ClCG06G008400 (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.ATGGCATTTCTAGATGAAGTAGAAGTTGAAGTATTGAAGGAAAGAAGCTTCAGTATCAATTATTTTGAAGTTTCAAGCATTGATTGGAACTGTTTTTTTGATGATGCAGAAACAAAACATGATTTTATAAAATGTGTTTGATCGGTAATTGAATCACTTTTAATCCCTCATTTTGGAGAATCAATCATTGAAGAACTATTTCGTAGATAAAAAAATATTATCATTGAAAAGAGGTCAAAATAGAAGCTTGAGCTTGCCAACCTAACTATTTCACTAATCAAAATGAAATCAACAAAACTTTTGATTAATTATTATTATGTGGTATTGTGAAAGAAAACATGATATGGTTGTAATGATATTAATGCATGTCGAACGTGAAGGAATTGAATTCTCAACGGAAGCGAATGATCGTCATGTGCCATTAAATTTCTTTTGAGAAACATAAATTACAGAGAACATACAAAACTTGGATAAACATCTAAATTAGCATGTAATTGAGAATAATTAATGGTTAGAAGTTTCCTACCTTTGAAGACCATCTTCAAAGTAAGAAAACACCAAATCATGAACTAGTGATAAAGTTCAACAAAATTAAAGAACTCCTTTGGAACACCACAACAAAAGTTTCCTTGCTATTGTTTAGGAAGAACCAACGAGGAGTAGTGGGTTCTCAATGGATTTTGGTAAATGAGTATATTCTTGAGAGAGAAGAGAGAATTGGAGAGGGAAGTCTTGAGGAGAAAGTCACAAAACTCTTTTGTGTGAAACAATTTGTTCTCTATAACTCCCATCTCTCTCTTTCTTGTTTTTATGTAAAATTGATGGGAGAGAGAGGCCAAAAATAACTCCCAACTACGTGGTAGTTATTTTTAACTAATAATATAATAATAATAATATTAATTAAAATTCCCATTAATTTAATTATAATATATTAAATCATATTAAATATAATTAATTCATTAATTAAATATCACATATTTAATTTAAATTTGAATCATGTTCAAATAACTTTCTCTTACATAACCTATAGTTTTAATACGAATCTCATTCATATTAATTTTAACCTGTAGTTTTATATGAATCTCATTCATATAATTAATATTTAAATCTTATTTAAATATTCATCTCTCTTATAAAATAAAGTATAAATTTTGAATCTCATTCAAAATAAACTTTATATTATAATGTATCTATATAAATTATACCAATTGTATCATTATAATCAACTCCCTCATTAATTTGAATAATTCAAATTAAACCAAAATATTTGATTATTATACAAATCCTTAATAAGCTAGCAAGGGGACCTTATGAACCTATAGTTCGAAGCTCCAATTATATGAGATTAATCAATTAAACTCTTTAATTACATTAATCAACAATTATTAACTGTAGGTCACTTTGCTAAAGACTTACAATTGCACTCTTTGCACTGTAGATATATTTATGTGTACACAGAATTAACGAATCAACAGTAAGTCGACCCTTCACAAATTACTCATAGCTACAGTTGGGTCAAATTACTATTTTACCTCTGTAGTTATATTTAACTCCTTAAGTACCACTAATCCCTCTAATGAACAAACTGTTTATAGTCCAACTATAAACTAACCCCTCTCGGGCTAGTGAGAGGGTGATGCCTCATTGTTTAAGACTCGGATGCAACCCTTAAGGGAGTAATTTATCTACTTACCTAAACATGGGAAGGAGTGAATTCCATCTTGTGGAGATATGTTCCCAACTCCATAATCAAACAAATCCCCAAAAAAGTAGGCTTATTGAGTCGGCGATCTGGCCACTCTCACCCATACAGATCAAAAGATTGTCCTCATAGACAGAAGTTCATAACTTACTCAGGATTAAGGTCGAGTTACCTATAGTCATCGTATGAAATGTTAATTTTTTCAATTAACGGCGTTACAAAGAGGAATTAAACATTTCGTGGTCCAGTCTTATACAAACTCTTTGCATAGGATACACTCACTCACATGTCTCCACATGAATGATTAGGATCAAATCGTTTGTAACACTTTATAGCTATTTGTAACAATTACAAAGTGAGTTGTATCCATTGTGTTACCAGAATAAGGCACCCAACCTTATTCCTATACTGCAAACCTTTTGGTTATTACTTAAACATGATCCAACCTTGTATGTCAACCACATACATGTTTAAGTTTATATAAAATAACCATGGAATCTTAGTTTATTGGATTGAGTTAATGCAAATGATAAATAAAATAACTTCTTATTTTATTGAATAAATAAAATGTATTTACAATTTACAAAACTAAAAGACCCAATAAATTTAGGACACACCAATTCCAACATAACGTTGGTTTAGCTATTCTGTAATGAAATAAAATGGTCATTTACTACTTGTTTACAAATCCTAGGCCATGAAATGGTGTCTGGATTCTAATAAAATAATTATATTATGCAATTTGGTTATTGATAAATAATTTTTGAGATGTAAATGAAATTTTCCAGAATAATTTTTCGAATACTAATAGAAATAACTAAAACCATAATGCTTAATTACCCAACTACAATTTACACTTACATAGTTTCATCATTCTTAATAGGTTGTTGCTATGTGCTCGAGACAGAGCAACAAAAGGGATGAAAACCTTTTTTAAGACAAAGAAAAAATTCAAAGTAAGAAGTCGTCACCAATCCTTTTTATGGAGTGATTGGACACTATAGTAAAATAGGGTAATTGACATTTTTAACCCTTTTGAAGTTATTGTTTGTAAGTTTGCACCCCTTTTCGACAATTCGTTTTTTTTAGCCCTCCAAGTTTTTGAAAAATATAAAATTATGATATTGCCCTTTAGAATTTCCAAAGTCACAAAAACACTCATTTTCCCTTCTTCTCTCTTCCCATCTTCTCTTCGGAACGTAAGAGGATATTTAGGGTTTTAGTGAATCTTCTCTTGCATTCAAATTTGAGTGAAATTTCTTCGCTTTTAAAAAACATTTTGCATTTAAACATCATTTTGGGCGTTTTCTAAATGATTTGAACATCATTTTTTGCAATTTCTTCTAAATGTAACATCATCTTCTCTTGCATTCAAAGTTGATTTTTTTTTTTTTTTTTTTGCATAAAAAATTGGAATTTTATTTTCAAGAAATTGTGCATTACCCGGTCAGGCACCATACGAAGTAAACCGAGAAATGACCGGGGGCAAAGGAAGATGAATGATTGGCTTTGTGGTGGCTTGGTCGGGCATGGATCAGACGCCAAAGAAGGTGACTTGGTACCAAGGGAGGTAGGGCTTACCTAGGCTCACCCTAGCCCGATGGGGACCGAGTAAAATATAGGTAGGGGTTTACGGCACATGGCCTGGCAGAGTTGCAATTGAGCGACAAGGAAAAATGCCTAGTACTGGGGGAGGTAGGGGTTACCTGGATCTCGCCCTAGTCGGGTGCGGAATGAGTAAAAATGGGGTAAGTAGTGGGTGTGCACCCAGTGCTTGCCTTGGTTGGGTATGGACCAGGTACAAGAGATGGGACTCGGGGGTGGGAAAGTAGTGAATGTGCGCCTGATGCTTGCACTAACTAGGTATGGATCAGACGTAAGAGATGAGACCTAGGGGTGGAAAGAGGTAGCTTCGAGCTGGTGCTTTCCCTAGTCGAGTATGGACCAGTCGCAAGAGATGAGACCCGGGGGTGGGAAGGTAGGTAGGCTTAACCCAATTTTGCCCTGGTCGGGTGTGAACTGGGCACGGAAGATGGGATCTAGGAGTGGAAAGGTAATGGATTTGACTCAGTTCTGCCTTAGCCAGGTGTGGATCGAGTACAACAAAAGGGCGAGGCTACTAATTTTTGACCTGGACCTACCCTAGCTGGGTATGGACCGGATCTAATGGAAAGGTTATCTACTAGATGTTTGATGCGTGATTCTGCAAGTGCACAGGTCAAATTATAATATAAAACGATTTAAGTCTGAGTATTGTATCCATTGGGGATTGTATTGGATATATTCACTTAGCTATTCAAGAATTGAATTGATTTTATCTAAGGGATGGACCTCGAATTTGGTTTTTAAAAACAAGATAATAAGAAACAAGAACAAGCAAAACTTCAAGGGATGAGAGTGTTCTAGGTGTTGATGTCATTAATTACTTCATTAAGTCATGCTTTAAGCTTTCATGGAATGATGTGCAAACAATATATTTAAGTATAAAAACTAATATCTGGATTACTTTCTCTAAAAAACAACAATTTCTTATGCAATCTAATTGATTACTAATTTCTTGAAACCAAGTTAAGAAGCATAGCATTAAGATTAGTCATGATCAACTTTCTCTAATAACCTAGCTACTTTCATGAAAGATTAGTAGAGATTCAATGCTATACATCCAATTAAACACACAATCACTCAATCATACATCTAACCTAAGATTTATTGATGATCAATCAATAAAGAATAAGCACAATAACAATGAAAAATATATCATTCAACAACATTGATAAAAAGTACTAAGTCATTGACATAAATCCATAATTAAATCATCCAACACCCTAAAACAATGAGTTTAACCACACATAGCCATCAAATACATATTTGCATATGAGTTGTCAAGCATGAAAGTAAAAGAGAAAGAGAAAGTTAGGAAGAAAAATTCTTGAATTGCTTCCCGGCATTGAACTCCTTCAATCTCCACTTTTTTTGTAGCAAACTCACACCTTTTGGGCACTCTTTTCCTTTTAATTTCGTGTGCCTCCTTTGGGACTCTCTTGTTATTTTATTGTGTCTTTCTTGATGTCTAGGGTTGCTGAAAACCCCTCAATATATAGAAGTAGCTGCTCAAAATTCTTTCCAAAATTAAAGATCTTTTAAAATAGGAAAGCTAGCATCGTTGCGCTCTCCAAACGCTGTCCTTCTAGTGACGCTGTCCTTCATAATAGGGGCAGCGTAGCAACGCTGTCTTTCATAATAGGGGCAATGCTCCAACAATTTCCCAAATTAGGTGATCTCGGGTCTAGAGTGCAACGGGGCAATGTAGTGACACTCTCGACTGAGCTGCCCTATTTTCTAGGATTTTTCCACTTCTTCCGATTTTCACTCGATTTTGGTTCGGTTTGGTTCTTTTGGCTTTAGACACTTAATTTCTTCATTATCACCAAAAACCACTAGAAAATAAATTAAAGCTAATAAAAACATCCCTAAATCAAAGTCAAGAAAAGCCCTTTTTAGGTGCTTTTCAATTTTGGCCCGGTCTTTACCTAGCAGGGTATTGACCAAGTTGAATAGATAATTGAGTTCGGTTTTTTGACCCAATCCCTACTATGGGCGGGTATTGACTTGGTTTTTCGTTTTTTTTTTTAAAAAAATTCCTTGTTGACTCGATGTTTTATTTATTAATGTATATTTTTTGCGTCAAATAATTTAGGTCTAATGGATTTGGTTACAAAAATTCAGGCCAATGACCATTTCCCTACTATCCTAACCTGTTGTGCACACTTAAGGAAAGCTCAAACGAGTATTAGAAAGACAATAACCCCCACCCAGTTGACAATGTCTAGGCATACGTGTTTTGGGCTTATATTAGATGCTAACATTATGTTTAATGGATCTCTGATTCATTATATCCTTCTGATCGAAGTTAGGGAGACTATGAGAGATACTCTTAGTTTTAATTTATAGGACACGACAATATCATTTGGGCAAAAAGAGTTTGATCTTGTGACTGGGTTAAAACACCAGACCAGACCGGTAGATAGGGATAATACCCATGTCAGATTTTGAAGAAAATACCTGAATGATGTAGAGGGTATGAAATGGTATGATTGGATGCCAAGTACCCTTCATTAGAGTTTGAGAATGATGATGATGCAATCAAGATGTCCCTTTTCTACTTTATTGAGTTTGGACTCATGGGAAGAGAGAGAAAATCTAGCATGAACCACAAGTTCCTAGATTACGTAGATGACAGGGAGACTTTCTATAACATAGATTGGGAAAAATTTATTTTTGATATGATAATGAAATGGTTAAAGACGGGTGATACAACTCCCACCGGGCATCGTTTTATTCCCAAAAAGAACTGATCAAAAGAAATTTCTAATACCAAACTCTACTTCTACTAAGCACCAATGATAGTGTAGCAGTAGTGGCAAGTTCACGTCGATCTGCAGGGAGAAATCAATGATGTTTCGTTAAGCCAATTCACTAGTTATAGCGGTGAATGGGGGGATTGTGTGTGGCATAGAGATAAAGTGCATGAAAATTAAAGGCAGAAAAGTAAAGGAAGCAAGTAAATGTAACTAGAGATATGAAAATCTAGTTTTAAGAGCAAGAGGGACAATTTCGATCCTCAATTATCGTTGGTTAAACATGCTTCCGATTTATGTGTGCACAACGACTAGCTTTATTGAACCAAATTCATCAACGCTACAAGTAGCCGAATTGTTGGGTTTAACCAAGCAAGCACCCTAAATATAGTCTATGACTTTAATTAAATTAAATGAATTAATCCTAATGGGTTCGATACGCAGGCATATAGAATTAAAGACATTTGCATCATAGCCTTTTTCCTTTATTTTGCAGGTCTTCCTCTTTCCTCAAATTACAAATTTACCATTGTTGTCACATGAAGGTTCAATATATTTTTCCTTGGCAAAATTTGGCATCATCACCTATCAATATATAATGATTATCAAATGTGTGGTATCTAAAGTCACCACCATTATCAAACCAACTCTATGTAATTTCAAAACCATACAATTGTGTCTTAACTTAACTATTTGATCAACTAATCTTTTAAATGCAAAGTTTTGTAATTTATATCGTGTATGATACAATTTAGAAGAAAAAGTAGACAAATCTTCTACAACATATATAATATAAAAGAGACATGTGACCAGCAAAACAAACATTTAATATCATTATTTTATTAAATTTATAAAGCATTTAGAATCAAGTTTAAAAAAAAAAAAGAAAAAAAAGAAAGGGTTACCCATGCATTAAAAAATAGAAAATAAAGCAAAATGGTTTACAAATAGAAGTGAGTCTCTCTCGTTTGCCATAAAACAACAAAGAACCATAGCTGTGTGGAAATGTTGCATGTAAATGGAGGAATGGGAGATACAAGTTATGCCAACAACTCCTTACTTCAGGTGAATCACAGTCAATTACTACAATAACATATATAATAATGGATTGTTTGTTAATTAATTAATTTTTTATTATTATTATTTTGTAATTAATTCTTGTTAAGACTAATTTGGAACAGAGAAAGGTGATGTCCTTAGCTTGGCCAATAGCAAAGGAAGCCATAACCAAATTTTGTCATCAAAGTAATTTTCCAACCACGACGTTCACCATGGCCGACTTAGGTTGTTCTTCTGGCCCAAACGCTCTGTTGATTGCTTCCAATTTAGTGCAACAAGTTGAGGAGATTCGTAAAAGGCTTAAGAAAAAGCCTTTGGAGTATCAAATTTTGTTGAATGACCTCCATGGAAATGACTTCAATGCTATTTTCAGATCCTTGCCAAGCTTCTTGCAAGACTTGAACACCCAAATTGGAGGACATGATTTTGATTCTTGTCCATGTTTCTTTAATGGGGTGCCGGGTTCTTTCTATTCCAGGCTTTTCCCCACCAATTCTGTCCATTTCTTTCATTCCTCTTGTACCCTTCATTGGCTCTCTCAGGTGAGTTTTATTTTTCTCTGTGTTTCACATCTCCTCTCCTATCCTCTCCACTAATTAAAATTTATCAAGGGGTAGTTGTCTAAATTTTAACCGATGTAGCACAATGTAAAATAATTTATAGATATAACAAATAACTCGAGTTCATTAACAATAGATTTTGCTATAACTATAATTCCTTAACGATGTTGTTTTAATTATTAGTCCTAAAAATGTTATTCATTGCAACTGGTGTTTTATAAAGTACACCAAGTTAATGCATTTACCCAAACTTCTACTATTAAAACATTAAAAAAAAAAAAAGAGTTTATTGGTGCATTTAAAACTCCACACATTTTTGTAGAGTCCACCAAAATGTTCATTGGCATGTGACAAAATATATATATCTATACATTGATACATCTTTTTTAATATTTGATTGAAGGGGATGCATAGTATGCATTACTTATAAATAAAATTTAGATAATTTAATCTAGATCCTCTAGTATTAAAAGAATTTTGGGTACATCCTTTGGTGTGGACATATAACACACCAAGATTATACCTCAAAGGTACTTTTTAAAAATAGTGTTTTTAAGATTTATTGGAAATATAACGATAAATCTAAACCTTTAAATATACCAAAGACAAGATAAATGATGTCAGTATATGCATAAAGACAAAAAAGGCCATACTTTAACGACCAACTATTTTTCTATTTTTCTATTATTGGAGTGCTCATACATTTGTACAATATTAGAATTTTGTAATACGTCGACAATATTGATAACTTTTTTACCATGTTTTAAATAAATATTTTGAAAGTATGCATGAACTAAAAATAATCAACTGAAAAATACAAAATAAAATTTAAACCAAAATGTTTGAATTGCTATGTAGTTGAGAGATGGTAAAATTAAATACACATTATACACAGGTTCCTGAAGGGATAGAGAATAAGAACAAAGGAAAGATATTCATGAGCAGTACAAGTCCAAAGAGTGTGATTGATGCTTACTACAACCAATTTCAAAAGGATTTTTCAATTTTTTTAAAGTGTCGTGCTGAAGAATTGGTAATTGGTGGACTTATGATTCTTACAATAGTAGGAAGAACAAGTGAAGAGCCGTGGAGCAAAGAATGTACTTCTTGTTGGGACTTTTTGTCTTTAGCTCTAAATACCATGGTGGCTGAGGTAATAAAACTGCAATTTCCCTTTTTTATTTTTTATTTTTTATTTTTATCATCTTCCTAGATTGATTGAGCATTCAAGATATATATCAAATTTTAAAAGTAATTAAGTGAGATCTTTCAAAGATCTTAAAGTTGATTTGTTTTGTTAATTTAATCAATGTGTGTGTATATATATTTGAGTTTGTAATGGATTCACTATTATCTTTTCTTTTTGTAAGAATGACTAAATGACAAAAATATTGTTTTACTTACATCATATTTTAATCAATATTATTTTGAAATTGTTTTTTTTTTCATACAACAATAATAGAAAAGGAGAATTGAACCTCTCACCTCTAGGTTGGAAGATCATGCTAATTATCAATAAGTCAAGCTCACTTTGACACATTATACCATTTAAATACTCTTTTGTATTATTCAACAAAGGTTAAACAATTTATTAACAATGCAATCTTCAAAATTTGCTAGTTTGGTAAAGTTTCATTTTGCTGAGATGTTTTACGTAAAAAATTAAAAAAAAATGAATAAATAAAAAAGAAAAAGTTTACTTTTAAAAAATATCATTAAAATTTGCTTTTTTACTTCCAAAATATCTATATTCTTCTAGAAGTTGCCGTTACCTTTTACTTTTGATAAAGATTCAAAACTACTTTCGAGCCGGAATCTTTTATAATTTCAAATAAAAGTTGGACATGCAACAATTCGGCAATGACCTTGAAACGATGTGGTGGTCCATATTTCTGTTTTAGAATATTGCCATACTATTCTATTTCTAGTTAGGTTCTAATTTTCATCTATAATTTTAAAAAAATTTCTACTTAGAAGTAATTTTGAAAAGTGACATTGCAAGCTTTTAAAAGTTTAGACCTATTTTTGATATAAAAGACAAATTTGATGAGTACCTATTTTATAGTTGAGAAAATAATTTTATTAATAATTTTATTTAAGTATATATATATATACTATGATTCAACAGGGACTAGTGGAGGAGGAAAAAGTGGACTCCTTCAATATTCCAAATTATATGGCATCTCTAGATGAAATAGAAGTTGAAGTCTTGAAGGAAGGAAGCTTCAGTATTAATTGTTTTGAAGTTTCAAGAATTGATTGGAACTTTTTCGATGATGCAGAAACAAAGCATGACTTTGCGAAATGTGTTCGATCT ATGGCATTTCTAGATGAAGTAGAAGTTGAAGTATTGAAGGAAAGAAGCTTCAGTATCAATTATTTTGAAGTTTCAAGCATTGATTGGAACTGTTTTTTTGATGATGCAGAAACAAAACATGATTTTATAAAATGTAGAAAGGTGATGTCCTTAGCTTGGCCAATAGCAAAGGAAGCCATAACCAAATTTTGTCATCAAAGTAATTTTCCAACCACGACGTTCACCATGGCCGACTTAGGTTGTTCTTCTGGCCCAAACGCTCTGTTGATTGCTTCCAATTTAGTGCAACAAGTTGAGGAGATTCGTAAAAGGCTTAAGAAAAAGCCTTTGGAGTATCAAATTTTGTTGAATGACCTCCATGGAAATGACTTCAATGCTATTTTCAGATCCTTGCCAAGCTTCTTGCAAGACTTGAACACCCAAATTGGAGGACATGATTTTGATTCTTGTCCATGTTTCTTTAATGGGGTGCCGGGTTCTTTCTATTCCAGGCTTTTCCCCACCAATTCTGTCCATTTCTTTCATTCCTCTTGTACCCTTCATTGGCTCTCTCAGGTTCCTGAAGGGATAGAGAATAAGAACAAAGGAAAGATATTCATGAGCAGTACAAGTCCAAAGAGTGTGATTGATGCTTACTACAACCAATTTCAAAAGGATTTTTCAATTTTTTTAAAGTGTCGTGCTGAAGAATTGGTAATTGGTGGACTTATGATTCTTACAATAGTAGGAAGAACAAGTGAAGAGCCGTGGAGCAAAGAATGTACTTCTTGTTGGGACTTTTTGTCTTTAGCTCTAAATACCATGGTGGCTGAGGGACTAGTGGAGGAGGAAAAAGTGGACTCCTTCAATATTCCAAATTATATGGCATCTCTAGATGAAATAGAAGTTGAAGTCTTGAAGGAAGGAAGCTTCAGTATTAATTGTTTTGAAGTTTCAAGAATTGATTGGAACTTTTTCGATGATGCAGAAACAAAGCATGACTTTGCGAAATGTGTTCGATCT ATGGCATTTCTAGATGAAGTAGAAGTTGAAGTATTGAAGGAAAGAAGCTTCAGTATCAATTATTTTGAAGTTTCAAGCATTGATTGGAACTGTTTTTTTGATGATGCAGAAACAAAACATGATTTTATAAAATGTAGAAAGGTGATGTCCTTAGCTTGGCCAATAGCAAAGGAAGCCATAACCAAATTTTGTCATCAAAGTAATTTTCCAACCACGACGTTCACCATGGCCGACTTAGGTTGTTCTTCTGGCCCAAACGCTCTGTTGATTGCTTCCAATTTAGTGCAACAAGTTGAGGAGATTCGTAAAAGGCTTAAGAAAAAGCCTTTGGAGTATCAAATTTTGTTGAATGACCTCCATGGAAATGACTTCAATGCTATTTTCAGATCCTTGCCAAGCTTCTTGCAAGACTTGAACACCCAAATTGGAGGACATGATTTTGATTCTTGTCCATGTTTCTTTAATGGGGTGCCGGGTTCTTTCTATTCCAGGCTTTTCCCCACCAATTCTGTCCATTTCTTTCATTCCTCTTGTACCCTTCATTGGCTCTCTCAGGTTCCTGAAGGGATAGAGAATAAGAACAAAGGAAAGATATTCATGAGCAGTACAAGTCCAAAGAGTGTGATTGATGCTTACTACAACCAATTTCAAAAGGATTTTTCAATTTTTTTAAAGTGTCGTGCTGAAGAATTGGTAATTGGTGGACTTATGATTCTTACAATAGTAGGAAGAACAAGTGAAGAGCCGTGGAGCAAAGAATGTACTTCTTGTTGGGACTTTTTGTCTTTAGCTCTAAATACCATGGTGGCTGAGGGACTAGTGGAGGAGGAAAAAGTGGACTCCTTCAATATTCCAAATTATATGGCATCTCTAGATGAAATAGAAGTTGAAGTCTTGAAGGAAGGAAGCTTCAGTATTAATTGTTTTGAAGTTTCAAGAATTGATTGGAACTTTTTCGATGATGCAGAAACAAAGCATGACTTTGCGAAATGTGTTCGATCT MAFLDEVEVEVLKERSFSINYFEVSSIDWNCFFDDAETKHDFIKCRKVMSLAWPIAKEAITKFCHQSNFPTTTFTMADLGCSSGPNALLIASNLVQQVEEIRKRLKKKPLEYQILLNDLHGNDFNAIFRSLPSFLQDLNTQIGGHDFDSCPCFFNGVPGSFYSRLFPTNSVHFFHSSCTLHWLSQVPEGIENKNKGKIFMSSTSPKSVIDAYYNQFQKDFSIFLKCRAEELVIGGLMILTIVGRTSEEPWSKECTSCWDFLSLALNTMVAEGLVEEEKVDSFNIPNYMASLDEIEVEVLKEGSFSINCFEVSRIDWNFFDDAETKHDFAKCVRS
BLAST of ClCG06G008400 vs. Swiss-Prot
Match: SAMT_CLABR (Salicylate carboxymethyltransferase OS=Clarkia breweri GN=SAMT PE=1 SV=1) HSP 1 Score: 290.4 bits (742), Expect = 2.5e-77 Identity = 152/285 (53.33%), Postives = 200/285 (70.18%), Query Frame = 1
BLAST of ClCG06G008400 vs. Swiss-Prot
Match: JMT_BRARP (Jasmonate O-methyltransferase OS=Brassica rapa subsp. pekinensis GN=JMT PE=1 SV=1) HSP 1 Score: 246.1 bits (627), Expect = 5.3e-64 Identity = 134/300 (44.67%), Postives = 186/300 (62.00%), Query Frame = 1
HSP 2 Score: 29.6 bits (65), Expect = 7.8e+01 Identity = 11/25 (44.00%), Postives = 17/25 (68.00%), Query Frame = 1
BLAST of ClCG06G008400 vs. Swiss-Prot
Match: JMT_ARATH (Jasmonate O-methyltransferase OS=Arabidopsis thaliana GN=JMT PE=1 SV=3) HSP 1 Score: 237.7 bits (605), Expect = 1.9e-61 Identity = 133/293 (45.39%), Postives = 176/293 (60.07%), Query Frame = 1
HSP 2 Score: 29.6 bits (65), Expect = 7.8e+01 Identity = 12/25 (48.00%), Postives = 17/25 (68.00%), Query Frame = 1
BLAST of ClCG06G008400 vs. Swiss-Prot
Match: TCS1_CAMSI (Caffeine synthase 1 OS=Camellia sinensis GN=TCS1 PE=1 SV=1) HSP 1 Score: 221.5 bits (563), Expect = 1.4e-56 Identity = 113/297 (38.05%), Postives = 183/297 (61.62%), Query Frame = 1
BLAST of ClCG06G008400 vs. Swiss-Prot
Match: BSMT1_ARATH (Salicylate/benzoate carboxyl methyltransferase OS=Arabidopsis thaliana GN=BSMT1 PE=1 SV=1) HSP 1 Score: 219.9 bits (559), Expect = 4.1e-56 Identity = 121/293 (41.30%), Postives = 173/293 (59.04%), Query Frame = 1
BLAST of ClCG06G008400 vs. TrEMBL
Match: A0A0A0KT16_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G313340 PE=4 SV=1) HSP 1 Score: 425.6 bits (1093), Expect = 5.5e-116 Identity = 207/245 (84.49%), Postives = 222/245 (90.61%), Query Frame = 1
BLAST of ClCG06G008400 vs. TrEMBL
Match: Q8W414_CUCSA (S-adenosyl-L-methionine:salicylic acid calboxyl methyltransferase-like protein OS=Cucumis sativus GN=ERAF16 PE=2 SV=1) HSP 1 Score: 352.1 bits (902), Expect = 7.7e-94 Identity = 188/307 (61.24%), Postives = 230/307 (74.92%), Query Frame = 1
BLAST of ClCG06G008400 vs. TrEMBL
Match: Q8W414_CUCSA (S-adenosyl-L-methionine:salicylic acid calboxyl methyltransferase-like protein OS=Cucumis sativus GN=ERAF16 PE=2 SV=1) HSP 1 Score: 31.2 bits (69), Expect = 3.0e+03 Identity = 22/65 (33.85%), Postives = 31/65 (47.69%), Query Frame = 1
HSP 2 Score: 335.9 bits (860), Expect = 5.7e-89 Identity = 175/306 (57.19%), Postives = 215/306 (70.26%), Query Frame = 1
BLAST of ClCG06G008400 vs. TrEMBL
Match: A0A0A0KH21_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_6G503870 PE=4 SV=1) HSP 1 Score: 37.7 bits (86), Expect = 3.2e+01 Identity = 18/32 (56.25%), Postives = 24/32 (75.00%), Query Frame = 1
HSP 2 Score: 331.6 bits (849), Expect = 1.1e-87 Identity = 164/282 (58.16%), Postives = 212/282 (75.18%), Query Frame = 1
BLAST of ClCG06G008400 vs. TrEMBL
Match: A0A061DFJ3_THECC (Salicylate O-methyltransferase OS=Theobroma cacao GN=TCM_000326 PE=4 SV=1) HSP 1 Score: 326.2 bits (835), Expect = 4.5e-86 Identity = 163/297 (54.88%), Postives = 220/297 (74.07%), Query Frame = 1
BLAST of ClCG06G008400 vs. TAIR10
Match: AT1G19640.1 (AT1G19640.1 jasmonic acid carboxyl methyltransferase) HSP 1 Score: 237.7 bits (605), Expect = 1.1e-62 Identity = 133/293 (45.39%), Postives = 176/293 (60.07%), Query Frame = 1
HSP 2 Score: 29.6 bits (65), Expect = 4.4e+00 Identity = 12/25 (48.00%), Postives = 17/25 (68.00%), Query Frame = 1
BLAST of ClCG06G008400 vs. TAIR10
Match: AT3G11480.1 (AT3G11480.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 219.9 bits (559), Expect = 2.3e-57 Identity = 121/293 (41.30%), Postives = 173/293 (59.04%), Query Frame = 1
BLAST of ClCG06G008400 vs. TAIR10
Match: AT5G38020.1 (AT5G38020.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 214.5 bits (545), Expect = 9.7e-56 Identity = 115/265 (43.40%), Postives = 161/265 (60.75%), Query Frame = 1
BLAST of ClCG06G008400 vs. TAIR10
Match: AT5G66430.1 (AT5G66430.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 213.8 bits (543), Expect = 1.7e-55 Identity = 114/267 (42.70%), Postives = 160/267 (59.93%), Query Frame = 1
BLAST of ClCG06G008400 vs. TAIR10
Match: AT5G04370.2 (AT5G04370.2 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 213.4 bits (542), Expect = 2.2e-55 Identity = 125/282 (44.33%), Postives = 163/282 (57.80%), Query Frame = 1
BLAST of ClCG06G008400 vs. NCBI nr
Match: gi|700195709|gb|KGN50886.1| (hypothetical protein Csa_5G313340 [Cucumis sativus]) HSP 1 Score: 425.6 bits (1093), Expect = 7.8e-116 Identity = 207/245 (84.49%), Postives = 222/245 (90.61%), Query Frame = 1
BLAST of ClCG06G008400 vs. NCBI nr
Match: gi|659134087|ref|XP_008467022.1| (PREDICTED: salicylate carboxymethyltransferase-like isoform X1 [Cucumis melo]) HSP 1 Score: 392.5 bits (1007), Expect = 7.4e-106 Identity = 189/226 (83.63%), Postives = 207/226 (91.59%), Query Frame = 1
BLAST of ClCG06G008400 vs. NCBI nr
Match: gi|659134089|ref|XP_008467023.1| (PREDICTED: salicylate carboxymethyltransferase-like isoform X2 [Cucumis melo]) HSP 1 Score: 392.5 bits (1007), Expect = 7.4e-106 Identity = 189/226 (83.63%), Postives = 207/226 (91.59%), Query Frame = 1
BLAST of ClCG06G008400 vs. NCBI nr
Match: gi|525507278|ref|NP_001267679.1| (salicylate O-methyltransferase-like [Cucumis sativus]) HSP 1 Score: 352.1 bits (902), Expect = 1.1e-93 Identity = 188/307 (61.24%), Postives = 230/307 (74.92%), Query Frame = 1
BLAST of ClCG06G008400 vs. NCBI nr
Match: gi|525507278|ref|NP_001267679.1| (salicylate O-methyltransferase-like [Cucumis sativus]) HSP 1 Score: 31.2 bits (69), Expect = 4.3e+03 Identity = 22/65 (33.85%), Postives = 31/65 (47.69%), Query Frame = 1
HSP 2 Score: 342.4 bits (877), Expect = 8.7e-91 Identity = 173/306 (56.54%), Postives = 218/306 (71.24%), 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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