ClCG10G011850 (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.ATGTGGAACTTCATTGTGAAACATACTTTTAGTCTAGAGTTGAGTGATTTTAAACATGTGAGTGAGATAGAGTAAGTTGAAAAAATTTGTCTTGGTTGGTAAGAAAAGTGGATCAACTCAAGTCAAATTGATGATATGTTTATATCATAGGGAATTAGTTTAGATCAATCTTGAATGTCTTGAAGCATGCAAGTGAGATAGATGATAAGAATGGTATTAAAGGGATATTAGGAGTATAATAGTAATTAGTTAGAGAATTTGTTTGGTTATAAATAGGAGTAGGAAATGAAGGAGAAAGACAATACTTTGGGTGACGACAGCAACAACTTGCGGATGGGGTCGAGGACAGGGTCGGTTGATGTAGCTTAAGAAAAAAAAATAGATTTTAAAAAATGAAGATGACTAGATGTCTTGAGGTGTAATTAGGGCTTGGTTGTAATTTCGACTTTTATTTTATTTTTAAACAAATTGTTTGCTTTTGGGTTTGGGCGAGAGATAGTGAGAGTGTGAGAGAAAGTGAGAGAGATAGAGGGATTGTGAGACGTGAGTGAGGAAAGGATGCGAGAGCGAGAGCGAGAGTGCGAGAGTCAACAATAACATCTAATATATATATATATAATTAATTAATTAATTAATTTTTATATATAAATGAGTTGGTGTCGAGGATTCGGGGTCAGGGCGGGGATACCCTCCCCATCCCCGCCCCTTTCCTGGACGGGTACCCAAAAAAAAAACCTCGGTTTTACCCCCATCCCCGACCTGATCAGGTCGGGGTCTAGTGGGGACTAGACCTTGCAGGTTATTTTGCCAACCCTAGTTAGTAATATAGTTTTCTTAGTTTATTCAAATCTCTCATTGAATATTTTGTAATAAAATCACCATTACATTTTAAGAGTTTTGAATCTGCAACAAGTCCTTGCGTTCGACCTCGAACTCACCGAGAAACCTATTTTCATATTATACGTTGGTTAAAATTAGGAAAACTTGACTGAATATATCTCACATGCATTACACCTTTAGAAACGCAACAGAACACCTCATCCCTAATCAAAGCATAAGAAGGTGAGTGTGAGCAAGACTATCAACAAATATGTGGTATGACATGTCCAGTCAGGGACAAAACAGTCTCATATGCTCATACCTATGTAAAATGAAATAAAATAAATGTCGTTAGACAAGTAATAATTCAAAGAGGAAAATAATAACTGAAACTAACTATAATAACTAACCTGGAAAGCGTGAGGGAAGTTGTACAACCTATATGTTTGTTGTTTCCCATCTGTACTCTCCTTCCATTTGTCAACTTTGTCTTGGAGTCCTTTCAACTTTGTCTTGGAGTCCTTTCTTTAAGCGTTTAATTGTCATATCGAAAATAAAAATTTTCCAATCTATATTACAGAAAGTCTCCCAATCATCTATGAAAACTAAGAACTCGTAATTCATGCTAGATTTTCTCTCTCTTCCCATGAGTTCAAACTCAATAAAATAGAAAAATGAGATCTTGACAACATCTTCATCATTCTCAAACTCCAAGAAAGGATACTTGGCATCTAGTTCATACCCCTTTATACCTTCCACACCATTCAAATATTTTCTTCTAAGTCTAACATGGCCAATGAGCTAAAACTATTAGTATCTCTCCTAGTTTCACTAACCTCTCTAAGGAGAATATAATGAATCAAGGGTTCATTGAACATAATGTTGGCATCTAATATGAGCCCAAAACAGGTTTGCCTAAACATATCTAATTAGATAAGCATTAACTTCTTCCTAATGTTCGTTTGAGCTTTCCTTAAGTGGGCACAACAAGTTAGGGCAACAGGAAAATGGTCATTAGCAGAGATTTTAGTAAGTAAATACATCAAACCTACATTATTGATGCAAATAATATACATTAATAAATAAAATATTTAGCCAACAACGAAAAAAATATTCTAAAATAAAAGAAAAAAGGACTCCGTCAATACCCACCCAGGTAGTGAACAGGCTAAAAAACAGAGAACAACTATCTATTGAGCCCAGTTAGTGCCCGATCGAGTAATCATGGGCCAAAAACCAGTACCCAAACCATACATTATACTCGATCTAGACCTAGCCAGGGCCAGACTGGGGCAACTCCACCTCCGTCCGTACCAAGTGTGACCAGGCTAAAAACAGAAAAGAATTATCTATTGAGCCTAGTCCTTACCCAGCCAAGGGAGTCACGGGCCAAAATTCAGTACCCAACCCATTGATTCTACCTTGTCTAGACCCGGCCAAGGCCATACCAGGCAAACACCCACCTCCCCTGGTAACCGAGTGTGTTCGGTCCAAGCCCGCCCAGGGCTAAACCAGGTCCTACTAACCATATATCTTGATCCTGTCAATCTCGACTTGGTAAAGACCAGGCCAACACCCACCCTGGTTTCCTATTATGTTAGACCCAGTCAAGACCCCCCAGGGTAAAGACCAGGCCAAACATACTCTGAATCCCTCACCTCTCTAGCTCAGTCAATACCCGACTAGGGCAAAGACCAGGCCAACACCCACCCTGGTTTCCTATTGGGTTAGGCCCGGTCAAGACCCCCAAAGGGTAAAGACTAGGCCAAACCTACTCTGATTCCCTCGCCTCTCTTGCCCGGTTAGTACCCGCCAAGGGTAAAGACCGAGCCAAACGTACTCCAGGTCCCCCACCTCTCTCGCCCTGTCAGTACTCGGTCAGGGCAAGCACCGGGACACACTTCCCCAAGTCTATACTCGGCGAGGGTCAAGATCGGGGGCCACTTTCGTCTCATCTTCCCCAAATGTTATGCCCGACCAATACCCGATTGTCCTCGGATGAAGTCGGGCCATGTATTCATCGATTTCCAAAAAAATAAAAATGCAATATGCAATTTTTATGCATAAAAACTCATTTTTTTGGTCCAAATAATTCATAAAACGCCAAAAATGAACAATATATGCATAAGGTGAACTAAAAGCCAAAAATTTTGCTCAAATTTGAAGAAACATGCAAGACACTATCTCCAAAATAAAATACCAAAAGAACACTAAAATGTTGTGCCTACAACATATAACATGCTAAGAAGCAACAAATTTGCAAGAAATATAGCCAAAAACATAGATAACTTATTTGATTAAAGATTATTTGTTAAATAAAAATCTAAAAAATCCACAAAAGAAATAGGGAAGAAAACAAACCTGATATTATGATTGAGATTGGAGATAACTTGTTGAAGAAATCGTTTGAATAATGGACACAAAGGAAGATGGATAGGTTTTTCGTCGGTATGGGTGCGAGGGAACGGTGAGAAGAAGAGAAGAGGGAAGATAAGGGGTTCTTAAATTTTAGGGGTAAATACGTAATTTCACTTTTGTATTAAAAGTAAAAAGGTTAAAAAATACTTCAAGTTTTAAAAAGGGTCAAAATTACAAATGGTAAACCTAGAGGGTCAAAATTGCTTTTTATTTTATCTTTCTTCTAGTTCTATCTTCTCCACTCTGCCGCCGCACACAAAGAACTCCCGTCCCGTCCGGCGACGATTCCACATTCTTCTCCCGTCCGGCGTGCTGTGCCTCGAAGAGAAGGAGAACGGATACTTCCGGCGACGATTCGACTTTCTTCTCCCGTCCGGCGTGCTGCAATTCGAGAGAAAACCCATACTTCCGCGAGAAAACACATCTTCTCCGTCGAAAATGGTATTTTTTTTTCTTATCGAAACGTTCCGATTTAGCACGATTCGCACGATTCAGAACCCTGAATCGTGAATGAGATTTGCGATTCAAAACCACAAGTTGAATCGTTTTGGCTCGATACGTATGGTAGGATACGTATCGCGAATCATACGTTTTTAACAACCTTAGATGTCTCCGCTAATATGCATTTATGTTTGGAGGGTGACTTTTATTGACTATTATGATTTCATGGCCATAAAAAACGCACAAATCATATCCTTATGATACGGTTTTGTTGCATATGATGAGCTATCTGCCTCCTCATCCCACCTTAATTCTAAAGCAAGTTTGAGATGGATGATATTTTAAAAGTAAGTTTAAAGATCCATCAAAATACAAGTCCTCTCACTTATTGTTAGGAACTTTAATCACTTTCTTTCCACACAGATGAAGATCAACAAATTAAAACCGAGTTGCAGGTACTCGCACTACATCATATTGATTTTGATTTATGCCAAAGAGTCATCTCCTCAAATGGAAATCTCAGCCAGGAAATCCTATCTTCTATCGATAAATAGAGACTGAGCTATAAAACTGTAAAAACTTCAACCATCTCAAATATCAGGAGAAAGATAAATGAATACAATACCTGTATCTGTGACTTTTCATTTTCTCTCATCAAAAGGAATTGTCATACTCCACTTTTCAATTTTCTTGTTTGTGCTTCTTTTGCAAATTTCTCTAGGTGGGACTGAGACTGTCCCTTTCTAAAACTCCTTCATACTTCTATAGAAACTTTACATGTTTCTAGAAAGTGAATAGGATTAAGGATCAATTGGAAAGGCAAGGAAACATTAAACTACTATGGGGACTTGTGAAATAAATTAAGCGCAAAATTATAATAGAGAATGATTGAGCATTTCTTGGCCATGTAACATAGAGAGAGCACAAATAAGTCGCTTCATTGACAAATTACAAGTTCTTAGAGTTTTTCAAATTTAATATATTCACCGAAATTATTTTCTATTGCTGTTGCTCTTTTTGTCAGTATGATTTGCTGATGTGCAAGATGACGTTTGCTAATTTTTTTCTGCTTCTCTTGTTTCTGCTGCAAAGTAATGAGATTCATTCACTTCTTAACTTGATCCACCTTTTTCTTTATGTGAATTGAAGTACATAATTTTGTTATTGTAGGACACCACTATGAAGAGCGTGTTGGCGATTACAGATGACACTGTTCTGGCTACAAGCATCATTGTTAATGCTTTACAAGAGCTTGGGAATGAATATGTTGGGAACTGTGGTTCCCAAATAATCACTCAAGCCTTTTCTCTAAGTAAGTTTTTTATGCCTTCTCATGGGCTGTTCTATTTTATGCCTTCTCATGGGCTGTTCTATTCAACGCTTCACAATTTGATATTTAGTTCAACGGGCTTGTGCATTTTGCATTTCATTTTGAACTTGAAGGTGTAAATTGATGTGATAGTGATGACATAAACTTACCAACACGGATTTATTTCCTTGTTTTAATGAAATATTATGTTTTCTGATTTCTCAAAATAAACAGCCTTACTGATATCTGATAAGTGATTTGAAAGGATAAAGAGATGTTATCATCTTCTGTTATATTATCTTTCAAAATTAAACTCTCTCACACACACATTCACATATACACTCTGCATGTATGTCAAATTCTTACCATACACATATGTGTAAGACCCCTAGTTGGGGAAACATTAAGATTATTAGTATGGTCGTTAGGAGGGGTATATTAATAAATAGCTTGGAAGTTTGTTAGGGCTTTTGAGTTATAAACAGAGGGAGTGAGTTGGGAGCAAGGTGGGAAGGATTTGGTAGTATTTTCCAGTTGGGGAGTGTGGGAGCGAGTAGCCCTCTCAAAAGGCATGGTATATTGTAGTTTCTTCATTGACTCTTAATTCCCCCCTCCAATCTCCTCCTTGTACTTATGTGTTTTCTTGGTCTCATGCACATGAGGAGTTGATAGGTTCTGTTATGATATAATTTGTGTTATTGATAGTTGTTGTTTTGTGATAGATAAGCTGCCACTTGAAGCATCATCCATGGATGTTATCATTTCTATTTGTAGATCTGATTTTCCAAGTGATCAGTTCTGTGAGGATATCTCAAGAGTTTTGAAGCCTGATGGTATAATCCTTATTCACAAGACTTCACAGTCTGTTGCAGTTAAGAAAGATGAGGTAATTACTGAATATCTAGTAGTTTTTCACATCTAGAATTTTGATACAGAGATAGATATATTACTAATTTTTTATATTATTTTATTTTTTGCAGTCCCAGGCCATGTTGAGAAGATTACTTTTGGCAGGCTTTCTTGAAGCTCAAGTAACAGAAAAGAAATTAGTTTCTCCATCTGATGTAGGGAATTTCGTGGTAAGATTCAGATCATCTAGTTTAGATTCTTTAGACAGCCTCCCCTCCATCCCACCAACTGAAGAAACCACTACCCTACATTTTAGCAATGTTGAAAATGAGTGGTAATTTATGACCAAATACTGTGTTTCATGCTGCTTCCATCAACTTCTTTATGTAAAGATGATTAAAAGTCATCTTGTCTCCATGATCTGTTTAACTTTAACCATTTGGTTTTACCCAATTCATTGTTTATTTCTGTTTTGACTTCTTGTAACAATAAATATATTCGTTGTGTTCCTTCTTTGTACATAGATAAGAGCCAAAAAGCCTTCTTGGAAGATTGGCTCCTCTTTTGCTATTAAGAAGCCTGCAAAAAGTTTACCAAAGATTCAGCTTGATGATGATTCTGATTTGATCGATGAAGATAGTTTATTGACTGAGGAGGATTTGAAGAAACCCCAGCTACCATTAGGTAAATGATGAAAGGCTTGACATATATTATATATTAATTTTCGGTTAAGTTACAAGTTTAGTTCTTGAACTTTTAGGTTTCTGTCTTTTTGATCATTGGACTTTCAAAAATGTCTCATAGTCATAGGTACCTGTGATTTCAATTCTGTTTCAAATAGGTCCTTGGGCTTTAATACCTAATTGATTCTTAAACTTTCAATTTCATGTCCATCAAGTTCCTAAATTTTAGAAAGTATCTAATAGATTTTAAACTTCAACTTTGTGTCCATAGATCTTTGAAATTTTCAATTTTGTATTGAATAGGTCCTTGACATATTCGAGATATTTTTTTAAAAATAAAGATCCATGTATCTTCTAAACATAAATTTAAACTTTAGAGTTCCATAAGACATATAATTCATTTTTATATCTAAAAGATTAAATTTTTGTTAATTTTTTTAAAAAAATTGAATAGATTAGGGATCTATTGGAAGTTTATGATCTATTAGACACAAAATTGAAATTTTAGAGGCTTTTTAGACACAAAATTGAAAGTTTAAGACCTATTAGACACTTTTGAATGTTTAGACACTAAACTTGTAATTTAACCCTAATTTTATTTAGTGGAAGGCAGTATTGGTTACCATTTATTATTTAATTTTTTGTACAGTGGGTGATTGTGAAGTTGGCAGCACTAGGAAAGCTTGCAAGAACTGCACTTGTGGCAGGGCTGAAGCAGAGGAGAAAGTAGAAAAACTGGGATTGACTTCAGATTTGTTGGAAAATCCTCAATCTGCATGTGGAAATGTAAGTAAAATATACATTGTAATCATATTTATCGAGTGCATTTTTTGTTTATGGATAGGATCTATTTACTTTGAAATGGCACCAATTGTTGATTATCCTTGTGTTTTTATGGGAAGTGAGATCATTCGTTTCTTCCACTAGCGTTTTACCTCTGTTCAATCAATTTGCTTTCACTTGCAATTCATCTACCTTATTATTTATCTGGACTGGGAAATGCATGTTAACATTAATACAACTTGCAGTGTGGACTGGGAGATGCTTTTCGGTGCAGTACGTGCCCATACAAGGGTCTACCAGCATTTAAACTTGGGGAGAAGGTAGGCAAAATCTTTATAACTCTTCACATTTTTATGTGGTTATGAAAATATTACATCACAGGGTGGGAGGATTTGAACTTCCGGCCTCTGAAGGGAGCAGAGATGCCTTGACAGTTTCCTGACTACTAAGTTTCCTTTTTCTTTTTTTTCTTTTTGCATGCAGGTGTCACTACCTGGGAATTTCCTTGCTGCCGATATATGATTTCTTTTTCTTTTGGGGTTGGGGGGGTGGGGGGGTTGGAGGATGCTCTGATTTTGATATGCCATGTATTTTGAACATCTGATGAATGGTTTGGTCCAATGGACAATTGTATACCTACAATCCGTACTAACTCATTAGTCTTCTACTACTTGAAGGAGAAATATAATTGATAAGACAAAACTAGTTTTAGTTCCACTGCTTTTCAATAAGATGCCAACCACTTCTCCATTATGTTATTGACTTAGAAACTACGATAAACAATGTAATTTTACCAATGGCCAGGCATGTTTTTAAAGCCTAGATGAACAGCCATCAATATATATACCTATGTATGTATATATTGCTTGTTATCTATGCATTAGATTTTCTAAGCTCCAAAAGCCTGGACCACCTCTTGTCTATAGATGCAGCGTTCTGTGCCCCAATATCTGCAATGAACATATCTCAATTAGTCCCAACATTGATTGCAAGTGGAAGCTTGAGTGACACTTGACCACTTACATTGCACTGTGGGTTGAGATTTCTCACACAACTCTGAGCAAGTGTCCTGGAAGAGGTATGCTGTTTGTTAACTTCTTCTAATTGAATCTTGGTAGTAGTTAGATATAATGGTTATTCATAACTAGCTCAATTCTATTTGCATTCAACTTCTCACCTTGATTGAGGTGTTAAGCCTAATTGTGTCACGTACCAATGAATCTAGATCGGCTTCAAGTCCGGGTTTAACGTAGATCACCTGTTAAGTTTAAGAAGGGTGTCAGTTCTTAGTGATTGAAGTAAGAAATGCAAAAACTTCAGAAACTCACCGATGGATCATCACCTCCAATATCTGGAAGATGAATCTCCCTGTTGGCTCTGTTTGATGACAGAACCAATACATTAAAATTTGCATTGATCTGTTTGATTAAGATAATTGTATGTGTTAGAACTTTGGTTGGAATGTTGCTGAATTCATACCTCTTCGATAGACGAGATAAAGATGACAAGGAAATTGTGAAAGTTTATCATACTTACGAATCTAATAATTGCACCCTCAAATTTTGCAATTGCACAAGTAAATACAGTTGTGGAAGTAGAATTATACGTTATGTGATATTATCATTTGTTTGGTTGTTTAAACAGTGCTACCTCTCTGCAGTATGGCAAAGAACAGGTACAGCACTTTCGAGTGAATGATGTGTTGATCTTTCCATCCACGGTGAACCCGAAACTTGCATGCTGGTAAACAAAGGGAAAGTTAGTATTCTAGTAATCTGATAGATCATTTTGTGTAGATATGCTTGAATTCTTTAAATAGCTTCAAAAAGGATTGTTCAATATCTATTCTCTTTGAGCTGAGAAATGGACTCTTCAGCAAGCATGCTCCTAAACAAAAAATAAAAAGAGAGAAGATTCTCTTTACCACATTCCTTATTATACAACAGTCCTTTTTCTCTCTCCAATACACTCATGTCTCTAAACAAAAGTCTCGTTCTCTAAAAAAAGTTTCTCTATCCCTCTCGGGCTCTCCAACAATAGTTCTCTCCGAGATGTTAATGGAGATGGATCCATTGTTAAATGTTGGAGTTGGATCGAAGTTGTGTTCATTAAATGTTATACATAAAATAGATTTTTGGGGGGGAAAAAGTATTGAAATTACCTTCTCAATACAGAGGTTGATGAAGACGTGTGCATTTTTGTGTTCATCTTCTACCAAGTCTTCTAAGTTAAGGTCTTGCAGGGAAAGCAGGTAATCACAGGTCCATTTCCCCTGCCATCTGCTTCCTGATGTTGATATTGTGATTAGACGTCTTGACGTTTTGTTGCTTCTTCTCTTCATTAGAACAAAAAAATCTTGAGATGGAAAGGAACTGTATGAAGAACTATACTTTCTAGAGACATTGATAGTATAGCAAAAAAGTAGAAGAAGCCAGAAATTAGAAAGACCAAGCCAAGTTTTTCTTTCCATCATCAAATAGGGAACTGTGGAAAGATAAAACTGTTTAGATAGATAGAAGAGGGAAGAGTGTTTGAAAATGGAAGTCTGCAGAAATCTGAAAGATGAAAAGGAGAAGGTGTTTACCAAGGAGATGTCATTTCTCTTTGAGGAAGCCTTGATTTTGAATGTTTGAGTTGCAGATTTAGGTGCAGATCTGTTGAATGAACTTGAAATGGAGTTGATATTTCTAGCTGTTACAAGGTGCCCAGCTTCTGCCATTTCTCTGTTTCTTCACTCTTTGTGAATGTGGAACTTCATTGTGAAACATACTTTTAGTCTAGAGTTGAGTGATTTTAAACATGTGAGTGAGATAGAAACTCCCGTCCCGTCCGGCGACGATTCCACATTCTTCTCCCGTCCGGCGTGCTGTGCCTCGAAGAGAAGGAGAACGGATACTTCCGGCGACGATTCGACTTTCTTCTCCCGTCCGGCGTGCTGCAATTCGAGAGAAAACCCATACTTCCGCGAGAAAACACATCTTCTCCGTCGAAAATGCAAGTTTGAGATGGATGATATTTTAAAAAAAGTGAATAGGATTAAGGATCAATTGGAAAGGCAAGGAAACATTAAACTACTATGGGGACTTGACACCACTATGAAGAGCGTGTTGGCGATTACAGATGACACTGTTCTGGCTACAAGCATCATTGTTAATGCTTTACAAGAGCTTGGGAATGAATATGTTGGGAACTGTGGTTCCCAAATAATCACTCAAGCCTTTTCTCTAAATAAGCTGCCACTTGAAGCATCATCCATGGATGTTATCATTTCTATTTGTAGATCTGATTTTCCAAGTGATCAGTTCTGTGAGGATATCTCAAGAGTTTTGAAGCCTGATGGTATAATCCTTATTCACAAGACTTCACAGTCTGTTGCAGTTAAGAAAGATGAGGTAATTACTGAATATCTATCCCAGGCCATGTTGAGAAGATTACTTTTGGCAGGCTTTCTTGAAGCTCAAGTAACAGAAAAGAAATTAGTTTCTCCATCTGATGTAGGGAATTTCGTGGTAAGATTCAGATCATCTAGTTTAGATTCTTTAGACAGCCTCCCCTCCATCCCACCAACTGAAGAAACCACTACCCTACATTTTAGCAATGTTGAAAATGAGTGCACTAGGAAAGCTTGCAAGAACTGCACTTGTGGCAGGGCTGAAGCAGAGGAGAAAGTAGAAAAACTGGGATTGACTTCAGATTTGTTGGAAAATCCTCAATCTGCATGTGGAAATTGTGGACTGGGAGATGCTTTTCGGTGCAGTACGTGCCCATACAAGGGTCTACCAGCATTTAAACTTGGGGAGAAGCTCAATTCTATTTGCATTCAACTTCTCACCTTGATTGAGGTGTTAAGCCTAATTGTGTCACACGTCTTGACGTTTTGTTGCTTCTTCTCTTCATTAGAACAAAAAAATCTTGAGATGGAAAGGAACTATTTAGGTGCAGATCTGTTGAATGAACTTGAAATGGAGTTGATATTTCTAGCTGTTACAAGGTGCCCAGCTTCTGCCATTTCTCTGTTTCTTCACTCTTTGTGA ATGTGGAACTTCATTGTGAAACATACTTTTAGTCTAGAGTTGAGTGATTTTAAACATGTGAGTGAGATAGAAACTCCCGTCCCGTCCGGCGACGATTCCACATTCTTCTCCCGTCCGGCGTGCTGTGCCTCGAAGAGAAGGAGAACGGATACTTCCGGCGACGATTCGACTTTCTTCTCCCGTCCGGCGTGCTGCAATTCGAGAGAAAACCCATACTTCCGCGAGAAAACACATCTTCTCCGTCGAAAATGCAAGTTTGAGATGGATGATATTTTAAAAAAAGTGAATAGGATTAAGGATCAATTGGAAAGGCAAGGAAACATTAAACTACTATGGGGACTTGACACCACTATGAAGAGCGTGTTGGCGATTACAGATGACACTGTTCTGGCTACAAGCATCATTGTTAATGCTTTACAAGAGCTTGGGAATGAATATGTTGGGAACTGTGGTTCCCAAATAATCACTCAAGCCTTTTCTCTAAATAAGCTGCCACTTGAAGCATCATCCATGGATGTTATCATTTCTATTTGTAGATCTGATTTTCCAAGTGATCAGTTCTGTGAGGATATCTCAAGAGTTTTGAAGCCTGATGGTATAATCCTTATTCACAAGACTTCACAGTCTGTTGCAGTTAAGAAAGATGAGGTAATTACTGAATATCTATCCCAGGCCATGTTGAGAAGATTACTTTTGGCAGGCTTTCTTGAAGCTCAAGTAACAGAAAAGAAATTAGTTTCTCCATCTGATGTAGGGAATTTCGTGGTAAGATTCAGATCATCTAGTTTAGATTCTTTAGACAGCCTCCCCTCCATCCCACCAACTGAAGAAACCACTACCCTACATTTTAGCAATGTTGAAAATGAGTGCACTAGGAAAGCTTGCAAGAACTGCACTTGTGGCAGGGCTGAAGCAGAGGAGAAAGTAGAAAAACTGGGATTGACTTCAGATTTGTTGGAAAATCCTCAATCTGCATGTGGAAATTGTGGACTGGGAGATGCTTTTCGGTGCAGTACGTGCCCATACAAGGGTCTACCAGCATTTAAACTTGGGGAGAAGCTCAATTCTATTTGCATTCAACTTCTCACCTTGATTGAGGTGTTAAGCCTAATTGTGTCACACGTCTTGACGTTTTGTTGCTTCTTCTCTTCATTAGAACAAAAAAATCTTGAGATGGAAAGGAACTATTTAGGTGCAGATCTGTTGAATGAACTTGAAATGGAGTTGATATTTCTAGCTGTTACAAGGTGCCCAGCTTCTGCCATTTCTCTGTTTCTTCACTCTTTGTGA MWNFIVKHTFSLELSDFKHVSEIETPVPSGDDSTFFSRPACCASKRRRTDTSGDDSTFFSRPACCNSRENPYFREKTHLLRRKCKFEMDDILKKVNRIKDQLERQGNIKLLWGLDTTMKSVLAITDDTVLATSIIVNALQELGNEYVGNCGSQIITQAFSLNKLPLEASSMDVIISICRSDFPSDQFCEDISRVLKPDGIILIHKTSQSVAVKKDEVITEYLSQAMLRRLLLAGFLEAQVTEKKLVSPSDVGNFVVRFRSSSLDSLDSLPSIPPTEETTTLHFSNVENECTRKACKNCTCGRAEAEEKVEKLGLTSDLLENPQSACGNCGLGDAFRCSTCPYKGLPAFKLGEKLNSICIQLLTLIEVLSLIVSHVLTFCCFFSSLEQKNLEMERNYLGADLLNELEMELIFLAVTRCPASAISLFLHSL Homology
BLAST of ClCG10G011850 vs. NCBI nr
Match: XP_038906101.1 (anamorsin homolog isoform X1 [Benincasa hispida]) HSP 1 Score: 340.9 bits (873), Expect = 1.6e-89 Identity = 184/268 (68.66%), Postives = 204/268 (76.12%), Query Frame = 0
BLAST of ClCG10G011850 vs. NCBI nr
Match: KAG6581324.1 (Pto-interacting protein 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 339.7 bits (870), Expect = 3.6e-89 Identity = 183/270 (67.78%), Postives = 207/270 (76.67%), Query Frame = 0
BLAST of ClCG10G011850 vs. NCBI nr
Match: XP_008461871.1 (PREDICTED: anamorsin homolog [Cucumis melo] >KAA0052756.1 anamorsin-like protein [Cucumis melo var. makuwa] >TYK04200.1 anamorsin-like protein [Cucumis melo var. makuwa]) HSP 1 Score: 337.4 bits (864), Expect = 1.8e-88 Identity = 187/263 (71.10%), Postives = 200/263 (76.05%), Query Frame = 0
BLAST of ClCG10G011850 vs. NCBI nr
Match: XP_038906102.1 (anamorsin homolog isoform X2 [Benincasa hispida]) HSP 1 Score: 334.3 bits (856), Expect = 1.5e-87 Identity = 181/264 (68.56%), Postives = 200/264 (75.76%), Query Frame = 0
BLAST of ClCG10G011850 vs. NCBI nr
Match: KAG7018046.1 (Anamorsin-like protein [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 331.6 bits (849), Expect = 9.8e-87 Identity = 179/264 (67.80%), Postives = 202/264 (76.52%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy Swiss-Prot
Match: D1I234 (Anamorsin homolog OS=Vitis vinifera OX=29760 GN=VIT_01s0010g01180 PE=3 SV=1) HSP 1 Score: 223.4 bits (568), Expect = 4.9e-57 Identity = 133/264 (50.38%), Postives = 170/264 (64.39%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy Swiss-Prot
Match: B9RBT0 (Anamorsin homolog OS=Ricinus communis OX=3988 GN=RCOM_1680640 PE=3 SV=1) HSP 1 Score: 221.9 bits (564), Expect = 1.4e-56 Identity = 137/271 (50.55%), Postives = 166/271 (61.25%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy Swiss-Prot
Match: A9PBH9 (Anamorsin homolog OS=Populus trichocarpa OX=3694 GN=POPTRDRAFT_761104 PE=2 SV=1) HSP 1 Score: 206.5 bits (524), Expect = 6.2e-52 Identity = 126/264 (47.73%), Postives = 162/264 (61.36%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy Swiss-Prot
Match: Q8L7Z3 (Anamorsin homolog OS=Arabidopsis thaliana OX=3702 GN=At5g18400 PE=1 SV=1) HSP 1 Score: 193.0 bits (489), Expect = 7.1e-48 Identity = 110/262 (41.98%), Postives = 155/262 (59.16%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy Swiss-Prot
Match: C6TKZ5 (Anamorsin homolog OS=Glycine max OX=3847 PE=2 SV=1) HSP 1 Score: 193.0 bits (489), Expect = 7.1e-48 Identity = 122/251 (48.61%), Postives = 159/251 (63.35%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy TrEMBL
Match: A0A5A7UEZ2 (Anamorsin homolog OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1856G00280 PE=3 SV=1) HSP 1 Score: 337.4 bits (864), Expect = 8.6e-89 Identity = 187/263 (71.10%), Postives = 200/263 (76.05%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy TrEMBL
Match: A0A1S3CH18 (Anamorsin homolog OS=Cucumis melo OX=3656 GN=LOC103500365 PE=3 SV=1) HSP 1 Score: 337.4 bits (864), Expect = 8.6e-89 Identity = 187/263 (71.10%), Postives = 200/263 (76.05%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy TrEMBL
Match: A0A6J1J7B2 (Anamorsin homolog OS=Cucurbita maxima OX=3661 GN=LOC111481901 PE=3 SV=1) HSP 1 Score: 331.3 bits (848), Expect = 6.2e-87 Identity = 181/272 (66.54%), Postives = 203/272 (74.63%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy TrEMBL
Match: A0A6J1F8U3 (Anamorsin homolog OS=Cucurbita moschata OX=3662 GN=LOC111441879 PE=3 SV=1) HSP 1 Score: 329.3 bits (843), Expect = 2.3e-86 Identity = 178/264 (67.42%), Postives = 201/264 (76.14%), Query Frame = 0
BLAST of ClCG10G011850 vs. ExPASy TrEMBL
Match: A0A6J1KEF3 (Anamorsin homolog OS=Cucurbita maxima OX=3661 GN=LOC111493098 PE=3 SV=1) HSP 1 Score: 317.8 bits (813), Expect = 7.1e-83 Identity = 176/264 (66.67%), Postives = 198/264 (75.00%), Query Frame = 0
BLAST of ClCG10G011850 vs. TAIR 10
Match: AT5G18400.1 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 193.0 bits (489), Expect = 5.1e-49 Identity = 110/262 (41.98%), Postives = 155/262 (59.16%), Query Frame = 0
BLAST of ClCG10G011850 vs. TAIR 10
Match: AT5G18400.2 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 193.0 bits (489), Expect = 5.1e-49 Identity = 110/262 (41.98%), Postives = 155/262 (59.16%), Query Frame = 0
BLAST of ClCG10G011850 vs. TAIR 10
Match: AT5G18400.3 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 193.0 bits (489), Expect = 5.1e-49 Identity = 110/262 (41.98%), Postives = 155/262 (59.16%), Query Frame = 0
BLAST of ClCG10G011850 vs. TAIR 10
Match: AT5G18362.1 (Cytokine-induced anti-apoptosis inhibitor 1, Fe-S biogenesis ) HSP 1 Score: 60.1 bits (144), Expect = 5.1e-09 Identity = 26/40 (65.00%), Postives = 30/40 (75.00%), 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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