ClCG07G012360 (gene) Watermelon (Charleston Gray) v2.5
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAACTTAAGAACCCACAACCGATTTATCAAATCTCTGAAGATCCAACCTACGCCAAGACGGAATAAACATAAACAGACTCCAAACTTTTTTGGGTAAGGTTCAACCACAATCAAACAAAATATGTTGTACAGACCCAACCCCATCCCCACACATATGTCAGATCTTAGAAACATCCAAATGACGACGAACTAGTCGAGAGAAAATAATAAAACACCATCCACATGAAATGCTTAACCTTAGAAGGAATTTTTGTGCTCTAAAGTCGCTTCCACCACCAATCCCACCAACCATTCGAGCTCGTGGATAGCCTTGCACCGCCATTCCTCCTCAATTAACGAGAGCACCTCCAACTCACTGTCTACAAAGTTAGGCATAGTTGACTTGAAACACACCTGTCTTCAGATCCACAGATCATCCAACATCCTAAGGGGCTATTTGAAGAGTTGGAATGTAATAAGATTACTGAGAATCAAAAGAGTATTGGAATGCATCATGAAAATGGTAGAAAATAGAATTGGATTGAAAATGCTCAATTCAAACATTTATTTTGGATTATATCACATTACAAGTTTATTCTATATTAATAGTCCTCCCATCACCCAAATCCCAAGTCTTAGCAACTTACTGCCCCCACAGAAAGCCTTTCCAAAACAAACAACTTTTGTTTGAGGGCCATACCTACACAAAAATAATTAGGAAATAAACCATAAAAAATAATTTATATCTAAATCACAAATTTAAAACCTAGTGAAAAGACTTATCTTTTTATACCATAGTTTAATCGGATTATGGTTGTACTTTCGACCTTGAGGTTCGATCTCTCTATTCCACTAAAAAAAAAACTTTGACTTCAAAAAAGAAAAAGTGAGATGATTTTTTTTTTTTTTTTTTTTGAAAATATAGTAAGGAGACTAAGATATAGATATCGATATATAAATTGTTTGAATGCTTGATTAGAGTTTAAATTTGAAAAAAAAAAAAAGATAAAAATTAGATTATTAAGAATTGAGAGAAATTTTTTTTAGTACATTTAATCAGGAAACCTTAGAGCTTCAACGAATTTTTGTTCCTAGTTTTATTAAAATTTAGAAGTCTAATTATAACTTTTTAACTTTTAAGATTGGAAAAATTGTCCTCGGAAAAGGAAAAGAATATGGGAAGAATAGAGTAGAAAATAGAGAGAAGAATTAAAAAAAATATTAAAATATCATTTTACTTCCATACTAAAATTTGTTCCATTTCAGTTCTGATATCTTCGGCTCTCCAATGTTAGTCTTCATACTTTCAATAAATCTTAAATTTAGTCCCTCAAAATTAATTTTTACAAAAATTAATTAAATAATGATAATAATTTCATGCAAGAAAATAAAATATATAAATTTGTTTTCAAAATTGATGGTAAAAATGCTCTAGATAACATAAAGTTATTTAAAAAATTAACAATAAACTAGTACCTCTAAAGTTAAGATTTGTTGAAATACACAAATTAAAATTGGGCATTTGAAATATATGGACTAAATTGAATAAATTTCAAATCATAAGGACTAAAATGGTATTTAAGAAAAAAGAAAAAAGAGAAAGAGAAAAAAAACCTCTCATTTACCCTAAAATTGAACAAATTTTAAAACATAGAGATAACAAATGATATTTTAACCTAAAAAAGAAATGAGAGACAAAAAAAGAAATGAGAAATTATCACAAATAGCCTCTTCAAATTTTCATATTTCAAAAAACTAACATCCTTTTCAAAACTATTACTTTATATTGTTCAAGAGCCCGAGATTTCACTGATAAAGTCCAAAACAATAGATAAAACGGAAAAAAAAATTATATAATATATATATTTTCCGATGCGAATCTTGACCCAAAAAACTATTTTAACGAGATTTAAAAGAACACGAAAACTTGAGGGGTTATTTCTTACCATTTCTCCTCATTTTCTCCTTCCTCTTCCTCACCCTCACAGCCGCCGAACCCCTCTGAACAGCCTCCGAGGACGTAATATTCCTTGTTCCGGCGAGTTTGGCGTCGTCACCAACACATTCTTATCCTTCATCACCCACGTCGCACGCCCAGACCCTGACTGCTCTGTGACGGCAGTACTACGGGATTCACGGCGGCAATGTAAGCATTTATATCCGATTTCTAATCGACATTTGTGATGGAATAGATTGATGTTACCGATGAGTAACCATATATGTCTTGGCTAATCCAATTATGCATCTTCCCACTCTGATATCTTAAAGTGTTAATAGATTGGAAGTGCTATCTGAATTGAAAGTATTTTGATCGACCAAACGTTTTTATCTTACTGAAACTGGAAGTTTTCAAAGTTTTCGTTTATTAAAAGTCTTGAAAAGCCTTGTTTATTGAAAGTCTTCGAAAGATTTGTTCTTCTAAAATGTTGAAGGACTAATAGTTTTAATTTGAGAGTTTTAGTTTGAAAGGCTTGCTAAAATGAAAGTTTTGTTCAATCAAAACGTTTGGTTCTGAAAGCTTGTTTGATTGAAGGATTTTGGTCTTGAAAGCACCGTTTGCAACAAAGTTTCAAATAGAAGTTTTGATTTTATGAAAGTTTGATAGTTGCTTTAGAAAGTTTTGCAAGGAGTTGTAAAAGAAAATGAATTTTAGAACTCGATACGAGAATTGCTTATTAAGTATTGTTGTACTTATTTTTGCTTTGTTTTTCCAAAATGTTTTCAAATGAAAGATTAGGAGGTAATCCAAAGTATGTAATTTCCTAGTTGGTTGGAATCACTTATGTCTCATTTAGTTATGACATTTCATTTTCCACACCACTGTTATTTTATTTTTGGGATGTAAAACCTATTCACATTTTTTTACAATGTTGAATTTAGCAGCCTTCCTTCATGTGAGCCGGAACTTTAGCTTGCCTTTGAGGACCAGGGCCGATTCTATATGTGGTAGTTACAAGTTCTATTTGTCGCAGTTATGGGATATTGAGCATACAATTTTAAGCAGTTTTAAGGTCGGGATATGATCCATGCTTGCTTCCACATTCCATAAGCCGTTGTAAGATTAATTTCTTGTTTTACCTATAATTTATGATGTTTAATTTTTAGATAATAATTATTATATATTGGGAAAGAATTAAAGATTCATCTTTTACCCTTAAAAGTGTTGAGTTGTATCAATTTTCACCACAAACTTTCAATTTCTATTCATCATATTGGACTCTAGATTTTGATAAGTGTTGTAACTTCTATCATTTGTTCATTTTCCGCTAATTCAATCACTAATTTCAGCAAAAAGACAATGTAGAATCTCCAAAATACCCACTAATTTCAGTAAAATTGAACTTTGCACAAATTTTGGTTTAGTTAATGCACAAATTAGCCATTGAATAGATTTATCAAAGCTCGAAAATTTTATCAGAAAATATTGCTCTCTTTGCTTCTTTCTATGAAATCCTATTAATTTTAGACGATATATGTGTTTTGCTATTCATGGGATGCATATGAGAATACTTTTATTATTGTTATTATTATTTTGAACTTCCAACTTCAAGGTAAGGAGGATATAACAATTATCCTGAGCTGTGCTCACTTTGGCTTATGAGAATATTTTTTTAACGATATTTGGTACGTACACTTATCATAGGGGAAAAATTATAACACTTTTTTTAGTTTAAGACTACAACACTCACCGAAGTTAGAGGTGCAATTTGATGATTTAGGGTGAAAATTGATACAACATAACAAGTGTAGGGGGTAAAAATAGAAATATTCCCTTCTATATTTGTTTTTGGTGGGCTAAGGCGTATTGGTTAGAAATACATTTGAATTTTTTTTGAAGGTGTATTTTTTTCTTAAAAAAATCAAATATGCATAAGATAGTTTATGCTTCAATCACGTTCACTTACAATTTTCTTTTGAAAATGATTGATATAGAAGACCTCTTGAATAGTTTATATATTTCTGATGTTTGTTTTTCCTATTTAGGAGTTTTGGAGTAGTAACAACTAGAATATCCTCGAGTTTTCTACCAAAAGTTCCGTATAAGAATTTTATCCAGAAGATCCGAATGGGAACTAATCAGAACTCCATCTTAAGAGGTTCCAGCAGCAACTCTAGAGGAGCCTTGGTGGTTCTAGAAGGGTTGGACCGATGTGGGAAGACTACGCAGTCCAGTAGATTAGTCCAGTATTTAGAAGGACTTGGCCATTCTGCTGAACTATGGCGGTTTCCTGACAGAACCACTAGTGTTGGACAGATGATATCTTCCTATCTTTCTAACGAATCACAGCTGGATGACCACACAATACATCTTCTTTTCAGTGCTAACCGATGGGAGAAGAGGTTTCTAATTTTCCTTTATACAACCTGCACATCAGACTCTTAGGTTGACACATTTTCAGCTCCTAACAAGTGATGGAGCTTTCTATATTGTTATGAAGTGGCAAGCTTTGAAATGAAAATAATGATACCTGGTTTTAGAAGTTCCAAGCAATAGTAGTTGAAAACTTGCGAAAACTATTTTGTTGCATGTAATATACTGAGGATATAGTATATTTTTACCCTAAGAGTATGTGATTTTTGTTTAATTACTGTAATGCCCATGCAGATCCTTAATGGAAACTAAGTTGAAAGGTGGAACCACTCTTATTCTTGATCGGTATTCTTACTCAGGGGTGGCCTTTTCATGTGCCAAAGGACTTGGGTTTGAATGGTGTAAGGTAAAAATACAAATAAATAATTTGGATGAATCCTTTGTTTATTTATATTGATGTTCTGTTTTTATTTGTATTTTTTAATGTGGGATGCTATTCTGAAGTGCTATACTTCATTCCATCCATTTTGTAATTTGTATAACTAATTTCTTCTTTGTGGTGTCTAAGTCACGTCTTTTTTGTAATTATGGCTTAGCTTTAAACTCCATGTTTGAAGGCTTTGCTTCACTATATTTTGTGAGGGGGCCTTTTCATTCCCCTAGCCCTAAGTGATTTTGTTTGTAGTAATATATTCCAGAAGTCTTAAGAGACCCCTCAGATGCTCCCTTCTCTCTCCTCCCAGCTTGTCTCCTCTAGCCTTCAAAAACCATTATTCTTGGTCTCCTCTTGCTGATGTTCTTGGCCTCCAGTGACTAGTCAACGATTTAATCTCCTGGAAAGTGTTTGGTTTTTTCTTTGGTAATTTGCTCACATTGTGCTTTCAAGAGATATGGAAGTCAAAACTCTTTCTTTAACGTAGTCTAAGTTTTGGTATCTAAAGATTAAGAGGTTCTCCCCAGTGATAGCCAAGTTTTCAAGACAAAATTACCCTTTAAGCTGGGTAATTTTTTCTTCTTTAATTGAGGCCTGTGGTTTAAAATTTTGAGAAATTAATCCTCCAATCTCAAAAGAGTTTTGTCAGAAAACGTAAAGTGAAGTTGGGATTTTCTGTTTTGGCGATCCAATGAATTTTTTCTTTTTTTTTTTTTTGTTGGAATAATAGAGGTTTGGGAGATAGCTCTAAAAGAGTTAGTTGAAGAAGTTTTTACTGCCTATTTGTTCTGAGTTGGTTTGTATTAAAGTAACCAAAAATTCCTCTTTCGATAGAAGATTTATTAAATCATTATGGAGTTCAAGAGATGTAAATTGGGTTGATATTGGATCTTATGGTCGCTCGGGTGGTTTGTTAATTTTGTGGGATGGAAGCAAAGTGGAGGTTGTTGACGTATTAAAAGGAGGATATTCTCTCTTGGTGAAGGTATCTTTTCTACAAAATAAAGTTTGTTGGATTTCAAACATTTATGAACCAAATGATTATGAATGAAAGTGTCTTTGGAGTGAATTGTGTTTTTTTCACTCTTGTTGCAAGGAACCATAGTGTTCAGGTGGAGATTTCAAAATAATCAGATGGGTTCATTAGTGATTCCCTATGTGTAGACAAACAAGGGTATGGGGCAGTTTAATAAAATTATTGAAGAACTGGGTTTAGTGGAAATCTCTGTCCAGTGGAAAATTCACATGATTAGGAGAAGGTAATAGTGAACAGTCTTTGTTAGACATATTTTTTTGTTTCCATTGAATGGGAGATTGTGTTTGAAAATTCTAGGGTGTCAAAGCAGGTACGTATCTTTTCTGACAATTTTCCTCTTCTTTTCGAAGCGGGTAGTTTTGTATGGGGGGTTTTACCTTTCCAGTTTTACAGTTCATGGCTTATGGAGCATGATTGTGTGAAGCTCATCGAAAAGTCATTATTTGGCTGGGCAGGTTTTGTTATTTCCTCTAAACTCAGAAATCTGAAGACATCTACTAAGGGTTAGTTTACTGAATATGAGGTTAAAATAAAAAAGATAAGGAGAAGAACTTATATTTACTGAAATTGCATATTTTGCTGCCAAATTAGAATTGGGACTGCTGACTAGTCAAGAATGGTATCTTAGGTATTCATTAAAAGGTGAGTTATTGAATCTTTTCTTGATTGAAGAATGAAATTTGATTAAGAAACGTAGACTCCAGTGTCTGCATGAAGGGAATGTGAATACAGCTTCTTTCATCGGTTTTTGGCAGCCAAAAAAAGAGAGCTTATTTCAGAATTATGACTTTTCTTTTCTTCCTTATATTCGAAGGTTCCAGTCAGCAATTTATTCCTCTAAATCTTTGGTGGAAGGTGGTTTCAAGACCAGCAAATGAGGCTCTAATTGTTCCTTTCTCTCTTGAGGAAATTTGGCGTGCTATTAAAAGCTTGGGCAAGAAAAGGCTCTTGGGCCTGAGGCGATTATGGACATTCCTGGGCGTTCTCAATTTGAATGGCACACAGCTGGAAGGTATGGTTCAAGCCTAGAAGTCCATGGACCAGCATTTCTAAGAATTGGAAGTGAGATGATTTATTTGCCTCCTTTAAACTGAGAAATGGAAATCATATTCTTTTCTGGCAGGACAGATGGATTGGGGATTCTCTTTTGAAACACCATTTGCCGCACTTACTTGCTATCTCCACATCTCCAAACGGCTCAGTTTTGGACCTATCGGACAATCAACTTTTCTCATGGTTTTTAGTTTTTCGAAGGCATTTGAAAGATGATGAAATCATTGCCTTGCAATCTTTATTGGGTATTCTTATAATAAAAAAGTTGGCTCTATTGAAGACTCAAGGCAGTGGTCTTTGTTATGCAGATGGAGGTTATCTTTCTCATATTTTCTTAGCTGCTCTTATTTGTCAATGTGTTGGTTCAAGCTCCTTTCTTATTTCAACATCCAGTGGTTATTCTCTTGCGTGTCTTAAGTGAAAATGTTCTTTAGCTGATTGTTGGCTAAAAAATCAAGTTTATTATGGATTAATGTGGCGTCTTTGGGAAGAAAGACATAACAGGATTTTCAAAGATAAGTTTGCTCCTTGGGAGGGGTCCTTTCAACTCCTTGCCCTTAGGTTGTCCTTGTTGGCTTTTGATTGAATATACCCAATGTTTCTTATAAAAAAAATTAGGGATTAATGTGGTCAAAGCCAATTGTGGATGGGAAGGAATCAAATAATCTTCAAAGATAAATATCTTCTTGTGGTTTGATTGTTTTAAATATGCAAGATTAAAAGCCTCTACGTGGTGTTCCCTTTCCAAATTCTTTAGTCATTACTCTACCTAATTCAGAATTCGGATTCAGCACTTGATGACCCCATCATTCCCCTACATCCCCTGCGACCTGGCAACATCATTCTTGCTGGTCTTAAAGAGCTTCTAAGAGTGAAAATTATTCCCACAAACTAACACGGGTCCTTTTAACATGTTTTGTCCTTACCCACATACTGCCTAGGAAATTTCCTAGGAGGTCACTCAACATAGAATTACTCCAAGCTAAACATTCTTAACTTTGGAGTTCCTATGATTGAGCCACCGAAAATGAAAGTGCACCTTGATGGTATAAGTAGTAACTCTTAAGCCTTTTTAAAATTATACTTTCATATTTTCAAAATCTCTCTCACTCAGATGTGATTTCGATTCATTCGTGTACCCCTTCTAACTGTGGTGTTACAAAAAGCCTCTACATGGTGTTCTTTTTCCAAATTCTTTACTCATTACTCTTCCTATGATATATGCCTTAAGTGAGATGCTTTTCTTTCTCCTTCATGCTTTTTATTTGTTTTCTTTTTTCACTTCCAGGTGGAGTTTGCATCTTTTGAGCATTGTCTCTCATACTCGATGAAAAATTTTGTTTTCTGGTTGATAAAAGCAATATATTCCTATTGGTCTGTGTCCCAAATAAAGAAAAGAATAGTAAAAAGAAATGCTGATGTTATGTTTGTCCTTTTCAGGCACCGGAGGTTGGCTTGCTAACTCCAGACCTAGTATTGTACCTAGACATATCTCCTGAGGTCGGTCAAATCACCATATCATTTCATTCTGGAACAATTTTAAATGCATTTATTAGGATGGTCTACCATGATTTATCTTTTCCAACTTGTAAATTACCGAAGCTACATATTGACATTTTTGGTTTGGCTCTTCAATTCATAGATGATACGGCATCTTTCAACCACGTCTTCACATATCATAGGAGCAATTGTAAATTTTGTATTGGATTTTTGTATGGAACTCAAAATATATGGTTTGTAGCATACAGAAAGCCATTGTTCAGGTAGAGCAGATGTTATTAGAGACTTATTTTGAAGTTCAATATAAGAAGAATAAATTAATCCAAGAGAATAATGGGGTTTTTTTTTTAATTAAAAAAAAAAATACAATCTATGATATCAAAAGATTATACTATCTGCGTGACTTTATCCAGGAGTACTGTAATCTTTTATGTTAATGATGGAACTTGACTTTGATTTACAACCATCACCAACCAGACAAATTCTCAAGTTAAAAAACGTTCTCTCTGTATTATGATTGCTTAGTGAATAAAGAGTTATTTTTGAATGATCAGAGAGCTGCAGAAAGAGGAGGTTATGGAGGTGAGAGATACGAGCAGATTGAGTTCCAGAACAAAGTTGCCAAGTGCTATCAACTTTTGGTTGATTCTAAATGGCAGGTAACTTGTTTTTCATTTGTATCTTGGAAACATCGATACTCCAAGACTCTGAGATTGGTATGTCTATGTGGTATGTGTCTAGGATGCCTAGACATGGACACTCCTTGCCCTTGGGCGTGTGCCCAACACCTAAATAATTAATTAGTTATTTAATTACTTTTTTTCAAACTTGGTTGACATGGCTTGAACGCTTTTGGGGGAAGTTGGTTAAATTAGAAGAGAAGCCTCAGCTGATCCACTTACAAAAGCTTCTAGCAGCCAATTTGAGAGGGCTGAATTCTTTCCCAGAACATTTTCACCCTTTTTCGGAAAAACTGATCTCCCCCTACTGTCCCCTCTTGCCACCTAATTAGGGTTTCCCCCGCTTACTAACTACTACCCTTTAGTTTTCCATTTTATACCTCTTCAAATACCTATTCATAATAGGAGGCTTCTTCTTTCTCTTCCTCTTATACATATGTATGATAGGAAACTTAACTTAAGCACCACGTGTATGTTGGTCGCTTCTTGTGTTCTAGTTTGTGCTTCTTATAGTTCAAACTGAAAAATGAAGGATAAATTTTGAATAAAGCTGCGTTATAACATCTGATAATCATCGATAAATTACAATGGCTGCCTAGGCTCCCCTCCTCACTTCCTTCCCCTCATCTCAAATGTTTTCCTTTCTACCTCGACACTGTTTCTTGAAGCCGTCGAGTATGAAGAGACTATTCGTGTTCAAGTGTAGGGCAGAATCCAAGCTCTTTACAATTGACTATGATGGTAGATTTAAGTATAGGAAGATCCTTTGATGTAGCCTAAGTAGCCTGAAGGAGTAATCCTCTAGGAATCAAGCAAGGTTGTGAATCTTTTATTAGAATGATAATGGTCCCTTTGCTTGGTTAATGACTTCTTCATGCTATTCTTGCTCTTTGTGCGGATTGTGTGTCTTCAAGAGTTGCAGGCGTTTTAGTTGATCATTTGAAGATTGTTGTGAAATAATCCTTTCAGTTTTGATTGCAAGATTTTTTTTTGAGAGGCCTGTAGGTTTCATCTGCCTTGTTAGAGATCAATTGTTGGTTGAAATGGTGTCTTTTGTTCTTGGAGCATTCTGTTTAGTTGATATCAAAGGAGTTCTATTTCTTTTCAAGTGCTATTATAGGTTGTATATGGTTGTATTGGTTGTATTTGCTATTTTCATGTCTTTGTTTCTTTGTAATTTGAGTATTAGTCTCTTTTCATTTTATCAATAAAAAACCTTCTAACCTTTTAGAAAAAGATAATGTGTTTCAAACAAGAGGGGAAAAGCTCATATTTATAGATTTTATTTTGGGGGTAAATGAGGAATTGATCTAGAATATTATCCAATTAACGTTATTCATCCTGCAATATCCTTTCTATTAAAAGATGCCACTTTAACTGGTTTGAACCATTGTACAAAAGATGCAGTAGAATATCTTTTGTCAATACACCTCTCAGTCAAAACTTCTTTAAAAAGGTAAAGAGTGCTAATTGCCACACTTGGCATCAGAAAATCTCCAAGATCAATAGTAGAGGTCACTTTGTGGAAGTCTCAAAATGCCTCGACGATGGAGTCCAAGTGTTAAAACTTCTCAACATTGGTTTGTCAATGGGGATGAATATTCAACATTTTCAAACATAGATGGGCTTCAAATAGAAACAGAAAGGGTATGATACAGTGAAGGCACCTCCCTGAATTCTAAGGGAGAGATTGAATCAACAGAGAAAGAGAAAAACTAATACAATTTTTTTCTAGAGCAGATGGTAGTCCCAGATCCAAGGCCTAGATCGGCATTATATAAATAATAATTGGAGTTAATGGCTTGAAAGACTTTTCGTGGATGTGTTAATAGTGGGGGTGGTTAAGGTAAGATGATAGGGACCAAGATGGTTTCTTAGCCATTTTATTTTTTAAAATAAGTTTGGAATGTATCAGTATCAATTTGATTGTGGTGTTTCAAGAGTTGTTTGGCTCATAAATGGAAGCATGATATTAAAATTATCCCAAGAAGAGGGTTGGCTGAAATGTGAAAGACTTCAAACCTATAAAGTTAGTTCCATCACTTTGTACATGACGATTTCAACTGTAAGGTCCTGTGGAGCTAATGGGTGAGAATTTTTTAGATATATATAACCAAGATAGAAAGTTCCTTCGATGACTGTTTGTCTAGTCTCCCCTATCTATGTTCAAAAGTATCTGCAAGCAAATCAAAACAATAATATTCACCGAATTTATTCATGAGGAATCATTGCTTTGGGCTTTTATGTTCGTCTTATTTTAAGCTGTTTTTTGGGTGGAAAAAAAAAAAGGAATTGACTGACTGTATTTTGAACTTTCGTTTGATTTAATTGCAGATAATTGATGCTTGCCGACCCATGGAAGATATTGAGAAAGAACTACAAGAGATTGTCCTGGACTGTGTCAAGAGATGCCAAAATGGGGAACCTCTTTCCCATCTTTGGTCAAGTTGAATGAACTTAAGAACCCACAACCGATTTATCAAATCTCTGAAGATCCAACCTACGCCAAGACGGAATAAACATAAACAGACTCCAAACTTTTTTGGCCGCCGAACCCCTCTGAACAGCCTCCGAGGACGTAATATTCCTTGTTCCGGCGAGTTTGGCGTCGTCACCAACACATTCTTATCCTTCATCACCCACGTCGCACGCCCAGACCCTGACTGCTCTGTGACGGCAGTACTACGGGATTCACGGCGGCAATCCTTCCTTCATGTGAGCCGGAACTTTAGCTTGCCTTTGAGGACCAGGGCCGATTCTATATGTGGTAGTTACAAGTTCTATTTGTCGCAGTTATGGGATATTGAGCATACAATTTTAAGCAGTTTTAAGCCGTTGAGTTTTGGAGTAGTAACAACTAGAATATCCTCGAGTTTTCTACCAAAAGTTCCGTATAAGAATTTTATCCAGAAGATCCGAATGGGAACTAATCAGAACTCCATCTTAAGAGGTTCCAGCAGCAACTCTAGAGGAGCCTTGGTGGTTCTAGAAGGGTTGGACCGATGTGGGAAGACTACGCAGTCCAGTAGATTAGTCCAGTATTTAGAAGGACTTGGCCATTCTGCTGAACTATGGCGGTTTCCTGACAGAACCACTAGTGTTGGACAGATGATATCTTCCTATCTTTCTAACGAATCACAGCTGGATGACCACACAATACATCTTCTTTTCAGTGCTAACCGATGGGAGAAGAGATCCTTAATGGAAACTAAGTTGAAAGGTGGAACCACTCTTATTCTTGATCGGTATTCTTACTCAGGGGTGGCCTTTTCATGTGCCAAAGGACTTGGGTTTGAATGGTGTAAGGCACCGGAGGTTGGCTTGCTAACTCCAGACCTAGTATTGTACCTAGACATATCTCCTGAGAGAGCTGCAGAAAGAGGAGGTTATGGAGGTGAGAGATACGAGCAGATTGAGTTCCAGAACAAAGTTGCCAAGTGCTATCAACTTTTGGTTGATTCTAAATGGCAGATAATTGATGCTTGCCGACCCATGGAAGATATTGAGAAAGAACTACAAGAGATTGTCCTGGACTGTGTCAAGAGATGCCAAAATGGGGAACCTCTTTCCCATCTTTGGTCAAGTTGA ATGAACTTAAGAACCCACAACCGATTTATCAAATCTCTGAAGATCCAACCTACGCCAAGACGGAATAAACATAAACAGACTCCAAACTTTTTTGGCCGCCGAACCCCTCTGAACAGCCTCCGAGGACGTAATATTCCTTGTTCCGGCGAGTTTGGCGTCGTCACCAACACATTCTTATCCTTCATCACCCACGTCGCACGCCCAGACCCTGACTGCTCTGTGACGGCAGTACTACGGGATTCACGGCGGCAATCCTTCCTTCATGTGAGCCGGAACTTTAGCTTGCCTTTGAGGACCAGGGCCGATTCTATATGTGGTAGTTACAAGTTCTATTTGTCGCAGTTATGGGATATTGAGCATACAATTTTAAGCAGTTTTAAGCCGTTGAGTTTTGGAGTAGTAACAACTAGAATATCCTCGAGTTTTCTACCAAAAGTTCCGTATAAGAATTTTATCCAGAAGATCCGAATGGGAACTAATCAGAACTCCATCTTAAGAGGTTCCAGCAGCAACTCTAGAGGAGCCTTGGTGGTTCTAGAAGGGTTGGACCGATGTGGGAAGACTACGCAGTCCAGTAGATTAGTCCAGTATTTAGAAGGACTTGGCCATTCTGCTGAACTATGGCGGTTTCCTGACAGAACCACTAGTGTTGGACAGATGATATCTTCCTATCTTTCTAACGAATCACAGCTGGATGACCACACAATACATCTTCTTTTCAGTGCTAACCGATGGGAGAAGAGATCCTTAATGGAAACTAAGTTGAAAGGTGGAACCACTCTTATTCTTGATCGGTATTCTTACTCAGGGGTGGCCTTTTCATGTGCCAAAGGACTTGGGTTTGAATGGTGTAAGGCACCGGAGGTTGGCTTGCTAACTCCAGACCTAGTATTGTACCTAGACATATCTCCTGAGAGAGCTGCAGAAAGAGGAGGTTATGGAGGTGAGAGATACGAGCAGATTGAGTTCCAGAACAAAGTTGCCAAGTGCTATCAACTTTTGGTTGATTCTAAATGGCAGATAATTGATGCTTGCCGACCCATGGAAGATATTGAGAAAGAACTACAAGAGATTGTCCTGGACTGTGTCAAGAGATGCCAAAATGGGGAACCTCTTTCCCATCTTTGGTCAAGTTGA MNLRTHNRFIKSLKIQPTPRRNKHKQTPNFFGRRTPLNSLRGRNIPCSGEFGVVTNTFLSFITHVARPDPDCSVTAVLRDSRRQSFLHVSRNFSLPLRTRADSICGSYKFYLSQLWDIEHTILSSFKPLSFGVVTTRISSSFLPKVPYKNFIQKIRMGTNQNSILRGSSSNSRGALVVLEGLDRCGKTTQSSRLVQYLEGLGHSAELWRFPDRTTSVGQMISSYLSNESQLDDHTIHLLFSANRWEKRSLMETKLKGGTTLILDRYSYSGVAFSCAKGLGFEWCKAPEVGLLTPDLVLYLDISPERAAERGGYGGERYEQIEFQNKVAKCYQLLVDSKWQIIDACRPMEDIEKELQEIVLDCVKRCQNGEPLSHLWSS Homology
BLAST of ClCG07G012360 vs. NCBI nr
Match: XP_038884739.1 (thymidylate kinase isoform X1 [Benincasa hispida]) HSP 1 Score: 478.8 bits (1231), Expect = 4.4e-131 Identity = 231/253 (91.30%), Postives = 241/253 (95.26%), Query Frame = 0
BLAST of ClCG07G012360 vs. NCBI nr
Match: XP_008454201.1 (PREDICTED: thymidylate kinase isoform X1 [Cucumis melo] >XP_008454202.1 PREDICTED: thymidylate kinase isoform X1 [Cucumis melo]) HSP 1 Score: 454.9 bits (1169), Expect = 6.7e-124 Identity = 219/253 (86.56%), Postives = 233/253 (92.09%), Query Frame = 0
BLAST of ClCG07G012360 vs. NCBI nr
Match: XP_004152190.1 (thymidylate kinase isoform X1 [Cucumis sativus] >XP_011652984.1 thymidylate kinase isoform X1 [Cucumis sativus] >XP_011652985.1 thymidylate kinase isoform X1 [Cucumis sativus] >KGN52918.1 hypothetical protein Csa_014562 [Cucumis sativus]) HSP 1 Score: 445.7 bits (1145), Expect = 4.1e-121 Identity = 217/254 (85.43%), Postives = 233/254 (91.73%), Query Frame = 0
BLAST of ClCG07G012360 vs. NCBI nr
Match: KAG6606822.1 (Thymidylate kinase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 439.5 bits (1129), Expect = 2.9e-119 Identity = 218/283 (77.03%), Postives = 244/283 (86.22%), Query Frame = 0
BLAST of ClCG07G012360 vs. NCBI nr
Match: XP_022998308.1 (thymidylate kinase isoform X1 [Cucurbita maxima]) HSP 1 Score: 431.0 bits (1107), Expect = 1.0e-116 Identity = 208/253 (82.21%), Postives = 231/253 (91.30%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy Swiss-Prot
Match: Q0WW55 (Thymidylate kinase OS=Arabidopsis thaliana OX=3702 GN=ZEU1 PE=2 SV=1) HSP 1 Score: 330.5 bits (846), Expect = 2.5e-89 Identity = 158/211 (74.88%), Postives = 179/211 (84.83%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy Swiss-Prot
Match: P97930 (Thymidylate kinase OS=Mus musculus OX=10090 GN=Dtymk PE=1 SV=2) HSP 1 Score: 211.8 bits (538), Expect = 1.3e-53 Identity = 101/211 (47.87%), Postives = 147/211 (69.67%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy Swiss-Prot
Match: P23919 (Thymidylate kinase OS=Homo sapiens OX=9606 GN=DTYMK PE=1 SV=4) HSP 1 Score: 210.3 bits (534), Expect = 3.8e-53 Identity = 100/208 (48.08%), Postives = 148/208 (71.15%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy Swiss-Prot
Match: Q54GN2 (Thymidylate kinase OS=Dictyostelium discoideum OX=44689 GN=dtymk PE=3 SV=1) HSP 1 Score: 198.0 bits (502), Expect = 1.9e-49 Identity = 94/197 (47.72%), Postives = 132/197 (67.01%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy Swiss-Prot
Match: P36590 (Thymidylate kinase OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=tmp1 PE=2 SV=2) HSP 1 Score: 194.5 bits (493), Expect = 2.2e-48 Identity = 96/197 (48.73%), Postives = 130/197 (65.99%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy TrEMBL
Match: A0A1S3BY65 (dTMP kinase OS=Cucumis melo OX=3656 GN=LOC103494680 PE=3 SV=1) HSP 1 Score: 454.9 bits (1169), Expect = 3.3e-124 Identity = 219/253 (86.56%), Postives = 233/253 (92.09%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy TrEMBL
Match: A0A0A0KTN6 (dTMP kinase OS=Cucumis sativus OX=3659 GN=Csa_4G006250 PE=3 SV=1) HSP 1 Score: 445.7 bits (1145), Expect = 2.0e-121 Identity = 217/254 (85.43%), Postives = 233/254 (91.73%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy TrEMBL
Match: A0A6J1KGD6 (dTMP kinase OS=Cucurbita maxima OX=3661 GN=LOC111492984 PE=3 SV=1) HSP 1 Score: 431.0 bits (1107), Expect = 5.0e-117 Identity = 208/253 (82.21%), Postives = 231/253 (91.30%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy TrEMBL
Match: A0A6J1DIU8 (dTMP kinase OS=Momordica charantia OX=3673 GN=LOC111020933 PE=3 SV=1) HSP 1 Score: 428.7 bits (1101), Expect = 2.5e-116 Identity = 212/250 (84.80%), Postives = 225/250 (90.00%), Query Frame = 0
BLAST of ClCG07G012360 vs. ExPASy TrEMBL
Match: A0A6J1G9Z9 (dTMP kinase OS=Cucurbita moschata OX=3662 GN=LOC111452153 PE=3 SV=1) HSP 1 Score: 428.7 bits (1101), Expect = 2.5e-116 Identity = 207/253 (81.82%), Postives = 230/253 (90.91%), Query Frame = 0
BLAST of ClCG07G012360 vs. TAIR 10
Match: AT5G59440.2 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 330.5 bits (846), Expect = 1.8e-90 Identity = 158/211 (74.88%), Postives = 179/211 (84.83%), Query Frame = 0
BLAST of ClCG07G012360 vs. TAIR 10
Match: AT5G59440.1 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 330.5 bits (846), Expect = 1.8e-90 Identity = 158/211 (74.88%), Postives = 179/211 (84.83%), Query Frame = 0
BLAST of ClCG07G012360 vs. TAIR 10
Match: AT5G59440.3 (P-loop containing nucleoside triphosphate hydrolases superfamily protein ) HSP 1 Score: 330.5 bits (846), Expect = 1.8e-90 Identity = 158/211 (74.88%), Postives = 179/211 (84.83%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (Charleston Gray) v2.5
Date Performed: 2022-01-31 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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