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Clc10G11780 (gene) Watermelon (cordophanus) v2
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.CTCATTGGGCATTTTCGCACAATTTCCCACCAAATTCACACTTCGCTATTTCACTTTCGTCCTTGGAACAGCGATTTTCGCAATCTAAGAAAAAAATGCCGCTGAAGGTAGTGGACGCCACCGTCTCCGACTTCGGTGCTGTATTCGACAAATTCCGATCAGAACTGCCAAACCATAAAGCTAATTTCATCCTCTTCTTGGCCGACAAAAACCCTTCCACCTCTCTCAGCTGGTGTCCTGGTATGTTCAATTTCTTTGTCTTTTCCCCCGCTTTTCTGTTACTTCTGAAGAAATTTGGTGGATCCTGTGATTGCCCATCTCGAAAGGAAAATGAAAATCATAAATGTTACGTCATTGATGTCTTCTTGCATTTTTTTTTTTCTTTTAATTTTTAAATGGAAAATTGTTCTAATTCTGGTTCTGTCATTTTTCCTCGATTGTGATTGCTCATGTTTTGCCTTTCTTCATGTGCGAGTTTCCCTTTCAATATTGAGCAAATAACTGTAAAATTTTGTTTGAAGTCCTCAAGTTTTCCCAATCAATTGGAGGGAGGGATGTTGTTATGACTATATGTCCAACTGTCTATCTATGAAATTATATTTTTCTTACCATGCAATGGAAAATATTTGAAGTTGGAATTAATTAATTAATTGAAGAAATTATTCTAGAGAATTGGGTTCTGTATTTGATTTATAAGATTCTTTATCATGGGCATGATACTGAGAATCAAAACTTGGAGGGGTCTTTAGTGATTCTGCATTTGTGAGTAAACTAGGAAGAATTTTTTTCAACTTTGCTTACGTTTAGGTTGAAGGATAAAGTCTCCAAGAGTACGAACATTTTGTAGTTTGAGATTTCTTAGACCATTCCTAGTTCACACTTTGAGCTTTACAAGTATGATGCAGTGTCTGGATGGAAACATCACGATAGTATTTGGTGCATTGCAAGTTTGGATTTAAGAATGCTTATTTTGTACATTCGGTATTAAGTGGCATGTACAAACTAACCGTCCTACTTTTCTGCTTCGTCAACAAAAAGAGAGCTTAGGTTCTGTCCTTCGAACCAGAAAAAGCACGGTCCATTCAATGCTGTTTCGAGCTTCTACTTGCCTTCTATTTCTCGCAGTGTTCTTCGCTTCAGCCTACTCTACTCCTGACCCTGAAGAGCCTCGTCTTGTTGTCTCTGAATCCACGACTATACAACTATCTCATGGCTTGCCTGTGAAAAATTCTCCAGGTTCCAGACCAGGAACTGTGGTGGTTTGTGAAAGAGTATACATACAAGGATTACCGAGGTTTAAAAATCTTAGGAAGGTTGCACACACAGTGAAAGTGAAGGTTTCAATGAGAAATTCGAGTTCTCGAATACCAAACGTTGAGGTTTGTTTTCACAGGAATATGTCACTTGGGACAGGAATGTGTCCTCAAAGTCAGTGGGAGAAAGTTGTCAAAGGTTCTTGGGCTCAATCCATGTCACCGTTTGACCACAAGCTTTTAGATATTAGAACATCTGGGTTATCCTTGGAAAGTTTTGAAGTATCAATTGAAGAAGAATTCTTTTTGTATCGCATAATCTTTTTAATCCTGGGTGTGGTGTTGATGAGTTCAGCCTCCATACTGAGCAAGTCGTTGGTATTCTATTACGGCAGTGCTATGGCAATTGGAATTCTTCTTGTAGTGTTAATGATCCTTTTTCAGGGGATGAAGCTTCTTCCTACTGGTCGGAAGAGCTCACTTGCAATTTTTCTATACGCATCTGCAGTTGGTCTGGGATCTTTTCTCCTTCGTTACATACCTGGATTATTGCATCAAATACTTTTGGAAATGGGTATAAGTGAGGACATGTATAATCCTCTAGCAGCATTTTTGCTGGCTTTTATTTTTCTGATTGGAGCATGGTTGGGCTTTTGGGTAGTCCACAAATTTGTCCTTGACGAAGATGGATCAATTGATACAAGTACATCACTTTTTGTCACACGGTCCATTCGAATTTTGGCTACTCTTCTTATTCTCCAGTGTTCCTTGGATCCCTTGCTGGCAACAGGAGTTCTAATATGTGGAATAATGGCTTCATCAATGTTGAGGAAAATCTTTAAGTTCAGATTTCTTCGTCGCTTATACAAGAATTTCTTCAAATCTCCAAAGAGAATACCCAAGAGATCTCATATCTCTAATATGCCACGTTTGGATGATTCTGATGATGAAAGCACGTTGAAGACTCCCCCGCTTTATGAAGACCCCAGTTTCTATAGATCTCAAAACAAAAACTTCTCGCTTCAGTCCTGCAATTCTTCTAAACGTGGTGATGTATATCCTTCAACATTCCATTCCACACCTGAACGGAGAAAATTTTCAAAGGATGAGTGGGAAAAGTTCACCAAGGACTCAACTAAAAAGGCTTTAGAAGGACTAGTTTCTTCACCGGATTTTAGCAGGTGGCTTGTGGACAGTGCAGATAGAATCAGCATAACTCCCCAAAGCAGAAGAGCTGAGAAGCGTCAAAGGTGGCTCCGTTGGTTCTGATTGGTTCTAGGTCAATTACTATGCTGTAAGATTACATGAGTAAAACATGCGGCTGCCTGCATGGTTATTATGACTTTTCTGGAAAATTAGGATGTGTTTAGACAAATTGATCACACCCACTAACTTGAATTTCCGTGTACGTTAGATCATTATTCATCACTTAAGTTTAGGGTACTTAGAGACTTATCCGTTGGTGTAGATTTGCACATTTTTAGCTTTTTAATGGAAGAAGCATGTTAGCACTTCAAAAGTAGCACCTACAAAATGTCGTATGCCCTCGAGCATAAGGGGATCTTGTTTCACAGCTTTTATGTCGTCATTCTCTCCATTATTGCCATAGCCTATGCCCTTAAGAATATTGCAGCAAAGGCTATTGGTTAGGTTCCTTTATTTGTTTGATATCTTGTAAAAGGTAGTGCCATGATTCTGTGATATTCCCCCCACATGGCCATGCGAAAACGTTGTTGCAGCATCATCTAACTACCTATTATGGATCACAGAAATCAATGAAACTTATAATTCTTTTAAGGTTAAATTACAAGTTTGATTCCTTCCTTTCATATATGTGTCTAATAGGTCTTTTAAATTTTCAATTTTGTGTCAAATAGGTTTCTTTTTATTTATGGGAAACATAAGTTTTTATTGATGAGATGAAATTACCAAAGATAAAATCCTATCTAATGGACTACAAAAAATTTCTCCAATTGATCATGAGATTAGACAAACTATACTTACAAAATGGAGGATTCAATAGGCGACCTTGAGGCTTTTTCTCTAGAAGAGGCAAGGTGTAAGCTTTAAATAGTGAATAAAAAATATTTTAATAATCTTAAATTGGTATGACCAAGTACGACTAAACATGATTGTCATATAAAAGTGTAAAAAAAAAATTAACCCCCACAATTTTCACTTAATCAAAATTTCTAAAAGGATGTTTTTTATCATTACTACTACTATCATTAATAGGATTAATTTATACTATAAACTTTTACCTTTAATGTTTTTAAAATCGCAACAGTAAAAGTAGTCTTAAGTCAAATTGTCACAACTCAAACCTTAATATTTTGAAGAAGCTAGGCAAATCACTATTATTTTTCTAATCACTAGATAAGTCATGTAGATTTTAAGCCTTGATACATTTTCATAAAGCCGTAAGCTTCTTCTAGAATTTTGCCTCAAGGCTTTGCTTTTTGAAACATTGGGTAGATATGAGAAAGGTTTGGTAGTATTGTTACTTATCTGGAAAGATACGTGAGTTTCTCACAAGTCAAGTAGACCATAGGTATGCCCGGTGAAATTTAGCCAAGAATCTTCCTTTCCTTTTTCAAATGATGATCGTTGAATAAGAGGGAGAGGATCTATCGAATATGTAGAGGAAGAGGAAGAGCTGTTTGCGAACCAACTTCACCGAAAATGAAATCCCATATATATCTAGCTCGCTGACACTATAAAAAATTGGGTTTAGGTTTCCTTGGCAGATTTACATATAATGCAACAGTTTGGAGACATGGAGATCCAGGGCGGCCATTTCTGTAGCTTATCCTGTGTGTTCGGGTAACTGTGGCTCAATTCCCAATTGAAGAACTTCAACTTTTTAGGATAATGGAGTGATAAGGATTTTTGAAACTCAAATCACCTTTTGTAGATAGTGAATCTGTAGGGGGTTTGGTAGAAAAGGCTCCATTTTCCTCTGAATTTCAGCACCAAACATTAATAGATGCTTTAACTTTAAAAATGTCAAATAGGTCATGAACTTTTAAATTTGTGTCAGACATTAGTAGGTCTTTGACACATTCAACATTTAAAAAAATAAAAAATAAAAAATCTATTATACATAGAATTAAGTTGCTCCTTATTGATCAATGATCATTAAGTTTTTGTTTGTGTTCAATAGGTTTGTGAATTTTAAAAAGTGCTTAATACGTCAATGATCTATTTAGACACAAAATCAAAAATTCAAAAAATCATTAGATACGAAGTTGAAAGTTTAGAGATTTATTAGGAACTTTTTATAGATCAAAGAACTTTTTGGATTCAAAAGTGAAAGTACAGAGACCTATAGAAAATTTTCATAGTTCATAGACCTGTTAGAAACTTTTATGAATCTAAAGTTCGAGGACTAAACGTGTAATTTAACCTTCTTCTTACAGACAAGTATAACATTTTATGTACCGTCGCCATTGTAAAAAAATGATTTAATATGGGTGCGTCAACGTAGCTATCCTTTCTAATCTTTGGGTGTCATGAACCATACTAAGTTGTCTGACACATTGTTCTACCTCCTCAAATAGCTTATCGCTACCTTGATCTTGCAAAAAAACCACGGAAATAAAGAAGGAACATACATTTTCCATTAAGTAGTTTTCTCCCTTATACAAAATTCTGGACTAGGCCTGGGATCATCCTTCTTCCACAATTTCAATCTACTCGCATCTAGTCAATTAAGAATTCTCATATTGTATTAGTGCTAGCAAGTACAGGATGCAATCATCAATTCTCTCAAGAGATCTTAACTACAGTTTGGTTTTTGTGTCAGACTGTGTGAGAGCTGAACCAGTCATCTACAAAAAACTGGAAGCAGCGTCAGATGATATTGCACTTTTGAGAGCCTATGTTGGAGATAGACCAACATGGAGGAATCCCCAGCATCCATGGAGAGTGGATTCTAGGTTCAAGCTTACTGGAGTTCCAACGCTGGTTCGATGGGACGAGAATGATAAAATCAGTGGTCGCCTTGAAGACTATGAAGCTCATTTGGAGAACAAACTCGATGCCCTTATTGCTGGTAAATAATTGTTTGTCTGTTCGATAAGACATGTGGGATTCCCTTTCCCAACTTAACATGCCTCATCTTTTTCTGTTCTTGAGGAACTCTTGTGTGATATCTCTGTTAGATTGGTTGACGATTATATAGTTATCTCATAAATAAAGTTACTGAAGAGTTCAATCACAGCCATTTACTTATAGGAAAAACAGAAGAAAATTCTGTTTCCTCTCTTTTGAATTCATCTCTCCTAGTTGTAAAAAATGTAATGGTGGACAGGAGATTCTTGCTTGCCTACCGGTTATGAGGTAAGTATTATTTCTGTATAATTTTCCCTAACTTAATCTTTGTAGAACACTTCTTTAACATTCTCCAATTATTCTAAAACATTAGGGTTAAATTTTCAACTTTAAGGTAGGTTTCAATTAAACTTCTAAACTTTCTGCAAGTTCCGTTTGAGTCCTTAAACTTTGAAGTCATAACTCAAATAATTATTATTACCCTTCATTTTAACTTAAAAGCTATCATTGATATCATTTTTAACATCAGTCACAATATCAATTCTTTCACAACTCGTATGTCATTTTATATGAACAATGTTGTACATGATATTAGGACAATTCTTACATGAGAATAACATGTTAGGAAATATGTATCCGACATTAAATGTTTGTCATGGAACATTTATTCTCTTGAATAAACGTAGATTTTCAATGATGGCAATGCCCATCATCCTTTTCTTAATTATTTATTTGAAAATATAAGTTGCAACCATGACTAACAAACAATGTTTTTTCTTTTTCAACCTATATGTACAAAATAAAATCTTGATGGTATGGTATTTTTACTCAGATAAACATAACTTTTAAATACAACAATTAATGCTTCGTTTGATAACCATTTTATTGTTTGTTTTTGTTTTTGAAAATTTAGCCTATTTCTTCTTCATTTCTTACATTGATTTGCATCTCTCTTAAGAATAATAGTTGAATTCTTTGTCAAATTCCAAAAAAAAAAAGCAAGTTTTTAAAAGCTATTTTTTTTAGTTTTCAAGTTTTTGTTTGGTTTTTTAAACCATTGGTAAAAAGTAGATAAAAAAAAATAAATTTGAAGGTAGAAGTAGTGTCATAGACTTAATTTTCAAAACAAAAACAAAAAACAAAATAGTTACCAAAACGGGGCTTAATTAATTCCCTCATAATATATTATTTTTAAACAAGCTTGAAAGTATTAGAGGATGCAATTTTTCTAAATTACCAATTTCCCATTTGTTCCATCAAATTTTACAATGTTGTTGAGTTGTAAACATCACCAATTTCGACGAACGACTACTGATATAGGACAATACATATTTTCACAATTAGTTTCTTCTTCAAATTTAGACTTACAAACTCCATGAAACCCAAAAGTTCAACAATAGAGACCCCAAACACTAAGAATCAGACAGTAAATTTTTCTAACCAAAACATTGAAAAGAACCGATGAGGGTTTTGGTGAAAATCTTAGAAGTGAAAATATTTAATACTGAGGATGGACCGTTGCATTAATTTAATTAGGATACAACGTGGTGAAATTTCTGAAAACTTTTAACTTTAGCGTGTAATTTCAACCGTCCGCCATTATAAATGCATGTCAAAATTTTAGACCGTCATTACAGGTAGTGTTTAAATTTCTAGCTCAATAACAAAAACAATTTTTTTATTTTCGTTTTTAAAACTTACCTTAATTTTTAAAAACTAAAAATTAATAGTTATCCAATTAAACACTAGTTTATAAACTTTTTAAATATAACTATTTTAGTCATTATCTTTTATTTTAGTTTTAACAAATTGAACTAGTTTAAGGCTTATGATTAAAGCTAAAACCTTAGAGACAAATTTTCAACAAAACGGATTAAAAGTCTAAAGGTAACATATAAATAACCAAAATGGTTATTTTTTCTCTAAAAGTTTCAAGGCTAAAATATAAATTAAAGTTTATGAGCCAAAATAGAAATAACTTAAAAGTTAAGGACCAAGACAACTTAAACTTTCAATTACACCAAATTAGACCGTAGACTCAAATAAATGTTGCAATTTTCAATATGTTAAATTTTTACCAATTCACCAAAGTGAGTTTAGCTGAGCGATATTTGGCATGACCTTCCATTTTAGAGGTGGAAGGTTCGATATCTCATTCCCACAATTATTGTACTGAAAAAAAAATATTCACCAATTCACCAACTAATGTCAACAAAATTCAATGATATATATTATATAAATACTAATCCAACCTACTAGATTATATAACACAACAACATTATCCTTAACTCTTCGTAAGTGTTTCAAAATTACCTCAATAAGTAGAAATTTATTCAAATTTTGAATGAAAGTTGGGACCTCAAACAATTTGATAGCGATCTTAAAAGGTGTGATAGTCTCAATTTTCCTTTCAAATCACTCTCACATTTTCATGTTTTAATTTTTGTCAAACATTCTAATTTTAATGATAATTTTGAAACAATCAGTGTTTGTCTCACATAATGTAAGTATTTTGAAATAAAGTGCAAAACTCAGGAGTATATATATTTTTTTAAAAAAATACATTTAGCCCATTTGAATAAAATTAAGTTTGGCACAAATATTAGGTCGTGTAAGGCACAATTTGAATATCAAGTTTTACCAATATATTAGCCTTCTAATGTTATCATTCTCTAGGGTTCCAGTTTGACCCTGAATTTTCTTAAGAATTAAAATTTAAACATATTTGTTTCATTTTCTCTACATATTTGTTTCATGGTTTATTTTTTTTTGTTGATAACTTGTAAATGAAAATATACATCTTATATTATTCGCTATATAAGATTATATTTGAAAAATTATTATAAATAAAAAAAATCAAATTATTTGTAAATATAGAAAACTTTTATTGTCTATTAGTGATAGCGAATATTTTTTATATTTGTAAATAATTTGACTCATTTTACCATATTTGAAAACAACCCATTATATATTGTAAAACTTTTATATGTTCGTGCACTTAAGAAATGTACCTAGTTTATTTATTTGAAATTACAAATATATATCGAGTTCATTATTTTGTATATAAGATGTAATGTTGTATAAAATGGAATATTGCACTTGTCATTTTATGCACTTAAGAAATATACCGTTATATATATATATATATATTTAAAAAATATTGTATATTGCAACTTATGAATATGGTTTACATGTATTTCATTTTTATGTGTATATATAAGTCTTATTTCAACTATATACGTTGTTTATAATAAATACATCTACCCTATTAAGATATATATTTCACGTATTTTGTCATATATACACATATATATTTATTTATCATATTATATAATAATAATGCTAATAAATTGGAGCATAAAATAAGATAGATGACATCCTCGTATTATTTAAAAAAACCTAATACATATTTAAAATTGAAAACAAATAAACTCATATATATATATATTTGGTTTGACATGGTGTGTGGCAGAGTGGAGTCGGAGGAGGTGAAGTCAAAGTGTGAACTAGCAGTGGCGGGCTGGTGTTGAACTCGAAGTATAAACTAGAGTCGGGAAGATTATCGATCGGGACTGAAGGTGATTGTTGGTCGACATGCGTGCTGAGAGTTGAAAGTAAAGTTCGGTGTGCATGCTAAGGGTTGAAGGTGAAGTCGGCGTGCGTGCTGAGGATTGAAGACATGAAGGTGAAGCGTGAGCGTGGTCGTGTCGTCCGTGATGAGGGTTGA CTCATTGGGCATTTTCGCACAATTTCCCACCAAATTCACACTTCGCTATTTCACTTTCGTCCTTGGAACAGCGATTTTCGCAATCTAAGAAAAAAATGCCGCTGAAGGTAGTGGACGCCACCGTCTCCGACTTCGGTGCTGTATTCGACAAATTCCGATCAGAACTGCCAAACCATAAAGCTAATTTCATCCTCTTCTTGGCCGACAAAAACCCTTCCACCTCTCTCAGCTGGTGTCCTGTGTTCTTCGCTTCAGCCTACTCTACTCCTGACCCTGAAGAGCCTCGTCTTGTTGTCTCTGAATCCACGACTATACAACTATCTCATGGCTTGCCTGTGAAAAATTCTCCAGGTTCCAGACCAGGAACTGTGGTGGTTTGTGAAAGAGTATACATACAAGGATTACCGAGGTTTAAAAATCTTAGGAAGGTTGCACACACAGTGAAAGTGAAGGTTTCAATGAGAAATTCGAGTTCTCGAATACCAAACGTTGAGGTTTGTTTTCACAGGAATATGTCACTTGGGACAGGAATGTGTCCTCAAAGTCAGTGGGAGAAAGTTGTCAAAGGTTCTTGGGCTCAATCCATGTCACCGTTTGACCACAAGCTTTTAGATATTAGAACATCTGGGTTATCCTTGGAAAGTTTTGAAGTATCAATTGAAGAAGAATTCTTTTTGTATCGCATAATCTTTTTAATCCTGGGTGTGGTGTTGATGAGTTCAGCCTCCATACTGAGCAAGTCGTTGGTATTCTATTACGGCAGTGCTATGGCAATTGGAATTCTTCTTGTAGTGTTAATGATCCTTTTTCAGGGGATGAAGCTTCTTCCTACTGGTCGGAAGAGCTCACTTGCAATTTTTCTATACGCATCTGCAGTTGGTCTGGGATCTTTTCTCCTTCGTTACATACCTGGATTATTGCATCAAATACTTTTGGAAATGGGTATAAGTGAGGACATGTATAATCCTCTAGCAGCATTTTTGCTGGCTTTTATTTTTCTGATTGGAGCATGGTTGGGCTTTTGGGTAGTCCACAAATTTGTCCTTGACGAAGATGGATCAATTGATACAAGTACATCACTTTTTGTCACACGGTCCATTCGAATTTTGGCTACTCTTCTTATTCTCCAGTGTTCCTTGGATCCCTTGCTGGCAACAGGAGTTCTAATATGTGGAATAATGGCTTCATCAATGTTGAGGAAAATCTTTAAGTTCAGATTTCTTCGTCGCTTATACAAGAATTTCTTCAAATCTCCAAAGAGAATACCCAAGAGATCTCATATCTCTAATATGCCACGTTTGGATGATTCTGATGATGAAAGCACGTTGAAGACTCCCCCGCTTTATGAAGACCCCAGTTTCTATAGATCTCAAAACAAAAACTTCTCGCTTCAGTCCTGCAATTCTTCTAAACGTGGTGATGTATATCCTTCAACATTCCATTCCACACCTGAACGGAGAAAATTTTCAAAGGATGAGTGGGAAAAGTTCACCAAGGACTCAACTAAAAAGGCTTTAGAAGGACTAGTTTCTTCACCGGATTTTAGCAGGTGGCTTGTGGACAGTGCAGATAGAATCAGCATAACTCCCCAAAGCAGAAGAGCTGAGAAGCGTCAAAGCTTTTATGTCGTCATTCTCTCCATTATTGCCATAGCCTATGCCCTTAAGAATATTGCAGCAAAGGCTATTGCAGCGTCAGATGATATTGCACTTTTGAGAGCCTATGTTGGAGATAGACCAACATGGAGGAATCCCCAGCATCCATGGAGAGTGGATTCTAGGTTCAAGCTTACTGGAGTTCCAACGCTGGTTCGATGGGACGAGAATGATAAAATCAGTGGTCGCCTTGAAGACTATGAAGCTCATTTGGAGAACAAACTCGATGCCCTTATTGCTGGGTTGAAGGTGAAGTCGGCGTGCGTGCTGAGGATTGAAGACATGAAGGTGAAGCGTGAGCGTGGTCGTGTCGTCCGTGATGAGGGTTGA ATGCCGCTGAAGGTAGTGGACGCCACCGTCTCCGACTTCGGTGCTGTATTCGACAAATTCCGATCAGAACTGCCAAACCATAAAGCTAATTTCATCCTCTTCTTGGCCGACAAAAACCCTTCCACCTCTCTCAGCTGGTGTCCTGTGTTCTTCGCTTCAGCCTACTCTACTCCTGACCCTGAAGAGCCTCGTCTTGTTGTCTCTGAATCCACGACTATACAACTATCTCATGGCTTGCCTGTGAAAAATTCTCCAGGTTCCAGACCAGGAACTGTGGTGGTTTGTGAAAGAGTATACATACAAGGATTACCGAGGTTTAAAAATCTTAGGAAGGTTGCACACACAGTGAAAGTGAAGGTTTCAATGAGAAATTCGAGTTCTCGAATACCAAACGTTGAGGTTTGTTTTCACAGGAATATGTCACTTGGGACAGGAATGTGTCCTCAAAGTCAGTGGGAGAAAGTTGTCAAAGGTTCTTGGGCTCAATCCATGTCACCGTTTGACCACAAGCTTTTAGATATTAGAACATCTGGGTTATCCTTGGAAAGTTTTGAAGTATCAATTGAAGAAGAATTCTTTTTGTATCGCATAATCTTTTTAATCCTGGGTGTGGTGTTGATGAGTTCAGCCTCCATACTGAGCAAGTCGTTGGTATTCTATTACGGCAGTGCTATGGCAATTGGAATTCTTCTTGTAGTGTTAATGATCCTTTTTCAGGGGATGAAGCTTCTTCCTACTGGTCGGAAGAGCTCACTTGCAATTTTTCTATACGCATCTGCAGTTGGTCTGGGATCTTTTCTCCTTCGTTACATACCTGGATTATTGCATCAAATACTTTTGGAAATGGGTATAAGTGAGGACATGTATAATCCTCTAGCAGCATTTTTGCTGGCTTTTATTTTTCTGATTGGAGCATGGTTGGGCTTTTGGGTAGTCCACAAATTTGTCCTTGACGAAGATGGATCAATTGATACAAGTACATCACTTTTTGTCACACGGTCCATTCGAATTTTGGCTACTCTTCTTATTCTCCAGTGTTCCTTGGATCCCTTGCTGGCAACAGGAGTTCTAATATGTGGAATAATGGCTTCATCAATGTTGAGGAAAATCTTTAAGTTCAGATTTCTTCGTCGCTTATACAAGAATTTCTTCAAATCTCCAAAGAGAATACCCAAGAGATCTCATATCTCTAATATGCCACGTTTGGATGATTCTGATGATGAAAGCACGTTGAAGACTCCCCCGCTTTATGAAGACCCCAGTTTCTATAGATCTCAAAACAAAAACTTCTCGCTTCAGTCCTGCAATTCTTCTAAACGTGGTGATGTATATCCTTCAACATTCCATTCCACACCTGAACGGAGAAAATTTTCAAAGGATGAGTGGGAAAAGTTCACCAAGGACTCAACTAAAAAGGCTTTAGAAGGACTAGTTTCTTCACCGGATTTTAGCAGGTGGCTTGTGGACAGTGCAGATAGAATCAGCATAACTCCCCAAAGCAGAAGAGCTGAGAAGCGTCAAAGCTTTTATGTCGTCATTCTCTCCATTATTGCCATAGCCTATGCCCTTAAGAATATTGCAGCAAAGGCTATTGCAGCGTCAGATGATATTGCACTTTTGAGAGCCTATGTTGGAGATAGACCAACATGGAGGAATCCCCAGCATCCATGGAGAGTGGATTCTAGGTTCAAGCTTACTGGAGTTCCAACGCTGGTTCGATGGGACGAGAATGATAAAATCAGTGGTCGCCTTGAAGACTATGAAGCTCATTTGGAGAACAAACTCGATGCCCTTATTGCTGGGTTGAAGGTGAAGTCGGCGTGCGTGCTGAGGATTGAAGACATGAAGGTGAAGCGTGAGCGTGGTCGTGTCGTCCGTGATGAGGGTTGA MPLKVVDATVSDFGAVFDKFRSELPNHKANFILFLADKNPSTSLSWCPVFFASAYSTPDPEEPRLVVSESTTIQLSHGLPVKNSPGSRPGTVVVCERVYIQGLPRFKNLRKVAHTVKVKVSMRNSSSRIPNVEVCFHRNMSLGTGMCPQSQWEKVVKGSWAQSMSPFDHKLLDIRTSGLSLESFEVSIEEEFFLYRIIFLILGVVLMSSASILSKSLVFYYGSAMAIGILLVVLMILFQGMKLLPTGRKSSLAIFLYASAVGLGSFLLRYIPGLLHQILLEMGISEDMYNPLAAFLLAFIFLIGAWLGFWVVHKFVLDEDGSIDTSTSLFVTRSIRILATLLILQCSLDPLLATGVLICGIMASSMLRKIFKFRFLRRLYKNFFKSPKRIPKRSHISNMPRLDDSDDESTLKTPPLYEDPSFYRSQNKNFSLQSCNSSKRGDVYPSTFHSTPERRKFSKDEWEKFTKDSTKKALEGLVSSPDFSRWLVDSADRISITPQSRRAEKRQSFYVVILSIIAIAYALKNIAAKAIAASDDIALLRAYVGDRPTWRNPQHPWRVDSRFKLTGVPTLVRWDENDKISGRLEDYEAHLENKLDALIAGLKVKSACVLRIEDMKVKRERGRVVRDEG Homology
BLAST of Clc10G11780 vs. NCBI nr
Match: XP_038906035.1 (uncharacterized protein LOC120091936 [Benincasa hispida]) HSP 1 Score: 879.0 bits (2270), Expect = 2.4e-251 Identity = 464/541 (85.77%), Postives = 487/541 (90.02%), Query Frame = 0
BLAST of Clc10G11780 vs. NCBI nr
Match: KAA0048313.1 (nuclear envelope integral membrane protein 1 isoform X1 [Cucumis melo var. makuwa] >TYK10658.1 nuclear envelope integral membrane protein 1 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 858.2 bits (2216), Expect = 4.4e-245 Identity = 464/637 (72.84%), Postives = 495/637 (77.71%), Query Frame = 0
BLAST of Clc10G11780 vs. NCBI nr
Match: KGN58839.2 (hypothetical protein Csa_002288 [Cucumis sativus]) HSP 1 Score: 857.1 bits (2213), Expect = 9.8e-245 Identity = 442/509 (86.84%), Postives = 470/509 (92.34%), Query Frame = 0
BLAST of Clc10G11780 vs. NCBI nr
Match: XP_016902769.1 (PREDICTED: nuclear envelope integral membrane protein 1 isoform X1 [Cucumis melo]) HSP 1 Score: 855.5 bits (2209), Expect = 2.9e-244 Identity = 448/540 (82.96%), Postives = 475/540 (87.96%), Query Frame = 0
BLAST of Clc10G11780 vs. NCBI nr
Match: XP_011651793.1 (uncharacterized protein LOC101210632 isoform X1 [Cucumis sativus]) HSP 1 Score: 840.9 bits (2171), Expect = 7.3e-240 Identity = 442/540 (81.85%), Postives = 470/540 (87.04%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy Swiss-Prot
Match: Q9FMN4 (Thioredoxin-like protein Clot OS=Arabidopsis thaliana OX=3702 GN=At5g42850 PE=2 SV=1) HSP 1 Score: 103.2 bits (256), Expect = 1.1e-20 Identity = 44/66 (66.67%), Postives = 54/66 (81.82%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy Swiss-Prot
Match: Q5Z9Z3 (Thioredoxin-like protein Clot OS=Oryza sativa subsp. japonica OX=39947 GN=Os06g0320000 PE=2 SV=1) HSP 1 Score: 98.6 bits (244), Expect = 2.7e-19 Identity = 44/74 (59.46%), Postives = 55/74 (74.32%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy TrEMBL
Match: A0A5D3CHE8 (Nuclear envelope integral membrane protein 1 isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold25G00200 PE=3 SV=1) HSP 1 Score: 858.2 bits (2216), Expect = 2.1e-245 Identity = 464/637 (72.84%), Postives = 495/637 (77.71%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy TrEMBL
Match: A0A1S4E3G6 (nuclear envelope integral membrane protein 1 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103500299 PE=3 SV=1) HSP 1 Score: 855.5 bits (2209), Expect = 1.4e-244 Identity = 448/540 (82.96%), Postives = 475/540 (87.96%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy TrEMBL
Match: A0A6J1D6S5 (uncharacterized protein LOC111017862 OS=Momordica charantia OX=3673 GN=LOC111017862 PE=3 SV=1) HSP 1 Score: 761.1 bits (1964), Expect = 3.5e-216 Identity = 399/469 (85.07%), Postives = 430/469 (91.68%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy TrEMBL
Match: A0A6J1G8K0 (uncharacterized protein LOC111451852 OS=Cucurbita moschata OX=3662 GN=LOC111451852 PE=3 SV=1) HSP 1 Score: 751.9 bits (1940), Expect = 2.1e-213 Identity = 395/466 (84.76%), Postives = 426/466 (91.42%), Query Frame = 0
BLAST of Clc10G11780 vs. ExPASy TrEMBL
Match: A0A6J1L1F6 (uncharacterized protein LOC111499541 OS=Cucurbita maxima OX=3661 GN=LOC111499541 PE=3 SV=1) HSP 1 Score: 746.5 bits (1926), Expect = 9.0e-212 Identity = 393/466 (84.33%), Postives = 424/466 (90.99%), Query Frame = 0
BLAST of Clc10G11780 vs. TAIR 10
Match: AT5G67610.1 (Uncharacterized conserved protein (DUF2215) ) HSP 1 Score: 414.8 bits (1065), Expect = 1.2e-115 Identity = 236/464 (50.86%), Postives = 320/464 (68.97%), Query Frame = 0
BLAST of Clc10G11780 vs. TAIR 10
Match: AT5G67610.2 (Uncharacterized conserved protein (DUF2215) ) HSP 1 Score: 411.8 bits (1057), Expect = 1.0e-114 Identity = 231/449 (51.45%), Postives = 312/449 (69.49%), Query Frame = 0
BLAST of Clc10G11780 vs. TAIR 10
Match: AT3G49840.1 (Uncharacterized conserved protein (DUF2215) ) HSP 1 Score: 340.5 bits (872), Expect = 2.9e-93 Identity = 201/460 (43.70%), Postives = 291/460 (63.26%), Query Frame = 0
BLAST of Clc10G11780 vs. TAIR 10
Match: AT1G28760.1 (Uncharacterized conserved protein (DUF2215) ) HSP 1 Score: 219.5 bits (558), Expect = 7.4e-57 Identity = 143/409 (34.96%), Postives = 229/409 (55.99%), Query Frame = 0
BLAST of Clc10G11780 vs. TAIR 10
Match: AT5G42850.1 (Thioredoxin superfamily protein ) HSP 1 Score: 103.2 bits (256), Expect = 7.7e-22 Identity = 44/66 (66.67%), Postives = 54/66 (81.82%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Watermelon (cordophanus) v2
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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