ClCG07G012640 (gene) Watermelon (Charleston Gray) v2.5
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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTTCCATTCTCAGCTCTCAAGGTCTGGTCATTGCCACTGCCATGGTCGTCTCCTCCACAGCTCTCTTTCTTGCCTTCTCAAACCACCACAAAATCAATCCAATAATCCCTTCCATATCCCTTCTTCCTTCTTGCTTGTCTTCTGGTAAATTCACTTTTTTTTTTTTTCTTCCCTTTATTTCATATCGTTTCTTCAATTACTTGGTGGGTTTTTTATGTTATTGTGTTTACATGATAAATTTGGAGATTTGATGGTGAAATCTTGGTGGGTTTTTGATGCTATTGTGTATAGATGAAAAGAAGAAGGAGAAGAAGAAACAGAGGAAGAAGAAGAAGGTGAGATTTGCAGAGGATGTGAAGGAGCCAAAAGGGAATGGAGAAGAGTACAGAAGAGAGCACGATGAGAAAATGGGTATGGCGGAAACAAGAACAAGAACAAGAACAAGAAGAAGCAGTTGTAGAAATGAAATTCCTGCAAATCGAGTTGTTCTGTATAATGGAATTCTTAAAGACCGATCGCAAAGAATCCAATGTTCATTTTGATCATAACTCTTTCTTTCTTTTCCTTATTTGTTTTCTCTGTTTGGGGGAAAATATAAGAAAAATCTAGGTCTTCTGTGGCTGTCAATGGATGATGGAGTTTCCACTCACACCCACTTTTTTTTTTTTTTTTTTTTTTTAATTAAAAACAAAAGGAGGTCATGAATGTTGTATAGAACTTGTTTTCTTTTTCTTTTTTGTTTTATTTTAATTTTAGGGTTTGTTGGTACAATTTGAAGATGGATTTCCAAAGGCATGGAAAATAGAGTTATTCCATGTTTTTCATACATATATTTATTAGCAAACTCAAAAATTAAAATCTAACTTAAAAATGGTTTATGGTATATTTGATAATATATTTATAAGTTGCAAAACTAATTCTACTTACCCATTTGTAATCCATCTTTTAGCATGTTTTATGTTACTTATTTTCTGGTATGATTGTTATTTTGTAATATCGAATAAATTATAATACTATATAATACATATTTATTTTAACAATAATGAATTAACTTTATAACTTGAAATTCTAATCTATAAACATTTATATATATATATAATTGATTCAAAGTTTAAAAAAATTTAGGCTATTTTAGTTACAAGATTTAGAAAAAATCTTTAAAAATAAAATTTAGATTATCAATAAAACATATCATACTTTTCTTTGAAATATTGGATGACTTTTGTCATATAATGATTGAGTTACAAAATCAACATCTTTCCCAAGTAATTTTCAATATGAGTATAGTTCAGCAGTGTCATATCCATACCTATTGGCTTAGCAATAGGAAGATGGGTAGATTTTAGGTAAAAAGTTGGTATGGGTTAGGCCAATACTGAAAACATCATTAAAACAAAAATATTATATATAATTGTTATATGTCTTCAAGATGAATAAGTGGTTAGATTGAATAAACATTATATATCATTTCAAACATAGTTCAATAGATAAGATATCAATTACCATTCTAAAGGTCGATTAAATCTTCCACTTTATGTAGAGATTGAATAAACATTATACAAACTAAATTATTCCTAATCTCTATTAAGAGAAAATATATATTTTCTTTTTCTAGTCCTTGGTTTTGACCTTATTTAAATAGAACTCTATGGTGATGTGGGCCAAAAAGATTGTTACCCATCTCTACTAATGAAGATATAAAATTATGATTGACCAGGTTAAAAATTCCATAACTTTTTTTTAGTCCAAAAGCTATTCCATTCCAAAAAAAAATCTTCAAAGTACTACTTTACATGCATACACATCAATATTTGTCACTTTAGAATATTAAAAAGAGAGAGAAGAAGAGGAAACAATCCCCATTACCCCAAATAATTATGAGTAATATGTTTAGATTAATTCAATTCAATTCGTTGATATAAACAGAATTAAAGTGATGTTTGTTAATTTATTGCTCAACTGCAAATTATTGATGTCAATTAATGAAAAGTCAATTGAAAAGTTGTGAGATGAGACGATGAAACACTATAGGAAAGAAACTATACATTACATTTCTAAAATATATTAACTAAAGTTGTAATTTATATACATTTGAGTTTTCAAGAACTTTTTGTTAATGTGAGTCTAAATTTTTCTCTCTTAAACTCGTTTTATGTCAAAGTAAAATTGTACTGAAAAAGTCGTATAAAGATTATGTGAAAAAATAAAATTTTAAAAGTATTTAGAAAAAATATAACTCTTTAAATTCAACAATTCTAAATTTTTATGAATTAATGAACAATATCTTTTACGTGCATATATATTGAAAAATAACATCGATTCAATATTCCTATGGACCATGAATTATGGTCACACATTCACTTATGACTTATATTAAATGAATATGTATTTATTTTTTCTAGCTTATCGTTTAAAAGAAGAACACTACGTACTTTAGTTATGGACTAACAATCATGTTTCACACGTAAATTTTAAACAACTTTTTTGCTTCCATGTGCAAACAACTCAAACAAACTTGACTATAAGTTTGGATAGCAAATAACAAGTTATAACTTTAAAATTTTCCATAACCAAAAAAAAAAATAAAAATAAAAATAAACTTTATGATTTTTCCACAAATTTCCTTACTTGTACTATTTTTCTAGGGTATAGGAGCATGACTCATTAAAGTTGAGTTTTAGAGGCTGTACTAAGGAAGTCAACATCAATAGAGAAGAAGAATGTGAGGTTTTGGCAACCAAATTGAAGAGGTATAAGTATAATTTGCATGTCATATGTAACAACAACAAAAAATATTTTAAATTTAATCAAAAATTTAAATATGATATAGAGATTTCGATTTATGAATATATTGATAAAACTAAATGTAGATATCGTCAAATATTTTTTTAAATTTAAAAAAAAAAAAATTAAAATCAATAGTTAAGTATTTCTTACTTTAAAACTAAGTTATAAATCTTGTTATTAAGATGAATCTTCCTATTGAGATTAATAAACTAAGTTATGTATATTTATCGAAAATATTAATTAATCTTTAATATTGATATAAAACCTTCCGATTTACTAATATCAATGTATATATTTTAATCTTTAAGTTTAATGAAGTGGAAGTTGCAATAGGTAACAATTTAAGAATACGATTTTGCAATTATGTTTCCTAAGTTTGAGATTCTCCAAGTATGACAAAATTTTTAGTTTTGATATTTCATTTTTTATTATTCTAAAATTGCCCCGTAACCAACTTTCATTTACCTTTTTTTTTGTTATGAGGGATGAGTTTAAACTCCCACCCACAATTAATACCAATTCATGAAGATTTGAATGTTAAAAAAAACAACTCCCCTCTCTTCATAAATTCTTCACATATGTTAAAATCAAATCCCCCCCGAAAGAAAATGAAATTTTTTTAGATAATTAAAAATTGTGATCTCTCTCCCAACTCTTCTAAACTCTTCTTTTAGTTTTTGTTCCGATTTCAGCCACCACCTTCGCCCACGGTCACCATCGTTTCAGTCATCGTCTTGTTTTGCCACTATTTCTCGTTGAAGCCAATAAATTTGTTGGCTGAAAAAAAGAGAGAGAACACATAGAGAAGGCATTTGCAAGTATATCAAGTGTATATGTACTATATCAAGTGTATATCATGAGTATTAAAGTTATTAAGGATATCAAGTGTATATCAAGAGCAAGAATGTAAAACATGGTCTAGACTTATTTTTTTGTTATTTTTGCAAAACTAAAAGGTTTGGACTACAAATCTAATATTAATAACTTGTTATGCCCATCCATATTTCACTATTACAACAAGAATATCTTTTGGTAAGTTTTAAATAACTCTATGTTTGGGTTCAAGAAAATTTAAAAATGATTTTAAATTATCTTATTTGAAATCTAAGAAATGATTTTCAATTAGTTACTTTATGTTGGAACGAAAAAGATTATGAAATGAGTATATTTAAAATTTTGTTTTTGGGTGGAAATAGAAAAAGGAAATACAAGTTAAAAATTTACTAATATATACTTTTAACTATAATACGCTGATTGAAAATTAAAATATGACAAAGTTAAATAAGTAATTCATTTGAAGATTTATTATATAGACTTTTTAACCTTCATGAGATAAAGTTAAGAATTACTGTCAATAATTTATTTATTTAGTTTAAGTAAAAAAGGATTTCAACTCACTTTCCATTTCAAAATTATTCTCTTCCTTAAATCAAGGAACAACTAGTAAGTTGAAATTAAGTATTTAGTAACCAAAAACTAAAGTATAATTTGACCAAATACCACCCAAAGAGATTATACCTTATTAAACCCTGATTTTATTTAGAGATTATACCTTATAAAGCCTGATTTTAATTAACTAAAGAAAAAAATGATTTTCAATAAACTCATTTTTATTTAAATTCTTTTGATAAAAGTAGTTTAAAATACACTTCAAAATAAATTTTGAGTAGTCTGAACCTATTTTTTAAATTAAATATTCAAACACACCTTAAATAAGACTTTTTTTTTTTTTTTTTTTTTTTTTATAANTAATTCATTTGAAGATTTATTATATAGACTTTTTAACCTTCATGAGATAAAGTTAAGAATTACTGTCAATAATTTATTTATTTAGTTTAAGTAAAAAAGGATTTCAACTCACTTTCCATTTCAAAATTATTCTCTTCCTTAAATCAAGGAACAACTAGTAAGTTGAAATTAAGTATTTAGTAACCAAAAACTAAAGTATAATTTGACCAAATACCACCCAAAGAGATTATACCTTATTAAACCCTGATTTTATTTAGAGATTATACCTTATAAAGCCTGATTTTAATTAACTAAAGAAAAAAATGATTTTCAATAAACTCATTTTTATTTAAATTCTTTTGATAAAAGTAGTTTAAAATACACTTCAAAATAAATTTTGAGTAGTCTGAACCTATTTTTTAAATTAAATATTCAAACACACCTTAAATAAGACTTTTTTTTTTTTTTTTTTTTTTTTGATAACACAAAGATTAGGTGTTAGGTCTAAATTTATAAATTCAAAATAATACATAAGATTGCTCATTTTGGAATTTGTTTAAACTATAAAGTAGATAAACACAAGCTACCTAAAATCCAAAATTTATAATTCATTTTTTTTATTTTATTATTATTTTTTTAAAGTTAAATATAGACAAACCTAAGAATCCATCACTTCAAAATATTCAAACAAAATCAAACTTCCCAACTTGGAAATATACAAATCCACAAATTATCTCAAACATTCCCTTAATCCATTTTATTTTTATCAATTATCATACAATTAGGTTTCATTATTATTTTAGAAGATAATTACAATCCATTTCCTATAAATAATAATATTCTATATTTCCACCATTTTCCTCCCCTTCCTCTGTTGCCATTGCCCATTAATAATATCCAGAGAAGAAGCCAAGGTAGAAGAAGAAAGGAAGAGGAAAAGCTGAGCTTGTGAATCCTCGAACAGGGCATTTTCGATTTCAGGGGGCACGAGAGAGGCGACCCGTGATATTGTTCATTCAAGGTCGACCACTTTTTTTACCCCCTTTTCCTCGAAAGTTCCAATTTCTTTTTCCCTCAATTTTTAATGTTGATCTATCGATTTCTCAAAATTGCTTTTGATTCTGCTTTTATCTTTACACCCGTGAATCTTTTTGGTTTCTAGAAGCGGTTCTCTGATCTTTTTTTCCTGGAATCGGATTTGGTGCTCTGTGGATCCGTTTTGGCCTTCTGGGTTTGCTTTATATACGTTGCCCTGTACATGGGGTAAGTTCCGTTTTGCTATTTTAGATTCTGAATGTATTTGATTGATGTGATTGTCATTGTGTGTGGCTTTATTCTGTGTGCGAAATGGGTTATTGGGCCTGTGTTTGTTTCCTAGAAAATTTGCTCAAAATTAAGGGAGCGGGTTTAAATTGGTTACCTCGAACCGTTTTTGCTGCTTTTATATTCATTTGATTTGTTTTTAATGCTGTTAATAGCAGCATGGAAATCAAAGATCCTTTGGTTTAATGGAGTCTCTCCATTATTGTATATTGTAATGCACATATGGGAAGATATGAATAACTACTTAATGAGCATGAAAGATTTCTTTCATGCTGGAATCAATGCCTTCTCTCCTTTTCTTTTCCTCCTAATTTTTTTTCTCTTTCAGTTCTTTACTATAGTTTGTAATGGAGCATTGGTTGCCTTGAAAACCATATCAAGCCTAAGCTTACGTCAGTTTACCGATCCGAGGCTTTTTGTAACATATTTTGGAAATCTTAAGCACACACGATATGGACAACATTGCTAACCAGTCACAGGGAGGCGATTCATCAATTAAAACCAATCAATTTCAGGGGGACTCTAGTGAATCTGATGTCCCTACTGCATTTGTAAATCATGGTAAGTTTTCATTTGATTAACTTGTGTTGCTATAGGATTAAAGCCCAGAGCAAAAGTTCCAACTTCAATTTCTATTCTTAAATGTCAAGTCTCAATCCATGTCTGAGTTGATGCAGTACAAGTACTAATATATAATGTCTCTAATTTGTTTGGATCCCAATTACAAGAAAATGACAAAGTAACTATATTGCAATATGGTAATATAAAGGAAATTATAATATCAATAGCTTTTCGAGATGGTTATCTCTTTCCCCAATGCATCCACTATAGACTGATTTCACAGACTATTCTGACCTCCACCCTCTCTTTCTCTACTTGTAACCAACCCCACCGAAACAAACCATCAAAAGTTACAGTTATGTCACTACAAATATTCTCATATGATCCTATTTTTTTAATAAGCCTTTCATTGAGAATAAATGAAAGCAATGAAAGAATACACTGGAATGAAAAAAACCAAGCTCTCAAAAGGAATTCTCATTAAAGAAATGAACCCCAATTTTGCAAAATAGTACCTATGGAATACCTACAAAAGACCTTCAAACTTGAAGCCATGTGAAATCTTACAAAGAACAAAATGTTACTTGGATCCCTCCCCAAACCTATAAACACCCTATTATTCCTCTCTAGCATCATTATTCTCTCTCTTTTGCATACAAAAGTTTACAGTTAAAGAGAGTTTCTATGTTCAACAATATTGTCATGTTATTAGCCATTAGGTGGTGGTTTGACAGTTTTAGTTGTAGGTCTTCTTCTCTGGAATCAAACTAGACAGCATTGGGTGCAGAACAGAAAGTCCGACAACAAAGAACAATTGATTCGAGAACCCAAATTAAAGTAAGTTGGTCGCTATTCTTTTCCATAAACTGAAGTTATTTTATATTCATAAATCCAGCAGGAAAGTTTTGATTTCTACTTATAGAGCTGTATTTAGGTTCTTAACAAACCATTTATTCCAGTCCATGCTGAAAATAATATACTAGTTACAGTATCTAGTTACTCTACTTGAAAACTTCTAAATTATGTCCCCTTTTTTTGGAAACATTTATGTGACTTCTGGAAGATCTCGTATTCCGTACATTTTATATATTTCTTTCCAAAAACAATATTGCAAGTCTCTATGATGGGTTTTTTCTAATATGGTTTACATTAGATCTTGTTTACGGCTATGAGAAGGTTAAATCTTCAATATGGCAATTTCACATCCCTATTATGTGGTTTGGTCAAGTGGGTCTATGAGAAGGTTAAATCTTCTTTGGAAAATTTCTGTGGAGTTTTTCTCAGTGAAAGCATCATGGATAGTAGTCCATCATGCAATCTTAAATGTTTGCCTGAAGTCGTTTAGAGCAAGACCATCGTACAACCGTTAGATTTGTATGGAGAACTGTTTGCAAGTTTGTTTGTTTGTTTGGTTTGTTTTGTTTTTTTATTTTGTGTTTGTTTGTTTGTTTTCAGAAGTATTTTTAACAACTATGATTGTGTGACAGGTAAAAAGGTAACTATATGTCACATTCAAATCACTATTTTCAGAAGTACAACTTCATTTGTTTTGGCTGATGTGAGCATAACTCAACTCGTATAAAATATGTACCCTCGACTAAAAGATCCAAGATTTAATTACCCCATGTTGAACTAACAAAAACATAATGAAATAAATAAATAACTTCATTTGTTTTAAAAAAAAGGACATTGTTTTAAAACCAGTTCCAAACTAGTCTACTTTCAACCATTAACATATATTGTAGTGAAATGATTCACTTCAAGCAAGTCTTGATATATCAAATTCTACATTATGCTATGCCACACTGAAAGCTTGCTGAAGATGATAAGAAACCAGAAAGCAAAATCCTTTTAACACTCTGGTTTCTCTGAATTGGGAGTTGATTATTCTTGAACTTCGTTTGTTGCATCTTTTTTTTCAGCACTCATTGTCTCTGCATGCCTAAATCGTTCTGGCTTTGCAGTTGGAATGCAACATACGACAGTTTGTTGGGAAGTAACAAGCCGTTCCCTCAACCTATACCACTTGGCGTAAGTGTCTGCCATATCAATCCAATACGCTTCATTGCCGATCAATTTTTCTCATTAATCTTGCCTTTTTTTCCTCTAACGGGTCGGTCTAATCTTGAAATCGACAGGAAATGGTTGATTTTCTTGTGGATATATGGGAGCAAGAAGGGTTGTATGATTGAGCATCATTTATGGAATGAAAGCTATTTTGAAGGTTAAGTTAGACTTTGGAAACCCTCTGGACTGCTGAATTACAGCTATTTACATCAACAGGTTCAATTGCTAAATTGGCGGCCACTTGAGCCAATACCCAAAATGTAGTCTCATGCAGATACAAAAAAGGAAAAACAGGACATTAATCCATTTTAGCATTCAGTTTGTTGTACTAGGTGTTCTGTGTTCTTCCTTGGGTAGATTTTGTCGAGTTCTTGTCTGAAACTTGAGTTGCTTCCTTCTGTTATAATGATGGATTGTGTGTGGAGAGAGACACGGTGAGTTGATTGTTTTCATTTTTTCTTATCCATAATCTGTTTTATAATATATAAAGTTTTGTCCTCTTCTGCCTGATCCTATTTATGAAAAATATTAGTGTCATTGATTGATATTCTTAGTTTGGATTTGATTCTGTTATTCTTTTAAACTTATAGTAGTGGCTGCTTCAATTGCGATCCACTTCTGTAAGTTTGAAAATAGTCTTTTTCGAACAAAACATCACAAAGTCATGAGTGAAAAAGATGAAAAGAGAGAGAAAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAAAGAAGACTGTGTTCGGATTAGATATTAAACCCTTTGTTATCTGTGTTGGTTCTTATGGTATATTTGAGAAACAACTGGAAGCTCTGTCTAAAACATGCACAGGACAGGGCTGACACTTGTTCCCGCCATGGACTACCACCTACCAAAAACTCCAACGACCCTTCTGGACTCATCTTTCACTTCTCTCCCACCCTCCATGTCTTTATATCATCATCTTCTTCCATCCCCATCTTTACACCAAAACGCATCACAAACAGAACCCTCTTCACATCTCTCATTTGAATATCCATTCCCCATGGCCCTGACCCGTTTGGCTCTGAAGAATTTGCAGCAAAGGGCCCTTGTTTCCTCTCCTGCTGATGCTCTTCTCCCCAGGCAAACTGAAGCCTTGATTAGAAGGTTGTGTGATCATAGCTCAGAAGGCAATCCCAAAGAGGTGGCCGTTAAAAATGAAGACAGAAACCCCAAAATAGTCACGAAAAGGGAAGGCAAGAAATGGGTACCATGGAGGAAGAATGGGGGAGAGTTTCATCTGGGAAATTCACTGATGCAAGCGGCAGAGAACATAAACAGGGTGTTGAAGAGCTTGAACTTGAGCCGTCCATGGTGGGTTTCCGGTGGCCGTGTGAAAGAGCAAGAAGATTGGTACAAGCTGCGAGTGGAGATGCCTGGAATTTCAAAGGAAGAGGTGAAGGTGACAGTGGAGGGTCGGATTCTGAGCATCAGAGGAGAGCATAGGGAAGAAGAGGAAGAAGAAGAAGAATTTGCAGAGAGTTATGGTTACTATGAAAGCACGGTGATGCTGCCGGAAGATGCGGTGGCGGATGAGATCAAGGCGGAGTTGAAAGATGGGGTTTTGACGATCACCATTCCGAGGACTGAGAAACCCCCAAAGGATGTTAAAGAGATTAATGTTGTGTGAATGTCTTCCATTCTCAGCTCTCAAGGTCTGGTCATTGCCACTGCCATGGTCGTCTCCTCCACAGCTCTCTTTCTTGCCTTCTCAAACCACCACAAAATCAATCCAATAATCCCTTCCATATCCCTTCTTCCTTCTTGCTTGTCTTCTGATGAAAAGAAGAAGGAGAAGAAGAAACAGAGGAAGAAGAAGAAGGTGAGATTTGCAGAGGATGTGAAGGAGCCAAAAGGGAATGGAGAAGAGTACAGAAGAGAGCACGATGAGAAAATGGGGGGCACGAGAGAGGCGACCCGTGATATTGTTCATTCAAGAAGCGGTTCTCTGATCTTTTTTTCCTGGAATCGGATTTGGTGCTCTGTGGATCCGTTTTGGCCTTCTGGGTTTGCTTTATATACGTTGCCCTGTACATGGGTTCTTTACTATAGTTTCACACACGATATGGACAACATTGCTAACCAGTCACAGGGAGGCGATTCATCAATTAAAACCAATCAATTTCAGGGGGACTCTAGTGAATCTGATGTCCCTACTGCATTTGTAAATCATGGTCTTCTTCTCTGGAATCAAACTAGACAGCATTGGGTGCAGAACAGAAAGTCCGACAACAAAGAACAATTGATTCGAGAACCCAAATTAAACACTCATTGTCTCTGCATGCCTAAATCGTTCTGGCTTTGCAGTTGGAATGCAACATACGACAGTTTGTTGGGAAGTAACAAGCCGTTCCCTCAACCTATACCACTTGGCGAAATGGTTGATTTTCTTGTGGATATATGGGAGCAAGAAGGGTTGACAGGGCTGACACTTGTTCCCGCCATGGACTACCACCTACCAAAAACTCCAACGACCCTTCTGGACTCATCTTTCACTTCTCTCCCACCCTCCATGTCTTTATATCATCATCTTCTTCCATCCCCATCTTTACACCAAAACGCATCACAAACAGAACCCTCTTCACATCTCTCATTTGAATATCCATTCCCCATGGCCCTGACCCGTTTGGCTCTGAAGAATTTGCAGCAAAGGGCCCTTGTTTCCTCTCCTGCTGATGCTCTTCTCCCCAGGCAAACTGAAGCCTTGATTAGAAGGTTGTGTGATCATAGCTCAGAAGGCAATCCCAAAGAGGTGGCCGTTAAAAATGAAGACAGAAACCCCAAAATAGTCACGAAAAGGGAAGGCAAGAAATGGGTACCATGGAGGAAGAATGGGGGAGAGTTTCATCTGGGAAATTCACTGATGCAAGCGGCAGAGAACATAAACAGGGTGTTGAAGAGCTTGAACTTGAGCCGTCCATGGTGGGTTTCCGGTGGCCGTGTGAAAGAGCAAGAAGATTGGTACAAGCTGCGAGTGGAGATGCCTGGAATTTCAAAGGAAGAGGTGAAGGTGACAGTGGAGGGTCGGATTCTGAGCATCAGAGGAGAGCATAGGGAAGAAGAGGAAGAAGAAGAAGAATTTGCAGAGAGTTATGGTTACTATGAAAGCACGGTGATGCTGCCGGAAGATGCGGTGGCGGATGAGATCAAGGCGGAGTTGAAAGATGGGGTTTTGACGATCACCATTCCGAGGACTGAGAAACCCCCAAAGGATGTTAAAGAGATTAATGTTGTGTGA ATGTCTTCCATTCTCAGCTCTCAAGGTCTGGTCATTGCCACTGCCATGGTCGTCTCCTCCACAGCTCTCTTTCTTGCCTTCTCAAACCACCACAAAATCAATCCAATAATCCCTTCCATATCCCTTCTTCCTTCTTGCTTGTCTTCTGATGAAAAGAAGAAGGAGAAGAAGAAACAGAGGAAGAAGAAGAAGGTGAGATTTGCAGAGGATGTGAAGGAGCCAAAAGGGAATGGAGAAGAGTACAGAAGAGAGCACGATGAGAAAATGGGGGGCACGAGAGAGGCGACCCGTGATATTGTTCATTCAAGAAGCGGTTCTCTGATCTTTTTTTCCTGGAATCGGATTTGGTGCTCTGTGGATCCGTTTTGGCCTTCTGGGTTTGCTTTATATACGTTGCCCTGTACATGGGTTCTTTACTATAGTTTCACACACGATATGGACAACATTGCTAACCAGTCACAGGGAGGCGATTCATCAATTAAAACCAATCAATTTCAGGGGGACTCTAGTGAATCTGATGTCCCTACTGCATTTGTAAATCATGGTCTTCTTCTCTGGAATCAAACTAGACAGCATTGGGTGCAGAACAGAAAGTCCGACAACAAAGAACAATTGATTCGAGAACCCAAATTAAACACTCATTGTCTCTGCATGCCTAAATCGTTCTGGCTTTGCAGTTGGAATGCAACATACGACAGTTTGTTGGGAAGTAACAAGCCGTTCCCTCAACCTATACCACTTGGCGAAATGGTTGATTTTCTTGTGGATATATGGGAGCAAGAAGGGTTGACAGGGCTGACACTTGTTCCCGCCATGGACTACCACCTACCAAAAACTCCAACGACCCTTCTGGACTCATCTTTCACTTCTCTCCCACCCTCCATGTCTTTATATCATCATCTTCTTCCATCCCCATCTTTACACCAAAACGCATCACAAACAGAACCCTCTTCACATCTCTCATTTGAATATCCATTCCCCATGGCCCTGACCCGTTTGGCTCTGAAGAATTTGCAGCAAAGGGCCCTTGTTTCCTCTCCTGCTGATGCTCTTCTCCCCAGGCAAACTGAAGCCTTGATTAGAAGGTTGTGTGATCATAGCTCAGAAGGCAATCCCAAAGAGGTGGCCGTTAAAAATGAAGACAGAAACCCCAAAATAGTCACGAAAAGGGAAGGCAAGAAATGGGTACCATGGAGGAAGAATGGGGGAGAGTTTCATCTGGGAAATTCACTGATGCAAGCGGCAGAGAACATAAACAGGGTGTTGAAGAGCTTGAACTTGAGCCGTCCATGGTGGGTTTCCGGTGGCCGTGTGAAAGAGCAAGAAGATTGGTACAAGCTGCGAGTGGAGATGCCTGGAATTTCAAAGGAAGAGGTGAAGGTGACAGTGGAGGGTCGGATTCTGAGCATCAGAGGAGAGCATAGGGAAGAAGAGGAAGAAGAAGAAGAATTTGCAGAGAGTTATGGTTACTATGAAAGCACGGTGATGCTGCCGGAAGATGCGGTGGCGGATGAGATCAAGGCGGAGTTGAAAGATGGGGTTTTGACGATCACCATTCCGAGGACTGAGAAACCCCCAAAGGATGTTAAAGAGATTAATGTTGTGTGA MSSILSSQGLVIATAMVVSSTALFLAFSNHHKINPIIPSISLLPSCLSSDEKKKEKKKQRKKKKVRFAEDVKEPKGNGEEYRREHDEKMGGTREATRDIVHSRSGSLIFFSWNRIWCSVDPFWPSGFALYTLPCTWVLYYSFTHDMDNIANQSQGGDSSIKTNQFQGDSSESDVPTAFVNHGLLLWNQTRQHWVQNRKSDNKEQLIREPKLNTHCLCMPKSFWLCSWNATYDSLLGSNKPFPQPIPLGEMVDFLVDIWEQEGLTGLTLVPAMDYHLPKTPTTLLDSSFTSLPPSMSLYHHLLPSPSLHQNASQTEPSSHLSFEYPFPMALTRLALKNLQQRALVSSPADALLPRQTEALIRRLCDHSSEGNPKEVAVKNEDRNPKIVTKREGKKWVPWRKNGGEFHLGNSLMQAAENINRVLKSLNLSRPWWVSGGRVKEQEDWYKLRVEMPGISKEEVKVTVEGRILSIRGEHREEEEEEEEFAESYGYYESTVMLPEDAVADEIKAELKDGVLTITIPRTEKPPKDVKEINVV Homology
BLAST of ClCG07G012640 vs. NCBI nr
Match: XP_038899919.1 (26.5 kDa heat shock protein, mitochondrial [Benincasa hispida]) HSP 1 Score: 376.3 bits (965), Expect = 4.3e-100 Identity = 193/209 (92.34%), Postives = 199/209 (95.22%), Query Frame = 0
BLAST of ClCG07G012640 vs. NCBI nr
Match: XP_008454491.1 (PREDICTED: 26.5 kDa heat shock protein, mitochondrial [Cucumis melo] >KAA0044442.1 26.5 kDa heat shock protein [Cucumis melo var. makuwa] >TYK29569.1 26.5 kDa heat shock protein [Cucumis melo var. makuwa]) HSP 1 Score: 354.0 bits (907), Expect = 2.3e-93 Identity = 181/211 (85.78%), Postives = 194/211 (91.94%), Query Frame = 0
BLAST of ClCG07G012640 vs. NCBI nr
Match: KAG6581923.1 (26.5 kDa heat shock protein, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 348.2 bits (892), Expect = 1.3e-91 Identity = 181/216 (83.80%), Postives = 190/216 (87.96%), Query Frame = 0
BLAST of ClCG07G012640 vs. NCBI nr
Match: XP_022955630.1 (26.5 kDa heat shock protein, mitochondrial isoform X1 [Cucurbita moschata]) HSP 1 Score: 347.8 bits (891), Expect = 1.6e-91 Identity = 181/216 (83.80%), Postives = 190/216 (87.96%), Query Frame = 0
BLAST of ClCG07G012640 vs. NCBI nr
Match: XP_022955631.1 (26.5 kDa heat shock protein, mitochondrial isoform X2 [Cucurbita moschata]) HSP 1 Score: 347.8 bits (891), Expect = 1.6e-91 Identity = 181/216 (83.80%), Postives = 190/216 (87.96%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy Swiss-Prot
Match: Q9SSQ8 (26.5 kDa heat shock protein, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=HSP26.5 PE=2 SV=1) HSP 1 Score: 142.9 bits (359), Expect = 1.1e-32 Identity = 95/234 (40.60%), Postives = 145/234 (61.97%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy Swiss-Prot
Match: B7EZJ7 (23.6 kDa heat shock protein, mitochondrial OS=Oryza sativa subsp. japonica OX=39947 GN=HSP23.6 PE=2 SV=1) HSP 1 Score: 88.6 bits (218), Expect = 2.4e-16 Identity = 61/171 (35.67%), Postives = 101/171 (59.06%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy Swiss-Prot
Match: Q95661 (Small heat shock protein, chloroplastic OS=Solanum lycopersicum OX=4081 GN=HSP21 PE=2 SV=1) HSP 1 Score: 83.6 bits (205), Expect = 7.6e-15 Identity = 46/111 (41.44%), Postives = 74/111 (66.67%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy Swiss-Prot
Match: P30222 (Small heat shock protein, chloroplastic OS=Petunia hybrida OX=4102 GN=HSP22 PE=2 SV=1) HSP 1 Score: 82.8 bits (203), Expect = 1.3e-14 Identity = 43/98 (43.88%), Postives = 72/98 (73.47%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy Swiss-Prot
Match: P31170 (Heat shock protein 21, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=HSP21 PE=1 SV=1) HSP 1 Score: 79.3 bits (194), Expect = 1.4e-13 Identity = 39/86 (45.35%), Postives = 62/86 (72.09%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy TrEMBL
Match: A0A5A7TMA9 (26.5 kDa heat shock protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold655G001750 PE=3 SV=1) HSP 1 Score: 354.0 bits (907), Expect = 1.1e-93 Identity = 181/211 (85.78%), Postives = 194/211 (91.94%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy TrEMBL
Match: A0A1S3BYA0 (26.5 kDa heat shock protein, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103494889 PE=3 SV=1) HSP 1 Score: 354.0 bits (907), Expect = 1.1e-93 Identity = 181/211 (85.78%), Postives = 194/211 (91.94%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy TrEMBL
Match: A0A6J1GVM4 (26.5 kDa heat shock protein, mitochondrial isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111457576 PE=3 SV=1) HSP 1 Score: 347.8 bits (891), Expect = 8.0e-92 Identity = 181/216 (83.80%), Postives = 190/216 (87.96%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy TrEMBL
Match: A0A6J1GUB2 (26.5 kDa heat shock protein, mitochondrial isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111457576 PE=3 SV=1) HSP 1 Score: 347.8 bits (891), Expect = 8.0e-92 Identity = 181/216 (83.80%), Postives = 190/216 (87.96%), Query Frame = 0
BLAST of ClCG07G012640 vs. ExPASy TrEMBL
Match: A0A0A0KYF8 (SHSP domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G005000 PE=3 SV=1) HSP 1 Score: 347.4 bits (890), Expect = 1.0e-91 Identity = 182/211 (86.26%), Postives = 193/211 (91.47%), Query Frame = 0
BLAST of ClCG07G012640 vs. TAIR 10
Match: AT1G52560.2 (HSP20-like chaperones superfamily protein ) HSP 1 Score: 144.4 bits (363), Expect = 2.6e-34 Identity = 93/227 (40.97%), Postives = 143/227 (63.00%), Query Frame = 0
BLAST of ClCG07G012640 vs. TAIR 10
Match: AT1G52560.1 (HSP20-like chaperones superfamily protein ) HSP 1 Score: 142.9 bits (359), Expect = 7.5e-34 Identity = 95/234 (40.60%), Postives = 145/234 (61.97%), Query Frame = 0
BLAST of ClCG07G012640 vs. TAIR 10
Match: AT5G25360.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G32342.1); Has 1807 Blast hits to 1807 proteins in 277 species: Archae - 0; Bacteria - 0; Metazoa - 736; Fungi - 347; Plants - 385; Viruses - 0; Other Eukaryotes - 339 (source: NCBI BLink). ) HSP 1 Score: 118.2 bits (295), Expect = 2.0e-26 Identity = 64/121 (52.89%), Postives = 74/121 (61.16%), Query Frame = 0
BLAST of ClCG07G012640 vs. TAIR 10
Match: AT5G25360.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 15 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G32342.1). ) HSP 1 Score: 118.2 bits (295), Expect = 2.0e-26 Identity = 64/121 (52.89%), Postives = 74/121 (61.16%), Query Frame = 0
BLAST of ClCG07G012640 vs. TAIR 10
Match: AT1G15350.2 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G15770.2); Has 148 Blast hits to 148 proteins in 25 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 141; Viruses - 0; Other Eukaryotes - 7 (source: NCBI BLink). ) HSP 1 Score: 116.3 bits (290), Expect = 7.5e-26 Identity = 68/123 (55.28%), Postives = 75/123 (60.98%), 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
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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