ClCG02G000280 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTCGTGATTCTTCCTCTTTTCAAGCCTTTACTAGGTGATTCTTCTCACGATTTGTGGTTTTCGAGCATAATGTAAACTCTTACAGTTCAATAACAATCGTATTCTGTTGTGGAAACTGAATTATTCGAGTTGTGGGTGCTTAATTCATGTAGCGTTCCTTTGAATTGTCCTAATTTCGCACCCCCCATGTAACTGATGTATTCTCTCTCGTCTGCGTTTGAACATAATTCATGAACGGGATTTCAATGCTTATCATTTCCGAATAGCACATCGAATCACTAGTGGAAAACAAGAAACCTAAAGGACAAATCCTCTGCAATCAGTCAATATTTGGACAACAGTCTCTGTTTTGAGAATTTATGTTCTGTATATTCAGACTTTTGGATATAGGGAATGCAAAATCGACATGAACAAGCATATATGTTACCATTATACTTAGTCATGTAAACTCCTGGCGAGAACCGGCTTGCTAAACTTATATTGAAGGAAAGCATGCCCCTCATCTTAAGTCATTTGTCTGTTATTCGTTCTAATTGTCCTAATATATCTGTCTAATTGAACTATGTGAATCTTTTATACTTAATTCAAGATGGTTCCTCATCAGAAGATAGGTTACATTGGCATGAATTGCAACATATGTGCATTTATAGTACCGTATCTTGTTGGGTTACCTTTGCAACGTAGTTCCTGAACTGGGTTTCAATGCTCGTGATTTGTAGAATGGGGCACTGTAGAATTGAAGAAAATGTAGAAAAATGCTCTGGGGCTATCTGAAAAGAAATGGATAACATTCATTAGGAGGTAGGATTAATTCCTATCGCTGCAGAAATAGGTTCTTAGCGCTGGAGATAATAAATTAAGTTAACATGTTAACTGAACTTGTGTTAGCTAAGTACAAAATCCTTGTCTTTGGCTGGTACCTCCTTTTGTTTTTATACTAATTGTAATGTGTCAAATGGAAGAATGTCTCACTTTAATTTGGTGGTATCCATTACTTTTCTTCTGGTCTAATTCAAAATATTCCGTAATAGATAGAGAGTGAGAGAATCATAGCCAAGTTTTGTTCCTTGGTAAATTCTTTTTGAGCTTTTTATAGTGAGTCGGTGATTCATTTACCTTGCTGGCCATTAATTTTTCTGATGTCGGGGTATTCTCGGGTTTTAGCCTAAGCTACGAGTTACTGCCCTGTTTTGTAGTTATTTTCTTCTTGTTCTGCTTATGTTTTAGCTCAGGAAGTAGTTATTATTGTTAGTCTTTTAATCTTTGTATGCTGGTTGTTTTAATCGAGCAGGTAGCCAGTTGCTTCAACCTCTATAAATAGGCTTGTTATTCTTCTCTTAGATTTCTCCAAGAACAGTTTTCATCATTTTCTTTAAAATTCCAGATGAACAGAGTCGAACGCTTACTGTGCTATGGTTAAGAAAAGTTGGTTATACTTTTGTTATTATGAATTTTTTTGATAGAATGTTATTGTAAGATTATGTCAGCGATTTTTTGAGTAAGAAGTTGTAATGTGATGCTTGGATGTTATTAGAGTACTCTTTTTGTAGGCTTCTATTTTGCATGCCCAATCTATTCTTTCATTTTTACCCCGGGAAATTTTGGGTTTTCATCCAAAAAAATGTTGGAAATAAAGGGGGTATTTTAGTATTTGTATTTACCCTAATTTTATTTCCTTTTATGTATTAGGGCTCACTAGAGCCTCTATATATTTACCCGTTATTGTAGATGTATCAAATAAATAAAAGAGACTTTCTATCGTGGTTTTTTCTTCCTATACTAGGGTTTTCCACGTAAACCTAGTGTTCTCTTTTCTTCTACTTTTCAACAAAAATAAAAATAATAATAAAATAAAGGAAAAACAAAAAACAGAATATAAAAATGTTACTCAAGTGTTGTAGTTCTTCTGTCTTCTGCTCATCTTACGTACTTACATTTTCATTTACGTCCCAACCATCTTCTCCAAAGCTACCAGTTACTGCTGGAATTTCCTTATGTTTTGGTTTCGTGTTTGTTATTTGTTTTTTTTTTTTTTTAATAAATAATTTCTGTGATTATTTTTCATTTCTCTTTGAACTGTAGTCTTCCTCAACCACAAGGAAGTTACTTGGAAACATCATGGGAGGCAAGTGAGCTTCTATTCCATTAGAGATTCTAATGTTGTGGATTTTACTATTTTACAGTATCAAATAAATGACTTTAATTTGTTTTGTTCTAAATGATAATAGATATTGTTCAATCTAGAGGACAAAGTTGGCGACTGCTCAGAAAGGGAAGATGGTCAATATCTCTTTCTTGCTCCTCAAGGAATATCCAAACATCATGTATAATTTCAGTTGGTTCCTCATCAATCCATGGAGAAAAACCTCACCAAAACTTTCTGAGGGACGAGAAGCTCGTTCCTGATTCAAATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGGTCTATTTACATACCTTTATAGGTATCTTAATATTTTTGAACCACCAACTATTCTTTGGAGATGATAAATCCTTAACATCACGTCATTTGTTTCATGCTATTATGCATTCTGCAGTTCCAAGCTTGTGGTAGTGACAGGAGCTGGAGTAAGCATGGAATGTGGAATTCCTGATTATAGAAGGTTCCATCTTCCCCTCCTTTCGTATACTAATATTTCACCTTTTAATTGTTCTTCATCTGTGTTTGTTTTAATTGTGAGATGATTAAACATCGACATTGGGAGTTAGACGAGTGTACCAATGTTGCTAAGTTCACTTAAAGCCCAACTCTAACGTTTGTTCATACACAGCTTTGATTCATAAAATGAAAACTTTCATGCACGGCATATTACAGTTCAGAGGCTTTGTTATTGTCGGCTATCTCCATATTGTTTGAATTTTGTCAACTGATCCAAGCAAACCTTTTCTGTTTTTGTAGCATGTAATGGCTGCTTGATTGACAAATGTGGTGTTGATTGTTACTTCTGTTTCTACCCTAAGGCCTTATTCATTTGTTAACTGCACTGCTGTTCAGCGTTTCAGGATTTAACCCTTGAAAAGGCATCTACCTGCTCATTTTCCCTTTGCAAACTAAGTTTATTAAAATTTCACCCTATCCATTTTCCCTTCCCATTCAAAATGTTAATACCTATGGCCTACTTCCTATTAATCCGATGAGAAAAGACTTTCTAGTTTGAACACATATACTAAAATTTCACCCTATCCATTTTCCCTTCCCATTCAGAACGTTAATACCCTACGGCCTACTTCCTACTAATCTGATGAGAAAAGGCTTTCTAGTTTGAACACATTTTATGAATATACATACTAGCAAGTAAATTCTCATGTTCACGTGTTTTTGTGTTCTGCTGTTAAAATCTAGTCAAACTAAACTTTTGTACATATAGATTGTCAATTTCCAATGTTCTATTTGCTGCCTTCAAGACTTCTGTTAATTTATTTCTGCCTTTTCAAACTGGCATTGCGTTGATTTGAAGACCACATTCTGTTTCGTAGACATCAGGTGATCTGAAGGCACGTGTCATACCTTGTTTTTGTATTGCTATGATGATATTGACTAGACATTTAGAAACAAAAATGTCGATAATAGTCTAGTGGGTACTTCATCTACATTTTGGGTTAATGGTCTCATCAACAGTTTCGTGCTTTCTATTCTATTTATATTTTTGTTTAATATTGAATGAATCTCCTTGACTTTTCCTATATGGAAAATCTAGTTCTAAGGAAATTTCGTAACTACATAAACTTGTTGTTCTTTCTATCTTTTGTTTTTTCACATCCACATTTTCTCCAGTCAAACTTTTTTTGTTCAATGAAAATTTAACCCACGTTTTCTTGTTAATCTAATTCTAAATTTTGCAGCACAGTGCTTCTGTGACACAAAAACACATACTGGGAAGCAACCACTTGAGCACAAATCCACTTCTTTTCCTGAGCAGGAGAGCGCTGAATGTTTCGGTTATTTCACTGTTCTTTTATGGATTTTCACCAAACATTTGTGCGGCCGTTTTTGCTGAAGATTTGGAGCTTGAGAGATACACAGATTCGACGGAGGGTTTTACTCTTCTTCGACCATCGTCTTGGGTTAAGGTTTTCAGCCTTCTCTCTCTTTCAACTAACAGCGATACATTTTTTTTTCTTTTTACTAAACATTGTCTGAAATTGTGTGCTGGATAAAGGTTGATAAGGCAGGGGCAACAGTTTTATTTGAAGAGGAGAATAAGGGAAGCAACAATGTTGGTGTTGTAGTGAATCCTGTTCGTCTTACAAGTCTTGGGGAGTTTGGAACTCCTCAATTTGTCGCTGACAAACTTATACAGGCCGAAAAGCGAAAGGTAATTTAGTTTTAACTTTTGAGATGCTGGCATTTCCTACTAATTGATGCACAGAGTTGGGTTCTTATTTATTCCTGTGAAGCTTGGCTGTGGAGTATGATGTATATTGGATTCTTTGAGATGCTTACAAATGTTAATATTTGAGTTTGTTTGTTTTTGAGCGCCTTTTTGATTCATGATCTTTGTTGTGATGAATTGCATGTCTTTCCTTTTAAAAGTACTGTCTTGCTGAAGTTTCAAACCAAAATTGAAGATGAAGTTTTGAAAATTTTTATCCAGAGGTAGACGAAAATTTGAAAATAGCGGAAAATGTAAATATTGAAACTTGAATTCAGATTGCTCAAGGAGCTAGTTATGCTTAGCCGAATTGCATGTTTCTAGAGTTTGAAAAGATCGGTTAGAGCTATGGGTTAAAGTAATAGTTCATTTCTGGATTTTTCAACAAATTTGTATCTATTTGGCCTGTAAACTCAATAAGTTAGTTATTGAATAGGTTAAGAACTTATCCATGTTTGTGTTTAGTTTTTTAGACAATTAATATATGAAAGAGCCATAATTTTTATTTTCTTATTACAAATTGGAAACTACCTTTTGTATATCCTATGATTAGACCCTCGGATATTTCATTCCATCAATAAAATTGTCTCTTATCCAAAAAAAACATATCACTATATTCGTGTCTACTTCATAGATTCCATCTCTCGATTGATATTTCTATGAATTTCTATGAATGCAGGAAAGTACAAAGGATGCTACAGTGGTTAGTGTCGCAGAGAGATCCGGAGAGGGGGGTTTACAAGTGTACGAGTTCGAGTACACGGTTGATAGCACTAGAGGAGGGATGAAGCGGGTTTTTTCAGCTGCTTTTGTGGCTTCTAAGAAGCTCTACATCCTTAACATATCTCACTCTGACAAACCAGAGAGCCCTCTTGATTCACAAAGAAGGATGATGTTGGAGCAAGTTCTTCATTCCTTTGATGTAGCCCCTTCCTCGTAATATTAGATCATGCCCTCCCATAGAAATTAACTCATTTTGTCTATTTTGTCTATTTTGTCTATTTTGCTTTCGATGTAATTGGTTTCTATTCTGTTTATCATTTTATAAGTTTCAATTGTGTCTCTATTCCTAACATTTTGAAAGTTTCAATTTTGTCTCTTATTTTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAANTTCGATGTAATTGGTTTCTATTCTGTTTATCATTTTATAAGTTTCAATTGTGTCTCTATTCCTAACATTTTGAAAGTTTCAATTTTGTCTCTTATTTTCTCAAAAAAAAAAAAAAAAAAAAAGAAAAAAACTAAAACTAAAACTAAAATGGTCTCTTATTGGTCAGTCTTCTTATAAAAAATAATTGTGAATTAAAAGAAATTGCGTGAAATTTCACTTTGTAGATGTTAAAAGAGCAAAATGGGAATCAACCATATGGATGGAGGACATTTTTTATAGTCGATCCTTTTAGAAACTCCTTAAATTAATTGCCATGTCCTAGTCTATAACGATGCTAATTAGTTGCGATGCTAAAGATTTGACGTCGTCTCTCCATCTATTTCAACATCTATGTTAGTTTAATCGATATATATTGTTGTATTGATTAAGAGGTTTTATTTCGAGAAATATTACTACTAATTAAAAGAAAGTAAGCAAATTGTCTTTAAATAGTTAAAATTGTATCTACAAACTTAAAATGCATTGATTGATTTGTTTTTAAAGTTTTTAAGGATTTTCTCCCTAAATTATATAAATAATTTGCACTGTTAATTAGTTAAAATGCTTACTTTTTCGAATTTACTCCTTATTCAATGTCAAACCATTTGAAAATATCTATTAAAATGTGGACATACCCTCACATGGTTCCAAATAAGTAGAAGATGAATTGACGAGTAATTTTCAAAGTAAATTGATAGTTCAATTGATACATAGAGGCGTTTAGGGAGTTGTGAACTCAAATATAAGAAGTTAATTGATGTTTTCTAATAGCGGGACCCACAAATTTCTTGGGTCAAACAATGAGCGGAATTCACAACTACACTTACCAACTCCTTGGCCCAACACCTCCATTATGAATGTAGTTCAATTGACACAAAGTATTAGTAACTGTAAGTATGTGTTAGAATCCATGATACTAATGGAGAATACTCTCCGGACTAATAATTAATTATATAACAATATTTTTAAAGAATTTCAAATATAATAAAATTTATTGGCAATATACTCTTTCAATGTTATAGTATGAGCTCCGATAACTAAATCTAAATTTTGGTATATCTGTCCTTTAAAATCATTTTAAGAGAAACGACGGGTAATTCAAAACAACCGGTGAAAAGCAAAGCAGCGTGGAAGTATGATGAATACCCAAAATTAGATGTGTAGAATACAATGTCCACATCACACGTTTGTGCCTTTCTCGGATCTGATGATGTTCTAATTTCTAATCTACCACTCACCGCCTCTCCATTCCGTCTTCCTCAGGTTTCCCAGAAAAGAAAATTTTGAATTTCCCGTAGATCCTTTTTTGCTCATCAAAAAATCATTCTGAACGGGGCCCATGTTCCTCCGCTTGCCGTTCCATCGACCCTTCTGCGTATGCTCCACTCTCCCTCCACTTCCTTCTGTTATTATTGAATTTACAATTCTTTTGCATTCAGTAATTCATTGTTCGTTTCGTTTCTCGTGAATCTTTGATGGGTTTATGGCTGTTATTCGTTCTTATTATTGCCCAAAGATATTTGTCTAATTTCACTATCTGAATTTTCTATGCTTAATTCAAGATGTTTGGGTTCCATTGGTATGGATTACCTCATATTCGTGCATTTATAGTATCGTATCTACTTGGGTTACCTTTGCAACGTTGTTCCTGAATTGAGTTTCAACACTTAATGATTTGAAGAACGGGGCACTGTAGAGTTGAAGAAAAATGAAGGAGAAATGCTCTGCTGCTATCTGAAAAGAAATGGATAACATTCACTAGGAAGTGTCCTGGAAACATCATGGGAGGCACTGTAGGTTATGTCGGTGGTTTTTTGAATAAGAAGTTGTAATATGATGCTTGGATGTTATTAGAGTTTGTCCTGTCTGGACTGTTTTTGTGGGATTCTTTTTTTTTTTTGTATGCCAATGTATTCTTTCATTATTTTTTTCTTTTTTTTTTTTACAGAAAGTATGGGTTTTCATAAAAAGAATAAAGAAAAAAAAGAAAAATGAAAAAGAAAGAAAGAAAAGGAAAACAGTAAGTAAATAATGTCACTCCAATGTTGTAGTTCTTTTGTCTTCTCCCGTCTTATGTTCTTACATTTTCATTTCCATCCCAACCCATCTTCTCCAAAGTTGCCACTGAAGTTTCTTTATGTTTTGGTTTCATTTTTGTCTTTCATTTTTTGATTTTTAAAAAATAATTTATTTTATTTTATTTTTTTCATTTCTTTTTGAACTGTAGTCTGCTTCAACCACAAGGAAGTGTCCTGGAAACATCATGGGAGGCAAGTGAGCTTCTATTCCATAAGAAAATTAGTTTCGTGGATTTCACTAGTTACAGTATCAAATCTATGACTTTCAATTTATTTTGTTCTTAACAATAACAGATATTATTCAATCCAGAGTGCAAAGTTGGCAATGGCTCCGAAAGGGAAGATGGTTGATATCTTTTTTTTGCTCCTCAAGGAATGTCCAAACATCACGTAAAATTTCAATTAGTTCCTCTTCCTCATCAATCAATGGAGAAAAACCACACCAAAACTTTCTGAGGGACAAGAAGCTAGTTCCTGATTCAGATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGGTCTATTTACATTTCTTTATCGGTATATTAACATTTTTGAATCAACAATCATTCTTTGGGGATGATAAATCCTTTACATCACATGTCCTTTGTTTCATGCTATTATGCATTCTGCAGTTCCAAGCTTGTGGTATTGACAGGAGCTGGAATAAGTACAGAATGTGGAATTCCTGATTATAGAAGGTTTCATTTTCCCTCCTTTCTTATACTAATATTTCACCTTTTATTTGTACTCCATCTATGTTTGTTTTAATTATGAGATGATTAAACATTGACGTTGAGAGTTAGATCTGTGTACAAATGTTGCTAAGTTCAGTTAAAGCCCAACTCTCACCTTTGTTCATACACAGCTTTGATAGATAGAAGGAAAGCTTTTATGCATATTATATTACAGTTCAGAGACTTTGTTATTGTATGTTGTCTTACTTACGGTTTGAAAATTTCCAACTGATCAAAGCACACCTTTTCTATTTTTGAATTTTTATTATTATATAATTTTTCTAGCATGTATGGCTGTGGCTGCTTGATTGACAAGTGTGTTGTTGATTGTTACTTCTGGTTCTACTCTAATTCATTTGTAAACTGCATTGTTGTTCAGTATTTCAGGATTTACCCTCGAGAAGGTCTCACCTGGTCATTTTCCCTTTGCAAACTAACTTTACTGAAATTTCTCCCTATCCGTTTCCCCCTTCCCCTCCCCATTCAGAACATTCATACCCTACTTCCTATTAAACCAACGAGAAAAGGCTTTCTAGTTTGAACACATTTTATGAATACATAACTAGCAAGTAGATTCTTGTGTACACGTGCTTTTGTGTTCTGTTGTTGCTATATTGTCAAACAAAACTTTTGTAAGTATATAATGTCAATTTCTGCTGTCTTCAAGACTTCTGTTAATTTATTTCTGGCTTCTCAAGCTGACCACATTCTGTTTCTTAGTTGTTGAACATGCTGTATATTATTTGGGTTAACATCTTTTAATGTTATCATGTAATCTTTCTTTTGCTTTAATAGACACTTGCCTTTCTTTTCTAATGCAAAGGTTTCTCTATGCTGCAGCCCGAACGGAGCTTATAGTTCTGGTTTCAAACCAATTACACATCAGGTGATCTGAAGGCATGTGTCACACCTTCTTTTTGCATTGTTATGATAATATTTCCTGGACATTTAGAAACAAAATATCTATAATACCACCTTATCTGCATTTTTATAAAAGAATCAATATTGCAATGGAAGTGATTGAACATTTTGGAAGCGATGGATTTTGTGAATCTTGGGTTCTGTTTGATATTGATGATGTTTTTTATTTTAGAAATTTGTCTGAAATTGAGTGGAATAAATTGTTTTGTATTCCAATAAATAATTGTAAGATACATAGCCTTCTTCTAAAGGAGAAAGGCTCAATACATAAAAGAAAAGAATTATAATGAGAATAAAATTAAATCTTAGGTGATTTTACACCTAAGTATCTTATTTACAACAACAATTTGGTTCTGTTTGATAAATGATTGAAAATTTTGGATGCGATGATGGCATTTGGATATTGAGAATCATTCTGTTTGATACTGATGGTGTTTTTTTTATCTTAGAATCTTAGGTTCTGTTTGATACACATTTGGCAACATTCTCATTATTTGTTTCTTGTTTCTCCTTTTAAATGAAGAACAGAGCTGGATTTGGTAATTGCTTATTGTTTTTCTCTTTTATTTTCATATTAAAAAAACGAAATTTGTTTGGTGATTATTTCTTGTTTGTTCCCTGAAATTTAAAATTAAAAATGTAAAAAATTTAGATGAAAATAAATTTTTTTAATGTTATGTTTACTTTTATATATATATCATCAATTTTAAAAGTCAAGAATATCAAATAATGCTTTTATTTATATCTTGGAGAAAAAGTGAAAAATGGAAACAAGAAACAATAAATTTGATTTTTTTTTGTTTCTAAAATTTCTGGTAGAGTGCACCTTGCGCTTCAAAAACACTGATTTCTACCCATGGAAACGTTTATGAAAAATGAGAAATGAGAAACCAAAACCATTACCAATACTTCTGTTTCTCAAAACTTGAAACAAGAAATGACCAGAGAATATGTGCAATAGGACCATTAACAAACAACCTTGTAGGTATGTTTCTTCTTTTTATTATATTTGATGCCCCAAACATGGGGGTGGGCTATAATAACCCACTCCACCAGCTTGAACTTCAAGTTGGTGCCCCAAATACACCATAAAGAGCGCTTGTACCGTTTGTGCAAGGTTGTGGAGGAGCTCTTATTCCATACCTTTTGTGATAGAGAGGTCTTTGGCAGGCTGCTTTCTTTGTGATTTATGGAATATTTGACTTAAGAAAAATAGTAGGATTTTTAGTGAAAAGAAAAGTTCTTGGGAGGAGATTTGGGCCTTAGCTAGCATCGGACTTCCATTACTAAGGACTTCAGTGACTATTCTCCACCTCCCATTCCTTCAATTGAGAGCCCATTTTTCAAATGAACTCATGTATTCTTCATTTGTTGATTGTTCTCAATCAAAGTTTTCTTCAATAGAAGATTTTGCGAGGAAATTTTCTAGCATCGAATCTCCAAAATTTTAGAAATCAGGTTGCCCAATTGAGGCCAAAGGAAGAGATCGACCATTGACCCGTTCTACAATAGGAATTATTGGTTACTTCTTGAATGTCATCCTGTGAAAGACAATTAGTTCTACGTCTCCTGACTTGACTAAATTCACCAAAAGTCTGACTCCCCTTGGAAAATATTAATCACCTTGGATATGTAATTTAGGCGATTAACACGAAAAGGGATCCTTACCAATCTTGAATCCATCCACAAGACTGACATCCAAACTTTTAGGTAGGACTAGAAGCTTGCTTAAACAACCAGCCACCATCGTGAAAAAGAAAGGAGAAAAGAATTTCCCTCTCAAGGCCTCTTGTAGCGAGCATTTGATTTATTTATAGGCTCTGACTTTCATTGTGAATTTGTGATGGAAAAGTTAGCACGAGAGAGGCACCCCTAAATGCAACTCCGCCTCTCTCTCAGAACTTTCTTCATTATACCAGTCTGAAGAGATTCTAATCCACTTTGTTTTGAGCTTTCTCAAGGTCTTGCGTAATAACTAAAACCTTGTTCTCTCCAATGATCAGCCATATCATTATCAACTAGCACTGAATCAATTATTTTCCCCCCACAAATTCAAGGTGAAGAGTTATGGTAGATGTGAGGAATCAAGCAGGGAAATATCACCCCTATCGTTTTGTTTTTGAAGACAATTAGACAATGAGGATACCTTCTAAAGAAAGTCATCTTTGAGCATCCTCTTATTTATTTTAGTCTATAACTAACAATGAGAAGAGTTTTAGTTTGAATTTATGACATAATTGATCATATTTTGAAAAGTTTTGTGTATTCATAAGTTTAAACGTTTGGTTTTCATGGAAGCAGGAGTTTGTTCGTTCAATACGGACTCGTCGTCGATATTGGGCAAGGAGTTATGCAGGGTGGAGACGTTTTACAGATGCACAGCCTGGCCCTGCACATTTAGCTTTGGCATCTCTAGAGAAAGTAGGCCGGATTAATTTGATGGTCACACAAAACGTTGATAGGTGATGAGATAGCTACTCACTCTTCACATAACGAACTCTGGAATGCATGTTGAAGAAGTTTTATGGGACTGAAACTTTTACTCATTCCAGGTTGCACCACCGTGCTGGTAGTGATCCACTTGAATTACATGGTACAGTGTATTCTGTAATTTGTTTAGAGTGTGGCTTTTCCATTTGTAGGAATTCATTTCAAGACCAAGTGAAAGCTCTCAACCCAAAGGTTTGTTTTTGTTCTATTTGGTCTTGGAGTATCAATCATCTGATTTACTTATATTTCCAATTCAAAAGTATGGAATGAAATGTTTGCTGATTTTTTTTTATATATTTCTGCAAATAGGCATATGAAGTAGTTTAACTTGAACTTTGAGGATGAGTTTGAGATGACTTTTTGAATTGTGAGGAGTGCTTAGAAGCGCTTTATAGTGTTTGGTCACGAAGGCAAAAGTGATTTTGAAGATTCTATAACTACTTGAAAAACACTTCAAATTGATTTAAGGAAAGCACGCAAGTCGTGATTCTCTAGAAGTGCTTGTAAGAGAAGTGCTTTGTTCAAAAACATTTTTGATTAAGTAGGCAAAAGTGATTTTGAAGATTCTATATAAGTACTTGAACAACACTTTAAATTGATTTAAGGAAAGCAAGTCATGATTCTCCAGAAGTGCTTGTAAGAGAAGGCTTTGTTCAAAAACATTTTTCTAAAAATTCATCGCAAACTTATTTTATTATTGTTATTGGTGATTGACATCAAAGCTTATTACTCACTTTTTTTCACCTTATTTATTTTTTATTTTGGGAACTTTAAATTACTGAGTGAAGCATGTTTTGGTTCCTCACTCCCTATTTTATCTCATTTATTTTGAATCAGAGGTGAAAATTTGTGGATTATGAATCACTTCTGGTTGAGCTTTCAGCAAATATATTTTGCTACAGTGGGCAGAAGCAATCGAAAGTTTGGATGATGGAGGCTCAGGATCAGATAAGAGCTTTGGCATGAAGCAAAGGCCAGATGGTGATATTGAAATCGATGAAAAATATTGGGAGCATGATTTCTGTATTCCAACCTGCCAAAAGTGCAATGGAGTGCTCAAGCCTGATGTAAGATTATTTCTTTCATTATTTGATAATATTTGTCACAAAAGTCAAAAACAGTTTTAGGAAACAAATCTGTCACATGGATATTCGATGAATCTAAAGATTAATCTAAAAAAAGAAAATAACAGAATCCAGATTGTATAGCAAACATACCGCTATATTGTGGAGAGACTTGAATCTCCTGAATTAGAATCCATATCAGCTTCAGCTATCCATATCAACTATGTCACATTAAATGATATTGCCTCATTTACTTGAGAGTATAATGTGTAGATATTGGAAAATAGATCCTTTCATGATATAATTAAGTAAATGGTTGAAGACGTGCCATGTTTCTCATTTGTCAATGTCCCATGATTATTGTCTCATTTGCTTGCGTATTTAAGACTTAAGTGCATGTATTTGGACAATATCAATTTCTTTGGTAAACTTTGTGCATAGTCTTTATTCTTCACCTCCTTTTCAATGAAATTTTTGTGTTTATAATGGTATATTCATATTATTAAATTACTTGCTAATGTTGTGTGTTCTTTATCTTCCCAATTAATTTGAAGGTCGTGTTCTTTGGTGATAATGTCCCAAAGGATAGAGCTACTAAGGCGATGGAAGCTGCTAGAAATTGTGATGCTTTCCTCGTATTGGGGTCATCTGTGATGACCATGTCTGCTTACCGTCTAGTGAGGTGCTTTCTGTGCTCTCTTTTTTGAAAATTTCATTGGAAAATTATAATTCTGGAATTAGTGTTTAGGTATCCTTTTAACGAAGAAAAAGATTTCGATTGAATGGAATGGAATATGGATAACATTGAAATTATCTTCTTAGAGAGACTCCCAGTGGTTGATAGTTGTGGTCTTGAGAATTGGTGAGGTTTCAAACAAAGAACTATGGAGGGACTAAATCGGAATTAAATTCCAATCATAGGGACCAACCTGGAACTAAATTCCAATTACAGGGACTAAATTGATACTTTTTAAGATCATAGGATCCAAATTGAAACTATGCCCTATCAAACTAATATCTGAACTTATGCAAGCTAGAATGTTGATAATATATTAAAGAAGTAAAGAGTTGTAATCCTTTGGATCGAGTCCAGTCTGGGTTCGATTCATTGTGTTTCGTGTTTGGAGCTGTTCTAACTCGTGGTATTGAATCTCCCAGGGCTGCTCACGAGTCTGGTGCCGCTACTGGAATTGTAAATGTAGGTGTGACACGAGCTGATGACTTTGTATCACTGAAAATCAATGCTAGGTTGGGTGAGGTACCATTCTCTCTTTCTCTGAAAAATGCATCTCTCTGTGTTTGTATTCCTATAATTTGCTTTGCTATTTCTTACAGATCATGCCCAGAGTGCTTCATATGGGTTCCCTCAGCATCCCTTCACTCTAATAACATCAGTTCAGGTCTCTGTTCCAATTACAACTCCTTCATATTTATCAATGGAAAATCTATTATTATATTTCCCAATTTACTTTTGCAGAATGGATTTCTTCATTGTTATGTTATTAATAGCACAAGCTCGCTGGACTGA ATGTTCGTGATTCTTCCTCTTTTCAAGCCTTTACTAGGTGATTCTTCTCACGATTTGTGGTTTTCGAGCATAATTCTTCCTCAACCACAAGGAAGTTACTTGGAAACATCATGGGAGGCAAATATTGTTCAATCTAGAGGACAAAGTTGGCGACTGCTCAGAAAGGGAAGATGGTCAATATCTCTTTCTTGCTCCTCAAGGAATATCCAAACATCATGTATAATTTCAGTTGGTTCCTCATCAATCCATGGAGAAAAACCTCACCAAAACTTTCTGAGGGACGAGAAGCTCGTTCCTGATTCAAATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGTTCCAAGCTTGTGGTAGTGACAGGAGCTGGAGTAAGCATGGAATGTGGAATTCCTGATTATAGAAGTGCTTCTGTGACACAAAAACACATACTGGGAAGCAACCACTTGAGCACAAATCCACTTCTTTTCCTGAGCAGGAGAGCGCTGAATGTTTCGGTTATTTCACTGTTCTTTTATGGATTTTCACCAAACATTTGTGCGGCCGTTTTTGCTGAAGATTTGGAGCTTGAGAGATACACAGATTCGACGGAGGGTTTTACTCTTCTTCGACCATCGTCTTGGGTTAAGGTTGATAAGGCAGGGGCAACAGTTTTATTTGAAGAGGAGAATAAGGGAAGCAACAATGTTGGTGTTGTAGTGAATCCTGTTCGTCTTACAAGTCTTGGGGAGTTTGGAACTCCTCAATTTGTCGCTGACAAACTTATACAGGCCGAAAAGCGAAAGGAAAGTACAAAGGATGCTACAGTGGTTAGTGTCGCAGAGAGATCCGGAGAGGGGGGTTTACAAGTGTACGAGTTCGAGTACACGGTTGATAGCACTAGAGGAGGGATGAAGCGGGTTTTTTCAGCTGCTTTTGTGGCTTCTAAGAAGCTCTACATCCTTAACATATCTCACTCTGACAAACCAGAGAGCCCTCTTGATTCACAAAGAAGGATGATGTTGGAGCAAGTTCTTCATTCCTTTGATGTAGCCCCTTCCTCTCTGCTTCAACCACAAGGAAGTGTCCTGGAAACATCATGGGAGGCAAATATTATTCAATCCAGAGTGCAAAGTTGGCAATGGCTCCGAAAGGGAAGATGGTTGATATCTTTTTTTTGCTCCTCAAGGAATGTCCAAACATCACGTAAAATTTCAATTAGTTCCTCTTCCTCATCAATCAATGGAGAAAAACCACACCAAAACTTTCTGAGGGACAAGAAGCTAGTTCCTGATTCAGATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGTTCCAAGCTTGTGGTATTGACAGGAGCTGGAATAAGTACAGAATGTGGAATTCCTGATTATAGAAGACACTTGCCTTTCTTTTCTAATGCAAAGGTTTCTCTATGCTGCAGCCCGAACGGAGCTTATAGTTCTGGTTTCAAACCAATTACACATCAGGAGTTTGTTCGTTCAATACGGACTCGTCGTCGATATTGGGCAAGGAGTTATGCAGGGTGGAGACGTTTTACAGATGCACAGCCTGGCCCTGCACATTTAGCTTTGGCATCTCTAGAGAAAGTAGGCCGGATTAATTTGATGGTCACACAAAACGTTGATAGGTTGCACCACCGTGCTGGTAGTGATCCACTTGAATTACATGGTACAGTGTATTCTGTAATTTGTTTAGAGTGTGGCTTTTCCATTTGTAGGAATTCATTTCAAGACCAAGTGAAAGCTCTCAACCCAAAGGTCGTGTTCTTTGGTGATAATGTCCCAAAGGATAGAGCTACTAAGGCGATGGAAGCTGCTAGAAATTGTGATGCTTTCCTCGTATTGGGGTCATCTGTGATGACCATGTCTGCTTACCGTCTAGTGAGGGCTGCTCACGAGTCTGGTGCCGCTACTGGAATTGTAAATGTAGGTGTGACACGAGCTGATGACTTTGTATCACTGAAAATCAATGCTAGGTTGGATCATGCCCAGAGTGCTTCATATGGGTTCCCTCAGCATCCCTTCACTCTAATAACATCAGTTCAGAATGGATTTCTTCATTGTTATGTTATTAATAGCACAAGCTCGCTGGACTGA ATGTTCGTGATTCTTCCTCTTTTCAAGCCTTTACTAGGTGATTCTTCTCACGATTTGTGGTTTTCGAGCATAATTCTTCCTCAACCACAAGGAAGTTACTTGGAAACATCATGGGAGGCAAATATTGTTCAATCTAGAGGACAAAGTTGGCGACTGCTCAGAAAGGGAAGATGGTCAATATCTCTTTCTTGCTCCTCAAGGAATATCCAAACATCATGTATAATTTCAGTTGGTTCCTCATCAATCCATGGAGAAAAACCTCACCAAAACTTTCTGAGGGACGAGAAGCTCGTTCCTGATTCAAATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGTTCCAAGCTTGTGGTAGTGACAGGAGCTGGAGTAAGCATGGAATGTGGAATTCCTGATTATAGAAGTGCTTCTGTGACACAAAAACACATACTGGGAAGCAACCACTTGAGCACAAATCCACTTCTTTTCCTGAGCAGGAGAGCGCTGAATGTTTCGGTTATTTCACTGTTCTTTTATGGATTTTCACCAAACATTTGTGCGGCCGTTTTTGCTGAAGATTTGGAGCTTGAGAGATACACAGATTCGACGGAGGGTTTTACTCTTCTTCGACCATCGTCTTGGGTTAAGGTTGATAAGGCAGGGGCAACAGTTTTATTTGAAGAGGAGAATAAGGGAAGCAACAATGTTGGTGTTGTAGTGAATCCTGTTCGTCTTACAAGTCTTGGGGAGTTTGGAACTCCTCAATTTGTCGCTGACAAACTTATACAGGCCGAAAAGCGAAAGGAAAGTACAAAGGATGCTACAGTGGTTAGTGTCGCAGAGAGATCCGGAGAGGGGGGTTTACAAGTGTACGAGTTCGAGTACACGGTTGATAGCACTAGAGGAGGGATGAAGCGGGTTTTTTCAGCTGCTTTTGTGGCTTCTAAGAAGCTCTACATCCTTAACATATCTCACTCTGACAAACCAGAGAGCCCTCTTGATTCACAAAGAAGGATGATGTTGGAGCAAGTTCTTCATTCCTTTGATGTAGCCCCTTCCTCTCTGCTTCAACCACAAGGAAGTGTCCTGGAAACATCATGGGAGGCAAATATTATTCAATCCAGAGTGCAAAGTTGGCAATGGCTCCGAAAGGGAAGATGGTTGATATCTTTTTTTTGCTCCTCAAGGAATGTCCAAACATCACGTAAAATTTCAATTAGTTCCTCTTCCTCATCAATCAATGGAGAAAAACCACACCAAAACTTTCTGAGGGACAAGAAGCTAGTTCCTGATTCAGATCCCCCTAGCATGAAGGATGTTGATCTTTTATATAATTTTCTTGATCGAAGTTCCAAGCTTGTGGTATTGACAGGAGCTGGAATAAGTACAGAATGTGGAATTCCTGATTATAGAAGACACTTGCCTTTCTTTTCTAATGCAAAGGTTTCTCTATGCTGCAGCCCGAACGGAGCTTATAGTTCTGGTTTCAAACCAATTACACATCAGGAGTTTGTTCGTTCAATACGGACTCGTCGTCGATATTGGGCAAGGAGTTATGCAGGGTGGAGACGTTTTACAGATGCACAGCCTGGCCCTGCACATTTAGCTTTGGCATCTCTAGAGAAAGTAGGCCGGATTAATTTGATGGTCACACAAAACGTTGATAGGTTGCACCACCGTGCTGGTAGTGATCCACTTGAATTACATGGTACAGTGTATTCTGTAATTTGTTTAGAGTGTGGCTTTTCCATTTGTAGGAATTCATTTCAAGACCAAGTGAAAGCTCTCAACCCAAAGGTCGTGTTCTTTGGTGATAATGTCCCAAAGGATAGAGCTACTAAGGCGATGGAAGCTGCTAGAAATTGTGATGCTTTCCTCGTATTGGGGTCATCTGTGATGACCATGTCTGCTTACCGTCTAGTGAGGGCTGCTCACGAGTCTGGTGCCGCTACTGGAATTGTAAATGTAGGTGTGACACGAGCTGATGACTTTGTATCACTGAAAATCAATGCTAGGTTGGATCATGCCCAGAGTGCTTCATATGGGTTCCCTCAGCATCCCTTCACTCTAATAACATCAGTTCAGAATGGATTTCTTCATTGTTATGTTATTAATAGCACAAGCTCGCTGGACTGA MFVILPLFKPLLGDSSHDLWFSSIILPQPQGSYLETSWEANIVQSRGQSWRLLRKGRWSISLSCSSRNIQTSCIISVGSSSIHGEKPHQNFLRDEKLVPDSNPPSMKDVDLLYNFLDRSSKLVVVTGAGVSMECGIPDYRSASVTQKHILGSNHLSTNPLLFLSRRALNVSVISLFFYGFSPNICAAVFAEDLELERYTDSTEGFTLLRPSSWVKVDKAGATVLFEEENKGSNNVGVVVNPVRLTSLGEFGTPQFVADKLIQAEKRKESTKDATVVSVAERSGEGGLQVYEFEYTVDSTRGGMKRVFSAAFVASKKLYILNISHSDKPESPLDSQRRMMLEQVLHSFDVAPSSLLQPQGSVLETSWEANIIQSRVQSWQWLRKGRWLISFFCSSRNVQTSRKISISSSSSSINGEKPHQNFLRDKKLVPDSDPPSMKDVDLLYNFLDRSSKLVVLTGAGISTECGIPDYRRHLPFFSNAKVSLCCSPNGAYSSGFKPITHQEFVRSIRTRRRYWARSYAGWRRFTDAQPGPAHLALASLEKVGRINLMVTQNVDRLHHRAGSDPLELHGTVYSVICLECGFSICRNSFQDQVKALNPKVVFFGDNVPKDRATKAMEAARNCDAFLVLGSSVMTMSAYRLVRAAHESGAATGIVNVGVTRADDFVSLKINARLDHAQSASYGFPQHPFTLITSVQNGFLHCYVINSTSSLD
BLAST of ClCG02G000280 vs. Swiss-Prot
Match: SIR4_ARATH (NAD-dependent protein deacylase SRT2 OS=Arabidopsis thaliana GN=SRT2 PE=2 SV=1) HSP 1 Score: 283.5 bits (724), Expect = 6.4e-75 Identity = 142/219 (64.84%), Postives = 163/219 (74.43%), Query Frame = 1
HSP 2 Score: 118.2 bits (295), Expect = 3.6e-25 Identity = 57/78 (73.08%), Postives = 66/78 (84.62%), Query Frame = 1
HSP 3 Score: 85.9 bits (211), Expect = 2.0e-15 Identity = 39/76 (51.32%), Postives = 54/76 (71.05%), Query Frame = 1
BLAST of ClCG02G000280 vs. Swiss-Prot
Match: PPD2_ARATH (PsbP domain-containing protein 2, chloroplastic OS=Arabidopsis thaliana GN=PPD2 PE=1 SV=1) HSP 1 Score: 247.7 bits (631), Expect = 3.9e-64 Identity = 130/189 (68.78%), Postives = 150/189 (79.37%), Query Frame = 1
BLAST of ClCG02G000280 vs. Swiss-Prot
Match: SIR4_DROME (NAD-dependent protein deacylase Sirt4 OS=Drosophila melanogaster GN=Sirt4 PE=2 SV=2) HSP 1 Score: 180.6 bits (457), Expect = 5.8e-44 Identity = 109/288 (37.85%), Postives = 145/288 (50.35%), Query Frame = 1
HSP 2 Score: 45.4 bits (106), Expect = 2.9e-03 Identity = 29/86 (33.72%), Postives = 41/86 (47.67%), Query Frame = 1
BLAST of ClCG02G000280 vs. Swiss-Prot
Match: NPD_BORBR (NAD-dependent protein deacetylase OS=Bordetella bronchiseptica (strain ATCC BAA-588 / NCTC 13252 / RB50) GN=cobB PE=3 SV=1) HSP 1 Score: 165.6 bits (418), Expect = 1.9e-39 Identity = 104/278 (37.41%), Postives = 137/278 (49.28%), Query Frame = 1
HSP 2 Score: 39.3 bits (90), Expect = 2.1e-01 Identity = 19/35 (54.29%), Postives = 20/35 (57.14%), Query Frame = 1
BLAST of ClCG02G000280 vs. Swiss-Prot
Match: NPD2_BRADU (NAD-dependent protein deacetylase 2 OS=Bradyrhizobium diazoefficiens (strain JCM 10833 / IAM 13628 / NBRC 14792 / USDA 110) GN=cobB2 PE=3 SV=2) HSP 1 Score: 162.5 bits (410), Expect = 1.6e-38 Identity = 104/274 (37.96%), Postives = 134/274 (48.91%), Query Frame = 1
HSP 2 Score: 35.8 bits (81), Expect = 2.3e+00 Identity = 16/31 (51.61%), Postives = 19/31 (61.29%), Query Frame = 1
BLAST of ClCG02G000280 vs. TrEMBL
Match: A0A0A0LMF6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G336660 PE=4 SV=1) HSP 1 Score: 481.1 bits (1237), Expect = 2.3e-132 Identity = 254/325 (78.15%), Postives = 269/325 (82.77%), Query Frame = 1
BLAST of ClCG02G000280 vs. TrEMBL
Match: A0A0A0LMF6_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G336660 PE=4 SV=1) HSP 1 Score: 162.9 bits (411), Expect = 1.4e-36 Identity = 92/157 (58.60%), Postives = 105/157 (66.88%), Query Frame = 1
HSP 2 Score: 384.0 bits (985), Expect = 3.9e-103 Identity = 195/230 (84.78%), Postives = 204/230 (88.70%), Query Frame = 1
BLAST of ClCG02G000280 vs. TrEMBL
Match: A0A0A0LK90_CUCSA (NAD-dependent protein deacylase OS=Cucumis sativus GN=Csa_2G336650 PE=3 SV=1) HSP 1 Score: 162.5 bits (410), Expect = 1.8e-36 Identity = 88/141 (62.41%), Postives = 101/141 (71.63%), Query Frame = 1
HSP 2 Score: 144.1 bits (362), Expect = 6.7e-31 Identity = 72/78 (92.31%), Postives = 75/78 (96.15%), Query Frame = 1
HSP 3 Score: 327.4 bits (838), Expect = 4.3e-86 Identity = 178/308 (57.79%), Postives = 205/308 (66.56%), Query Frame = 1
BLAST of ClCG02G000280 vs. TrEMBL
Match: A0A0K9PWW0_ZOSMR (NAD-dependent protein deacylase OS=Zostera marina GN=ZOSMA_146G00280 PE=3 SV=1) HSP 1 Score: 75.9 bits (185), Expect = 2.3e-10 Identity = 34/52 (65.38%), Postives = 44/52 (84.62%), Query Frame = 1
HSP 2 Score: 321.2 bits (822), Expect = 3.1e-84 Identity = 185/360 (51.39%), Postives = 223/360 (61.94%), Query Frame = 1
BLAST of ClCG02G000280 vs. TrEMBL
Match: A0A0J8CPW0_BETVU (NAD-dependent protein deacylase OS=Beta vulgaris subsp. vulgaris GN=BVRB_4g078680 PE=3 SV=1) HSP 1 Score: 102.4 bits (254), Expect = 2.3e-18 Identity = 53/104 (50.96%), Postives = 73/104 (70.19%), Query Frame = 1
HSP 2 Score: 314.7 bits (805), Expect = 2.9e-82 Identity = 169/313 (53.99%), Postives = 197/313 (62.94%), Query Frame = 1
BLAST of ClCG02G000280 vs. TAIR10
Match: AT5G09230.7 (AT5G09230.7 sirtuin 2) HSP 1 Score: 283.5 bits (724), Expect = 3.6e-76 Identity = 142/219 (64.84%), Postives = 163/219 (74.43%), Query Frame = 1
HSP 2 Score: 118.2 bits (295), Expect = 2.0e-26 Identity = 57/78 (73.08%), Postives = 66/78 (84.62%), Query Frame = 1
HSP 3 Score: 85.9 bits (211), Expect = 1.1e-16 Identity = 39/76 (51.32%), Postives = 54/76 (71.05%), Query Frame = 1
BLAST of ClCG02G000280 vs. TAIR10
Match: AT2G28605.1 (AT2G28605.1 Photosystem II reaction center PsbP family protein) HSP 1 Score: 247.7 bits (631), Expect = 2.2e-65 Identity = 130/189 (68.78%), Postives = 150/189 (79.37%), Query Frame = 1
BLAST of ClCG02G000280 vs. TAIR10
Match: AT5G55760.1 (AT5G55760.1 sirtuin 1) HSP 1 Score: 59.3 bits (142), Expect = 1.1e-08 Identity = 46/168 (27.38%), Postives = 68/168 (40.48%), Query Frame = 1
HSP 2 Score: 51.2 bits (121), Expect = 3.0e-06 Identity = 66/265 (24.91%), Postives = 92/265 (34.72%), Query Frame = 1
HSP 3 Score: 38.9 bits (89), Expect = 1.5e-02 Identity = 16/32 (50.00%), Postives = 20/32 (62.50%), Query Frame = 1
BLAST of ClCG02G000280 vs. NCBI nr
Match: gi|659121879|ref|XP_008460858.1| (PREDICTED: psbP domain-containing protein 2, chloroplastic isoform X2 [Cucumis melo]) HSP 1 Score: 524.6 bits (1350), Expect = 2.6e-145 Identity = 272/337 (80.71%), Postives = 288/337 (85.46%), Query Frame = 1
BLAST of ClCG02G000280 vs. NCBI nr
Match: gi|659121879|ref|XP_008460858.1| (PREDICTED: psbP domain-containing protein 2, chloroplastic isoform X2 [Cucumis melo]) HSP 1 Score: 172.2 bits (435), Expect = 3.3e-39 Identity = 91/140 (65.00%), Postives = 102/140 (72.86%), Query Frame = 1
HSP 2 Score: 508.8 bits (1309), Expect = 1.5e-140 Identity = 265/327 (81.04%), Postives = 280/327 (85.63%), Query Frame = 1
BLAST of ClCG02G000280 vs. NCBI nr
Match: gi|659121877|ref|XP_008460857.1| (PREDICTED: psbP domain-containing protein 2, chloroplastic isoform X1 [Cucumis melo]) HSP 1 Score: 157.9 bits (398), Expect = 6.5e-35 Identity = 90/155 (58.06%), Postives = 103/155 (66.45%), Query Frame = 1
HSP 2 Score: 496.9 bits (1278), Expect = 5.9e-137 Identity = 261/335 (77.91%), Postives = 277/335 (82.69%), Query Frame = 1
BLAST of ClCG02G000280 vs. NCBI nr
Match: gi|778670312|ref|XP_011649436.1| (PREDICTED: psbP domain-containing protein 2, chloroplastic isoform X2 [Cucumis sativus]) HSP 1 Score: 177.2 bits (448), Expect = 1.0e-40 Identity = 93/142 (65.49%), Postives = 104/142 (73.24%), Query Frame = 1
HSP 2 Score: 481.1 bits (1237), Expect = 3.3e-132 Identity = 254/325 (78.15%), Postives = 269/325 (82.77%), Query Frame = 1
BLAST of ClCG02G000280 vs. NCBI nr
Match: gi|449459216|ref|XP_004147342.1| (PREDICTED: psbP domain-containing protein 2, chloroplastic isoform X1 [Cucumis sativus]) HSP 1 Score: 162.9 bits (411), Expect = 2.0e-36 Identity = 92/157 (58.60%), Postives = 105/157 (66.88%), Query Frame = 1
HSP 2 Score: 476.9 bits (1226), Expect = 6.3e-131 Identity = 260/359 (72.42%), Postives = 272/359 (75.77%), 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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