ClCG01G005060 (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.AGAGAGATGATGGAGAATATGAGATGTTCAATATTTAGAGGTATTGCAAGTGATTTCCGAGGAAGAGCTTCTTGTTATAAACAAGATTGGATTGGTGGCCTACGTTCAGGAATCGGGTAATTAATTATTAATTACTCCATAAATGTTCATATTTGTTTCATTAATATTTTTATCCATAATTTATTTAGTTTTTGAGAGAATTTTAAACTTGATTTGTTTGTGTATAGTAAATATGAAGAAAATCCAATATAACTAGTTAATGGGAAATAAATACATTTTTTCATTCATTAATTTTGAGTATAATTTTTATTTGATCAAAAAAAATTTCAAAACGTGAGTTTATTATCCATTTCGTTACCTATAATTAAGTTTTACCTAAGACTCATTTTTAGTAATTTATGTTAATAAAAGAATTAAATTATTTCTAATTGAATTAGTTTTAGTAAAATTATTTTAAATGACAAAACTGCTAAAAATATTTACAAATAATAGCAAAATATCACAGTCTATTTGCGATAGACCGCGATAGACTACTATCTGTATCTAGAATACTCCATGTTAATGCCAAAATCTGGATAGAGAAAAGAACCTGACTTTTACGTGGCGAATACAGTAAATTTGTTTAGAGGAGAGAATAACGTAACCTACAAAACAAAGGAAAACTTGCACACACTCACACTTTGATGCTTGATTAGGATTTGAGAGTGAGAATTAACTTTCTTTTGCTTTAGTTATATTAATGTATTTATAGGAATAGATTATCTTAGGTTATCATTTATAGAGTTTCAAAGCTGCATTAGGATAACCTTTTATTTCCTTAGGTCGGGCATGCCTTATTGACCATTTTGCTAGACTAGGTGTGTGAGCACCTCCCCCTATGTCCAGTTTGGTCTTAGGATGATGTTTTTAGACCAAGGCATTCTTCATTAGGCATTTTGTTAGGCTCAGCCACGTTGACTTGGGTCAAGGCCCAGACAATACCTCTCCCCTAAGTGCGTTTTCGTCATAAGATGCTATTTTTGACTAAAATCTTTTTATTTTGAACTTATTTTATTAGTTTGATTCATATCGTTTTACAATATATATAATGAATGAATCAAACTTCTAATCTCAAAGTCAATAGTACAAAACTTTATGTTGGTTCAACTAAACTCAATTTAGCTTTACAATTGTTTTATATTTCTCGTTTATACGTCTTAAGATATATATTTGATTATTTTTTTCTTCATGTTTTTAATAAACATTCTGAAATGAAAACTTAATTATATATGTTATTAGGTTAAAATATTTTAAATCAAAATTCTCACATTTGGTTTTGTGTTCAAAGGATTTTGGCGCCAACTACGTACATCTTTTTTGCTTCCGCGCTGCCCGTCATTGCTTTTGGCGAGCAATTGAGTAGGAACACAGGTTTGTCAATTTCTTTTGTTACTTCCTCTTTCTCGAGTTTATGTTTATTTAGTCTATAAAGTTTCAAAATAAATATTTTAATTTTTTGCATTTGTAAAATAATTCTAAACGATCTTTAACGTAACTTCAAGTTAATGAAATGTTGATTAGACCTTCGTATACGGACGTGAATGCTGATATTTTTGTTGATATGTTAAGTACTTTTTAATACTTATAAAATCAAATAAAAATATTAATTAAAAAAAAGGTATAGTTCCTACTGCCCTATTCCTTCTACCGTACCATCAACAAAGGTTTTTCATGCATTGCCCATCAATAATTCCAAACATGTTCGGGATTAATTCTAAAATGGTTAAAATCATATTTGTCATTTTTAAAAATCACTCGATTTTTTTTTAATATTTTAGAATCAATTTTAATAGTATTAAAAATGTGATTAAAAGTGTAAAATTAAACATGAATTGATTTTGAATGATTAAATGTGTCTTTTGCAGTTATTTTACTATGAAAAAAATGATTTTAATCATTTCAAAATTACTCCCAAATATGCACTTAATATTCTTTCCCCTTGAATCTTACAAAACTTGTACTAGCTGTTGGCAGCTACAAAGTATAAAATTCCTGATTGACATGTCAATATTTTCATTGACAATTGTATATACCAATAGGTTCGATATCGATGTACATGAAGGGTGAATTGACATTTTCGTTATACCATACAAAATTGATGAAATATCTAGAAAAAAAAAATATAGAAAGAGAATGTAAAATAGCATGAATATAATATATATATTATAACAAGTATTTTAACTCATTTTAAAAGTACTAACATGTTTATTTATTAATTTAGATATTTTTTTCTTAACATTTTCTAGAGATATATCCATCTCGAGACATTTTATCAAAATTTTCATAAAATTGAGACCATGACATTTTGTTGACAATGACATTTTAGACGAAGATTTGGTAATAAATCTTCATACTTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATTTTGTATAATTTTTGTTGGCACAGATGGAAGCTTAAGCGCAGTTGAAACTTTGGCTTCTACAGCCATTTGTGGGATTCTTCACTCCATTTTTGGTGGCCAACCTCTTCTTATTGTAGGAGTTGCTGAACCCACCATTGTTATGTACACTTATTTGTTCAACTTTGCAAAAGATAGGAAAGATTTGGGAAGAGAACTCTTCCTTGCTTGGGTTGGATGGTAAGGACTTGATTGAAAATTACGAAAAATATATAGTTGGGATATGGAGATTAAACCTCTAACCTCGAAGTAGGAAGTGCATGTCAATTAATGCTGAACTAGGTTCATTTAGGTGTATCTCAATCATCCTATTTCAATCTTCATACATTAAAATGTCGAAATTTAGTCTCTATGCTCTTAATAAACCTTATTAGTAGTTCTTCTAGTTAGTTTAATTTAAAGTTAATTTCTATCATGATAAAATGATAATAATAATGTGATAAAAATATCTTTTTGGTCCCTAGGTTTTTTAATCTCATTTTGATTTGGTTTCTTAAGTTTCAAAATATTATATTTTCACACCTGATTTTTATTTTTTTTAATTTACATTTGGTTCTTAGATTTCAAAATATTACATTTTTACGATTGCATTTTGAGTTGAAGTATTCATTCGGAGACTAATTAAAAATAAACTCAAAATTCTAGGATAAAAGTGTAATATTTTAAAACTTTGGAACCGAAAGAAAACAAAACTAAATACAACCAACAGACGAAAAAAATAATTTTCCTTAATAATTGTTTTGGTTGATGCAAAAGGCTTATTTAGTGGAATAATTTAAAAATAGTTTTCAAGTGTATTAAAAAGTATTTATGTACTTAATTATAACTTGTATTTTTTAAAAAGTAATTTAGAGTAATTGTTTTAAATGTCAAAACTCCTAAAAGTTAAAAAGAAAAGTTTTAGATTTTAGAATGTAGCCAAGAATTCAAATATTTACTAAAGATCAAAGCTTAAATATTTTTTTTTTCAAAAATTAAAAAAATTAAAAATCAAATAGTTATTTACCGTCCGTCCTTGACATTTAATATTTGGGTTTTATTGATTTCATTATAGGGTTTCCGTGTGGACGGCTATGTTATTGATGCTTTTGGCAATATTCAATGCTTGTAGTCTAATCAACAGATTTACAAGAATTGCAGGAGAACTTTTTGCCATTTTGATTTCTACTTTGTTCATTCAAGAAGCTATCAAGGTCAGTTTACAATATTAAATACCTGAATTTTGTTAATTTATGTTTTATGGGTTTATTCTTAAAAATAGTATTTTCAAGAATTTAATGATCAAATTTTAAAACCAATATTTATGCATGTTTTAGTGTTTCTACATATCAGATTTTATGTCTGACTTTGAAACATGAATACCACTCATCTCAGTTTCCTATTAATTATTTTTCCCTTTCAAATTCTTGTTTTCAAGTTGAACTTGGGGGAGATTTGGAGATCTAATCTTCGATATTCACAGATGAGAATTATTACTAAGTTATGCGCACTTTAATTATCCAGACTTACTGCTAAAGTACTTCACGAAGCTATATTTATGGGGGCTAGTTAACATGAGCATCGTAAGTCAATTTGAGAAATCATATATTAAAATTTGGGGGAAAATTTTAATTTACACCTCTAAACGTTGCTGATTGTATTAATTTAAACCAATAACTAATAATTTTATCAATTTAAATCTTGTACTTTTGTAAGTCTCTCAATTAACACTTTCGTTTAGACCAAGTCCAAAAAAATATCTTGCAAAAGTGAAGCATATTGGTGGTATGTTTCAATTAAGCTTCATTAAATTGTTATAAGTGAATAAGTTTAATCCTTTATTAAGATTCGCACTTGAAAATCATTAATGCATTATATTTAATTCTTACACGTGTGTAGACTTTTTTAAATGTCAGATTAATAAAATGGATTATTAGAATTGATGCATGGACAATTTTCAAAAAAATTAATTCACTCATAGAAAAATAAAAAAGTAAAGAAACATTTCTTGGTATAAGAAAGAAGAAGCATAAAAGAATTAGTTATGAAATGATATACATTTAAGTTTTGAAGGGTTGAATGATGCAGGGAGTTGTAAGTGAGTTTAAAATTCCCAAAGCAGAGAATCCAAATATGGAGAGATATGATTTTCATTGGCTTTACACAAATGGATTGCTTGGAATCATATTTACTTTTGGAGTTTCATATTCTTCTTTGAAGAGCAGAAAGGCAAGGTCATGGTTATATGCCACAGGTACTTTCTCAATAAATCATTTCCAAAACAACTATATATATACTTCACCAATTATTAACACTTATTCAAAAATGGAGTAGAAGTCCTTTACAATGTTAGACAGATGGTGACTTGAGAAATGTTTGCTTGGACAAGTATGAATGTCAACTTTTTGTTTAACATTTATTTCTTTTACTCCAATATTGGAACCTTTAGGAAATCAGGTCAAGTGTAACATTGAAACTTTAATTTAAAAAAAAAATACAGGTATTTTTGAAACAATTGATAAAGTATAGGAATATTTTGAATGATTTAACCTTGTTGGCGCTCGGATCTTGTCCACGTTGGGCTTTGTTGCGGGTCCTTGGTGGCCTTGACTTGTGACCCGCTTCTCCCTGGTCTGGTCTTGAAATACTCCCAGCTAACTTATGTAGGAGATCCTCGTATTGATATGGTTCCGAGCCTACTGTACTTTGAAACTTTAGTTAGTATAAGGAGTGACTAATTCAATGAAGCACAAAAGAAGTAAGTTTAAGTCTCTTCTTTGGAGATTACTTACTCTCCCCTTTGGGCTAGCTGAATGGGGATATTTATAGGTCCTTCCTCTGACACTCGCCTCTGGCTTATGTGTAACGTCAAAAACGTCAGGGAGTTGTAGGACACAAGGTTGTCCTAACACTCGCCTCTGGTTACAACGGTGTTAGGGAGATCATAGGGTCTTGAGGTTGCAGGGTGCTAGATGAGCTCCTCTTGTTGGCCCAGAGTATTGAGCTTGACTTAGTTTATCTCTTGACCTCATCTGGTTGGCTCAAAACCTGAGGTTTTGACTTTTTCCTTTTGGGACGCATGTACACCTATGCCTCCTCCCGATACCCATTGGGCTTGGGTGGCCTTGCCTTGGGCAACCCTTAACAAACCCTTGAAATCTTTTTGTGCCTGTTTGGATTAACGTATCTTAGGGTTTATTTTTCTCTGTTATCTTTTTTTAGTAATGCAAAGAAGAACAAAATTAACAAGAAATCAAATCACTAGACACTGCAGCATCAATCGTCCATGAGGGATGATCTTCAAGCCAGACACCAGAGACTTTGGTTCGTTGTGTATTACATGTCGGAATGTGAGCAATGGTAGTATAAATTCTAGAAAAAAAAGAGAAGCAAAAAACAATGCCTCGCGATGAAAAGCTTGAATTTTATCAACAAATGCTTGAAGTTCATTGTTGAAACAATCCTGTCCTTCAAGTAAGTTCCAAATAATCATTGAATTTGTTTCAACCCATAAAGGATAAGTCCCTGCTTCTAAAGCTGTAACAATATCGTTCAGGAAAGCAGCAGCCTTAGTAAGCTCAACAATATTGAACTATAGAGCTTTTTGCATCGAAATCAAACGTTCACCATTAGAATTATGAACAATGGCTCCGAAGTCTATCTCTCCCACGGTGAAAGAAGCATCAGAGTTAAGTTTATAAGAGTTACCCTCTGGGGCTTCCAACGGTTGATGTAAACATCATCAATAGTCGAAAGAAAAGGCATTTGGACCTAAGACAAACTCGACCTTCTCTAAGCATGCTTATCCATTTGCTCAACAAGCTCCCAAGCCCAATGTATAGGGACAAATGACCTCTTCTTAGTCATTTCAAACACCATTAAGTTACGTTGGTTCCAGATGGCAACAATAACTAATGTGAAGATCCACATTTCTATCAAACTTAGAGCCTCTGAGATCCCGTAGAAAAAGGGAGGCAAAGTTAGCATATTTTGTGTTTACATATAATAGGCACATGGAACCAACTTTTCCAAAATTTCCTCGTTTGTTTACAATCCCAAACAACATGGAGCTCTTATATCTCTCCTTTATGGTTTTGTATTTAAATTGTAACAAAAATTGTAATGGACTCAATTGTTCAAAAACTATTTTTTCTAATATATATTTTAGAGTAAACAAAAAAGTTTGTAACTTAAATCATATGCATCCTTCAACCCTTTTACTTCGGTTTATTTTTAAAAAAAAGTACAATTGCTACCGATTATTTTAAAAGCTACAATAATTTCAAGCTAAACCTTAACATTGAGCTTAAATAAAATAATAAAATAACTATTTCGGTCATTATTCTACGCCTATGGGTTTAATTGTCATGGCCTTACTTCGGTGTAATGGTACATACCTAGTATGTGTTATTATGATAACCATTGGTTCCTTCCCATAACTTGACAACTAATTATCTAATAATTTATATCTATAGTAGTCAAAACGAGCATAATTTAGTAGTAATTAACATGTACTACTCTTGAAGTTGGATGTTGAAGTTGACTTCTTCTTTGGTTGTAAAAAAAAAATTAAAATATAATCATAGTAATTATTATTATTGTTTCAGAAATTACATTACACTTTTTTCCCTTCTTTTTAAACATTTTGACCTTTTGTTCATATAGGGTGGTTGAGAAGCTTCATTGCAGACTATGGAGTTCCTCTCATGGTTGTAGTATGGACTGCATTATCATTCAGTGTCCCAACAAAAATTCCTTCTGGAGTTCCTAGAAGACTTGTAAGCCCTTTGCCATGGGAATCTGCTTCTTTGTACCATTGGACTGTGGTCAAGGTAAATTCTTTCGCTCGAGAGCATGTTTTAGAGTGATTTTGAACCGAGTAAATTAAAATTACTTTTGTCTCATTGAAAATTACTCTAAAACAAATTTTTAATTATTTAAAAGCCACTTAGACCTCATTTGGTAATTATTTGTTTTTTAGTTTTTAACTTTTTAAAATTCCTCTCAAATTCTTATAATGGTTTTCATCTTTCTTGAGTAAAAGATTTGAATTCTCCACTAAATTCTAAAAATACAAAAACATGTTTTTAATTTATTATTATTATTATTATTTAGTTTTAAAAACTTGGCTTTTATGAAAATATTGGTAGAAAGCATATAGCAGAACAAGAAATTTAGAGGTGGAAAGGGTGTCTATAATATAAACTTAATTTTCAAAAATTAAAAATAAAAAACCAAATGGTAATTACCAAACAGAGCTTTAATGTTTTAATTTACAATTTTAATTAAACACAATTTTCATATAATAATCAAAATTGGTTTTTGAATGATTAATTAAGAACATGCTTAAGAGGGACTTTAAAATGGTTACCATTACATTTGCCATTTTCAATATCATTCTTAAACACGCCTTTAATGGTTCAAATTACAACGGTACATTCAATAATAATTAATAATATGATTTATAACAGTACATTAAATAACATTTTACAACAGTTCTAACCTGAGATCGTCATACAGAGTGGATACAAAGTGACATATATACTATTCCACTAATTACAAAATCAAAATCAATTCACTATCCTATCAACAAACACATTCCGTCCTCCGAAAACTAGAGAAGTGACAATAAAGTGAGAATCAAAAGACCGAACTTACCGAAATAGAAGAGCAAGTAGGAAAGTAACCACAGGGACAATGTTAACCAATGCACAAGCGAAAGTAGCAGATGTATGTTGAATTTCCGGCAGAAAACATTATTGAGTTAGTGAAGCCCTGAATTAAGAACACAAACAACAAACCAATCAACAAATAAACGAACAGAAAAACATGTAATTGCTATTTGCAGTTTGAAATTTAATGAAGAATAAAGGCTGGATTCACGAGAGGATGGAGACCGAGAGGCTGGACTCACGAGAGTGGAGAGGGAGAGCGAGAGGCGAGAGGAGCTAGAGCGAGTGAAGAGGGAGAGCGAGAGGCGAGTGGAGAGGGAGAGCGAGAGGCGAGAGGAAAGCGAGTGGAGAGGGAGACCGATAGGCGAGAGGAGAGCGAGTGGAGAGGGAGACCGAGAGGCGACCGGAGAGTGATTGGAGAGGGAGAGCGAGACGCTGGAGAGACCGAGAGGTGACAGAAGCTTCGATTGGAGAGGGAGACCGAGAGACGAGAGGAGAGCGAGACGCCAGAGAGACCGAGAGGCGACCGGAGATCGATTGGAGAGGGAGACCGAGAGACGAGGGGAAAGCGAGACGCCGTCAATGGTGGTCTGAGATGGGAGTGAGTGAGGCCGTCGATGGGATTTCGAAACAGTGAAGGAGGCGGGAGTGAGCAGAGGCGTGCAATATTGCTCTTTACTTTGGCCAAATCAAAATAAATTTATTAATATTATTTAGGGTTTTATATAAAACCCTAAATAATATTAATAAATTTATAATAATATATTTAAAAAGTGAGATAAAAATTTAGATAATGTATTTTATATAACTAATTTTGTGAAGAAATAAAAAAGATAAGTTAAATAAATTAAATTGAAAAAAAAAAAAACTTGATCAATTTTTTGTGATATTAGCAAAATTTTAATGACTTGAAAAAATTGTCATAATTTAATGACTTTTAATTTTAGTCATAATTTGGTGACAAATAAAATTAGTCAAAATTCGGAAAACACATTCGATGATTGTTTTTTTCAGTCATAAATCAATGACACGTAAAAACAATCATGTATTCCGCCAAATCCGAAAATTTTCGTTTTTTCCCGCCAAAAACGCTTGATTTTGGATTTAATGACTCTTTTTTCACTTTCTCCTCTATTTTTGGCACTATTCATGAGTCATTAAATGTATAATTTGTTGTAGTGATTGGATGAAATAGTGCTTAAAAGTGCAGAACCAAACATAATAATTATTTTGAATGATTAAAGACATGATTTTTAACAATATCAAAATTAATCCCAAGTATATTATTTTAGAGTGGTTTCGAAATGACAAAAGTCATTTTAACCATTATAGAATCACTCTCAAACATGCCGTCATTACCTGACCAAAGAGTCTTTTAACCTTCTAATAGTAGGATTGACATTGACCTAATGGTTTAATTTCCTTTTGTTGGGATGCCTTAAATCTGTATTTAGCGTTTTCAACAACCAAGTATATATGAGGGTTTAGAGAAGTGCATATTTAATTATTTATGGTTATTTATAAATGACTCTAAGATTCAGAGAATTGCACAATATAAACTTTCTAACCCTAGAGACGCCACAATTCTGTATTCTGTAACATTCTTTCTAATAAAATTATTCTTCCTCTGCCATGTAGACATAGTAAACACACTGTGTTAGTTAGTGAACTACGTAAATCTGTGTCTCGATTCTCTATTCTTTTATGTTTTTGGTATTCTTTATTTGTCGATTTCATAACACTGTTTAGATATAACATGCAATATATATAAAATTGGCACTTCATTTAATTAATGGAAACATATGTTTCTTCAACATGTTTGATTTGGGACAGGATATGGGGAAAATCCCACCCTCATACATATTTGCAGCTCTTCTCCCTGCTGTGATGATTGCAGGCCTTTACTTTTTTGATCATAGTGTTGCTTCTCAATTGGCACAACAAAAGGAGTTTAATCTTAAGAATCCTTCGGCATATCACTATGACATCTTCTTGCTTGGTTTTATGGTATACCACATTTTTTCCTTACAACTATACATGTTTAATTAGCTTAGGACAATACTCATAATTACTAGAGAGTATGCTCCTACTTATCTTTCTAATGATATTTTGTACTTTGGCACAAAATTTTTAGTACAATTCACTCATCTACTAGTAAAAATATAGTTAATATATAAAAAATATTGTTTAACTTTGTCATTTTTATTAAAAAATACTCTTTAGTTTCAAATGTTGTAATATTATCCTTTTCTTTTATTATCCCTTCAAAACTACTACTTTAGAGTAGAAACCTGACCTTTTAGAATTTCGAATATAGACATTGAGACTTTTGGAATAATGGTGTTTTGGTGATATAGTACGTAAAAGGAAATTATGATCCCACTATGTTTTAAAGGTTTGCTAAGTAAGGGAATTACTTCACTTATGTTTGATAACTTCCTTATTTAGATAAGCAATTTATTTAAAAAATATCTTTATATACTTTTAAAAATTGCAATATATTGCTCTTGATCTTTGATAAACATTTCAAAATTATTTTTGAAGTAGAAGTTCTTTAGAATGTTAGACCACGAGGAAAACCCACAAGATGAACACCAAGTTCAATTAATGGGAGTCAACTCAGATTCACACCAATGATAAGAAATCATTGTGTGTCCTTAAAGTCTAATCATTAGAGCTAAAAGACTATAAGAAACCTTAAATGCTTTCTTCTAAGTTAAGACATCTATCTATAGTGAAGAGTTGTATCATTTCAAAAGACATATTTCATTCTATAGACATGGGAAAATCTATATTCATCCACATCTTTAATGTATTATGTATCTATTTGTTTCATATATTTCTATTTATGAAGGTTCATGTATGAAATTGTTATGAAAGTTCATGTATGAAATTGAAGGGGTTGGGGGTTGAATTTAAATTACTGCAAAGGTGAAAGGTTATATCCTAATTTCATGGTGACTCTTCATTATATTTTTCTCTTTTAAAGAACAAGTTTAATAAAAAAAAATTCATAGAGTTCAAATCTCTCTTTAAGCTTCACACTTTCTTTGTATTCTTGTGTTTGATTAGAATGCATGTTTAGAACTTTTAGTTTTAGTTTAGAGAGTACAAAATCTTAAAAATAGGAACAAGTCCTCATTTCTTCTTAATTATTGAACATTTATCCAAACATATCTATTTAACTTTCTTATGGCTTTTTATCATTTCGTTATTAGGGGTTATTCTTCTTGTTATTGTTGTGAGTAAAAGACAAAGTTCGAGAGTATTTTTTTTTATAATTTGTATCCTTAAACAATATATGTTGTTACATCAGAAAGTAGGTAAAAATCTCCTATTTACTAGAAAATTACTTGCTTGTACACCAAATAAGTAGAGCTGAATTCTCTCATTTAATAATACAATATAAATAGACCAATAAAATTATAATTTCAAATAAAACCCTAATTATTTCTATGAAAATTTGATGTTAGACTTTACTTTGTGGATTACTTGGGCTTCCTCCCTCAAATGGGGTTTTACCACAGTCTCCAATGCATACTAAAAGCCTTGCAGTTCTTAAGAGGCAGGTAATTAAATTAAAATTAAGCACAAAAAATATGTAATATATGGTCAGTCATACACTAGTATTCAAGTACATATCAGAATTAGTGTTAGTTTGTTAATTAATTTAATTAGCTGTTCATTTGTTTGCAGTTGATAAGAAAAAAGATGGTTGAAAGTGCTAAGGAAAGCATAAAAAAGAAAGCTACAAACTCAGAAATCTATGTCCAAATGCAAGATGTGTTCATAGAAATGGATGGTAGCCCAGCTGTTAGTCCACTAGAGGTAGTGTCCTCATTTCCCGTTTTAGGTTAAATTATAAAGAATACATATTGTTGAAGTTTGAGATAAGTTTCAATTATGCCTTAAACTTTGAAAAGTTACGTATTTTGGACGTAAATTAACTTTGAAATTGTTTAAAAGAAAAAGAGAATTTTTTTTGTTTTCAATTTCGGACACGTCAAGGAGTAAGGACACACATGGAACACATAACGTGAAAATTTTCTAATACTACAAGAGATTTGTTTTCGTAAATATTAGTGGACCCATATAATGTAGGTTGGTCCCACTCTTATTTTCGTAAGTGTTAGAAATTGTTCACGTGTCTAACATTTTGAAGTATCTCGATCAAAACAGTTAATATATATGCACATATACATTCTTTGTCTACTGTCGTGTTCGTGTCTATATCCGTACCGTACTTATGAGTTTGCGAAAACTAAAAAAATATGGTGTGCATGCAGATGGATGTAGTGGTGAAAGAATTGGAAGATTTGAAGGAAGCAGTTATGAAAGAAAACAACAACAAAGAAAATGAAAATGAAGAAGAGAAATTTGGTCATCTTGAGAAGCACATTGATTCATATCTTCCAGTTAGAGTAAATGAGCAAAGAGTGAGTAATCTGCTACAGTCAGTCCTAGTGGCTTCATTAATTTTTGCAATACCATTGGTCAAGAAGATCCCAACATCTGTGCTTTGGGGATATTTTGCTTATATGGCCATTGATAGTCTTCCTGGAAACCAATTTTGGGAAAGGATTTTGCTCCTCTTCGTCATGCCTAGTCGACGTTACAAGTAAATCTTTAATTTTCTTCTTTTTCTATTATAAATTCAATCGTCGTATTTTCTTTACGTACGTACGGTTAAATTATCAGTTTAGTCATATCAATATAGGTACGTGTGTCTATATATAGATAGGGGCTTTGAGCTTTATATATCTTGATCGGAATAATTTTTCATGATGTATAATACAGTAATAAAACTAACGAGTAATGTTTATCAACTTTACTTCATCTGATTTGTCTGATCTAGTTTTTGACTTAATATGCCTTTTGTCGTGTCATGTCGAATAACACTCGTAAATCAACCCAACATGACAAGTCAACTTTTTCGAATTCGATTGAGATTAATATGTTGGTAGTTGATGGATGGCTAATTTTTATTTCAATTTCTTTTTTGGCAGGGTGCTAGAAAATGCTCATGCTTCCTTTGTGGAGTTGGTGCCATTCAAATACATAACCATATTCACTCTCTTTCAACTTGTGTATCTTCTTCTTTGCTATGGAGTGACTTGGATCCCTATAGCTGGAGTCTTGTTTCCCTTACCTTTCTTCTTCCTCATTACCATAAGACAACACATTCTTCCCAAAGTACTCCGATCTCGATATTTGCGAGAGCTCGATGCAGCGGAATATGAAGAAATAAAGGGATCTCCGAAGACCTCGCTTAGTTTTTCTTTCAAGGTACTTTTTTTAACCTAGTTGAGAATATGCTCAAGTCGATAGTTGAACTCTTGTCTTTTTTATATACATTTTATATGTTAGATCCTATTTTTTTTATTTTTTATTTTTAATTTTTGGATGAAAATATCTAATGTTGGTTTAGGGAAAGGATTCTACTCATATAGTTGAAGGTGGAGATGAGGTTGAAATGTGTGATGCTGAAATTCTAGATGTGTTGACAACCAATAGAGGGGAGTTGAAGATTAGAACAAGAAGCTTTAATGAAGATGGACATGGTCAGGTATGA AGAGAGATGATGGAGAATATGAGATGTTCAATATTTAGAGGTATTGCAAGTGATTTCCGAGGAAGAGCTTCTTGTTATAAACAAGATTGGATTGGTGGCCTACGTTCAGGAATCGGGGTTTCCGTGTGGACGGCTATGTTATTGATGCTTTTGGCAATATTCAATGCTTGTAGTCTAATCAACAGATTTACAAGAATTGCAGGAGAACTTTTTGCCATTTTGATTTCTACTTTGTTCATTCAAGAAGCTATCAAGGGAGTTGTAAGTGAGTTTAAAATTCCCAAAGCAGAGAATCCAAATATGGAGAGATATGATTTTCATTGGCTTTACACAAATGGATTGCTTGGAATCATATTTACTTTTGGAGTTTCATATTCTTCTTTGAAGAGCAGAAAGGCAAGGTCATGGTTATATGCCACAGGGTGGTTGAGAAGCTTCATTGCAGACTATGGAGTTCCTCTCATGGTTGTAGCGAGAGGAGAGCGAGTGGAGAGGGAGACCGAGAGGCGACCGGAGAGTGATTGGAGAGGGAGAGCGAGACGCTGGAGAGACCGAGAGGTGACAGAAGCTTCGATTGGAGAGGGAGACCGAGAGACGAGAGGAGAGCGAGACGCCAGAGAGACCGAGAGGCGACCGGAGATCGATTGGAGAGGGAGACCGAGAGACGAGGGGAAAGCGAGACGCCGTCAATGGTGGTCTGAGATGGGAGATATGGGGAAAATCCCACCCTCATACATATTTGCAGCTCTTCTCCCTGCTGTGATGATTGCAGGCCTTTACTTTTTTGATCATAGTGTTGCTTCTCAATTGGCACAACAAAAGGAGTTTAATCTTAAGAATCCTTCGGCATATCACTATGACATCTTCTTGCTTGGTTTTATGACTTTACTTTGTGGATTACTTGGGCTTCCTCCCTCAAATGGGGTTTTACCACAGTCTCCAATGCATACTAAAAGCCTTGCAGTTCTTAAGAGGCAGTTGATAAGAAAAAAGATGGTTGAAAGTGCTAAGGAAAGCATAAAAAAGAAAGCTACAAACTCAGAAATCTATGTCCAAATGCAAGATGTGTTCATAGAAATGGATGGTAGCCCAGCTATGGATGTAGTGGTGAAAGAATTGGAAGATTTGAAGGAAGCAGTTATGAAAGAAAACAACAACAAAGAAAATGAAAATGAAGAAGAGAAATTTGGTCATCTTGAGAAGCACATTGATTCATATCTTCCAGTTAGAGTAAATGAGCAAAGAGTGAGTAATCTGCTACAGTCAGTCCTAGTGGCTTCATTAATTTTTGCAATACCATTGGTCAAGAAGATCCCAACATCTGTGCTTTGGGGATATTTTGCTTATATGGCCATTGATAGTCTTCCTGGAAACCAATTTTGGGAAAGGATTTTGCTCCTCTTCGTCATGCCTAGTCGACGTTACAAGGTGCTAGAAAATGCTCATGCTTCCTTTGTGGAGTTGGTGCCATTCAAATACATAACCATATTCACTCTCTTTCAACTTGTGTATCTTCTTCTTTGCTATGGAGTGACTTGGATCCCTATAGCTGGAGTCTTGTTTCCCTTACCTTTCTTCTTCCTCATTACCATAAGACAACACATTCTTCCCAAAGTACTCCGATCTCGATATTTGCGAGAGCTCGATGCAGCGGAATATGAAGAAATAAAGGGATCTCCGAAGACCTCGCTTAGTTTTTCTTTCAAGGGAAAGGATTCTACTCATATAGTTGAAGGTGGAGATGAGGTTGAAATGTGTGATGCTGAAATTCTAGATGTGTTGACAACCAATAGAGGGGAGTTGAAGATTAGAACAAGAAGCTTTAATGAAGATGGACATGGTCAGGTATGA AGAGAGATGATGGAGAATATGAGATGTTCAATATTTAGAGGTATTGCAAGTGATTTCCGAGGAAGAGCTTCTTGTTATAAACAAGATTGGATTGGTGGCCTACGTTCAGGAATCGGGGTTTCCGTGTGGACGGCTATGTTATTGATGCTTTTGGCAATATTCAATGCTTGTAGTCTAATCAACAGATTTACAAGAATTGCAGGAGAACTTTTTGCCATTTTGATTTCTACTTTGTTCATTCAAGAAGCTATCAAGGGAGTTGTAAGTGAGTTTAAAATTCCCAAAGCAGAGAATCCAAATATGGAGAGATATGATTTTCATTGGCTTTACACAAATGGATTGCTTGGAATCATATTTACTTTTGGAGTTTCATATTCTTCTTTGAAGAGCAGAAAGGCAAGGTCATGGTTATATGCCACAGGGTGGTTGAGAAGCTTCATTGCAGACTATGGAGTTCCTCTCATGGTTGTAGCGAGAGGAGAGCGAGTGGAGAGGGAGACCGAGAGGCGACCGGAGAGTGATTGGAGAGGGAGAGCGAGACGCTGGAGAGACCGAGAGGTGACAGAAGCTTCGATTGGAGAGGGAGACCGAGAGACGAGAGGAGAGCGAGACGCCAGAGAGACCGAGAGGCGACCGGAGATCGATTGGAGAGGGAGACCGAGAGACGAGGGGAAAGCGAGACGCCGTCAATGGTGGTCTGAGATGGGAGATATGGGGAAAATCCCACCCTCATACATATTTGCAGCTCTTCTCCCTGCTGTGATGATTGCAGGCCTTTACTTTTTTGATCATAGTGTTGCTTCTCAATTGGCACAACAAAAGGAGTTTAATCTTAAGAATCCTTCGGCATATCACTATGACATCTTCTTGCTTGGTTTTATGACTTTACTTTGTGGATTACTTGGGCTTCCTCCCTCAAATGGGGTTTTACCACAGTCTCCAATGCATACTAAAAGCCTTGCAGTTCTTAAGAGGCAGTTGATAAGAAAAAAGATGGTTGAAAGTGCTAAGGAAAGCATAAAAAAGAAAGCTACAAACTCAGAAATCTATGTCCAAATGCAAGATGTGTTCATAGAAATGGATGGTAGCCCAGCTATGGATGTAGTGGTGAAAGAATTGGAAGATTTGAAGGAAGCAGTTATGAAAGAAAACAACAACAAAGAAAATGAAAATGAAGAAGAGAAATTTGGTCATCTTGAGAAGCACATTGATTCATATCTTCCAGTTAGAGTAAATGAGCAAAGAGTGAGTAATCTGCTACAGTCAGTCCTAGTGGCTTCATTAATTTTTGCAATACCATTGGTCAAGAAGATCCCAACATCTGTGCTTTGGGGATATTTTGCTTATATGGCCATTGATAGTCTTCCTGGAAACCAATTTTGGGAAAGGATTTTGCTCCTCTTCGTCATGCCTAGTCGACGTTACAAGGTGCTAGAAAATGCTCATGCTTCCTTTGTGGAGTTGGTGCCATTCAAATACATAACCATATTCACTCTCTTTCAACTTGTGTATCTTCTTCTTTGCTATGGAGTGACTTGGATCCCTATAGCTGGAGTCTTGTTTCCCTTACCTTTCTTCTTCCTCATTACCATAAGACAACACATTCTTCCCAAAGTACTCCGATCTCGATATTTGCGAGAGCTCGATGCAGCGGAATATGAAGAAATAAAGGGATCTCCGAAGACCTCGCTTAGTTTTTCTTTCAAGGGAAAGGATTCTACTCATATAGTTGAAGGTGGAGATGAGGTTGAAATGTGTGATGCTGAAATTCTAGATGTGTTGACAACCAATAGAGGGGAGTTGAAGATTAGAACAAGAAGCTTTAATGAAGATGGACATGGTCAGGTATGA REMMENMRCSIFRGIASDFRGRASCYKQDWIGGLRSGIGVSVWTAMLLMLLAIFNACSLINRFTRIAGELFAILISTLFIQEAIKGVVSEFKIPKAENPNMERYDFHWLYTNGLLGIIFTFGVSYSSLKSRKARSWLYATGWLRSFIADYGVPLMVVARGERVERETERRPESDWRGRARRWRDREVTEASIGEGDRETRGERDARETERRPEIDWRGRPRDEGKARRRQWWSEMGDMGKIPPSYIFAALLPAVMIAGLYFFDHSVASQLAQQKEFNLKNPSAYHYDIFLLGFMTLLCGLLGLPPSNGVLPQSPMHTKSLAVLKRQLIRKKMVESAKESIKKKATNSEIYVQMQDVFIEMDGSPAMDVVVKELEDLKEAVMKENNNKENENEEEKFGHLEKHIDSYLPVRVNEQRVSNLLQSVLVASLIFAIPLVKKIPTSVLWGYFAYMAIDSLPGNQFWERILLLFVMPSRRYKVLENAHASFVELVPFKYITIFTLFQLVYLLLCYGVTWIPIAGVLFPLPFFFLITIRQHILPKVLRSRYLRELDAAEYEEIKGSPKTSLSFSFKGKDSTHIVEGGDEVEMCDAEILDVLTTNRGELKIRTRSFNEDGHGQV
BLAST of ClCG01G005060 vs. Swiss-Prot
Match: BOR4_ARATH (Boron transporter 4 OS=Arabidopsis thaliana GN=BOR4 PE=2 SV=1) HSP 1 Score: 528.5 bits (1360), Expect = 9.9e-149 Identity = 266/388 (68.56%), Postives = 313/388 (80.67%), Query Frame = 1
HSP 2 Score: 180.3 bits (456), Expect = 6.6e-44 Identity = 84/118 (71.19%), Postives = 98/118 (83.05%), Query Frame = 1
HSP 3 Score: 53.9 bits (128), Expect = 7.2e-06 Identity = 22/43 (51.16%), Postives = 27/43 (62.79%), Query Frame = 1
BLAST of ClCG01G005060 vs. Swiss-Prot
Match: BOR5_ARATH (Putative boron transporter 5 OS=Arabidopsis thaliana GN=BOR5 PE=3 SV=1) HSP 1 Score: 518.8 bits (1335), Expect = 7.9e-146 Identity = 258/386 (66.84%), Postives = 311/386 (80.57%), Query Frame = 1
HSP 2 Score: 174.9 bits (442), Expect = 2.8e-42 Identity = 82/118 (69.49%), Postives = 98/118 (83.05%), Query Frame = 1
HSP 3 Score: 50.1 bits (118), Expect = 1.0e-04 Identity = 22/42 (52.38%), Postives = 25/42 (59.52%), Query Frame = 1
BLAST of ClCG01G005060 vs. Swiss-Prot
Match: BOR7_ARATH (Probable boron transporter 7 OS=Arabidopsis thaliana GN=BOR7 PE=2 SV=3) HSP 1 Score: 501.1 bits (1289), Expect = 1.7e-140 Identity = 250/385 (64.94%), Postives = 309/385 (80.26%), Query Frame = 1
HSP 2 Score: 165.6 bits (418), Expect = 1.7e-39 Identity = 74/118 (62.71%), Postives = 96/118 (81.36%), Query Frame = 1
HSP 3 Score: 42.4 bits (98), Expect = 2.2e-02 Identity = 17/42 (40.48%), Postives = 23/42 (54.76%), Query Frame = 1
BLAST of ClCG01G005060 vs. Swiss-Prot
Match: BOR6_ARATH (Probable boron transporter 6 OS=Arabidopsis thaliana GN=BOR6 PE=2 SV=2) HSP 1 Score: 487.3 bits (1253), Expect = 2.5e-136 Identity = 244/380 (64.21%), Postives = 301/380 (79.21%), Query Frame = 1
HSP 2 Score: 147.9 bits (372), Expect = 3.6e-34 Identity = 70/118 (59.32%), Postives = 91/118 (77.12%), Query Frame = 1
HSP 3 Score: 42.4 bits (98), Expect = 2.2e-02 Identity = 16/29 (55.17%), Postives = 19/29 (65.52%), Query Frame = 1
BLAST of ClCG01G005060 vs. Swiss-Prot
Match: BOR2_ARATH (Probable boron transporter 2 OS=Arabidopsis thaliana GN=BOR2 PE=2 SV=1) HSP 1 Score: 404.1 bits (1037), Expect = 2.8e-111 Identity = 207/374 (55.35%), Postives = 272/374 (72.73%), Query Frame = 1
HSP 2 Score: 144.8 bits (364), Expect = 3.1e-33 Identity = 65/118 (55.08%), Postives = 88/118 (74.58%), Query Frame = 1
HSP 3 Score: 44.7 bits (104), Expect = 4.3e-03 Identity = 18/42 (42.86%), Postives = 23/42 (54.76%), Query Frame = 1
BLAST of ClCG01G005060 vs. TrEMBL
Match: B9IKT8_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0018s01350g PE=4 SV=1) HSP 1 Score: 599.4 bits (1544), Expect = 5.1e-168 Identity = 334/573 (58.29%), Postives = 399/573 (69.63%), Query Frame = 1
BLAST of ClCG01G005060 vs. TrEMBL
Match: B9IKT8_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0018s01350g PE=4 SV=1) HSP 1 Score: 47.4 bits (111), Expect = 7.5e-02 Identity = 23/50 (46.00%), Postives = 31/50 (62.00%), Query Frame = 1
HSP 2 Score: 589.3 bits (1518), Expect = 5.3e-165 Identity = 292/385 (75.84%), Postives = 333/385 (86.49%), Query Frame = 1
BLAST of ClCG01G005060 vs. TrEMBL
Match: A0A0A0L871_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G536670 PE=4 SV=1) HSP 1 Score: 196.1 bits (497), Expect = 1.3e-46 Identity = 93/118 (78.81%), Postives = 105/118 (88.98%), Query Frame = 1
HSP 2 Score: 49.7 bits (117), Expect = 1.5e-02 Identity = 23/42 (54.76%), Postives = 28/42 (66.67%), Query Frame = 1
HSP 3 Score: 589.0 bits (1517), Expect = 6.9e-165 Identity = 325/594 (54.71%), Postives = 402/594 (67.68%), Query Frame = 1
BLAST of ClCG01G005060 vs. TrEMBL
Match: V4MF73_EUTSA (Uncharacterized protein OS=Eutrema salsugineum GN=EUTSA_v10024599mg PE=4 SV=1) HSP 1 Score: 44.3 bits (103), Expect = 6.3e-01 Identity = 17/42 (40.48%), Postives = 25/42 (59.52%), Query Frame = 1
HSP 2 Score: 581.3 bits (1497), Expect = 1.4e-162 Identity = 309/578 (53.46%), Postives = 388/578 (67.13%), Query Frame = 1
BLAST of ClCG01G005060 vs. TrEMBL
Match: A0A0D6QS46_ARACU (Uncharacterized protein OS=Araucaria cunninghamii PE=4 SV=1) HSP 1 Score: 43.5 bits (101), Expect = 1.1e+00 Identity = 20/51 (39.22%), Postives = 28/51 (54.90%), Query Frame = 1
HSP 2 Score: 579.7 bits (1493), Expect = 4.2e-162 Identity = 313/569 (55.01%), Postives = 397/569 (69.77%), Query Frame = 1
BLAST of ClCG01G005060 vs. TAIR10
Match: AT1G15460.1 (AT1G15460.1 HCO3- transporter family) HSP 1 Score: 528.5 bits (1360), Expect = 5.6e-150 Identity = 266/388 (68.56%), Postives = 313/388 (80.67%), Query Frame = 1
HSP 2 Score: 180.3 bits (456), Expect = 3.7e-45 Identity = 84/118 (71.19%), Postives = 98/118 (83.05%), Query Frame = 1
HSP 3 Score: 53.9 bits (128), Expect = 4.0e-07 Identity = 22/43 (51.16%), Postives = 27/43 (62.79%), Query Frame = 1
BLAST of ClCG01G005060 vs. TAIR10
Match: AT1G74810.1 (AT1G74810.1 HCO3- transporter family) HSP 1 Score: 518.8 bits (1335), Expect = 4.4e-147 Identity = 258/386 (66.84%), Postives = 311/386 (80.57%), Query Frame = 1
HSP 2 Score: 174.9 bits (442), Expect = 1.6e-43 Identity = 82/118 (69.49%), Postives = 98/118 (83.05%), Query Frame = 1
HSP 3 Score: 50.1 bits (118), Expect = 5.8e-06 Identity = 22/42 (52.38%), Postives = 25/42 (59.52%), Query Frame = 1
BLAST of ClCG01G005060 vs. TAIR10
Match: AT4G32510.1 (AT4G32510.1 HCO3- transporter family) HSP 1 Score: 501.1 bits (1289), Expect = 9.5e-142 Identity = 250/385 (64.94%), Postives = 309/385 (80.26%), Query Frame = 1
HSP 2 Score: 165.6 bits (418), Expect = 9.5e-41 Identity = 74/118 (62.71%), Postives = 96/118 (81.36%), Query Frame = 1
HSP 3 Score: 42.4 bits (98), Expect = 1.2e-03 Identity = 17/42 (40.48%), Postives = 23/42 (54.76%), Query Frame = 1
BLAST of ClCG01G005060 vs. TAIR10
Match: AT5G25430.1 (AT5G25430.1 HCO3- transporter family) HSP 1 Score: 487.3 bits (1253), Expect = 1.4e-137 Identity = 244/380 (64.21%), Postives = 301/380 (79.21%), Query Frame = 1
HSP 2 Score: 147.9 bits (372), Expect = 2.1e-35 Identity = 70/118 (59.32%), Postives = 91/118 (77.12%), Query Frame = 1
HSP 3 Score: 42.4 bits (98), Expect = 1.2e-03 Identity = 16/29 (55.17%), Postives = 19/29 (65.52%), Query Frame = 1
BLAST of ClCG01G005060 vs. TAIR10
Match: AT3G62270.1 (AT3G62270.1 HCO3- transporter family) HSP 1 Score: 404.1 bits (1037), Expect = 1.6e-112 Identity = 207/374 (55.35%), Postives = 272/374 (72.73%), Query Frame = 1
HSP 2 Score: 144.8 bits (364), Expect = 1.7e-34 Identity = 65/118 (55.08%), Postives = 88/118 (74.58%), Query Frame = 1
HSP 3 Score: 44.7 bits (104), Expect = 2.4e-04 Identity = 18/42 (42.86%), Postives = 23/42 (54.76%), Query Frame = 1
BLAST of ClCG01G005060 vs. NCBI nr
Match: gi|1009137146|ref|XP_015885897.1| (PREDICTED: boron transporter 4 [Ziziphus jujuba]) HSP 1 Score: 660.2 bits (1702), Expect = 3.5e-186 Identity = 341/577 (59.10%), Postives = 420/577 (72.79%), Query Frame = 1
BLAST of ClCG01G005060 vs. NCBI nr
Match: gi|1009137146|ref|XP_015885897.1| (PREDICTED: boron transporter 4 [Ziziphus jujuba]) HSP 1 Score: 41.2 bits (95), Expect = 7.7e+00 Identity = 21/50 (42.00%), Postives = 28/50 (56.00%), Query Frame = 1
HSP 2 Score: 599.4 bits (1544), Expect = 7.3e-168 Identity = 334/573 (58.29%), Postives = 399/573 (69.63%), Query Frame = 1
BLAST of ClCG01G005060 vs. NCBI nr
Match: gi|224141857|ref|XP_002324278.1| (hypothetical protein POPTR_0018s01350g [Populus trichocarpa]) HSP 1 Score: 47.4 bits (111), Expect = 1.1e-01 Identity = 23/50 (46.00%), Postives = 31/50 (62.00%), Query Frame = 1
HSP 2 Score: 589.3 bits (1518), Expect = 7.6e-165 Identity = 292/385 (75.84%), Postives = 333/385 (86.49%), Query Frame = 1
BLAST of ClCG01G005060 vs. NCBI nr
Match: gi|449467056|ref|XP_004151241.1| (PREDICTED: boron transporter 4 [Cucumis sativus]) HSP 1 Score: 196.1 bits (497), Expect = 1.9e-46 Identity = 93/118 (78.81%), Postives = 105/118 (88.98%), Query Frame = 1
HSP 2 Score: 49.7 bits (117), Expect = 2.2e-02 Identity = 23/42 (54.76%), Postives = 28/42 (66.67%), Query Frame = 1
HSP 3 Score: 589.0 bits (1517), Expect = 9.9e-165 Identity = 325/594 (54.71%), Postives = 402/594 (67.68%), Query Frame = 1
BLAST of ClCG01G005060 vs. NCBI nr
Match: gi|567217680|ref|XP_006412469.1| (hypothetical protein EUTSA_v10024599mg [Eutrema salsugineum]) HSP 1 Score: 44.3 bits (103), Expect = 9.1e-01 Identity = 17/42 (40.48%), Postives = 25/42 (59.52%), Query Frame = 1
HSP 2 Score: 580.1 bits (1494), Expect = 4.6e-162 Identity = 286/385 (74.29%), Postives = 329/385 (85.45%), 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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