGAAAACTCATCTGGCAAGGTATTCCTAGAAGTATCCGCGATAGCCATCGGAAGGTTCGAGACAGTCACGATGGACTAATCATTCAGAGGAAGTTGGCACTATTCTGCTCTGGAAATGAGGGGATGGAACTGAAGTTAAAGGTTACAGGGCGAATATGGAGAGTAAGGTGACAACAAATATAGATTTATCAAAGTCTAAACTTGTACAATATGTGACATTGTGACCTATGTACATGCCTCTGCCTCCTACAATTCAGCCTTGTTAGAAGAACCTCATATTTCTTCATTACTTACATTTTCTGCTTCCTTTTTTTTATATAACTTATTTTTTTACTTCAAATATACACAGGAGGGAATTATAAAAATAGCATGATAATTTTTTTTTTTTTTTAAAAAAAGAAAAACTCACAATATTGCCAACCTATTTTCATATTTACAACAGTAATGCAACTCAAATCGGAGAAGTTGCATATTATGTTTAAATAATTGCACGATACTTAAATTATATATATATATATATGGAAACCTACAATACATTAGAGTGTATTTGGAATACATTTTCAAGTGTTTAATTTAAAAAACAAATTATTTTAGAAAAAATTAGAGTATTTGACAACTATTCAAAATAAATTTTAAAGTGTATTTAAACGGATTTTATCAAAAGAGTTTAAACAAAAATGAATTTTTTCAAAAACATTTTTTCTCAGTCAATTTAAACGAGCCCAACTTGTTATACAATTAGGTCAATATTCTAATATAAAAGCTTAACCTTTTATTGGCTTGCTTGGAAATTCTTTTTCCACTTTAATAATAACAAATAGAAATGGAAGAATAAATAAATAAAAATAAATAAATAAAGGTATCCATGTTTGTACAAAATTGAAAGCTGAGGATTTTGATTTTTGAAATTTTTTAGATATTTTTTATAGTTCACCTACTTAACATAAATTTGAAAGGTGGCTAATGAATCTTAAAATAAATTACAGTGAACTAATATAGATTGGTTAAATTATAAATTTAGTAGTTTCGAGAAAATTAGAATATAATTTATATAGTTTTAAAAGTTAGAATTTAGTCCTAATGATTAGATAAAACTTCATAAATGGTCTCTATCTATAAAGATTTTATCAAACCATATGAACTAAATTCAAATTATAGATTATAAGGATTAAAGTCTAATTTTTTTCAAATGAAAGGTCTAAATTTGCAAGTTAACCTAATTTCCTTTATTAACTAAACTTAAGACAAAATCAATGCTAATCTATACTATATTAAAAGGGGAAAGTATGAGAATTTTTACATTCCCTTTTTGCCCCTACAATTTTAGTAAATGACTATTTTGCCTTTCCATCGTTAGAACATGAATTTTCATTTGGTGCCTATTGAGTGATGTTAGGAAAATAGAGGTGCAATCTTATGTCGATGGGACACAACTCATTAGGTGCAAATGGTTATACATTGAATCAATATATCTATTCTTGAATGAATGTGATCCATGTATAAAGATGTGACTATTGGAGTTTAAGTGTTTATTTGATTATACTCTATTTAAGTGTTTAAAAACGTATCATTCAATCTTTGGGACACGACTTTTTAAGTTTAAATGTCTATTTGATTGTTTTTGTGTAGGCAATTACACATTGAATGAATGTATTCATTCATGTATGGGTGTAATCCATATAAACGGCAACCTATCGAGTTTAGGTGTTTGCTAAGAGATGTTAGCACAATAAAAGTTGTGCTTATTCTCGCTTTACATAAAATAGATTTATTGTATATGAAAGTTAACTTTGAAGCCGAATAAGTACATTTTATGTCAATATAACACCATTGTTTGAGTGTAGCTGGTGTTACATTTTATTTGCATTTATTACTAATTTTACAAAAAAAAAAAAAAAATCTTAAAAAGAGATTTCATTGTATCATACGTATTTATAAAATATAGAATAGTTGAAATTATTTCAATATACTTCATCAACATGATTTATCATCAATAAATATAAATGATTTACACTAAACCTTTAAATAAAATAATAAACTATAAAATTCACGTGAATCATTACTAGTTAAAGGAAAATGGCAAATGAAAAATGGTAGTTAGAGAAGTTACGACGTCGTACCATTCGTCGTTCCAACAGAGTCTTCACCGGCTTAAACCCTAAACCCTGTGGAGTTGGCGTAGTGGGAAGGAAGAAAACCGCCGAACAAATGCTGATTACTCGAAAGCTTTCTGCTTCGAACCTCAAATCCTTTCTTTCTCTGCGTTTCGTTTCCCCTTCTCTGACTTCGCACTTGTTTTCTTCACCTCTCTGCTTAAACCCACCAATCCTTTGCCCACTTCCTCCCACTCTTTCGCCGTCTTTCTCTTCCAAACCCACACCTCCAGAAGCTTCCAACCTCACCCGCGATGGCAACTACGACGAAGCCACTTCCCGATTCTCCCTCGTCTGCCCTGGCTGTGGAGTTCACATGCAAGACACCAATCCCAAACATCCTGGCTTCTTCGTCAAACCCTCGAGAAAAGATTCCAATTATCGCTTACTTACCCATCTTGTCCCCGTCCATGATGAATCTGAATGCTCCGAATTTCTCAAGAGAGGCCTAATAATCGAGCCAGATAATCAGAAAACTGAAGAGAATGTGACCGAGAAACCCCACAAGCCGACCGTGTGTTCGCGGTGCCACTCATTGAGGCATTATGGGAAGGTAAAGGATCCTTCAGTAGAGAATTTACTGCCGGATTTTGATTTCGATCATACCATCGGTAGGAGACTGGCGTCGACTTCGGGAACCCGATCTGTTGTTCTGATCGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAGAAGGTAGCGAACTTGGTCTCGGCCACTATTGAGGATAATTCAGCTGCCTGGAAACAGGGGAAATCAGGGAATGTGCCTAGAGTGGTGCTTGTAGTGACAAAAATTGATCTGCTGCCTAGCTCTTTATCACCGACGAGATTTGAGCATTGGGTGAGGCAGAGAGCGAGGGAGGGAGGGATTAACAAGATAACGAGTTTGCATATGGTGAGTGCGGTTAGAGATTGGGGGCTGAAAAATTTGGTGGAGGATGTAATTGAATTGGTTGGGGCGAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATTAATTCAATAGGAAAGCATGTAGGTGGGAAGATTACGCAGTTGACTGAAGCACCAGTTCCTGGGACAACGTTGGGGATAATCAGAGTAGAGGGAATTTTTCCGGGTCAAGCCAAATTGTTTGATACTCCTGGGCTTCTCAATCCCCATCAGATTACTACGAGATTGACTAGGGAAGAGCAGAAACTTGTTCACATCAGCAAGGAATTGAAGCCCAGGACTTACAGGATTAAGGTAACCAAATTGATTTTTTATGTTTCTTTTCTCATGGCTGGAACTTAATTGTTGCTCCATTATCATTGAACTCTCGTTCTTTGAGTTTTAGTTTTAGAAAAGATATGGTTTTGGGACGAGTAGGCCATGGTATTGACCAAGAGGATACATGATATAGAGATTGTTGTACAAAAGACCCAATACTAGCTGCATTAAGGCAAAATGATCCAATCGTGGAAAACGAATGAAAACCAACATTCTACTTACGTCATGCACTTCACCACCGCCTAAAATACATTATTGCATTAGGGATGTCTCACCCTTTGCGAAATAATTAGAGCCCTAATGCAATTTTCATTTTTAATCATTGGTTGGTCAACTATTATTTAAAAAAAAATTACGATAGAAATGAATATCACACCAGGAGCCCAATTATTTCGCAATAGGAGGAACATCCGTAACGTGATAGTGGTTTGTGATGTTAACAAAAGATTAGTTTTTATTCCTTTTTTAGGATTGGATCATTTTGCATTAACACCTCTAAAAGTAGTTATCTGTACAAAAACCTCCATGATATAACTAACATGAAAAACTGTAACGAAGGATCATATGATTATTGAGTCGTTATGTAGGACCGAAATTGTGATTGGCTAAATAGCAAAATGATATGATACTATATAATGATGTTGAAATTGTGAGTATAAAGTTCTACTCTCAATTTGGTCTTCTATAGACAACCATTTTCAGCAAGAAATTTGGTTGAGATTTCATAATATAGTGTTGCTTTTTATAGGTTGGTCACACAATTCATGTTGCTGGCCTCATGAGGCTAGATGTGGAAGAAACAACTGTGGATACAATTTATGTTACGGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAACAGAAAATGCAACCAAAATACAGGAGGACCATTTTGGGAATCAATTGCAGGTATTATTTGTAATAGCTAGTTTGATAATAAACATACAGAAGGATCGTTTTGTGGATACTCATGGTTTTTTGCTTTGCTTCAGCCACCTATAGGCAAAGATCGAGTTGCAGAACTTGGAAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGAAGTAGTTGGGATTCAAGTTGTGTAGATGCTGCTGCTGCTGGCCTGGGTTGGTTCGCCATTGGACTAAAAGGCGAGGCAGTCTTGAGCATATGGACTTATGAGGGGATCGAGGTTGTTATACGAAGTTCTGTCATTCCTTACAGATCAAACTTCTTTGAAGATGCTGGATTTACAGTCTCGAAAATTGTCTCCAAGGCTGATCAGGTTGCAAATAAACCACATGATCAAAGCGAAAAGAAGAAGAAAAAGGGTGACCCCAAAGTTCGTGTGCTGACTGAGACGTCAGTATCGAAAGCTCGCTCCAAATATGATTCTGCTTAA ATGGATCCTCTTAAGCTCTCTCCTAGACTCTTATCTCCACTGAGCTTAGCTTTGAGCTTTCTCTTAGGGCTCCTAGCTCCATGGGTCCCTTTCTCGAGCTCTCAGCTCATAGGTTCTCTAGCTTTCTTAGGCTCTCCTCATGGATGTGCTATTTTGGGAGGCTATCAATTTATTTCTGAAGGGTGTTGCATGAGCATGTTGGAAGTTGAGGCATTACTTGAGGAGCTTAGAGATTTAGAAGGAGGGTGGTCGGGTCCAATTCCTCTGTTGGAGGTGGAGTCCGACGCACTGGAGGTCATCAGGCCTCTCAATAGGGAAGTGTATTTTTATGTTGAGATTGGTGTCCTTATTGAGGGTTGTTCAGCGGCGTTAACCTCATTTCCTGCTTTTTTTTTGTTCGATCACTCTCTAACCCTTCAATTTTTCCATCTGGATGATTGTATGAGTACCATAGAATTCAGAGAGAAGGGGATGTATCAGCAGCCGAAGTCAAGGGAAGAACATGCTTCTTCTGCAGCCAGCTTCTGCAAAGAAGTGACCGAGTTGCGCCTTGCATCAATAGATTCTCAAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGTCACTTTCAGGAAAGCTTCAACTGGTGGTTTTGCTAGGAGTCGTAATGATGTACACGAGCTACTCGATTGTACTGTTTGCATGAATTTAATGCATCCCCCAATTTACCAGTGTGCAAATGGGCACACTCTTTGTTCAAGCTGCAAGGCGAGGGTTCAGAACTGTTGCCCGACCTGCCGGCATGAGCTGGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCTGAGTCGCTCGAGCTCCCTTGTGTGTACCAAAACCTAGGTTGCATTGACATGTTCCCATATTACAGCAAGCTTAAACATGAGAAGAATTGTAAATACCGGCCGTACAACTGCCCTTACGCTGGAGGTGAATGTCGTGTAACTGGTGATATTCCATACCTTGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCATGATGGATGTTCCTTCAGCCATAGATATGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACTGTTTTCAACTGCTTCGGACGACAATTCTGTTTGCACTTCGAAGCATTTCGCTTAGGAACAGCACCTGTTTACATGGCATTCCTCCGGTTCATGGGAGACGATGACGATGCAAAACAATTTTCTTACAGTCTGGAAGTTGGTGGAAATGGAAGAAAACTCATCTGGCAAGGTATTCCTAGAAGTATCCGCGATAGCCATCGGAAGGTTCGAGACAGTCACGATGGACTAATCATTCAGAGGAAGTTGGCACTATTCTGCTCTGGAAATGAGGGGATGGAACTGAAGTTAAAGGTTACAGGGCGAATATGGAGAGTAAGAGTCTTCACCGGCTTAAACCCTAAACCCTGTGGAGTTGGCGTAGTGGGAAGGAAGAAAACCGCCGAACAAATGCTGATTACTCGAAAGCTTTCTGCTTCGAACCTCAAATCCTTTCTTTCTCTGCGTTTCGTTTCCCCTTCTCTGACTTCGCACTTGTTTTCTTCACCTCTCTGCTTAAACCCACCAATCCTTTGCCCACTTCCTCCCACTCTTTCGCCGTCTTTCTCTTCCAAACCCACACCTCCAGAAGCTTCCAACCTCACCCGCGATGGCAACTACGACGAAGCCACTTCCCGATTCTCCCTCGTCTGCCCTGGCTGTGGAGTTCACATGCAAGACACCAATCCCAAACATCCTGGCTTCTTCGTCAAACCCTCGAGAAAAGATTCCAATTATCGCTTACTTACCCATCTTGTCCCCGTCCATGATGAATCTGAATGCTCCGAATTTCTCAAGAGAGGCCTAATAATCGAGCCAGATAATCAGAAAACTGAAGAGAATGTGACCGAGAAACCCCACAAGCCGACCGTGTGTTCGCGGTGCCACTCATTGAGGCATTATGGGAAGGTAAAGGATCCTTCAGTAGAGAATTTACTGCCGGATTTTGATTTCGATCATACCATCGGTAGGAGACTGGCGTCGACTTCGGGAACCCGATCTGTTGTTCTGATCGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAGAAGGTAGCGAACTTGGTCTCGGCCACTATTGAGGATAATTCAGCTGCCTGGAAACAGGGGAAATCAGGGAATGTGCCTAGAGTGGTGCTTGTAGTGACAAAAATTGATCTGCTGCCTAGCTCTTTATCACCGACGAGATTTGAGCATTGGGTGAGGCAGAGAGCGAGGGAGGGAGGGATTAACAAGATAACGAGTTTGCATATGGTGAGTGCGGTTAGAGATTGGGGGCTGAAAAATTTGGTGGAGGATGTAATTGAATTGGTTGGGGCGAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATTAATTCAATAGGAAAGCATGTAGGTGGGAAGATTACGCAGTTGACTGAAGCACCAGTTCCTGGGACAACGTTGGGGATAATCAGAGTAGAGGGAATTTTTCCGGGTCAAGCCAAATTGTTTGATACTCCTGGGCTTCTCAATCCCCATCAGATTACTACGAGATTGACTAGGGAAGAGCAGAAACTTGTTCACATCAGCAAGGAATTGAAGCCCAGGACTTACAGGATTAAGGTTGGTCACACAATTCATGTTGCTGGCCTCATGAGGCTAGATGTGGAAGAAACAACTGTGGATACAATTTATGTTACGGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAACAGAAAATGCAACCAAAATACAGGAGGACCATTTTGGGAATCAATTGCAGCCACCTATAGGCAAAGATCGAGTTGCAGAACTTGGAAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGAAGTAGTTGGGATTCAAGTTGTGTAGATGCTGCTGCTGCTGGCCTGGGTTGGTTCGCCATTGGACTAAAAGGCGAGGCAGTCTTGAGCATATGGACTTATGAGGGGATCGAGGTTGTTATACGAAGTTCTGTCATTCCTTACAGATCAAACTTCTTTGAAGATGCTGGATTTACAGTCTCGAAAATTGTCTCCAAGGCTGATCAGGTTGCAAATAAACCACATGATCAAAGCGAAAAGAAGAAGAAAAAGGGTGACCCCAAAGTTCGTGTGCTGACTGAGACGTCAGTATCGAAAGCTCGCTCCAAATATGATTCTGCTTAA ATGGATCCTCTTAAGCTCTCTCCTAGACTCTTATCTCCACTGAGCTTAGCTTTGAGCTTTCTCTTAGGGCTCCTAGCTCCATGGGTCCCTTTCTCGAGCTCTCAGCTCATAGGTTCTCTAGCTTTCTTAGGCTCTCCTCATGGATGTGCTATTTTGGGAGGCTATCAATTTATTTCTGAAGGGTGTTGCATGAGCATGTTGGAAGTTGAGGCATTACTTGAGGAGCTTAGAGATTTAGAAGGAGGGTGGTCGGGTCCAATTCCTCTGTTGGAGGTGGAGTCCGACGCACTGGAGGTCATCAGGCCTCTCAATAGGGAAGTGTATTTTTATGTTGAGATTGGTGTCCTTATTGAGGGTTGTTCAGCGGCGTTAACCTCATTTCCTGCTTTTTTTTTGTTCGATCACTCTCTAACCCTTCAATTTTTCCATCTGGATGATTGTATGAGTACCATAGAATTCAGAGAGAAGGGGATGTATCAGCAGCCGAAGTCAAGGGAAGAACATGCTTCTTCTGCAGCCAGCTTCTGCAAAGAAGTGACCGAGTTGCGCCTTGCATCAATAGATTCTCAAGCAGCAACTTCTCGTCCAGAGTTCAAAGGTGTCACTTTCAGGAAAGCTTCAACTGGTGGTTTTGCTAGGAGTCGTAATGATGTACACGAGCTACTCGATTGTACTGTTTGCATGAATTTAATGCATCCCCCAATTTACCAGTGTGCAAATGGGCACACTCTTTGTTCAAGCTGCAAGGCGAGGGTTCAGAACTGTTGCCCGACCTGCCGGCATGAGCTGGGGAACATAAGGTGCCTAGCACTGGAAAAGGTGGCTGAGTCGCTCGAGCTCCCTTGTGTGTACCAAAACCTAGGTTGCATTGACATGTTCCCATATTACAGCAAGCTTAAACATGAGAAGAATTGTAAATACCGGCCGTACAACTGCCCTTACGCTGGAGGTGAATGTCGTGTAACTGGTGATATTCCATACCTTGTCATGCATCTCAAGGACGATCACGAGGTTGATATGCATGATGGATGTTCCTTCAGCCATAGATATGTCAAATCCAATCCCCAAGAAGTTGAAAATGCTACATGGATGCTTACTGTTTTCAACTGCTTCGGACGACAATTCTGTTTGCACTTCGAAGCATTTCGCTTAGGAACAGCACCTGTTTACATGGCATTCCTCCGGTTCATGGGAGACGATGACGATGCAAAACAATTTTCTTACAGTCTGGAAGTTGGTGGAAATGGAAGAAAACTCATCTGGCAAGGTATTCCTAGAAGTATCCGCGATAGCCATCGGAAGGTTCGAGACAGTCACGATGGACTAATCATTCAGAGGAAGTTGGCACTATTCTGCTCTGGAAATGAGGGGATGGAACTGAAGTTAAAGGTTACAGGGCGAATATGGAGAGTAAGAGTCTTCACCGGCTTAAACCCTAAACCCTGTGGAGTTGGCGTAGTGGGAAGGAAGAAAACCGCCGAACAAATGCTGATTACTCGAAAGCTTTCTGCTTCGAACCTCAAATCCTTTCTTTCTCTGCGTTTCGTTTCCCCTTCTCTGACTTCGCACTTGTTTTCTTCACCTCTCTGCTTAAACCCACCAATCCTTTGCCCACTTCCTCCCACTCTTTCGCCGTCTTTCTCTTCCAAACCCACACCTCCAGAAGCTTCCAACCTCACCCGCGATGGCAACTACGACGAAGCCACTTCCCGATTCTCCCTCGTCTGCCCTGGCTGTGGAGTTCACATGCAAGACACCAATCCCAAACATCCTGGCTTCTTCGTCAAACCCTCGAGAAAAGATTCCAATTATCGCTTACTTACCCATCTTGTCCCCGTCCATGATGAATCTGAATGCTCCGAATTTCTCAAGAGAGGCCTAATAATCGAGCCAGATAATCAGAAAACTGAAGAGAATGTGACCGAGAAACCCCACAAGCCGACCGTGTGTTCGCGGTGCCACTCATTGAGGCATTATGGGAAGGTAAAGGATCCTTCAGTAGAGAATTTACTGCCGGATTTTGATTTCGATCATACCATCGGTAGGAGACTGGCGTCGACTTCGGGAACCCGATCTGTTGTTCTGATCGTCGTTGATGCTGCAGATTTTGATGGGTCATTCCCAAAGAAGGTAGCGAACTTGGTCTCGGCCACTATTGAGGATAATTCAGCTGCCTGGAAACAGGGGAAATCAGGGAATGTGCCTAGAGTGGTGCTTGTAGTGACAAAAATTGATCTGCTGCCTAGCTCTTTATCACCGACGAGATTTGAGCATTGGGTGAGGCAGAGAGCGAGGGAGGGAGGGATTAACAAGATAACGAGTTTGCATATGGTGAGTGCGGTTAGAGATTGGGGGCTGAAAAATTTGGTGGAGGATGTAATTGAATTGGTTGGGGCGAGAGGAAATGTGTGGGCAATTGGAGCACAAAATGCTGGGAAAAGCACGCTGATTAATTCAATAGGAAAGCATGTAGGTGGGAAGATTACGCAGTTGACTGAAGCACCAGTTCCTGGGACAACGTTGGGGATAATCAGAGTAGAGGGAATTTTTCCGGGTCAAGCCAAATTGTTTGATACTCCTGGGCTTCTCAATCCCCATCAGATTACTACGAGATTGACTAGGGAAGAGCAGAAACTTGTTCACATCAGCAAGGAATTGAAGCCCAGGACTTACAGGATTAAGGTTGGTCACACAATTCATGTTGCTGGCCTCATGAGGCTAGATGTGGAAGAAACAACTGTGGATACAATTTATGTTACGGTGTGGGCATCTCCTTATCTTCCATTACACATGGGGAAAACAGAAAATGCAACCAAAATACAGGAGGACCATTTTGGGAATCAATTGCAGCCACCTATAGGCAAAGATCGAGTTGCAGAACTTGGAAAATGGGTGAGAAGGGAATTTCGTGTTTGTGGAAGTAGTTGGGATTCAAGTTGTGTAGATGCTGCTGCTGCTGGCCTGGGTTGGTTCGCCATTGGACTAAAAGGCGAGGCAGTCTTGAGCATATGGACTTATGAGGGGATCGAGGTTGTTATACGAAGTTCTGTCATTCCTTACAGATCAAACTTCTTTGAAGATGCTGGATTTACAGTCTCGAAAATTGTCTCCAAGGCTGATCAGGTTGCAAATAAACCACATGATCAAAGCGAAAAGAAGAAGAAAAAGGGTGACCCCAAAGTTCGTGTGCTGACTGAGACGTCAGTATCGAAAGCTCGCTCCAAATATGATTCTGCTTAA MDPLKLSPRLLSPLSLALSFLLGLLAPWVPFSSSQLIGSLAFLGSPHGCAILGGYQFISEGCCMSMLEVEALLEELRDLEGGWSGPIPLLEVESDALEVIRPLNREVYFYVEIGVLIEGCSAALTSFPAFFLFDHSLTLQFFHLDDCMSTIEFREKGMYQQPKSREEHASSAASFCKEVTELRLASIDSQAATSRPEFKGVTFRKASTGGFARSRNDVHELLDCTVCMNLMHPPIYQCANGHTLCSSCKARVQNCCPTCRHELGNIRCLALEKVAESLELPCVYQNLGCIDMFPYYSKLKHEKNCKYRPYNCPYAGGECRVTGDIPYLVMHLKDDHEVDMHDGCSFSHRYVKSNPQEVENATWMLTVFNCFGRQFCLHFEAFRLGTAPVYMAFLRFMGDDDDAKQFSYSLEVGGNGRKLIWQGIPRSIRDSHRKVRDSHDGLIIQRKLALFCSGNEGMELKLKVTGRIWRVRVFTGLNPKPCGVGVVGRKKTAEQMLITRKLSASNLKSFLSLRFVSPSLTSHLFSSPLCLNPPILCPLPPTLSPSFSSKPTPPEASNLTRDGNYDEATSRFSLVCPGCGVHMQDTNPKHPGFFVKPSRKDSNYRLLTHLVPVHDESECSEFLKRGLIIEPDNQKTEENVTEKPHKPTVCSRCHSLRHYGKVKDPSVENLLPDFDFDHTIGRRLASTSGTRSVVLIVVDAADFDGSFPKKVANLVSATIEDNSAAWKQGKSGNVPRVVLVVTKIDLLPSSLSPTRFEHWVRQRAREGGINKITSLHMVSAVRDWGLKNLVEDVIELVGARGNVWAIGAQNAGKSTLINSIGKHVGGKITQLTEAPVPGTTLGIIRVEGIFPGQAKLFDTPGLLNPHQITTRLTREEQKLVHISKELKPRTYRIKVGHTIHVAGLMRLDVEETTVDTIYVTVWASPYLPLHMGKTENATKIQEDHFGNQLQPPIGKDRVAELGKWVRREFRVCGSSWDSSCVDAAAAGLGWFAIGLKGEAVLSIWTYEGIEVVIRSSVIPYRSNFFEDAGFTVSKIVSKADQVANKPHDQSEKKKKKGDPKVRVLTETSVSKARSKYDSA Homology
BLAST of ClCG02G023800 vs. NCBI nr
Match: KAF3444436.1 (hypothetical protein FNV43_RR14128 [Rhamnella rubrinervis]) HSP 1 Score: 1259.6 bits (3258), Expect = 0.0e+00 Identity = 630/925 (68.11%), Postives = 727/925 (78.59%), Query Frame = 0
BLAST of ClCG02G023800 vs. NCBI nr
Match: KAB5572884.1 (hypothetical protein DKX38_000078 [Salix brachista]) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 565/915 (61.75%), Postives = 673/915 (73.55%), Query Frame = 0
BLAST of ClCG02G023800 vs. NCBI nr
Match: XP_038901740.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic [Benincasa hispida]) HSP 1 Score: 1092.0 bits (2823), Expect = 0.0e+00 Identity = 547/584 (93.66%), Postives = 562/584 (96.23%), Query Frame = 0
BLAST of ClCG02G023800 vs. NCBI nr
Match: KAG6570359.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia] >KAG7010240.1 GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1043.5 bits (2697), Expect = 1.3e-300 Identity = 523/593 (88.20%), Postives = 547/593 (92.24%), Query Frame = 0
BLAST of ClCG02G023800 vs. NCBI nr
Match: XP_023513264.1 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 1040.8 bits (2690), Expect = 8.2e-300 Identity = 523/593 (88.20%), Postives = 545/593 (91.91%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy Swiss-Prot
Match: Q9M2P4 (E3 ubiquitin-protein ligase SINAT2 OS=Arabidopsis thaliana OX=3702 GN=SINAT2 PE=1 SV=1) HSP 1 Score: 471.9 bits (1213), Expect = 2.0e-131 Identity = 217/301 (72.09%), Postives = 249/301 (82.72%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy Swiss-Prot
Match: P93748 (Putative E3 ubiquitin-protein ligase SINAT1 OS=Arabidopsis thaliana OX=3702 GN=SINAT1 PE=1 SV=1) HSP 1 Score: 461.8 bits (1187), Expect = 2.1e-128 Identity = 214/298 (71.81%), Postives = 245/298 (82.21%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy Swiss-Prot
Match: Q8W4I6 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=BPG2 PE=1 SV=1) HSP 1 Score: 450.3 bits (1157), Expect = 6.2e-125 Identity = 237/580 (40.86%), Postives = 347/580 (59.83%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy Swiss-Prot
Match: Q10L91 (E3 ubiquitin-protein ligase DIS1 OS=Oryza sativa subsp. japonica OX=39947 GN=DIS1 PE=1 SV=1) HSP 1 Score: 449.9 bits (1156), Expect = 8.1e-125 Identity = 197/255 (77.25%), Postives = 225/255 (88.24%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy Swiss-Prot
Match: Q84JL3 (E3 ubiquitin-protein ligase SINAT3 OS=Arabidopsis thaliana OX=3702 GN=SINAT3 PE=1 SV=1) HSP 1 Score: 446.8 bits (1148), Expect = 6.9e-124 Identity = 198/277 (71.48%), Postives = 233/277 (84.12%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy TrEMBL
Match: A0A5N5NZU1 (RING-type E3 ubiquitin transferase OS=Salix brachista OX=2182728 GN=DKX38_000078 PE=3 SV=1) HSP 1 Score: 1109.4 bits (2868), Expect = 0.0e+00 Identity = 565/915 (61.75%), Postives = 673/915 (73.55%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy TrEMBL
Match: A0A6J1JD02 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111483924 PE=4 SV=1) HSP 1 Score: 1033.9 bits (2672), Expect = 4.9e-298 Identity = 519/593 (87.52%), Postives = 544/593 (91.74%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy TrEMBL
Match: A0A6J1FW06 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111448990 PE=4 SV=1) HSP 1 Score: 1025.4 bits (2650), Expect = 1.7e-295 Identity = 514/584 (88.01%), Postives = 536/584 (91.78%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy TrEMBL
Match: A0A0A0KZ58 (G domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G285700 PE=4 SV=1) HSP 1 Score: 1015.8 bits (2625), Expect = 1.4e-292 Identity = 500/572 (87.41%), Postives = 534/572 (93.36%), Query Frame = 0
BLAST of ClCG02G023800 vs. ExPASy TrEMBL
Match: A0A5D3DDC5 (GTP-binding protein BRASSINAZOLE INSENSITIVE PALE GREEN 2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold859G00340 PE=4 SV=1) HSP 1 Score: 1001.5 bits (2588), Expect = 2.7e-288 Identity = 497/572 (86.89%), Postives = 529/572 (92.48%), Query Frame = 0
BLAST of ClCG02G023800 vs. TAIR 10
Match: AT4G10620.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 728.8 bits (1880), Expect = 6.4e-210 Identity = 364/565 (64.42%), Postives = 443/565 (78.41%), Query Frame = 0
BLAST of ClCG02G023800 vs. TAIR 10
Match: AT3G58040.1 (seven in absentia of Arabidopsis 2 ) HSP 1 Score: 471.9 bits (1213), Expect = 1.4e-132 Identity = 217/301 (72.09%), Postives = 249/301 (82.72%), Query Frame = 0
BLAST of ClCG02G023800 vs. TAIR 10
Match: AT2G41980.1 (Protein with RING/U-box and TRAF-like domains ) HSP 1 Score: 461.8 bits (1187), Expect = 1.5e-129 Identity = 214/298 (71.81%), Postives = 245/298 (82.21%), Query Frame = 0
BLAST of ClCG02G023800 vs. TAIR 10
Match: AT3G57180.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 450.3 bits (1157), Expect = 4.4e-126 Identity = 237/580 (40.86%), Postives = 347/580 (59.83%), Query Frame = 0
BLAST of ClCG02G023800 vs. TAIR 10
Match: AT3G61790.1 (Protein with RING/U-box and TRAF-like domains ) HSP 1 Score: 446.8 bits (1148), Expect = 4.9e-125 Identity = 198/277 (71.48%), Postives = 233/277 (84.12%), 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 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.
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