ClCG03G003790 (gene) Watermelon (Charleston Gray)
The following sequences are available for this feature:
Legend: CDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAGAAAAAGAAGGAGAAGAAGAGCGCATACGAATACTGCCTCGTCTGCAAGCTAAACCACGATCAAGGGCAGCGTCACAAGTATTTTCCCAACCACAAAAAATCTCTTTCTGCTTTTCTATCTCGGTTCGAGATCAAGCTGTCTGACGTTCGCTTTTTTCTCAACACCCCCTTTCGCCTCTCGCCCGAGTATGCTTCTCAAAATCGGTTCTGGTGCATCTTTTGCGATGTTCAAGTCGATGAGAATGATAGTTCCTTCGCATGGTATCAATCCGCGGGCTATTTTACTAACTTGTTTCTTGATTAATTACGATTCATGTGTGTGGTTGCTAGGAAATTTGGGAATCAACTCTGTCAGCTTATATGCTAATTACGGTTGTAACTCCTGTAAGGAGTCTTTTTCGCCTTCTTTAAAATGAGACTGAATTTCATCGATATAGTTTATACAAAAGAGAAGGAAAGCCATGATCAAAGCTAATGGGGTTAAAGAAAAGCCCTCCAATTAGTACGTAGTTCTGTAAAAGAGTAATTACAAAACAGGAAAACACATTGTTAAGCTTAAATTAAGAGGTAACTGTAAAAAAGATGTGATAAGGTACGGGCAGTCTCTTCCTGAACCACCAAAATTTTTGTGGCTCCTTTCCATCCAAGGACTCCATAAGAAGCTTTGGATGGTGTTGAACCCAAAGGATTTAAGTTCTCAATGAGAGCAAAGTATGCAGTACCATTTCACAAAGACCCTTTGACTATATTTAGTAAGGCCATTGGACTTAGTGTAACAGTGTAATATATCTGTAAACTTTTGTAATGGTATGGTTAGAGAGCTTCGGGATTTAGTGTATCTTACTTGGGGTTTTAAGAATGCCATTTTGCAATTGATCTTCATTTAGAATTAACGCTAAATGGGGAGGATTTTTGAAGTTCTGTTGGCTGACATCTAGACTTGGTAGGTACATTGCATTCTTTTCCTTTGTTCGTGCAGTAGTAGTTATTCTTCATGCATATAGCATTTTTCATGTTTTACTTTCATTATCTCATGTTTTAAGATTTTGTAACAGTAGCAATGCAATTAAACACCTGGCCAGCGCGGATCATCTGAAGAATTTGAAGCATTTCTTCTGGAAGTATGGTGGTGATGTGGAACGTCTGGATGATTATAGAATTTTGGAAGCTGATGTAGCTAAGGTAACCATGAGCCTTTACTTTTTCTAAGGTTCAATTTTATTTGAACTATATTATCCAGGGGTATCATGCAATCCACATTTAGTTCTCTTATAATCAATAGAATCAACAAAGAGAACAAACATAGCAATAAAGCATCCTATCTTCTTTCCTTTTTGTCGTGTGATTTATCAACAGCGAGAAACAGAACTTGATTTCTACTGTGACTAGGCTACTAATTTGAATCAATGTTTGTCAATGACAGTGGGAGAAGAAGTGCAAAGTACAAAGCATAGCTGCTTCTTCCGGTCTTGGACCTACAAATGATATCCAAAATCAAGTCCAATATGGAAATTTTGATAATTTTGGGAATAATAATATCCACTCTGTTGAATCTAGTTCGTCAATTAGTGTTTTGCCTTTACACAGTTATACAAATGAGTATCAGGTATCCAATTCATCCTATTCAGGATCCTCTGATGTTTCAAATTTGGTCTCGTTTCCACTTGATACCACTGTTTCTTTGCATGCTGGGTCATGTTCTGGTGCACATGTATGGAGCGCAAAGGATTTATCACGTAAGCTGCCCATTTATATTTCGCCTTTTGTCTTTGATTTCTTATCAGTCGTTGAAGTTCTGAAATAGTGTACAAAGGTGTAACACACTCCTGCTATATGGACTATGATTCAGTTAGTGAGGACAACAAGCATTACCAACTGGATAGTGGTAGAACATGCACTGCCAATGGTCATTCCGGTGGTCAGGGGGTAAGTTTAGTTATTTCTCTTCTACTGGAGCAGGGGAGTTTGTATTTCCTATGAAGTAGCTCTGTTTTAGTACTAGAAGGCCTTCAATTTTTGTTTGGTATGGAGGTGGTGGCAGCTGGTGGGGGTTGCTTTGTGTGTGTGTGTGTGTTTGTAATTTTTTTTCTGGGTCCTTTATCTTGCCAATTTCACCAGTCAACAAACATTTATAGAGGCCTAAAGGTTCCATTGGAGGGGGGTGGCATAACATACTGTTATTGTTATAAATGGAACTCTGACAATCAACTCTTTGTTCCTAGTTAACATCTCATAGTCCAGTTGGAACTATATCTTGTCTTTCTTCCCGAGTATTTTCATAATGCATACTTTCTTTTGTATTGACATTTCTAGTAAATGCATAACCTACTTGATATAGATGTACGTGATGCATCAGAATGAAAGAACTGGGAACGAAGAAAGCTATCCTGAAGGTATGGAATTTTATGAAATCTTATTCTCATTGTAATGTTACTCAACTGATTCATTTCATACTCTGAATATATCTTCATTTAAATTCTGAACTGTATAGTGGTGCCACGTTTTCCATCTATTTGCTATCTCTCTTCAGGTTTTCATACCCTCGCTCGGATTTCTAATATTGTTTCTGGAGATTCTGGCGGAAATGTTCATTCAGGGATGCTGCCTCCTTGGCTTGAAAACCCGGAAGATTGTGGGTTTAAGGTTCAAATAAGAGCAGAGGTTGGGGGTGGTGTTTCTTCTGTGAATGAATCTGCAAAGTCAAAGAAACTGAACCCAAAACGAGTAGGAGCTGCGTGGGCAGAAAAAAGGAAGCTGGAGATGGAAATGGAGAAGAGAGGAGAAATTGTCCAAAGCTATGGTGACAAGAATTGGCTTCCTAATTTTGGTAGGGTATGGCAATCTGGTAGCCGTAAAGAATCTCGAAAAGAATTTGAGAAGGAGAAATCAAAATTCCTGATGGTTGAAAATTCACCTGAAACAAATGTCGATATTCAGCCATACATTAGCAAACGGATGGTGAGCCCCATTTTCATCATATTTAATGCAGTTCTGATGTTTCAATTGTAATAAAAAGGTATTCTAGATATAGATATGAAGGAGGCGGCAGTTCTGAAAGTTGTGATTTTCATCAATATATATATATATTTATATCATTACGACACATTTTTTGTTCTACTCTTAAAATTTCCTTCATATTTATATCTTCTTGTTTATGTTTATAAAATGTTATTTTGCCATGTATTTCCCAACTGGACCTAGTTTTGATGGTGCAACGAGGTAGTGGGAAGTTCCAATACGTGACAATATTTTAAAGGTGATGTTTTGAGCGCTCTATTTTCTAGGTACTTAAACCATCGAGTGGTTACACATTTGAAGTCTGAGTAAAAATTTTAATAAAAAGGTGTCCTAGGATTTTGTCGCAGCCTCTCAGTATTTCTCTTCTTTTCTTGAGACCAAAATGGTGACTAGAGGAAGGAGCAAGAGAATACCTAAAAAGTGAATTTTCCCATATATAATTATGGATCAACACATTTCTAAACGGGAAGGGAAAAAACACGAAGAAAAGAAAAGAAAAAGGAAGTTGAATGATTGGGAAATGGGGAGCACGGGTTCTTAAATACTCCTTGTATCTTGAATATCTCTGGTTTTTTCTGCATGCGACTTTTTAATTGTGCCAGTTTGTGGGGGGTGGGGCAGTTATGATTACTCATGACATTTTCAGCTAATAAGCCACTCTTCAATTAATCTATGATATGTTGTACCTTGCAGAGACTTATTGATACAGCTAATTACTCATGTACAGTAATTACTTTTGTTCATATTTCATAGTTAAGAGTGACTTGGATTGGTAGTCTGATTTATATGTTATGTCACTAATCTTTGTTCTTGCAGCGAAGAGATCGGGAGATCAAGGATGATACTGCCAATCACACGAGTGTATAAGACAACAATTTTCAAAAGCTTTCATCTAGAGAATTACTGTACATGCACAATTCTTGTTGAAGTTTGGTTTTGAGACAGAATTAGGCTTGGAGTTCGATAGGAAACTTCAAAGCAGACTGATATTCCACCTCTTCATTAGTTGACAATAGTTCAAATCTGTTGTAGTAGACACAACTTTAATTTTCTCGAGATATCAGCGGTGCATGAGAACAGGATTTTCTTAACGAACATTGCTTCATCAACATTGTACATTAACTTTTTGTTGGATCGCTCTGGGCATTCATTATTGAATTTAATTGTAAAACAGGGTTTGACCACTGTTAAAGGCATTGCTCTATGTTTTCCATTCCCTATTGCTATAGCACCGGCTCCTTATATCTGCTGCTACTGAAGTTGTAATCTGAAACAAGTTTATATTTAGTAAATATGTAGCTTTGATGATAGCATTTTAGTTTTCTTCAGCAATGCTGGTTGGCCAAGCAGCGGTTGTAAATCTTGATCTTATGTATGCAAGTCAGAATATTATAATTTCCTCGTGTACTATTTTAGAACATTTTTCCCCAAATGCCTGATCGACTCATATTTGGTCAGGGATTGATCTACACTGTATAATTACTATTTTTATGATTAATAGGCTAAACAAGTCAAAGAAAATGTGTGTTCTTATGACAGTTGTTGGGATTTGATTCTTCAAAATATCCGTGTTCTCCTTTTGCAGTGGCCAAGCAGCTGTTCCATATCTCGTGCCTCCATCTTTTTCCAGTTGCTGCCAAGAAAGGTGCCCGGGGACTGATTGTATACGTATTTCTCTGTACCTTCATCCCAGAAGAAAAATGATCTCATTGCTGGATCACAATGCCTTTGTCAGGGCAGAATCTGGTTGAATTTTTCTCATTTCTAATCCTGAAAATCCAGAGTTTCCCTTTGGAGGAAATCAAGTTTTCATCACAAAGGAACTCCCAAGAATACCACTTTTCAATCATTCGATCTGTATCATGTACAACTACATCAGTGGTGTTCCCTTCTCTTGCCATGATAGCAGCAGTGTAGATTGTTGCCATTCTTCCTGGTGCCTGAGGACTATCTCCTCTTGGTCCATCCACGACCACCACATCCCATTTGACTTCATAAACTTCTCTTGGAAGATCTGTCAAGGCAAGTTTGCACTTAGATGAATTCCTGAGCCCTGAGTCTGGTGCACATGATTTGTTTCCTCTTGCATGCTTTAACAATTTGTAAGCTTTTTCTGCTTGATGCTTGTAACCAACTTTGTACATTCGTGTGTGCTTTGAGTTGACTTTCAATGTGCTTAGTTTGTAGGGATCATCCTCAAGAAAAACATTCTTTCCACCATCATTGACTGCTGAGAGGTTAAGGTACTGTGATTCTATCCCAAAGAAAAGGAGATTGCAGGGTGCCTTTTCGGCAATCAGATTTGAAAGAAGCTTGAATTCCTTCTCTAAAATGGCGGCTTCATTTGCAGAGGTTCTACTATGTTTTCCTGAGAACCCTGATTTTGGGCGTTGAAGCTTTGGAGGCAATGCAATTGCTAGAAGTGGAGAAGAATAAGTTGTGGTAAGTGCAATCCTAACGAGTCTGAGAATGGAGAGACTAGACAGAATCAACACAAGAACAGGTAGGATTTTGTTTCTTGTATAACTCATGCTCTTGCTTCCTCTACTGTTTTTGAAGCTTACTGATGGATATGACTGCTGTGAGGGTGAAACAGAGGGGGGAGAAAACGATTCTGATGGCACAAGTGAGTGGCAATCCACCACTTCCGAAGGCATTTTGTTTTAGTGTTGTTTGCTTTCAGCCGCATCACAGCCACCATCTTTTTTATTAGAGGAGCACTGGTGGGGTGTTGCAAGGTGCGAGTTGTTCTGCCTAATCTCCACTTGAGTGTGGAATAAGAAATGCTTTTGCTTGTTCCCAAAGCATTGCCTTTTTGTATTTATGAGTCGGCTGTGCTAATTGTTGTGGTTACATCCTTGCATTTCAGGAATCAAAAGCGGCTACTGCAGAGCCTCAAAAGGGTATAAATTTCAAGTAGGTTGGTCATTTCAATCATTGATTTCAGATGGTGACTTGGGGTTTTATTAAGACATCTGTCATCTTTTTGGCCCGTTTGGTGGCCATGAAGTAGAGTTGAAGGTGGCTTTCAAGTGGTTGTTGAGTCATTCTCTTCCATTTTGACCTTCTCAGACTTTGTTGTTCTCCTCTGCTCTTCTTGTCAAAGGTGGAAATACTTTGCCATTCATTCTTCAAAATGACTACCAAAATATGATAAATTCAAACCCTTGGAATGGAAGGCTGGAAATTGATCTTCATTTTACTGCATTCTGATACACATTTTGTCTAAAATAGCCAGGGAATGGATCATCAGTCACTATTTTCCACTGTTCACCGACCCCATCGAAAAAGAAAGACGAATGACGATCACAGAGACAGTAAGCTGAGGAAGAGGTTGAAGGTAAGGCAAAAATAGCCAGAAAGTTTTAACTTTTAATTCTGTGATAATGATAAACTTTGGGAAAGTGTACAAAAACTGGCCTGCACACAATCTACTTATCTACACTGAATCTATTAATGATGAATGTATTTTCAGAGATATGCCAACTCAAAGTGAAGTTAGGAAGGAAACAATGGCTGAAATTCGAGTTTAGTGGTCATTTTCAAGGAGAAGCTTCGTGGAAAGTACCAAAGCAAAAGATTTAACGATAGAGAGCTGTTTGAAAAGTGACTCAAAGGGAAAAAAAATTAAATTAGAACATCAACAGCATTAACAGTGAGCTGTTTA ATGAAGAAAAAGAAGGAGAAGAAGAGCGCATACGAATACTGCCTCGTCTGCAAGCTAAACCACGATCAAGGGCAGCGTCACAAGTATTTTCCCAACCACAAAAAATCTCTTTCTGCTTTTCTATCTCGGTTCGAGATCAAGCTGTCTGACGTTCGCTTTTTTCTCAACACCCCCTTTCGCCTCTCGCCCGAGTATGCTTCTCAAAATCGGTTCTGGTGCATCTTTTGCGATGTTCAAGTCGATGAGAATGATAGTTCCTTCGCATGTAGCAATGCAATTAAACACCTGGCCAGCGCGGATCATCTGAAGAATTTGAAGCATTTCTTCTGGAAGTATGGTGGTGATGTGGAACGTCTGGATGATTATAGAATTTTGGAAGCTGATGTAGCTAAGTGGGAGAAGAAGTGCAAAGTACAAAGCATAGCTGCTTCTTCCGGTCTTGGACCTACAAATGATATCCAAAATCAAGTCCAATATGGAAATTTTGATAATTTTGGGAATAATAATATCCACTCTGTTGAATCTAGTTCGTCAATTAGTGTTTTGCCTTTACACAGTTATACAAATGAGTATCAGGTATCCAATTCATCCTATTCAGGATCCTCTGATGTTTCAAATTTGGTCTCGTTTCCACTTGATACCACTGTTTCTTTGCATGCTGGGTCATGTTCTGGTGCACATGTATGGAGCGCAAAGGATTTATCACTTAGTGAGGACAACAAGCATTACCAACTGGATAGTGGTAGAACATGCACTGCCAATGGTCATTCCGGTGGTCAGGGGATGTACGTGATGCATCAGAATGAAAGAACTGGGAACGAAGAAAGCTATCCTGAAGTGGTGCCACGTTTTCCATCTATTTGCTATCTCTCTTCAGGTTTTCATACCCTCGCTCGGATTTCTAATATTGTTTCTGGAGATTCTGGCGGAAATGTTCATTCAGGGATGCTGCCTCCTTGGCTTGAAAACCCGGAAGATTGTGGGTTTAAGGTTCAAATAAGAGCAGAGGTTGGGGGTGGTGTTTCTTCTGTGAATGAATCTGCAAAGTCAAAGAAACTGAACCCAAAACGAGTAGGAGCTGCGTGGGCAGAAAAAAGGAAGCTGGAGATGGAAATGGAGAAGAGAGGAGAAATTGTCCAAAGCTATGGTGACAAGAATTGGCTTCCTAATTTTGGTAGGGTATGGCAATCTGGTAGCCGTAAAGAATCTCGAAAAGAATTTGAGAAGGAGAAATCAAAATTCCTGATGGTTGAAAATTCACCTGAAACAAATGTCGATATTCAGCCATACATTAGCAAACGGATGCGAAGAGATCGGGAGATCAAGGATGATACTGCCAATCACACGAGTGTATAAGACAACAATTTTCAAAAGCTTTCATCTAGAGAATTACTGTACATGCACAATTCTTGTTGAAGTTTGGTTTTGAGACAGAATTAGGCTTGGAGTTCGATAGGAAACTTCAAAGCAGACTGATATTCCACCTCTTCATTAGTTGACAATAGTTCAAATCTGTTGTAGTAGACACAACTTTAATTTTCTCGAGATATCAGCGGTGCATGAGAACAGGATTTTCTTAACGAACATTGCTTCATCAACATTGTACATTAACTTTTTGTTGGATCGCTCTGGGCATTCATTATTGAATTTAATTGTAAAACAGGGTTTGACCACTGTTAAAGGCATTGCTCTATGTTTTCCATTCCCTATTGCTATAGCACCGGCTCCTTATATCTGCTGCTACTGAAGTTGTAATCTGAAACAAGTTTATATTTAGTAAATATGTAGCTTTGATGATAGCATTTTAGTTTTCTTCAGCAATGCTGGTTGGCCAAGCAGCGGTTGTAAATCTTGATCTTATGTATGCAAGTCAGAATATTATAATTTCCTCGTGTACTATTTTAGAACATTTTTCCCCAAATGCCTGATCGACTCATATTTGGTCAGGGATTGATCTACACTGTATAATTACTATTTTTATGATTAATAGGCTAAACAAGTCAAAGAAAATGTGTGTTCTTATGACAGTTGTTGGGATTTGATTCTTCAAAATATCCGTGTTCTCCTTTTGCAGTGGCCAAGCAGCTGTTCCATATCTCGTGCCTCCATCTTTTTCCAGTTGCTGCCAAGAAAGGTGCCCGGGGACTGATTGTATACGTATTTCTCTGTACCTTCATCCCAGAAGAAAAATGATCTCATTGCTGGATCACAATGCCTTTGTCAGGGCAGAATCTGGTTGAATTTTTCTCATTTCTAATCCTGAAAATCCAGAGTTTCCCTTTGGAGGAAATCAAGTTTTCATCACAAAGGAACTCCCAAGAATACCACTTTTCAATCATTCGATCTGTATCATGTACAACTACATCAGTGGTGTTCCCTTCTCTTGCCATGATAGCAGCAGTGTAGATTGTTGCCATTCTTCCTGGTGCCTGAGGACTATCTCCTCTTGGTCCATCCACGACCACCACATCCCATTTGACTTCATAAACTTCTCTTGGAAGATCTGTCAAGTTTGTAGGGATCATCCTCAAGAAAAACATTCTTTCCACCATCATTGACTGCTGAGAGGTTAAGAGGTTCTACTATGTTTTCCTGAGAACCCTGATTTTGGGCGTTGAAGCTTTGGAGGCAATGCAATTGCTAGAAGTGGAGAAGAATAAGTTGTGGTAAGTGCAATCCTAACGAGTCTGAGAATGGAGAGACTAGACAGAATCAACACAAGAACAGAGGGGGGAGAAAACGATTCTGATGGCACAAGTGAGTGGCAATCCACCACTTCCGAAGGCATTTTGTTTTAGTGTTGTTTGCTTTCAGCCGCATCACAGCCACCATCTTTTTTATTAGAGGAGCACTGGTGGGGTGTTGCAAGGAATCAAAAGCGGCTACTGCAGAGCCTCAAAAGGGTATAAATTTCAAGTAGGTTGGTCATTTCAATCATTGATTTCAGATGGTGACTTGGGGTTTTATTAAGACATCTGTCATCTTTTTGGCCCGTTTGGTGGCCATGAAGTAGAGTTGAAGGTGGCTTTCAAGTGGTTGTTGAGTCATTCTCTTCCATTTTGACCTTCTCAGACTTTGTTGTTCTCCTCTGCTCTTCTTGTCAAAGGGAATGGATCATCAGTCACTATTTTCCACTGTTCACCGACCCCATCGAAAAAGAAAGACGAATGACGATCACAGAGACAGTAAGCTGAGGAAGAGGTTGAAGAGATATGCCAACTCAAAGTGAAGTTAGGAAGGAAACAATGGCTGAAATTCGAGTTTAGTGGTCATTTTCAAGGAGAAGCTTCGTGGAAAGTACCAAAGCAAAAGATTTAACGATAGAGAGCTGTTTGAAAAGTGACTCAAAGGGAAAAAAAATTAAATTAGAACATCAACAGCATTAACAGTGAGCTGTTTA ATGAAGAAAAAGAAGGAGAAGAAGAGCGCATACGAATACTGCCTCGTCTGCAAGCTAAACCACGATCAAGGGCAGCGTCACAAGTATTTTCCCAACCACAAAAAATCTCTTTCTGCTTTTCTATCTCGGTTCGAGATCAAGCTGTCTGACGTTCGCTTTTTTCTCAACACCCCCTTTCGCCTCTCGCCCGAGTATGCTTCTCAAAATCGGTTCTGGTGCATCTTTTGCGATGTTCAAGTCGATGAGAATGATAGTTCCTTCGCATGTAGCAATGCAATTAAACACCTGGCCAGCGCGGATCATCTGAAGAATTTGAAGCATTTCTTCTGGAAGTATGGTGGTGATGTGGAACGTCTGGATGATTATAGAATTTTGGAAGCTGATGTAGCTAAGTGGGAGAAGAAGTGCAAAGTACAAAGCATAGCTGCTTCTTCCGGTCTTGGACCTACAAATGATATCCAAAATCAAGTCCAATATGGAAATTTTGATAATTTTGGGAATAATAATATCCACTCTGTTGAATCTAGTTCGTCAATTAGTGTTTTGCCTTTACACAGTTATACAAATGAGTATCAGGTATCCAATTCATCCTATTCAGGATCCTCTGATGTTTCAAATTTGGTCTCGTTTCCACTTGATACCACTGTTTCTTTGCATGCTGGGTCATGTTCTGGTGCACATGTATGGAGCGCAAAGGATTTATCACTTAGTGAGGACAACAAGCATTACCAACTGGATAGTGGTAGAACATGCACTGCCAATGGTCATTCCGGTGGTCAGGGGATGTACGTGATGCATCAGAATGAAAGAACTGGGAACGAAGAAAGCTATCCTGAAGTGGTGCCACGTTTTCCATCTATTTGCTATCTCTCTTCAGGTTTTCATACCCTCGCTCGGATTTCTAATATTGTTTCTGGAGATTCTGGCGGAAATGTTCATTCAGGGATGCTGCCTCCTTGGCTTGAAAACCCGGAAGATTGTGGGTTTAAGGTTCAAATAAGAGCAGAGGTTGGGGGTGGTGTTTCTTCTGTGAATGAATCTGCAAAGTCAAAGAAACTGAACCCAAAACGAGTAGGAGCTGCGTGGGCAGAAAAAAGGAAGCTGGAGATGGAAATGGAGAAGAGAGGAGAAATTGTCCAAAGCTATGGTGACAAGAATTGGCTTCCTAATTTTGGTAGGGTATGGCAATCTGGTAGCCGTAAAGAATCTCGAAAAGAATTTGAGAAGGAGAAATCAAAATTCCTGATGGTTGAAAATTCACCTGAAACAAATGTCGATATTCAGCCATACATTAGCAAACGGATGCGAAGAGATCGGGAGATCAAGGATGATACTGCCAATCACACGAGTGTATAA MKKKKEKKSAYEYCLVCKLNHDQGQRHKYFPNHKKSLSAFLSRFEIKLSDVRFFLNTPFRLSPEYASQNRFWCIFCDVQVDENDSSFACSNAIKHLASADHLKNLKHFFWKYGGDVERLDDYRILEADVAKWEKKCKVQSIAASSGLGPTNDIQNQVQYGNFDNFGNNNIHSVESSSSISVLPLHSYTNEYQVSNSSYSGSSDVSNLVSFPLDTTVSLHAGSCSGAHVWSAKDLSLSEDNKHYQLDSGRTCTANGHSGGQGMYVMHQNERTGNEESYPEVVPRFPSICYLSSGFHTLARISNIVSGDSGGNVHSGMLPPWLENPEDCGFKVQIRAEVGGGVSSVNESAKSKKLNPKRVGAAWAEKRKLEMEMEKRGEIVQSYGDKNWLPNFGRVWQSGSRKESRKEFEKEKSKFLMVENSPETNVDIQPYISKRMRRDREIKDDTANHTSV
BLAST of ClCG03G003790 vs. Swiss-Prot
Match: TTL_ARATH (TITAN-like protein OS=Arabidopsis thaliana GN=TTL PE=2 SV=1) HSP 1 Score: 335.1 bits (858), Expect = 1.2e-90 Identity = 196/446 (43.95%), Postives = 256/446 (57.40%), Query Frame = 1
BLAST of ClCG03G003790 vs. Swiss-Prot
Match: CCD84_HUMAN (Coiled-coil domain-containing protein 84 OS=Homo sapiens GN=CCDC84 PE=2 SV=1) HSP 1 Score: 57.8 bits (138), Expect = 3.6e-07 Identity = 35/104 (33.65%), Postives = 45/104 (43.27%), Query Frame = 1
HSP 2 Score: 47.8 bits (112), Expect = 3.8e-04 Identity = 31/127 (24.41%), Postives = 56/127 (44.09%), Query Frame = 1
BLAST of ClCG03G003790 vs. Swiss-Prot
Match: CCD84_MOUSE (Coiled-coil domain-containing protein 84 OS=Mus musculus GN=Ccdc84 PE=2 SV=1) HSP 1 Score: 54.3 bits (129), Expect = 4.0e-06 Identity = 34/101 (33.66%), Postives = 41/101 (40.59%), Query Frame = 1
BLAST of ClCG03G003790 vs. TrEMBL
Match: A0A0A0LUE2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G050510 PE=4 SV=1) HSP 1 Score: 793.5 bits (2048), Expect = 1.3e-226 Identity = 388/451 (86.03%), Postives = 407/451 (90.24%), Query Frame = 1
BLAST of ClCG03G003790 vs. TrEMBL
Match: A0A061FZI7_THECC (Coiled-coil domain-containing protein 84, putative isoform 2 (Fragment) OS=Theobroma cacao GN=TCM_014646 PE=4 SV=1) HSP 1 Score: 434.1 bits (1115), Expect = 2.1e-118 Identity = 234/449 (52.12%), Postives = 296/449 (65.92%), Query Frame = 1
BLAST of ClCG03G003790 vs. TrEMBL
Match: A0A0B0Q3P2_GOSAR (Coiled-coil domain-containing 84 OS=Gossypium arboreum GN=F383_15746 PE=4 SV=1) HSP 1 Score: 431.4 bits (1108), Expect = 1.3e-117 Identity = 232/445 (52.13%), Postives = 293/445 (65.84%), Query Frame = 1
BLAST of ClCG03G003790 vs. TrEMBL
Match: A0A0D2PT80_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_001G058800 PE=4 SV=1) HSP 1 Score: 430.3 bits (1105), Expect = 3.0e-117 Identity = 230/445 (51.69%), Postives = 293/445 (65.84%), Query Frame = 1
BLAST of ClCG03G003790 vs. TrEMBL
Match: G7J3W4_MEDTR (Uncharacterized protein OS=Medicago truncatula GN=MTR_3g099220 PE=4 SV=1) HSP 1 Score: 425.6 bits (1093), Expect = 7.4e-116 Identity = 229/443 (51.69%), Postives = 296/443 (66.82%), Query Frame = 1
BLAST of ClCG03G003790 vs. TAIR10
Match: AT4G24900.1 (AT4G24900.1 unknown protein) HSP 1 Score: 335.1 bits (858), Expect = 6.6e-92 Identity = 196/446 (43.95%), Postives = 256/446 (57.40%), Query Frame = 1
BLAST of ClCG03G003790 vs. NCBI nr
Match: gi|778658133|ref|XP_011652145.1| (PREDICTED: TITAN-like protein isoform X1 [Cucumis sativus]) HSP 1 Score: 793.5 bits (2048), Expect = 1.9e-226 Identity = 388/451 (86.03%), Postives = 407/451 (90.24%), Query Frame = 1
BLAST of ClCG03G003790 vs. NCBI nr
Match: gi|778658146|ref|XP_011652166.1| (PREDICTED: TITAN-like protein isoform X2 [Cucumis sativus]) HSP 1 Score: 787.3 bits (2032), Expect = 1.4e-224 Identity = 387/451 (85.81%), Postives = 406/451 (90.02%), Query Frame = 1
BLAST of ClCG03G003790 vs. NCBI nr
Match: gi|659067497|ref|XP_008439729.1| (PREDICTED: TITAN-like protein isoform X1 [Cucumis melo]) HSP 1 Score: 785.4 bits (2027), Expect = 5.3e-224 Identity = 385/451 (85.37%), Postives = 405/451 (89.80%), Query Frame = 1
BLAST of ClCG03G003790 vs. NCBI nr
Match: gi|659067515|ref|XP_008439800.1| (PREDICTED: TITAN-like protein isoform X2 [Cucumis melo]) HSP 1 Score: 779.2 bits (2011), Expect = 3.8e-222 Identity = 384/451 (85.14%), Postives = 404/451 (89.58%), Query Frame = 1
BLAST of ClCG03G003790 vs. NCBI nr
Match: gi|778658149|ref|XP_011652172.1| (PREDICTED: TITAN-like protein isoform X3 [Cucumis sativus]) HSP 1 Score: 770.8 bits (1989), Expect = 1.3e-219 Identity = 377/435 (86.67%), Postives = 393/435 (90.34%), 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: |