ClCG02G014540 (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.ATGTCTTATGATGATTCTTATATATCGATGGATGTAATGGAGCAGACACCGCAAGAGTCTTCAACTTCATTATGGAAGCAGATCTCAGCCATCGGGCAAACGGCTTTAGAAGCATTCAGAAGAAAACCAATCTCACACTGGATTCTTCTTGCTCTAAGCAGTGTAGCAATGCTCGTAGCATTCCCTGCTTCATCTATACTTTCCCGTGTTTATTACGACAACGGTGGGAAGAGCAAGTGGATCATTTCCTGGGTATCGGTTGTTGGCTGGCCTATTCCAGCTTTATTATTATTTCCCATGTATTTCTTATCTGAAATCCATCCTACCCCTCTGAATTGGAAGCTCATTGTTTCTTATATTGTGTTGGGCTTCTTAAGTGCAGCGGATAACCTCATGTATGCATATGCTTATGCATACCTCCCTGCTTCTACCGCTTCACTTTTGGCATCATCATCCCTCGTGTTCTCTGTACTATTCGGTTACCTTCTTGCCAAGAACCAACTGAATGCTTCGATACTGAATGCGGTCTTCATTATCACTGCTGCAGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGGAGGCATAACTGATCAGCAATACATATTGGGTTTTGTATGGGATATACTGGGCTCTGCTCTCCATGGACTCATCTTCGCTCTATCTGAGCTAGTTTTCATTAAGTTACTCGATAGAAAGTCTTTCCATGTTGTGTTGGAACAACAAGTAATGGTTTCGTTTTTCGGCTTCTTGTTTACCACTCTCGGCGTCCTTCTAAATAATGATTTTCAAAACATGAAATCAGAGGCAGCAAGTTTCGTCGGTGGTACTCCGTCGTATTTACTCGTGCTTATTTGGAGTGCAATTTCTTTCCAGTTAGGAGTGTTGGGAGGAACTGCAGTTTTGTTTTTATCTTCAACCATTCTTGCCGGAGTTTTAAATGCTGTTCGGGTCCCTATTACGAGCATTGGTGCTGTCATATTCTTAAAAGATCCTATGAGTGGCTTCAAGATCCTCTCTTTAGTTATCACTTTCTGGGGATTCAGCTCCTATATTTATGGCAGTTCCTCCATAAGGAAGTCATCTTGATCCTATAATGTTCTTGTAGTTTTCAACTCTCTACTTCTTTTTTAGCTTTATGGGATAATTAATCAAGGGTATTTGATCTAAGAAAAATGTAACATCCTTCTATGCTTTGCTTTGCTAATTTCATAGTAAGATATCTTGTATGGTATTTTGTATCATAAGCTTATTTTGATGAATGTTTTTGTCCCTTATCAAAATTTTGTTGAAATTTTCATATTGGGGTTGTGTCTACCTCAATAAGTGTCACATTTGACTTGTCATATTGTTTTGTCTGTCTATTAAAACAGTGGAAAATTGGAGGGGGAATGTTGTAAAAACTTTGCAGAATCTTAAATGAATTGGCTTATTCAAGAAAGATTTAATATTTGGATAATCCATCTCAGGTAAAGGTTTTTATCCCTCTGGGAACATCCGATAAAATTGGAGCAATACATCTCATGGAAAGGTTTTTCGGTTATTATAAGATTATTTAGCACCCACCTAGAATGTCGCCTATTTTGTAAATTTTAAAATGTAACTTAATTACAAAAGTTTAGAAATATAATTTATGTATAAGAGAGTTTAAATTAAATTAATAGAAGAAAATAACTTTAGATTAAATTTCCGTTGTAAGTGAGTAATTAATTAATTATCATGGTAAATTAACCATCAATAATTAAAATATATTATAGAGTTTCTACATAAAAGACTTTAATTATAGTCACAAATTACATAAATATCTTTTTACATCCATTTTTTTACAGAAATGGCATAATGTGTTGGTATTTTCACCTATTTACTATTAAGGCCTTCTTAACGTTTCTATACAAAATAAAATTAAAAGAAAATAGAAAAATAAATAAAATAATTCCTCTCTCATCCATAAGTCAAGAATCACAACTTCCTTATTCCTTCCTATCAACATGCAAAGTAGGGTTCAATTGCAACTTACTTCTTTCTTTGATTGAAAATTTTAGATTCTCCTATCCTTTCCATTAACGTGCAAATTAAGGTTCTAATGAAGAACATATATTATGAGAGAAAAAAATTGAGTCACTTTATTTTTCTAATATATTCAAGGTATGTTTCTTATTCTATTTTGTTTTTTCTTTTAATCTCATTGCTTCTTTATTAACTTTCTGGAGAAAATTTTCAATTTTAGAACCATATTGTTTAAATATTGTATGGACCATAGTAGATTTTTCATAATTTCTTTTCCGTCCACACACAAATGATTTTGATTGTTTTGAGAATTGAAAATGTTTAATTTTTATGATTGTATATTTGGATTGTTTATTTTGTTCAAAATCTATAGTGTCTAGTAGTTCTTACAATTTTTTTCTCTTCGTCAACTTGTAAAACAACACATGCAAATGGATTTCTTGTTTTATTACTATAAATGTGTGATTTTCATGTTAGTATATAGCCTAGTTGTTTTGTTCTTTTCAATTGTTTTGAATAATAATATAGATAATTTTGGTATAGTGTATATATATTATTGTTTATATATTGTTTTCAAGTTCTTGTTTTAGTAGGTTTTTAAATCATTGTCATAAATATGTAGCTACATACGTAAGGTGATATACTATAAATTAGTAACGTGTATGTACACTGTTCTTATTGGATGTGGTATTGTATTGTACATTTTTTAATACACCGTGCAAAAAATTTTGTATTGTATTTTATACTTTTTAATACAGGTGATATACATCTATTCATATGATATATAATATTATATAAGGATGAAGGATTATTTGTAGGATTATGAATATACCATAGTTGTTTTGTAAGGTAAGTAGTTTCGTGATTCTCATATCTAAAATAGTTTGATTCTTATGTTTGTATGCGTTTGAACAATTTTTTTTATATAGATTGTCTCCCCTATATTGTGTATTGACCATAGTTTTTTTTTTTCTACTAAAAGAACTCACATGTAAATCTATTTATTTTCAAGAACTGAAAATTTGTGATTGTTAACCTTGAATATACCCTAGTTATATTTTCATTTGAAACGTATATTGAAATATTATGAAATACATTATAGGTAATTGAGTTATCTACTTTAGTAGTCTTGAAAACCACTGTCATAAGTATGATCTACGCTCATTGATATTATATATAAACCTGTTAAAGGATTAACTGTTATTTTTAGGTTTTAAATATATACTAGTTGGCCTGTTATATTGAATTGTATATTCATTTAGTTTGGAGTACCATTGTCTAATATATATATTATTGTTTGAATATAGCGTAGAGGTCTTCGTTACTAATACATTGTTATTGTATATATTGCCTTTCATATACAGATTTACATTGTATATATCACAACTCCTAATTCCCTTGTTTATTAATCTTCCGTCTATTGATATTATTTGGTATACTGCTATATATGTATTGATGTACTTATATTATTGGAACAGTTTGTTACCTATATAATGCAATACATGTGTAATCAATTAATGTATGCAATATACTGATTAATTTATGAACAATATACCTTATAATATGTTGCATAAACTTAAACAATTTTTTTTATGCCGGCTCGTTTTATAATGATACTTACATATCTAACATATTATGTGTACATTAGTTTACAACAAAAAAGTAATGACGAAAAAATACACATTTTATATATATAATTTAATATTTTGTGTGACACATTATACTTTAATCCTATGTTATCTCTAATAAATTACACTTAAATATACTCATGTATAGAACATATCAATATATCCATGATAATATTCAGCACCAATATTCACAATATTAAAAATTCACACACACAAAAATGAAGTAATAAGAAAATGTACATGATTTGAACAAAAAAATCAATAAAAATGATTAAGAAAAAATAGAAATTGTTAATTGAAGAAAAATAAACATTAATCAACACCCCCTATAAGTAAGGAAAAATAAATTTCATAAATCTCATAATAAATGAATTAAAACCAAAAATGAATATTTACCCGATAGAAATTCAACTCCAAAAATGGCCCAACAATATTAACAAATTCCTATATTATATTACTAAAATAATATTAACAAAACATGGCAAAAGAGACAAACCTAAGCCTTCAAATTATTAATTTTTATTTTAATTTGCATCATTTGATATTACCTACCTAATTTCAAACTTTTATGTTATTTATATCATTTGATTATTTACTTAGTTCAAGTTTCAAGCTAATAGTTTTAAAAATCTTGAATTAATTATTTAATAATTAACAATATCTTTTTATATTTTGATTTGGATAATCTAATTATTTACTTAATTTAAATCAAAATATTATTTTTTTAAAATTTTAAAAACTTTTGTATTAGTTATTTAGTCATTTTAATTTTTAACTTTTTTTATTCAAATAGATTCGATTATGTGTCTGATTTAAACTATTTTTTATATTTTGTATTTTGTATTAATTATTTAATAATAAAAAAAAAATGTTTTTCTTTTAAGTTTTTAAGAACTAAAAAAACAAGTTTATTGGGATATATTTGATTACCCACTTTAAATTTAGGGGTGATTGCATGTATAACTAAAAGAAAATGCAAAATTGTAAGATTGTGTTTCATGTTTTTCTATTTTGCAGCAAAATTGTGGACTCAGTCCAAATAGCCTTTAAACAAACATGTGCATAAATTACTATATTAATAGATATTATTGATATAATGTCATATATCCTAGTCGACAAAATAGTAAATTAAAGGAGATGTTTAACATTTGAAAACTATTGCTAAGCCATTTACAAGGGAAGAACAGTACATCTGGCTTTTGATGGTGTCCAACGATGGATTCGGATCTGAACTTGGATTATATTGAAGGAGAAGAGTTTCTATTCTTCACCTGCAGAATAAGCAGGAGGTACTATGGTCCTTGTCCTTGTCCTTCACCGGGCCACGACTGCGCCAATGACTGTCACAGGAGGGTTTAAGAAAATGTTGGAGAAGAGAGAAAGAATAGGAATTCCTCGTCATTAAAACAAATAGTATTAAATTAATAAAAAGACGTCAAATCATTTAGCTAACTCATTCGCCATTCTACCGTTAACTAATCGTCTATATAGCATTAGGGACTGTTTAGTTAACCATTTCTCAAACCTTCACAACTAATGTGTTGGTTTTGAAATATCAAATAGATATCAACTTCAAACCTTAATGATCAAAAATAATCACTAGGGTAAGAAAACAAAAAAAGAAAAAAAAAGAAAAAAAAAACAAAAGGACATCGTGGACGGGGTCAACGATTTCCGTCCAGACACGAACCCGGTACACGTTTTTCGAAAATTGTGTACCTGGTCCACGATTTTACAACTTATTTTTGTCAATTTTTTTATTTCCACATTTTTGTCATTATTTACTAAAATAATATTATTTAAAAAAAAAAATCATAAGATTTAGGGTACCAATCCCAACAAAGTTGGTAGTAATTGTTTGTGGGTAATAATTATCTATATTTGAGGTGCTAAGTCTTGCTGATTTGAGAATAATTATTTGTGTTGGATGGATATATGGTGTAGTTTTTTTGTAACCTAAAAAAAAACATAAATTTTATGGTTATTATGAATATTATTATAATAATAGATGTCTATCAATGCTTAATGTCAAAAGATCAAGTGGCATTTGTCAATTACCCCATGTGTTGTCCATGTGTCTCATAATCACGCATTTTGAGTGGTCATGTAAATCCAACTCCTACTTGTCAATTTGCCTATAAACAGTGTCATTTTGTGGATCTTGAGAGAACACACATTGGTGAGAAAAGAAAAGAAAGTAATCAGAAATTTTAGTCATCTTGATCCTCAATTTTACAAAAATGATTTATTTTATTGTTCATTTTTTTTTTTTTAACTTTTTGTTCCACAAGTACACACATGCTTCAAATTCTTAACACTCATTTGAGGTATGAACTCAATAAATAAAAATATATTTTACAATTTTCTATGTGCAATTGTTGTACTTAATGTAGGCAAAATACTATTATTTATTTATAATCAACAACCTTGCAACATACTTTAACAGACGTTGAACATATGAGTTGAACATGCACAAAATACAAGGTTGCCATAGTGAGTCTATTTACATGTTCATACAAAAAAAAATGATTAACAATGAGTCGATTTCATGCATACTAAAAAATATATATTGTTCATTAAGACAGTCAAATTAGTCAGTCATATCAAGTTGACGCAAACAATACCTCTTCCTAGACTATGGTCGGACTGTTAAGAAGTAGCAGGTCTTCTAGATGTCTATGAAAAATAGGTTTATAAGGATAACTTGATCATCCTCGGACAATCCCTCAATATCAAATTAGTATAAAAGACGACTATAAACTAATAATTTCAAATGTGGATTGAAAAACACTTTCTTCTGCCAATCTTTCTAATATATTATCAGTCGAGTTAGTCGTTGGAGAGAAACGACAAAGTTGGTGGTTAGAATTTATCACCCAAAGTGGTCATTGTCAAAGTTGATAATTAGAGGTGGTCGTTACTGGAGTTGGTCACCTAAGTTGAGGGTCGCATACATGGTTGTTACCGAAGTTGATCATTGGAGGTGTTTTTGGTTGGGGTTTTCATAAGAGTTAGGTGGTTGCCAAAGTCCAAAATTGGTCACCGGAGTTGACTACATGAAGGTGATCATCGAAGTTGGCCGCACTAAGGTAGTGTTTGACGGTGGCCGATGGGTGGAGCCATAGAAAAAATTGGAGGAAAAGAGAGTTGGAGTGTGTTGGGATGAGTTAGTAAAAATAACCAACTCACCTCTACGAATATTTAAAATTGGTCAGTCAAACATTGAGTTGATACTTTTTACCAACTTAACCGAACTCAGGTTGGTCGGCTAAACACCCATAATTTTATTTTTTTTCAACTTTATTAGTCCTTGAGATTCTTTCAAAGGGTCAAATTGCAAATAACATGATCTATCTTCTCTAGTTATTTTATTCTTTCATAGTGCTTCTTGAGATCCCAAACTCAAAGACCTATTTATGATTCTACTTCAATACATAAAAAATTGAAGTTTTGTCAATTCCCATGGTTTTCTTTATTATCTTTAAGTGCTAACTCCTTGGGACTTTGGAGTGAGGAGAAAAGAGAGATTTCCTTTGAGAAAAAAAATTGTTATTGTTATTATCTTTTTCAAAAACAAAAAATTTCTAGATAAGGGTATTGTTAATTGTCAATGGAGCCATCAAAATTGAGCTTTTTTGGGTTAATTAGAACAATTGAGTGATTTTAAAAATAATTTAGGAAAAATGTGTACTTTTAGAATAAATTAGGGAAAAGTTTCTTTTTTTTTTTTTAATGCAAAATTCTAATGGTGTGAATTTTCCTTATATAAATAAACTGTTTATGTTTAGACAATATTTGTCATTTTAGAATGGTGGTTGGAGTATACACATTTTTCTCACTCAAATGTATAGAAACTTAGGGACTAAATTGACAAATATTGCTAACCTAAACATAATTAAATTCATTAAGTTATATATCATTCATCAAAAAGTTAGAGATTCGAATGTTTAACTAGTGATTTTTTTTTTAAAATGTGTGTTCTTTAAAAAATGACAGTAAATATTTTAAGATGTTACATATGTCTTAAATTTATGGACCTATTAAGTACAAATTTAAAAAATCATTGCACACTTTAAAAAGTTCGAAATTTTTTTCTTTTTGAATAGTTCAACAAACACAATAAAGACTGAAGAAGGGGATTCAAACTCTGATCTCTTAGTTGATAACATATGTCATACTCAACAGTTAAAAATTGGCAATCCAAGTTTAGCTTGAGTGGTTAAAGTAATCAATTACGATTCCAAATGTTAGGGGTTCAATCCCCATATTCTTTAATGGTTTGACTTGAAAAAAAGATATATCAGATTTGATTTGTTTGGAGCGAAAAAAACATAAATAAATTTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAAAAACTCAAAAAAAACAATCACACCCTTGATTCGAGGGGGGAAACTATTAATTGAAAAAAAAAAATTAAAAACTTAGAAAATTCCCACGTTAGCTTCATGTGGGGGGAAATATTGATTAAAAAAAATTATTTAAAAAAATATTAATCGGCATTCTTGTTTAAATCTTAATCAAAAGCTCAAAGCATTTAGAGTGATCAGGGCCCTCAACGACCTAATCTGGCTTCATCTTTCTAAGGTTTTTCTTTCTTTCTTTCTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTTTTTTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTTCTTGCATAATATGATAATGGGTTGAACTTGGTTTCCTTATTTCTTTGTTAGATGTTTGTTTTCTTTATGATTTTCTTATACCTATGGCTGTCATTTTCTGGGTTCTTTATATATGGACTTGTGTTTTCTGTTCAGTGATTAATTTGATTTTCCCGTGAAAAATTTTACATCTATGGAAGAGATGATTAGATCTACTTGATATGTTTTGATGATATATTCATTTTCTGAATGTTGGGTTGGTTTAATTACGGTCTAACATCGGGAAAATCAAGTGATTTCTTCACATTCACACTCTTAATAAGATAGGGTTACTCCTCTCATTGGCCTTTGCTAATTGGTTTTTGAGATAGAACCCCAAGACCCCTTCTCAAGGTGCAAAATGGTTTTTGTCCTACTTAAAAATTATGACCCTTTCCTTATCACATCATCAACCAATTTTACAAAAATTACCGTTATTTATGGTGCAACCAACTTCGAAGAGACCACACAATAGCTTTGGTGAGTCAACACAAATAGCTCTGACTGTCATCTTCTTCTTCTCTCCCTTTATTTAGTGTGTAAGGGTAAGAGAGTGAGAGAAAGGGAGGGAGGAGAGCGATCCATGAGAGGAAAGGGAGCGAGAGAGCTAAAGTGCAAGAGTGAGAGAGCAAGAAAGCTCATTACGCGTGCGAGAAGTTCTTTTTTAGTAATTTCACCCAAATTTAACTAAATGGTCAAAAAACCTCATTTTCAAAAAGTGTGGCAAATTTCATTCTTTTTTTTTCCCAAATTTGGGTCATCCATCTAGCAAGTCCCCCATCTAGAACTATTATTCAAACCTCGGGACTAAAGGTGCCAATTAGAAAACCTAGACCAAAATGGATGTTTTGATGTTATTGATTTTGTGAATGTTGGGTTGGTGCAATAACTCTTACCCCGTTTGATTACCGTTTTGTTTTTTTTTTTTTTAATTTTTCAGTGTTTTTTCACAAATGTCTTACGATGATTCCTATATCTCAATGGATGAAATGGAGCACACAGAATTAGAAGAGTCAGAGACTAAGCAGATCTCATTCATCAAACAAATGGCTACAGAAGCATTTAGAACAAATCAAATCTCACATTGGATTCTTCTCGCTCTTAGTAGTGTAGCAATGTTGGTGGGATTCCCAGCTTCTTCTTTACTTTCTCGTGTTTATTATGACAATGGTGGAAAAAGCAAGTTCATCATTTCATGGGCTTCCAGCATTGGCTGGCCTATTCTAGCTTTATTATTAATACCCATCTATTTCTTATTTGATATCAATCCTACTTCTCTTAATTTCAACCTCATTATTTCTTACATTGTATTAGGCTTCTTAAATGCAATTGATAGCCTAATGTATGCATATGCTTATGCATATCTCCCCGCTTCAACCGCGTCGCTTTTAGCATCGTCATCTCTCGTCTTCTCTGTTCTATTCGGTTCCCTTCTCGCCAACAACCGACTCAATGCTTCGATACTTAATGCCGTCGTCGTAATCACTGCTGCGGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGAAGGGATAAGTAATCAACAATATATTTTGGGCTTTGTATGGGATATATTAGGCTCTCTTCTTCATGGACTTATATTTGCTTTATCTGAGCTGATTTTCATCAAGTTACTTGATAGAAAGTCTTTTCATGTTGTGTTGGAACAACAAGTGATGGTTTCATTTTTCACATTCTTGTTTTCCACTTTTGGGGTGTTTCTAAATAATGATTTTCAAAACATGAAATCGGAGGCAGCGAGTTTTTTCGGCGGTACGCCGTCGTATTTGGTTGTGGTTATTTGGAGTGGAGTTTCTTGCCAATTAGGAGTGTTGGGAGGAACTGCAGTTTTGTTTTTATCTTCAACCATTTTTGCTGGAGTTTTGAATGCTGTTAGAGTACCTATTACAAGCATTGGGGCTGTCATATTCTTAAAAGATCCTATGAGTGGCTTCAAGATCCTCTCTTTAGTTATCACTTTCTGGGGATTCAGCTCTTATCTTTATGGCAGTTCATCTTGATCTTATGATGTTCTTGTGTTTTTTGACTTTTGAATCTTCTTTTTTTCTTTTTCTTTTTCTTTTTTTTTTTTTTTTTAGCATGATGTGTAG ATGTCTTATGATGATTCTTATATATCGATGGATGTAATGGAGCAGACACCGCAAGAGTCTTCAACTTCATTATGGAAGCAGATCTCAGCCATCGGGCAAACGGCTTTAGAAGCATTCAGAAGAAAACCAATCTCACACTGGATTCTTCTTGCTCTAAGCAGTGTAGCAATGCTCGTAGCATTCCCTGCTTCATCTATACTTTCCCGTGTTTATTACGACAACGGTGGGAAGAGCAAGTGGATCATTTCCTGGGTATCGGTTGTTGGCTGGCCTATTCCAGCTTTATTATTATTTCCCATGTATTTCTTATCTGAAATCCATCCTACCCCTCTGAATTGGAAGCTCATTGTTTCTTATATTGTGTTGGGCTTCTTAAGTGCAGCGGATAACCTCATGTATGCATATGCTTATGCATACCTCCCTGCTTCTACCGCTTCACTTTTGGCATCATCATCCCTCGTGTTCTCTGTACTATTCGGTTACCTTCTTGCCAAGAACCAACTGAATGCTTCGATACTGAATGCGGTCTTCATTATCACTGCTGCAGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGGAGGCATAACTGATCAGCAATACATATTGGGTTTTGTATGGGATATACTGGGCTCTGCTCTCCATGGACTCATCTTCGCTCTATCTGAGCTAGTTTTCATTAAGTTACTCGATAGAAAGTCTTTCCATGTTGTGTTGGAACAACAAGTAATGGTTTCGTTTTTCGGCTTCTTGTTTACCACTCTCGGCGTCCTTCTAAATAATGATTTTCAAAACATGAAATCAGAGGCAGCAAGTTTCGTCGGTGGTACTCCGTCGTATTTACTCGTGCTTATTTGGAGTGCAATTTCTTTCCAGTTAGGAGTGTTGGGAGGAACTGCAGTTTTGTTTTTATCTTCAACCATTCTTGCCGGAGTTTTAAATGCTGTTCGGGTCCCTATTACGAGCATTGGTGCTGTCATATTCTTAAAAGATCCTATGAGTGGCTTCAAGATCCTCTCTTTAGTTATCACTTTCTGGGGATTCAGCTCCTATATTTATGGCAGCTTCTTAAATGCAATTGATAGCCTAATGTATGCATATGCTTATGCATATCTCCCCGCTTCAACCGCGTCGCTTTTAGCATCGTCATCTCTCGTCTTCTCTGTTCTATTCGGTTCCCTTCTCGCCAACAACCGACTCAATGCTTCGATACTTAATGCCGTCGTCGTAATCACTGCTGCGGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGAAGGGATAAGTAATCAACAATATATTTTGGGCTTTGTATGGGATATATTAGGCTCTCTTCTTCATGGACTTATATTTGCTTTATCTGAGCTGATTTTCATCAAGTTACTTGATAGAAAGTCTTTTCATGTTGTGTTGGAACAACAAGTGATGGTTTCATTTTTCACATTCTTGTTTTCCACTTTTGGGGTGTTTCTAAATAATGATTTTCAAAACATGAAATCGGAGGCAGCGAGTTTTTTCGGCGGTACGCCGTCGTATTTGGTTGTGCATGATGTGTAG ATGTCTTATGATGATTCTTATATATCGATGGATGTAATGGAGCAGACACCGCAAGAGTCTTCAACTTCATTATGGAAGCAGATCTCAGCCATCGGGCAAACGGCTTTAGAAGCATTCAGAAGAAAACCAATCTCACACTGGATTCTTCTTGCTCTAAGCAGTGTAGCAATGCTCGTAGCATTCCCTGCTTCATCTATACTTTCCCGTGTTTATTACGACAACGGTGGGAAGAGCAAGTGGATCATTTCCTGGGTATCGGTTGTTGGCTGGCCTATTCCAGCTTTATTATTATTTCCCATGTATTTCTTATCTGAAATCCATCCTACCCCTCTGAATTGGAAGCTCATTGTTTCTTATATTGTGTTGGGCTTCTTAAGTGCAGCGGATAACCTCATGTATGCATATGCTTATGCATACCTCCCTGCTTCTACCGCTTCACTTTTGGCATCATCATCCCTCGTGTTCTCTGTACTATTCGGTTACCTTCTTGCCAAGAACCAACTGAATGCTTCGATACTGAATGCGGTCTTCATTATCACTGCTGCAGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGGAGGCATAACTGATCAGCAATACATATTGGGTTTTGTATGGGATATACTGGGCTCTGCTCTCCATGGACTCATCTTCGCTCTATCTGAGCTAGTTTTCATTAAGTTACTCGATAGAAAGTCTTTCCATGTTGTGTTGGAACAACAAGTAATGGTTTCGTTTTTCGGCTTCTTGTTTACCACTCTCGGCGTCCTTCTAAATAATGATTTTCAAAACATGAAATCAGAGGCAGCAAGTTTCGTCGGTGGTACTCCGTCGTATTTACTCGTGCTTATTTGGAGTGCAATTTCTTTCCAGTTAGGAGTGTTGGGAGGAACTGCAGTTTTGTTTTTATCTTCAACCATTCTTGCCGGAGTTTTAAATGCTGTTCGGGTCCCTATTACGAGCATTGGTGCTGTCATATTCTTAAAAGATCCTATGAGTGGCTTCAAGATCCTCTCTTTAGTTATCACTTTCTGGGGATTCAGCTCCTATATTTATGGCAGCTTCTTAAATGCAATTGATAGCCTAATGTATGCATATGCTTATGCATATCTCCCCGCTTCAACCGCGTCGCTTTTAGCATCGTCATCTCTCGTCTTCTCTGTTCTATTCGGTTCCCTTCTCGCCAACAACCGACTCAATGCTTCGATACTTAATGCCGTCGTCGTAATCACTGCTGCGGTCGTGATGATCGGTTTGGATTCAAATTCAGATAGATATGAAGGGATAAGTAATCAACAATATATTTTGGGCTTTGTATGGGATATATTAGGCTCTCTTCTTCATGGACTTATATTTGCTTTATCTGAGCTGATTTTCATCAAGTTACTTGATAGAAAGTCTTTTCATGTTGTGTTGGAACAACAAGTGATGGTTTCATTTTTCACATTCTTGTTTTCCACTTTTGGGGTGTTTCTAAATAATGATTTTCAAAACATGAAATCGGAGGCAGCGAGTTTTTTCGGCGGTACGCCGTCGTATTTGGTTGTGCATGATGTGTAG MSYDDSYISMDVMEQTPQESSTSLWKQISAIGQTALEAFRRKPISHWILLALSSVAMLVAFPASSILSRVYYDNGGKSKWIISWVSVVGWPIPALLLFPMYFLSEIHPTPLNWKLIVSYIVLGFLSAADNLMYAYAYAYLPASTASLLASSSLVFSVLFGYLLAKNQLNASILNAVFIITAAVVMIGLDSNSDRYGGITDQQYILGFVWDILGSALHGLIFALSELVFIKLLDRKSFHVVLEQQVMVSFFGFLFTTLGVLLNNDFQNMKSEAASFVGGTPSYLLVLIWSAISFQLGVLGGTAVLFLSSTILAGVLNAVRVPITSIGAVIFLKDPMSGFKILSLVITFWGFSSYIYGSFLNAIDSLMYAYAYAYLPASTASLLASSSLVFSVLFGSLLANNRLNASILNAVVVITAAVVMIGLDSNSDRYEGISNQQYILGFVWDILGSLLHGLIFALSELIFIKLLDRKSFHVVLEQQVMVSFFTFLFSTFGVFLNNDFQNMKSEAASFFGGTPSYLVVHDV
BLAST of ClCG02G014540 vs. Swiss-Prot
Match: PUP5_ARATH (Probable purine permease 5 OS=Arabidopsis thaliana GN=PUP5 PE=2 SV=2) HSP 1 Score: 477.6 bits (1228), Expect = 1.7e-133 Identity = 238/349 (68.19%), Postives = 280/349 (80.23%), Query Frame = 1
HSP 2 Score: 218.0 bits (554), Expect = 2.4e-55 Identity = 110/168 (65.48%), Postives = 128/168 (76.19%), Query Frame = 1
BLAST of ClCG02G014540 vs. Swiss-Prot
Match: PUP10_ARATH (Probable purine permease 10 OS=Arabidopsis thaliana GN=PUP10 PE=2 SV=2) HSP 1 Score: 214.5 bits (545), Expect = 2.7e-54 Identity = 107/361 (29.64%), Postives = 205/361 (56.79%), Query Frame = 1
HSP 2 Score: 91.3 bits (225), Expect = 3.4e-17 Identity = 44/166 (26.51%), Postives = 88/166 (53.01%), Query Frame = 1
BLAST of ClCG02G014540 vs. Swiss-Prot
Match: PUP11_ARATH (Probable purine permease 11 OS=Arabidopsis thaliana GN=PUP11 PE=1 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 1.1e-52 Identity = 106/322 (32.92%), Postives = 190/322 (59.01%), Query Frame = 1
HSP 2 Score: 104.8 bits (260), Expect = 3.0e-21 Identity = 52/166 (31.33%), Postives = 93/166 (56.02%), Query Frame = 1
BLAST of ClCG02G014540 vs. Swiss-Prot
Match: PUP9_ARATH (Probable purine permease 9 OS=Arabidopsis thaliana GN=PUP9 PE=2 SV=2) HSP 1 Score: 196.4 bits (498), Expect = 7.6e-49 Identity = 106/359 (29.53%), Postives = 198/359 (55.15%), Query Frame = 1
HSP 2 Score: 84.7 bits (208), Expect = 3.2e-15 Identity = 45/166 (27.11%), Postives = 86/166 (51.81%), Query Frame = 1
BLAST of ClCG02G014540 vs. Swiss-Prot
Match: PUP1_ARATH (Purine permease 1 OS=Arabidopsis thaliana GN=PUP1 PE=1 SV=1) HSP 1 Score: 184.9 bits (468), Expect = 2.3e-45 Identity = 100/325 (30.77%), Postives = 179/325 (55.08%), Query Frame = 1
HSP 2 Score: 102.1 bits (253), Expect = 1.9e-20 Identity = 55/168 (32.74%), Postives = 91/168 (54.17%), Query Frame = 1
BLAST of ClCG02G014540 vs. TrEMBL
Match: A0A0A0LJ31_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G035440 PE=4 SV=1) HSP 1 Score: 677.6 bits (1747), Expect = 1.2e-191 Identity = 347/357 (97.20%), Postives = 352/357 (98.60%), Query Frame = 1
BLAST of ClCG02G014540 vs. TrEMBL
Match: A0A0A0LJ31_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G035440 PE=4 SV=1) HSP 1 Score: 275.4 bits (703), Expect = 1.4e-70 Identity = 143/168 (85.12%), Postives = 154/168 (91.67%), Query Frame = 1
HSP 2 Score: 555.1 bits (1429), Expect = 9.3e-155 Identity = 280/357 (78.43%), Postives = 316/357 (88.52%), Query Frame = 1
BLAST of ClCG02G014540 vs. TrEMBL
Match: A0A0A0LH22_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G035430 PE=4 SV=1) HSP 1 Score: 270.8 bits (691), Expect = 3.5e-69 Identity = 139/168 (82.74%), Postives = 153/168 (91.07%), Query Frame = 1
HSP 2 Score: 522.7 bits (1345), Expect = 5.1e-145 Identity = 262/352 (74.43%), Postives = 296/352 (84.09%), Query Frame = 1
BLAST of ClCG02G014540 vs. TrEMBL
Match: M5VQ83_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa007711mg PE=4 SV=1) HSP 1 Score: 238.8 bits (608), Expect = 1.5e-59 Identity = 124/179 (69.27%), Postives = 147/179 (82.12%), Query Frame = 1
HSP 2 Score: 517.7 bits (1332), Expect = 1.7e-143 Identity = 252/346 (72.83%), Postives = 298/346 (86.13%), Query Frame = 1
BLAST of ClCG02G014540 vs. TrEMBL
Match: B9HB18_POPTR (Purine permease-related family protein OS=Populus trichocarpa GN=POPTR_0006s19860g PE=4 SV=2) HSP 1 Score: 238.0 bits (606), Expect = 2.5e-59 Identity = 118/175 (67.43%), Postives = 146/175 (83.43%), Query Frame = 1
HSP 2 Score: 517.3 bits (1331), Expect = 2.2e-143 Identity = 257/354 (72.60%), Postives = 300/354 (84.75%), Query Frame = 1
BLAST of ClCG02G014540 vs. TAIR10
Match: AT2G24220.1 (AT2G24220.1 purine permease 5) HSP 1 Score: 477.6 bits (1228), Expect = 9.6e-135 Identity = 238/349 (68.19%), Postives = 280/349 (80.23%), Query Frame = 1
HSP 2 Score: 218.0 bits (554), Expect = 1.4e-56 Identity = 110/168 (65.48%), Postives = 128/168 (76.19%), Query Frame = 1
BLAST of ClCG02G014540 vs. TAIR10
Match: AT4G18210.1 (AT4G18210.1 purine permease 10) HSP 1 Score: 214.5 bits (545), Expect = 1.5e-55 Identity = 107/361 (29.64%), Postives = 205/361 (56.79%), Query Frame = 1
HSP 2 Score: 91.3 bits (225), Expect = 1.9e-18 Identity = 44/166 (26.51%), Postives = 88/166 (53.01%), Query Frame = 1
BLAST of ClCG02G014540 vs. TAIR10
Match: AT1G44750.1 (AT1G44750.1 purine permease 11) HSP 1 Score: 209.1 bits (531), Expect = 6.4e-54 Identity = 106/322 (32.92%), Postives = 190/322 (59.01%), Query Frame = 1
HSP 2 Score: 104.8 bits (260), Expect = 1.7e-22 Identity = 52/166 (31.33%), Postives = 93/166 (56.02%), Query Frame = 1
BLAST of ClCG02G014540 vs. TAIR10
Match: AT4G18220.1 (AT4G18220.1 Drug/metabolite transporter superfamily protein) HSP 1 Score: 191.8 bits (486), Expect = 1.0e-48 Identity = 100/305 (32.79%), Postives = 177/305 (58.03%), Query Frame = 1
HSP 2 Score: 84.7 bits (208), Expect = 1.8e-16 Identity = 45/166 (27.11%), Postives = 86/166 (51.81%), Query Frame = 1
BLAST of ClCG02G014540 vs. TAIR10
Match: AT1G28230.1 (AT1G28230.1 purine permease 1) HSP 1 Score: 184.9 bits (468), Expect = 1.3e-46 Identity = 100/325 (30.77%), Postives = 179/325 (55.08%), Query Frame = 1
HSP 2 Score: 102.1 bits (253), Expect = 1.1e-21 Identity = 55/168 (32.74%), Postives = 91/168 (54.17%), Query Frame = 1
BLAST of ClCG02G014540 vs. NCBI nr
Match: gi|659070022|ref|XP_008452946.1| (PREDICTED: probable purine permease 5 isoform X4 [Cucumis melo]) HSP 1 Score: 680.2 bits (1754), Expect = 2.8e-192 Identity = 348/357 (97.48%), Postives = 353/357 (98.88%), Query Frame = 1
BLAST of ClCG02G014540 vs. NCBI nr
Match: gi|659070022|ref|XP_008452946.1| (PREDICTED: probable purine permease 5 isoform X4 [Cucumis melo]) HSP 1 Score: 276.6 bits (706), Expect = 9.2e-71 Identity = 144/168 (85.71%), Postives = 154/168 (91.67%), Query Frame = 1
HSP 2 Score: 680.2 bits (1754), Expect = 2.8e-192 Identity = 348/357 (97.48%), Postives = 353/357 (98.88%), Query Frame = 1
BLAST of ClCG02G014540 vs. NCBI nr
Match: gi|659070020|ref|XP_008452939.1| (PREDICTED: probable purine permease 5 isoform X3 [Cucumis melo]) HSP 1 Score: 276.6 bits (706), Expect = 9.2e-71 Identity = 144/168 (85.71%), Postives = 154/168 (91.67%), Query Frame = 1
HSP 2 Score: 680.2 bits (1754), Expect = 2.8e-192 Identity = 348/357 (97.48%), Postives = 353/357 (98.88%), Query Frame = 1
BLAST of ClCG02G014540 vs. NCBI nr
Match: gi|659070018|ref|XP_008452930.1| (PREDICTED: probable purine permease 5 isoform X2 [Cucumis melo]) HSP 1 Score: 276.6 bits (706), Expect = 9.2e-71 Identity = 144/168 (85.71%), Postives = 154/168 (91.67%), Query Frame = 1
HSP 2 Score: 680.2 bits (1754), Expect = 2.8e-192 Identity = 348/357 (97.48%), Postives = 353/357 (98.88%), Query Frame = 1
BLAST of ClCG02G014540 vs. NCBI nr
Match: gi|659070012|ref|XP_008452904.1| (PREDICTED: probable purine permease 5 isoform X1 [Cucumis melo]) HSP 1 Score: 276.6 bits (706), Expect = 9.2e-71 Identity = 144/168 (85.71%), Postives = 154/168 (91.67%), Query Frame = 1
HSP 2 Score: 677.6 bits (1747), Expect = 1.8e-191 Identity = 347/357 (97.20%), Postives = 352/357 (98.60%), 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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