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Bhi12G001044 (gene) Wax gourd (B227) v1
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.ATGGAGATAAAGACTTGCGGGAAGCCAATTGATTCTTTGCTGGAGAAGGTTCTATGTATGAATATTCTGTCTTCTGATTACTTTAAGGAGCTTTATCGTTTGAAGACATACCATGAAGTGGTTGATGAGATTTATAACCAAGTTGATCACGTGGAGCCATGGATGACTGGTAACTGCCGTGGTCCTTCAACAGCATTCTGCCTTCTGTACAAGTTTTTCACCATGAAACTTACTGTTAAGCAAATGCATGGGCTTTTAAAGCACGAAGATTCTCCTTACATCAGAGCGGTAGGTGGAAACCTTTTGACCTTTAGTAATCATGTTTATAGCAAAGATGTAATAATTGTTTCGTAGCATTTATGTCATGGTCCATTTATAGTCTTTATCCTTATTTTTTATTTTATTTTTTATTTTTGTTTTTTGTAAATATATAATGTGGTGCAAACCAATATGCATGTACTTTTACAATCTTCACTGTGCTCTGAGAAAATGTTAATATATTATATCTAGTTTGAAACTTGGATTACTAACGTACAAGTTGGATCAAATATAGCTGTTGTAAATGGTTTACAATGGTAATTAGGTAATGTCACTGTGTTGCTTTTCATGTTTGCTAATTGATTAATCAGTTTCTATCTATACTTCTAAATATCTAGTTCTCTCTCAACTCTAGGTTGTTCAATGAATAAACAGCTTGTTCTTGGAGGATCTTGGTCATTGTCACCTAGAACAACTACTAATCTAAACTAGTTTGCTGTTTGCGAATATGTTGGAGACTAGCTCTTTGTATATTGATGTGTTTGGGTTGCTCTCTTTCTAAGTCGTACTTTATTCTATCACTTCAATTAGTACTTTATGTTCTGATGATTCTGTTGTACTAGAATCATTGGTACCTGATATAAACCTTGCTCTTTATCCTCTCCCCAAACACAAGTGTGAGTCACTTTGTGAGCAGAAATTTGTTTTCTGCCATCGTCATCGATTCCCCAATTCCCTGCCAAGAAGATTACTAGAGAAGCTTTCCAGCTATCCCTATAAAACAATAAAACAGAATAATTGCAAGAAGACCCGAGCCAAAAAACTTGATCCTGAAGTATGAAGTAAATTACGTAAATAGTGTTTATGGAATAACTTGCTAGTAATCATAGTTAGCCCTAAGTTCGTGAAAGTGATTAAGGATCACTTTTTAGAAGAGGTCAAAAATCACCAATGAATATGTCTTGAGAGCTTTTGGTTATTATGAATTTTAGAATGGTATAATGGCATATACAATAAGTTATAAGCAGAATGTTCGATTAGTTTTAAATGTCCACTTGAACGATTTCAACTTTTACCATCAAAAGAAAAATTCTTCTTTTAGGTTTTTGATTGGCAGTCAGGTTCTCTTTCTCATTCAAATACGCCATTTTAGCAAGTCGTCAATTAGGAGCACAGGTCTCCTTTCTTTCTCTCTCTTAAATTTATTATTCTGAGTTGATAATGTTTGTGCTTTTATTTGGATTGAAATTTTTTAATGGACTTTATATTAGAATTCTTTTTGAGATCTTCTCTGACGTTCATCTTTTTCCCTTTTTGCTAGTTCCTACATTACTCTATTTCTTTAGTTTATAAAACTGTCTGATACATGCATATGCTTGGTAACGTTCTTGCCTTGCTCACCAGATGTTATGAACAAAGGATGAGCCTTGTCACTTTGGGTTGCTGTGCCCTTTCTCACACTATAAATTAATAGTGCCTTTGCTTTGCTTTGCAGTTATCTAAGGTTTGAGGTGACCTTTTTTTAATTATTATTATTATTATTTTTTTAAAGATGCTGAGATTATTTCAATCCCTTGGATTTATTTATCTGTAAATTGATATTCTTTGACGAGTGCTCAATGTTATCCATATGGATATTGCATCCTTTTGTTGTATACTTAATAAGGTTAGAATACATCAAAGGACTTAATATGGTTACTTATATTCTTGCATGCCCCTTTTTCTGTGTAATTTGTTTTAATATCTGATAATTATGATGCCCTTAGCTGTCCGATGTTTAAGAAGTTATGGTCTTAGCTGTGTTATAATACGTTGGGTTCTGCTACCTTTTGATGTTATTTCTTAAATTAATTTTTCCAGATTGGATTTCTATACTTGAGATATGTTGCAGATCCAAAGACTCTCTGGACTTGGTTTGAACCGTATGTTAAAGATGAAGAGGTATGTGATGCATATAGAAGCTTGATTATTATTATTGTTGAAATACATTGAATTAGCCCCAAGGGTATTTTTGTAATTTATACTATATTTGCTAAATTAGGGTTTCACCTCATCTTATTTATATCCGTGGTTGGGGTTTATTGTATGTATGACATTAAAATAATAAGGCTTTTTCTATCGTGGTTTTTCTTCCCTGAATTAGGGTTTTCCACGTAAACTCCTTGTGTCGTTTTTTCTTTTCTATTTCAATATGGTATCAGAGTAAGGTGATGAAACCCTAACCCCGATAGAAGAAACTTAGTCATCAAATTGGATAGGTGAAGGTACACTGGCAGACACGACTAATGTGGCTGTGATTCAAGCAGCAGTTGATCGGTATCTCCGAACCATCATCCTAGGCGGCACAGCCGAACAGCTCCAGCTGGTGCACCGAACAGCAGTTGGTGGACTCGCTCCAGCCGACGTGTCGATCAGTTCCCAGACGCAGTAGACGCAGTCGTTCCAGCCAAACATCATCGATGAGGGTCCCTCGACTTCGTATGCGATTGGTTCTTCCACTTCGCACACGCTTGGTCCTTCGACTTCGCACACGATCGGTCCTTCGACTTCGCATGGGATCGGATTTGCTCCAGGCGGCCGTGGGTTTGATCCAGCTACCGGGTCGGGTCAGATCGGTGTGTTTTCTTCAACCCATCAGCCGATCGTCGAGCCCTCGGTCCGTTACCCACCGTCGCAGCCGTCTGGGAGCAATGTCGATCACGGGCTGCCGTATTTTGCCGCCAGTGGACTTCCGGCAGTAGCCTCTTCACAGTACCATGGTGGACAACCTCTTCCTCATGTGTACCCAGTTCAACCTCAGTTTCGAATGGGTGATTCCGTTGAAGAAAATCCCATGACCTATTGACAGAAACATTCCAAATCTGAATCTCATGGGGAACTCCAACAACAATTGCTTAATCTCCAACAACAGATGGCCGCCCTTGGAGCCAGATTGAATGGCCATGATTCTTTCCCGATGTATTCAAAAAATCCGGTATCAATGTTTCCTACTCTTCCTACTACTAATCTTTTATCTGGGACTATAGGAAATTCTGTAGGAATGATCACGGGAGAGAAGCTGAATGGACAAAATTACTTTTCTTGGTCTCAAACAATTAAAATGGTTCTTGAGGGACGCCATAAGTTTGGATATTTGATTGGAGGGATACCACTCTGGATATGCCAATTGCTCTGAGAAAGGGAACCAGGTCATGTACAAAGTACCCTTGTTTTCTGACCTATGGTAACTTTATCTCCTAGTTTTAAGGCTTTCACTACTCAACTGGATGCTCTAGCAATACCTACCAGTGTACATGCGGCCATGGAAGTTCCCGAGTGGAAAGCGGCAGTAATGGAGGAAATGAGAGCTCTCGAGGCAAATAAGACTTGGGAGTTAGTAGCTCTCCCTAGAGGTCACAGAACAGTTGGTTACAAATGGGTGTTCACAGTGAAGTATAAGTCTGACGGAACGCTCGAGAGATATAAGGCTAGGTTAGTTGCTAAAGGGTTCACTTAGACGTATGGGATTGATTATTCAGAAACCTTTTCCCCAATGGCTAAGTTAAACACGATTCGTGTTCTTTTGTCTGTCATCGTAAATAAAGATTGGCCCCTACATCAACTAAATGTAAAAAATGCCTTCTTAAATGGTGAGTTAGAAGAGGAAGTTTACATGAGTCCACCTCCAGGTTTTGAAGCTAAGTTTGGGAATCATGTTTGCAAACTCAAGAAGTCCTTATATGGGTTGAAGCAATCCCCTAGGGCATGGTTTGACAGGTTCATCGTGTTTGTTAAGTCCTAAGGGTTTGTTCAGGGGCATTCTGATCATACCTTGTTTACCACAAAATCATCCTTAGGGAAGATTGCTGTGTTGGTGGTGTATGTTGATGACATCATCTTATCAGGAGATGACACAACAGAAATTGCTAAGTTGAAACAGAGGATGGCAGGTGAATTTGAAATCAAGGATTTTGGTAGTTTGAGGTATTTTCTCGGGATGGAAGTGGCAAGATCAACGGAAATACACTCTGGACTTGTTGAAGGAAACAGGAATGATTGGATGCAAACCCATTGACATTCCTATTGAGGTCAATAGCAAACTGAAAAGCATTTCGGAAGGAGTTCCTATGAATAAGGAGAGGTATCAACGCTTGGTAGGGAAACTGATTTACTTATCTCATACTAGGCCCGACATCTCCTATGTTGTGAGTGTGGTAAGTCAGTTCATGCAGAATCCATATGAGGAGCACATGGAAGCTGTGACTCGAATTTTGAGATACCTGAAGTCCACCCCTGGGAAGGGCTTAGTGTTCAGAAAACATGACACACGGAGCATCGAGGCGTATACTGACTCAGGTTGGGCCGGATCTGTGACTGATAGAAAGTCACCCTCAGGGTACTGTACCTTTGTGTGGGTAAATTTGGTAACTTGGCAGAGTAAAAAACAGGGTGTGGTGGCTAGAAGTAGTGCTGAGGCAGAGTATAGAGCTGTGAGTTTGGGAGAGAGTGAAGAAATTTGGTTGCAGAAATTTTTATCTGATCTTCACCAGAGTAGTTTGGGGCCCATGAGGTTGTATTGTGATAATAAGGCTGCCATCAGTATTGCGAATAATCCCGTGCAACATGATAGAACCAAACACGTGGAAATTGACAGGCAATTTATTAAAGAGAAGTTAGATTGCGGAGCTATCTGTATTCTCTATGTACCTTCGGTCCAACAAGTTGCAGATGTTCTTACGAAAGGGTTATCGAGACAGACGTTTGAAGCTTGTTTTAGCAAGTTGGGTCTTGTCGATATTTACGCCCCAACTTGAGGGGGTGTTGAGATACGTTGAATTAGCCCTAGGGACATTTTTGTAATTTATACTATATTTGCTAAATTAGGGTTTCACCTCATCTTATTTATATCTGAGGTTGGGGTCTATTGTATGTATGATATTAAAATAATAAGGCCTTTTCTATCGTGGTTTTTCTTCCTTGAATTAGGGTTTTCCACGTAAACTCCTTGTGTCGTTTCTTTCTTTTCTATTTCAATAATTACTACTATTATCACTATTATTATTTCCATTTTTGTGGATTGTTGTTAAAGCATTACGGTTAGGATGCTTGTGTTTGGCTTAAAATTTCCGTTAATGTGACTATAAGTTGCTTTCTGGTTTCTGCTACCCTTAATGTATCTATTTATATATTGATAATTGAGAAGCGCAGGCCTATTTTCAATATTGTTGAGATGTCATATATGCTTGTGAATATGAATTTGAACTTTGTGGCCGTTGATACTTTCTAATCAAGTAATTACTTTATGTCATGGGGTTTTATAGAAGGGACACCTTGTCCCTTTGTCTATTAGGCTGTTTTAGCTGAGTTGGTGCTGTTTGAGTGAAGTTTTAACTTAATTTACAAAAGAGGCACTAGTGTCCATGATGTAGCCTAGGAGATAAAAGGAGAGAAACTTCCCATGATAAAATCAAAATCTTTATTAGGAATATAAAATTGCCAATACAAGAAGACAATCTCTCTATTTATAGAGAATTGGAAAGCAAACTAATCCTAATACTAGTTAATTAAAGAAACTAATCCTAATCTTAATTAGTCAAAGAAACTAATCCTAATCTTAATTAGTCAAAGAAACTAATCCTAATCCTAATCCTAATAAACCAAGGAAACTAATCCCAATTCTAATCAATCATGGAAACTAATCCCAATCCTAATCAATTAAGGATTTGACCATAATATCCTAACATATCCTATTCCTACTACATTATTCTATCCCTAAAAAAAAAACTCGTTCTCGAGTTTTAAAACGAAAATGAAAATAAAAAAAAAGTAAGCCACTCGAAGGACACATCTTTGAACATCGGGCATGAATAACAACAAATTTTCACGAGCCACATCAATATATCGAATATTTGATTCTTGAAAGGGAAATTTTTTTCTATCAATACTATCATCAATGAACCCAAGAATTAAGTTGTTCAAAAAACCGATTGTTGCTAAAATATATGCAGCAGACTCCTTAAGGAAGGTTGGAAAAAGATTTTTAATTTTCTTCGAATTAGGTTGCCCATGTGTATCTTTTTCTTCTACACTTAAATAATTCACATCCTCCCAGTATTTCCTTTGATATAACCTTGATCGTGGTTGAACTTGAACAATTCTTGGTAAATCTTGGACATTTTTTGCATACCATAGGTGGTGTTGATTCTCTTGTTGTCTTTCTTGTGGTCATGACTAATTTCTGCTCCATTCTCTTGTGGTGGAGGTAATTGTGGTTGGTTGTGAGGCTCGTTTAATTGATTTGACCAAATGGACACATTCTTTGCAATGGCTTCATCTTCTTCAACACCTTCTTCGTTGATTTCATCGATTAATAGTTCCTTATCATCTGGTTCAAATCAAGTAACCTCTGTTTTAGTCCCATCGTTTTTTCCTTCTTCCAATGCAAGCTCCTCTTTGATCTTTCTACCTTTCTTATTTAACTCATGTTCAATTGATTTTTTCTGTTCTTCTACTTCATTCATTTTTTGCGCAATTTCACAACCCATTTGGATGAGTTCTTGATCTTCTTGAGTGACTAAATGTGATTCTTGATGGTTTCTTGAAAAATCTTCAAGATTATGTCTGTCTTGATTTTTTTTCCCAAAAGAACTCGAATTTCATTCATTCTCTTTCGAAAATCCTCTTGATAGATGTTTTTATTTGTATATATTTGTTTTCGAAAGTCCTCTGGGATGGTGGACCTCACTTTGTTAGGTGGGAGGCATTTTGAAGGCAGTGGAGCTGGGAGGTTTAGGCATTAGAATTACGTAATGAGGCTCTGTATTGATGATTGAGGGTTTCTTTTGCAGATTGCTTTTCCACATTCTTTGCTCCATTTGAAGTTCTTTGCTTAGCAAGTTTTGCATGACCTGGATTGTTAAGATATCCATTAAAGTTTCAAGTTCTTTGCTTGGCAAGTTTTGAATGGGAGAGTGAACATCCAAGACTATCTCAAGAGACCTTTACTTTTTGATGCACCCGCAATGCTCGTTCTCTATAGGCGGTAGAGGAGGATCTTGAACATCTTTTGTTAGATTGCTAGTTTGCTTATTCCCTTTGGAGTCTATGCTTGAAGTCGTTTGAGATTGGTTTGGCTCTTGGCAAAAATGGCAACTTTGTGATTTAGGAGACTACAGCCAGTTTTTTTAAAGCTCAAGATGCAATAGTCTTTTGGTGCAAAAAAAGCGCAAGATGCAAAGAAAGCGGTTTTTTTTTTTTTGATGAGGCATAGTATATGTAAATGTACTACTTAGAGACAAGAAAGCATAGTTGAAGTGGAAATATGAAAAGGAAAAATCCTAAACACTAGGAATTTTGCATTTAGACTGAGTAAATTTGATTTTCTTTAGTTAATAAAGAACGAGAAATCCTAATTATGACTATTTTCTTAAAGTAATTAGAAAGCCCCAAGGGCTAGGGCTTTGAGCCTTGGGGCTTCACAAAAGGCACATGCCTAATGCATGCTTTATTTTGTGAGGCTCGCCTTTTCAAGTTGAGGTGCTAGTCGTGAGCCTAGTGCCTAGGTGCACGCACGTGCCTTGAAGGGCTTTTTAAAACAATGAGTGTAGCATTATATGTCAAGGATGTTTTTGTTTTTGTTATTTTTTGGTGGAATTTGGCTAGCAAGGAATAGTAGGATTTACTGAAGGGTGAATAGATCTCAGGAGGAGGTTGCTAGGTTTAATGGTTTTTTATGGGTGTTTGTTATGTTAGCTTTTGTAATTACTAGCTTGGTGTTATTCTTTTGTATTGGAGTCTCTTCTTGTATTTAATGTTAGGACCTGTTTTATGGTTTTCTTCCCTTGTACTTCTTTCAATTTTATAGAATGAAAGTTTGGTTTCTTATAAAAAAGCTTGGGCAGTTTTTTCTAGGGGTGGTTTGGGGTAAGTGGGATTTGGAAGTGCCTATATTCTCTCACCTCGTTTTTGGCCATTCCATGAAACACCCTTTTCATCGTTCTGTAGCCTTGATAGTCTATCATCTCTTTTGACCAGTTGGAGAAATCTTTTCAAACTCCTTTGTCTGGGCATCCTGCCTTTTTTTAGTAAGTTTCACTTCAATGAAATTTGTTTCTTATAAAAAAAGGGAAGTATAGACCCATCTCATGTCTATGTTCACTTCTAACAATTTGGAGCTTTTCCTTGTAACTTCCATGCTCAAGCTTCTTTCAGATGGTTTCTGGTTCGTTCATTTGTTGTTTGTAGTCCTTTTCCCCTTTCAACAAATAACAGAAAATAAAATTCTTCCTTACAAATCTATGGCATTTTGCATTTTTCATTTCTAACGAATTTAATAAGAATCTAAAGCTACAAATGGCAGAAAAATAACTAAACAGACTTGACATGTTTCAGGAGTTTTCACCAGGATCCCATGGACGAATGACTACAATGGGTGTTTATGTGCGTGATTTGCTCCTTGGACAGGTCAGGTTATATACCAACATTACCCCCTTATATCATGTTTCTTGGTTATATCTTTCTTTTTCCATTTTAACTTGCGCCAAAAACATGATAAATTGTGTGTATATACAGTTGCTTTTGGCATTTCTCTAGTGTTTAACCATGGGAACGCTGAATTTTTCAGTTCATGGTTGGAAGATATTGTTAAGAGTTATATTTGAGTATAATAGAGTTAAAAGATTTTCACCCAGAAATGAGGAGATGCAAAAAAGTTCAGGAAAAGAACTACAGCATAATAGTAATCGCTTCCCTCCTGATTTAAGTTATTAGGTCCTTTTCATTTGCATTAAAACATCTCATATTTCGTTGGTTTATCATGGTGATTCAAAGCCATGTTCTCTGGCATGAGCTGGTGAAGTTGACTTCACAATGTGCCGTATGGTGTCTTGTCCACTTTAGTGTTGTCTTCACTCCTTGTTATTCGTCTTTTCTAATGTATCCAATATTTTCTCAACTTTTCTCATATAACCTTTTCTTGTAGTTGTATTTCACACTTATGCTCCTTACAGATTAGTGGTAGCCTTTCCTATGAAGTATGGTTGTGTTGGCTCTTACCTGAGATACCTTCGAGAGCTCTGCCCCTTCATGAACTTTCTTAATTGTGACGTGGAAAAGAAGTTTTGGGCTTAAGATTCTAACTACTTGTTTTTCTCACATTATTCCGAAGTCAAGATCATGAATGAAATGTTTTAAGGAATATTCTTGAAATATTTAAATCAATCATTGTTTGGATTCTGTTGTTGCTCTGTTGTAGTATATGGTGAAAAGAGATGAATGAAATAAAATATGAGACCAAGGTTTTGATTTTATCTCATTGTAATCTAACAGTGTGATTAATGACGTCACTAAATTGGATAATTGAGGAGATGAATGGAGACTAAGCTTTTAGGCCAGTAGTGATTTAACTCACGTGAACAGAGCCCTCAATACATTTTCTTTGTTCAGCCATAGCTGAACAACTATTCGAGAATGGGAGCAAACTGAAAAATTGTGTGTTTTAATGCTTAATCAGTAGAATGCTGATGTATATCTTGATATCTATATATGGGTTTGCATTAGGCCCACTGAGCGGAATGATTGTTAAGCTTTTATTTTATTTGTCTTTATAGCTTTTAAACGGCAAAAATTGTGTTTCATGTTATCTGGTAGTATTGGTGATTCTATTGTGCTGGATAACAAGCAGAAAGATCATTATTCCACATGTTTAAACTGGAACATATGAACATATATCTGCCTTTAAACATATTATTATTGTTATTTTTTGAATCCTCGAATTTGTAGCTAAACAGGTGCTCACATTTTGTTTTCCAATTGCAGTATTACTTCGATACTCTTTTCCCTCGTATTCCAGTTCCTGTCTTGCGGCAAGTTGTGGCTAATCTCGAAAAGTTGAAGCTTCCTAGCAAACATTCAGGTGTGACTGGGGAAACTCATCGAATAGGGTCTGAAGACACTGCACGGCGACCCCCTTCTGTTAAAGCTTCACTTTCTGTTTCCTTTGGACAACGAGCCCCACATCGTGCCTCAACTAGGGACTCATCTCCTGTTCGTCGTACGCTGCCACCATCAGCTAATGATAGAGATAACAGTGATGATCTACGAAGATCTCCAAGCAGTCGTCGTAGTCAAAGTCGTGAACATCCAGATAGTAGGGAGAGGAGCAGGGATAGAGATTATGACAGGGAGAGGAGCAGGGATAGAGATTACGACAGGGAGAGGAGCAGGGATAGAGATCACGACAGGGACAGGGACAGAGGAAGAGATAGGGACCGAGATCGAGAATATGATCGGGACAGAGAGAAGTATAGAGACCGGGAGAGGGACCGAGATAGAGAGAGAGAGAGAGCTAGGGATAGGGAAAGGGACAGAGAGCGGGACAGAGAACGAAGTTATGATTATGATCGAAGGACTCATTATAACGATAGAGAGAGTAGAAGGGACTTTGAAAGGAGTAGTCGTGATGGTGGCTCTAGGCATTATCGAAGGAGTCGTAGCCGAAGTAGGAGCCGGAGCAGAAGTCGAAGTCTACAAACGGGGAATGCCCATCACGAGCGAGAGCCGAGCCCTGCAAGGGGTGGAACTACAGAGAAGACGTCTAGCATATCGAGCAATCTGGCAAAACTAAAAGATATCTATGGTGACGTGAGCGAGCAGAAAGGGGATTCGAGCAAAGAAAGAGTTAATAGAAGGGATAGTAGTGGTGAAGAAGTGATTAGACTGGGTGGTTACTGGAAATAG ATGGAGATAAAGACTTGCGGGAAGCCAATTGATTCTTTGCTGGAGAAGGTTCTATGTATGAATATTCTGTCTTCTGATTACTTTAAGGAGCTTTATCGTTTGAAGACATACCATGAAGTGGTTGATGAGATTTATAACCAAGTTGATCACGTGGAGCCATGGATGACTGGTAACTGCCGTGGTCCTTCAACAGCATTCTGCCTTCTGTACAAGTTTTTCACCATGAAACTTACTGTTAAGCAAATGCATGGGCTTTTAAAGCACGAAGATTCTCCTTACATCAGAGCGATTGGATTTCTATACTTGAGATATGTTGCAGATCCAAAGACTCTCTGGACTTGGTTTGAACCGTATGTTAAAGATGAAGAGGAGTTTTCACCAGGATCCCATGGACGAATGACTACAATGGGTGTTTATGTGCGTGATTTGCTCCTTGGACAGTATTACTTCGATACTCTTTTCCCTCGTATTCCAGTTCCTGTCTTGCGGCAAGTTGTGGCTAATCTCGAAAAGTTGAAGCTTCCTAGCAAACATTCAGGTGTGACTGGGGAAACTCATCGAATAGGGTCTGAAGACACTGCACGGCGACCCCCTTCTGTTAAAGCTTCACTTTCTGTTTCCTTTGGACAACGAGCCCCACATCGTGCCTCAACTAGGGACTCATCTCCTGTTCGTCGTACGCTGCCACCATCAGCTAATGATAGAGATAACAGTGATGATCTACGAAGATCTCCAAGCAGTCGTCGTAGTCAAAGTCGTGAACATCCAGATAAATATGATCGGGACAGAGAGAAGTATAGAGACCGGGAGAGGGACCGAGATAGAGAGAGAGAGAGAGCTAGGGATAGGGAAAGGGACAGAGAGCGGGACAGAGAACGAAGTTATGATTATGATCGAAGGACTCATTATAACGATAGAGAGAGTAGAAGGGACTTTGAAAGGAGTAGTCGTGATGGTGGCTCTAGGCATTATCGAAGGAGTCGTAGCCGAAGTAGGAGCCGGAGCAGAAGTCGAAGTCTACAAACGGGGAATGCCCATCACGAGCGAGAGCCGAGCCCTGCAAGGGGTGGAACTACAGAGAAGACGTCTAGCATATCGAGCAATCTGGCAAAACTAAAAGATATCTATGGTGACGTGAGCGAGCAGAAAGGGGATTCGAGCAAAGAAAGAGTTAATAGAAGGGATAGTAGTGGTGAAGAAGTGATTAGACTGGGTGGTTACTGGAAATAG ATGGAGATAAAGACTTGCGGGAAGCCAATTGATTCTTTGCTGGAGAAGGTTCTATGTATGAATATTCTGTCTTCTGATTACTTTAAGGAGCTTTATCGTTTGAAGACATACCATGAAGTGGTTGATGAGATTTATAACCAAGTTGATCACGTGGAGCCATGGATGACTGGTAACTGCCGTGGTCCTTCAACAGCATTCTGCCTTCTGTACAAGTTTTTCACCATGAAACTTACTGTTAAGCAAATGCATGGGCTTTTAAAGCACGAAGATTCTCCTTACATCAGAGCGATTGGATTTCTATACTTGAGATATGTTGCAGATCCAAAGACTCTCTGGACTTGGTTTGAACCGTATGTTAAAGATGAAGAGGAGTTTTCACCAGGATCCCATGGACGAATGACTACAATGGGTGTTTATGTGCGTGATTTGCTCCTTGGACAGTATTACTTCGATACTCTTTTCCCTCGTATTCCAGTTCCTGTCTTGCGGCAAGTTGTGGCTAATCTCGAAAAGTTGAAGCTTCCTAGCAAACATTCAGGTGTGACTGGGGAAACTCATCGAATAGGGTCTGAAGACACTGCACGGCGACCCCCTTCTGTTAAAGCTTCACTTTCTGTTTCCTTTGGACAACGAGCCCCACATCGTGCCTCAACTAGGGACTCATCTCCTGTTCGTCGTACGCTGCCACCATCAGCTAATGATAGAGATAACAGTGATGATCTACGAAGATCTCCAAGCAGTCGTCGTAGTCAAAGTCGTGAACATCCAGATAAATATGATCGGGACAGAGAGAAGTATAGAGACCGGGAGAGGGACCGAGATAGAGAGAGAGAGAGAGCTAGGGATAGGGAAAGGGACAGAGAGCGGGACAGAGAACGAAGTTATGATTATGATCGAAGGACTCATTATAACGATAGAGAGAGTAGAAGGGACTTTGAAAGGAGTAGTCGTGATGGTGGCTCTAGGCATTATCGAAGGAGTCGTAGCCGAAGTAGGAGCCGGAGCAGAAGTCGAAGTCTACAAACGGGGAATGCCCATCACGAGCGAGAGCCGAGCCCTGCAAGGGGTGGAACTACAGAGAAGACGTCTAGCATATCGAGCAATCTGGCAAAACTAAAAGATATCTATGGTGACGTGAGCGAGCAGAAAGGGGATTCGAGCAAAGAAAGAGTTAATAGAAGGGATAGTAGTGGTGAAGAAGTGATTAGACTGGGTGGTTACTGGAAATAG MEIKTCGKPIDSLLEKVLCMNILSSDYFKELYRLKTYHEVVDEIYNQVDHVEPWMTGNCRGPSTAFCLLYKFFTMKLTVKQMHGLLKHEDSPYIRAIGFLYLRYVADPKTLWTWFEPYVKDEEEFSPGSHGRMTTMGVYVRDLLLGQYYFDTLFPRIPVPVLRQVVANLEKLKLPSKHSGVTGETHRIGSEDTARRPPSVKASLSVSFGQRAPHRASTRDSSPVRRTLPPSANDRDNSDDLRRSPSSRRSQSREHPDKYDRDREKYRDRERDRDRERERARDRERDRERDRERSYDYDRRTHYNDRESRRDFERSSRDGGSRHYRRSRSRSRSRSRSRSLQTGNAHHEREPSPARGGTTEKTSSISSNLAKLKDIYGDVSEQKGDSSKERVNRRDSSGEEVIRLGGYWK Homology
BLAST of Bhi12G001044 vs. TAIR 10
Match: AT5G37370.1 (PRP38 family protein ) HSP 1 Score: 490.0 bits (1260), Expect = 1.9e-138 Identity = 283/412 (68.69%), Postives = 329/412 (79.85%), Query Frame = 0
BLAST of Bhi12G001044 vs. TAIR 10
Match: AT5G37370.2 (PRP38 family protein ) HSP 1 Score: 470.3 bits (1209), Expect = 1.6e-132 Identity = 276/412 (66.99%), Postives = 322/412 (78.16%), Query Frame = 0
BLAST of Bhi12G001044 vs. TAIR 10
Match: AT5G37370.4 (PRP38 family protein ) HSP 1 Score: 403.3 bits (1035), Expect = 2.3e-112 Identity = 241/359 (67.13%), Postives = 281/359 (78.27%), Query Frame = 0
BLAST of Bhi12G001044 vs. TAIR 10
Match: AT5G37370.3 (PRP38 family protein ) HSP 1 Score: 176.8 bits (447), Expect = 3.6e-44 Identity = 82/96 (85.42%), Postives = 89/96 (92.71%), Query Frame = 0
BLAST of Bhi12G001044 vs. TAIR 10
Match: AT2G40650.1 (PRP38 family protein ) HSP 1 Score: 68.2 bits (165), Expect = 1.8e-11 Identity = 100/344 (29.07%), Postives = 151/344 (43.90%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy Swiss-Prot
Match: Q8RWB1 (Pre-mRNA splicing factor SR-like 1 OS=Arabidopsis thaliana OX=3702 GN=SRL1 PE=1 SV=1) HSP 1 Score: 490.0 bits (1260), Expect = 2.7e-137 Identity = 283/412 (68.69%), Postives = 329/412 (79.85%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy Swiss-Prot
Match: Q5VTL8 (Pre-mRNA-splicing factor 38B OS=Homo sapiens OX=9606 GN=PRPF38B PE=1 SV=1) HSP 1 Score: 190.7 bits (483), Expect = 3.4e-47 Identity = 173/461 (37.53%), Postives = 230/461 (49.89%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy Swiss-Prot
Match: Q6AXY7 (Pre-mRNA-splicing factor 38B OS=Rattus norvegicus OX=10116 GN=Prpf38b PE=1 SV=1) HSP 1 Score: 189.1 bits (479), Expect = 9.8e-47 Identity = 173/462 (37.45%), Postives = 233/462 (50.43%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy Swiss-Prot
Match: Q80SY5 (Pre-mRNA-splicing factor 38B OS=Mus musculus OX=10090 GN=Prpf38b PE=1 SV=1) HSP 1 Score: 181.0 bits (458), Expect = 2.7e-44 Identity = 162/424 (38.21%), Postives = 211/424 (49.76%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy Swiss-Prot
Match: Q6P7Y3 (Pre-mRNA-splicing factor 38B OS=Danio rerio OX=7955 GN=prpf38b PE=2 SV=1) HSP 1 Score: 169.1 bits (427), Expect = 1.0e-40 Identity = 146/407 (35.87%), Postives = 197/407 (48.40%), Query Frame = 0
BLAST of Bhi12G001044 vs. NCBI nr
Match: XP_038875168.1 (pre-mRNA splicing factor SR-like 1 isoform X1 [Benincasa hispida] >XP_038875169.1 pre-mRNA splicing factor SR-like 1 isoform X1 [Benincasa hispida]) HSP 1 Score: 764.2 bits (1972), Expect = 5.6e-217 Identity = 408/453 (90.07%), Postives = 409/453 (90.29%), Query Frame = 0
BLAST of Bhi12G001044 vs. NCBI nr
Match: XP_011655154.1 (pre-mRNA splicing factor SR-like 1 isoform X1 [Cucumis sativus] >XP_011655155.1 pre-mRNA splicing factor SR-like 1 isoform X1 [Cucumis sativus] >XP_031742200.1 pre-mRNA splicing factor SR-like 1 isoform X1 [Cucumis sativus] >XP_031742201.1 pre-mRNA splicing factor SR-like 1 isoform X1 [Cucumis sativus] >XP_031742202.1 pre-mRNA splicing factor SR-like 1 isoform X1 [Cucumis sativus] >KGN51086.2 hypothetical protein Csa_023135 [Cucumis sativus]) HSP 1 Score: 722.2 bits (1863), Expect = 2.4e-204 Identity = 389/443 (87.81%), Postives = 397/443 (89.62%), Query Frame = 0
BLAST of Bhi12G001044 vs. NCBI nr
Match: XP_022993767.1 (pre-mRNA splicing factor SR-like 1 [Cucurbita maxima]) HSP 1 Score: 709.9 bits (1831), Expect = 1.3e-200 Identity = 388/458 (84.72%), Postives = 397/458 (86.68%), Query Frame = 0
BLAST of Bhi12G001044 vs. NCBI nr
Match: TYK18924.1 (pre-mRNA-splicing factor 38B [Cucumis melo var. makuwa]) HSP 1 Score: 702.2 bits (1811), Expect = 2.6e-198 Identity = 385/473 (81.40%), Postives = 394/473 (83.30%), Query Frame = 0
BLAST of Bhi12G001044 vs. NCBI nr
Match: KAG7016573.1 (Pre-mRNA splicing factor SR-like 1, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 701.8 bits (1810), Expect = 3.4e-198 Identity = 384/464 (82.76%), Postives = 396/464 (85.34%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy TrEMBL
Match: A0A6J1JTS5 (Pre-mRNA-splicing factor 38 OS=Cucurbita maxima OX=3661 GN=LOC111489677 PE=3 SV=1) HSP 1 Score: 709.9 bits (1831), Expect = 6.1e-201 Identity = 388/458 (84.72%), Postives = 397/458 (86.68%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy TrEMBL
Match: A0A5D3D5T6 (Pre-mRNA-splicing factor 38 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold418G00040 PE=3 SV=1) HSP 1 Score: 702.2 bits (1811), Expect = 1.3e-198 Identity = 385/473 (81.40%), Postives = 394/473 (83.30%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy TrEMBL
Match: A0A6J1FF63 (Pre-mRNA-splicing factor 38 OS=Cucurbita moschata OX=3662 GN=LOC111444923 PE=3 SV=1) HSP 1 Score: 698.7 bits (1802), Expect = 1.4e-197 Identity = 381/463 (82.29%), Postives = 396/463 (85.53%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy TrEMBL
Match: A0A5A7TWJ6 (Pre-mRNA-splicing factor 38 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold284G00850 PE=3 SV=1) HSP 1 Score: 698.4 bits (1801), Expect = 1.8e-197 Identity = 385/483 (79.71%), Postives = 394/483 (81.57%), Query Frame = 0
BLAST of Bhi12G001044 vs. ExPASy TrEMBL
Match: A0A6J1CK04 (Pre-mRNA-splicing factor 38 OS=Momordica charantia OX=3673 GN=LOC111011867 PE=3 SV=1) HSP 1 Score: 696.0 bits (1795), Expect = 9.1e-197 Identity = 378/462 (81.82%), Postives = 392/462 (84.85%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Wax gourd (B227) v1
Date Performed: 2021-10-22 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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