Moc11g08930 (gene) Bitter gourd (OHB3-1) v2
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.ATGGCGGGGAAGATCCTGGGCACGGCGACCTCCTTCATTTTTGTTTTCGCAGTTATGGTGGTTCTTGTTGCGCTTTTCATCGGTCCTTCCTTCAAGTTTCCATTTCCATTTCCGATCTCCTTCACCTCCTCCCCTGGACAGGTTCGAGCTTCTTTTTAAAGAAATTCGTTTGATAATGTATTATATATCCTGGAGGTTTTGGTTTTGAGGCCTTTTTATCTATCAAATGCTTGTTAATTGTGCTTTCATTTTAGTTTCGGCAGCCAAGAGGCATTTCTTTCTCTCTGTTATTTGTTATTTTCCCAGAAGTAGACAGAGGCGGAGCTCTGTTTTATGATTATCAGGCGGTTTAGGTCTTTTGGTCCTCATATGGGCGAGGTTTTGGTATGATTCTTAATGCTGTGGAATAAAAATCAAAAGCTTGAACGGGAGAGGATCACACACAATTTGGTTACAATTTGAAGTAGAGGGAAAGGTGGCCTTTGGTTAAACACCTTGAACTGGTGCTTGCAGTGTTGTTTTCTGCTGCTACCGCATAATGGTTAATTATTCTATTGCTCTTTGGACTTTTGGGATCCTGTGATTAGTACTTGATAAATGGGACAACTCTAATTTCTCCCGAAGGGGTCCCTTGGCTACTTTTTCATAAACCCCCCTCTCGAAATGTTAAATTGACTGTAAGAGAGATTGGAGACTTAATATTTAGAAGGTAAAACGGTGGAAGGAGGTTACCATCTCATCAATTAGGGTAATGTTTCCCAATAGATAGTAGATTTTGGAGTCTTGAACCTTCTGATTTGTTTACAGTTGCTTCACTAAGAAAATTTGGTTCAAATGCATCGATGCCCAAGGAATTCTTTGCTGCTTTATGGAAAACCAAGAGCCCAAGAAGGTTTAATGTGTTTTGCTGGATTCTCTCTAAAGGAAAGTTGAATACAGCTGATGTTGTTCAGAAGAAATCTCCTTCTGCTGCACTACTTCCCTCTTTTTGTTGTCTCTGTACAAAGAGTGGGGAAGATCATGACCATCTATTTTTTCATTGCTACTATGCCTCCAAGTGTTGGAATCTGTTATTGCATCAATTCAATGTGGATTGGTGTTTTGATCTCAAGTCCGGGGACAATGTTTATCAGCTTTTACATGGGCTTCCTCATCTTTCCTCTTCAGTTCGTTTTTTATGGTTAAATGTTGTCAAAGCCTTATTATCGGAATTGTGGTTCGAGAGGAATTCAAGATTATTTGAAGAAAAACGAAGACTTTACGACGAAAGTTTCTATTCAGCTAAGTTTAAAGCTTCACTTTGGTGTTCTCTTGTCGACTCTTTTACACATCACTCTCCTTCTATGATTTATGCTAATTGGGGAGCTTTTATTAATTTTGTGTAATTCTGTTATTTACATTTTTTATTTTTCTTTTTTCACTCTTTCGGGAGTTTGTATCATTGAACACTTGTATTATCTTTTCATTATTTCAATGAGAAGTTGTATCTTTGTTCAAAAAAATTAGGGTAATGTTTCCGTACATCAGGAGGAAGGTGGTCTTGACTGGGCAATCTTAGAAGAAGACATGTGACCTTGGCTTTGAAGTGGGTGTGGCATGAAAAGGGCTCTTGATGACAGTCAATCATAGCTATGGAACGGAGGAAGGTTTATTGTTAAACATTGGAATTTAATTGCCTGAATTTGAAGAAGGTTTTCGGTTTTCCTATCTCTGGAAGTGGGCATTGGTGAAAAAATTGACTTCTGGAAGGACTTACTTGTGGATTTCCAATTGTCAACCCAAGGCACTTCATTATGTAGCTAATTCCAAGCTTTCCTATATTGACTAGTCTCGGAATGGTAGTGATCTCGGGTGAATACTTCACTTCGCAGAACCGTTGAATGGTAGAGTTATTAGTAATGAATTAATTTATGAACCTTAGTCACTGTTGCTGCTTCTGGAAGTGTTTGTTACTTTGTTCATGTGCAAGATTAACATGTTGATGAATTATCAATTCGTAAACTGAAATAATGACCCGGTTTCTTTGCACATTCCATGCCACGCAGACTGATGCTGGCATCCTTTTTTTAATTATCTTTTCCTTTAATTTCTATAATTTAAATCTACCGAACATGTTGATGAATAGATTTAAATCTCAATTTGTAATCAATTTAAGTTGGTAGAGTTTTATACTTCTATTTCAAGTTCTTGTTTGCTTTTGTAGAAACTCTTCAAAGTTGATGAGCTAGCTCTGTATAATGGAACTGACGAGGGATTACCTATCCTTCTTGGAATTCTTGGGTACTCCCCGCCTCCCAGTCTCAACCCACCCTCCAGATATTTATACATATTTTTCAGTTTAATTTGTTTTAAATATTGACATCCCCCAATTAATCATTATGAATTATGGGAACTTGTTGAAAATGGAGAAAAAAATTATGATAATCCGAAGCGTTGGACCAGTTGGCTGCATATCCCAATTTCTTCTTGTAATTGTTCTTTTGAAATTATAGATTAACATTCCGCATAAGATAGATACAAAAGGTCTTGGTATAAAACATCCTCAACCTGGAAACTTATAGAACAGCATGCCAATTGTAATATGATTTGGTAAAGCGCTCATTTAATGGAAATCAATCCCTTGTACCTCTAATATTTCCATCTTTTTCAGATCAGTCTTTGATGTCACGAAAGGAAAATCTCACTATGGTGTGGGAGGAGGTTACAATCACTTTTCTGGAAGGTTTGTGGTCTCTACTTTCCTTATTAATCTCCTGTGTCATTTATGTTCATGTCTTATACTATGTAGCAATGGTTCGGTATCTGTTAGAATACATTTTAAAATTGCTATATTGAAGCATTTGTTCTATCAATGGTTCGTGATGTTACTTTTTCTTTACCTGTATTTTTCTAATCTTATTTTTTGAACAAAGATACAACTTCTCGTTGAAATAATGAAAAGATAATACAAGTGTTCAAGGATACAAACTCCCGAAAGAGTGAAAAAAGAAAAACAAAAAATGTAAATAACAGAATTAATAAAAGCTCCCCAATTAGCATAAATCATAGAAGGAGAGTGATGCGAAAAAGAGTTATCTCCCAATTAGTATTTTTCTAATCTTATAGAATATCTTCTTGAGTTATTTTCTCTCTGTTCATTATTTGCCACTACGACCATGGAGCTTTTTATAAAACATTAATTTTCAATTTAAATGTTACTAGTTGCTTATGATCCTATTTTATTTGATTTCTTTTGAATGAGACCTTGATAATTGATTGCCACCTTTCTTTTTGAGTCTTACAATGTACTGATATTTTCCTTTTCCATGGTTGTTTCTGAAAGCAGAGATGCTTCTCGTGCATTTGTTTCCGGAAACTTCACAGGTATTTATCATTACTTGTTGGGATGCTGAAAAGTATCTTCTGTCAAATCCTAGTTATAATTTTGTTCACCTTGTACAGACATTGAGTGTTAGAGATATAGTGAAACTGCTATTTTCTTTGGGCTGTCAATTTGATTTTTATTTCTATGAGAGTCAATTCGAATTAATTTCTAGCCAATGCTTTTCTTTACTGCATTGTGAATGGAGTTCCTAAAATTAGGTCTTTTTAGGTTGAAGATGTGTATCCTCTATTATCTCTTGTACTAAAATGTCATCATCATAATTATGTCTTCTTATTGAGAACCTGTGATAATGGTAGACATATTTCACTATTAGTACTCAACAAGAAATACATAATTGTATATTTTCTTGGGCGCGGGGGATGGGAGGGTGAGGGAGGAAGGGGAGAGAGAGGTTGGGTGGGAATGGGTACGAAGAAAAATGGTTTTTATGCGTTATTACTTATTACAAAATTGACTATCGATTGAGTTCTGTCATTTGTTATTGTTATAGGGGAAGGACTCACTGATTCTTTGCGGGGTTTGTCAAATTCTGAGGTAATCTTGTTGCTTATGTGTGGTGCTGTTGCTTATTATTTGTGCTTCCATTCTTTAGCTATGTAGAAGTTTTCCCCCTCCAAAACCTTCCTCTCCCCTCTTTGATATAAGGCTACAACTCTGTCTTGATCATTTTTTCTTATTGCATTATTGGGTCCAGCATGGCAGCATTAAATTCGTCTATGTATATTATTCCATCTAATTACTCTGTATAGCTGACTCTTGTACTAACTAATCTTGTAGGTCAAGAGTGTTGTTGAATGGCGGAGCTTCTACCATAAAACCTACACGTAAGCAAATGTCAAAGCAAATTAACCTTTAAATAGTTGAATTTCTATGATCTTAAATGATATGCAATGACAATTGTTGTAAGTGTCATGTGTTTTTTTCAAGTTTGAAAATTCAATTAATTCATTGGGTGGTGATGGATTTGAGAATGATATGCTATTATGGGAGTAATGATGAAGGATAATGCCTTTGGCATCCACAACAGTTTTGTAGGTAAGCTGGTGGGTCTTTACTATGATGATCAAGGAAATCCCACAAAACATTTAAAGGGAGCTGAGGCAAAGGCTGCCAGAGGTGCACAACTTTTGAAGAAACAAAAGCAAGAGGAAGATAAACTGCCAAGTTGTAATTCGAAATGGAGTCAAGGAGAGGGTGGTGAGGTACATGTTCTAACAAAATATTTGAGTTGGTGCTTAGCCAATGTTTTTTTGAACAAGAAACAAGCTTCTCATTGAATTAATGAATGAAAATGTTCAAAGATACAAACTCGAAAAGAGAATTACAAGTAAATGGAAAAAACAAGATAAGCTCAAACATTAAGAGATGAAGTAAAAGCTCCCCAATTGTAACAAATAAGTGAGGGAGAAAAGTTTTCGAACAAAGGTGACAAAGAGCTCCACAGTGAAGATTTGAATTTAGCCAAACTGAAACGATCCAATGAGATTTGCGACGATCCTTGAAAATTCTGAGATTTCTTTCATACCAAAGCTTAGAGCAAGACTTTGACACCATTTGACCACAGCAAGCTACTTTGAGAAGATAGAATTGGGCCTAGGAGTAGTTGAAGGATATTATCCACTGCTATGTTGCTGAAAACCTAGGAGAGATTGAACTCTTTAAATAATAAGAACCAACAGTGCAATGCATAAGGACATTGGAAGAATATATGGATCAGATTCTCTCCGCTTTCTTGACAAAACATACATATTGATGGCTGCAGACAGAAAACCGAGAGCTTTCTTTGAAGAACATCTGTATTGGATCGTTTCAGTTTGGATAAATTCAAATCTTCTGGTGAGTTTAATACCAAAAACTCTTGATGTCTCCCGAGTCCGGGCCTTGGGTAGGCGTGAGTGCCCCAAGGTATAGGGGAGCAAAGCTCCAACCCCCAGTTATTAAAAGAAAAACAGTATCTAGGAACCTAATAGAAAGGTATATTTGATGACAACTGAAGAAATGAATATAAAGTGTCGTATCCTTCATCATTATATCATATAATGAAATCTTCTGGTACTGATTAATCTTTTCTGCTCTCTCTATTATTAACCATATCTTTGGACTTTGCTCTGTTATCTTTAGGTCTGGTGTGATGATGGCTTCCCGAGGTTGGTACAAAGGCCTTTAGAAATTGCGTTGACGGGGAAGATGGGCAAACGGTGCGCTTGCTTTAGAGAAGACCAACTGGGGGAGCCAGGATTAGAGGTTTATGAAGGTTGCGACTACCAAGCCAAGACTTGCCATGTTTAAAGAGCCATTATAAACAGCTTTAGCTTGTTAATCGACATATAACCTCTTACATACACTGAAAGGCCGTTCGCCATTCGGGAGGGGGGTGAACCTGAAGGAGATTGACTGTAATGGCCAATGTGGTGCAATACACGACCAAAATTTTTGTTCAAAGGGAGGGGGTAATTCCCCGTGTACAGGTAAGGTATGTGATTATATATTTTCTAGCACAATACTATTCACTGATGATGATTATCTTCCTTCGTAGCACGATAATATTCCTTGATTATCATCAGTTTCAGTTATCAGCATGCTTTCGAGATCTGTGTTTGCCTTTTTCCATTGTCAATGTTTTTGACTTGTAAACCTTTGATGCACTTTTATGTGTGAAATGTATTATTTGTCTTCTCTTATATTTAAAGCTGTAAGACATGAAGAGACGAGCCTAATTTCTCAATTTTTTAGTTCAAGGAGCTCGAATCATCAACCTTGGAGATGGAAATGTTTTATTCATCGAGCTATATTGAACCTCTAACTATTTGTTATGGGCTTATAGGATGGTTTGGTAATAGATGCTTTATCATTGAACTATATTGAACCTCCAACTATTGTTATACTTTTTCTCCGGTGACAGTTTTCAAGATATGTTTGCCATCGTTGAACCCATATGAACTAGATTTTGAAGTTTTTGTTATATTATGATGTATTTTATTATGATCTTCTACAAGTTACAGCATGAAAAAAAGTATTAGTTTAGCATTTATTCTTAATTTCACTGTGTCTAAGAGTCTAAAGTAAATTGAAATTTTGATCAACTGATCCGATGTGCAATAGTTTTCTTTTCCCATTCATTCTAAACACAGATAGATATATAAGGTTGGTTTCTGGTTCAATTGAGATTTTCACATAATTTGATAAATTATTTTCTACACAACAAGCTCGAACTGAAGAAATACATTTTTAGATTTTCATAGTCTGGTTTGTACCGACTCGCAAAATTGGTTGAACCGAACTGAATCGGGGAATTCATCTCGCCCCTAATAAAATCTGATGATCTTATTATTATTGATATTATTTAGTCTATTTATGTGGAGGGATATATTTTGAAGGAAAAAAGTTTTCGATTGTTTGCTTAACCAGAACTGGCAAGTAATTAAGAAAAAAAACCAAAACTGATAAGTGAAAGAATAAAATTAATCGAGATTGACCAAATCTAGATCGATCTATGAAATAAGTTTTAATTTTATAGAGAAGTAAAAATTGTTCCAACAGGTCAATAGCATGTTTGTTTGATCGAATATTTGAAGTGATTTCAAATGAATTATGTTGTTTGTTATCCGAACAAATATAAATGATTTGTAGTAATGTTTTACATCAAATTTTGTTCCGAATTTTATAATAAATTACTTATTTGATTTTATCGTACTTTAAATTTTAAATTAATAAATTCAGGTAAAAGCTTAGATTACTAAACCTTTTTACTTATTTATTATTGTTATTATTTTTTAGAATACTAAACCTTTTATTATTTCAAATCTTTCATTTTATATAAGATAACAAATTTGAAATTACTACTACGATTTCAAATAACAATATTTAAAGTTATTTATTAAACTATTTCACAATAGGTCAAGAAAATGGAGTTCCCACTTGGCGTGTAATACTTATTAATAGTCAATTACCTTTCGTTTTCATTTTTTTTTTCAAAATATAAATAAAAGTATTATTTTATTTTATTAACTAATAAAACGCATAATAAATATAAAAAAATAATACTTAGTTAACTTTTTTAATGTAAAATTACCGAGAATAAAAGACAACAAATAAAAAATAATAATAAATAAAATGTCTATGTTTTTTTTTTTAAAAAAAAGAAGGATCAAGTAACGTTTGTTTTCGCCAATGTTTGCAAGAAATAACAAGTAACGGTTATGAAAATAAAGGTCAATTTTATTATTTTTCATTCCATTCTAAGCTATTGGCGCCAAAAACCCTGCATACTTCCATGCGTTGCGTATGATTCTCTCTACTACTTCAGCGATGAGATGATTTTCGTACCAAATTATCAGTACTCCACTAATTACCAAAGATTCCTCTCGAATTTTCAACCAATTTGTGCTCTAAACAATTACACTATTGTCTCCGATTCTTCATCTATGATCTACACAACAACCTTCGTTATTTCTGACTTTCCGTTTCTTTAATTTGTCTCTCCGCGTGCCAGTTCGTGCTTCCCCTAATTCTCTCCCTGGTTGGTCAAGATTCTTGCGCAATTTGACAATGCAGGTTTATTCTAATCTCTGGCTTTCTTGTGATCTAAATAAATGTCATGCAATTTAATAGAGTAAAAAATAATATGATTTTGATTTGGATTAATTAAATCATCCACCCCATTTCAAGGGATTAAAGATTTTTTTGTCAACTATGACAGCTGCAAAGAATTCTTAGTCTTTAAAATAATTCAACTTGGCTTTAACTAGCTCGTAGTATGGATTTTCAAAAGGATGAAGTCAAATGCATTACATATGGCTTTGACAAATTATTGAAAGCTATTTTATTTGATATATCATGGTGATTTCTATGTTGCTCACTAAAAATGAACACAAACGAAAAGAGTTGAACAGTAGTACGTGATTTGTAGCTTCTCTCATTCCAGTTAAGGACTAATGATGATGGAGCAGTTAAATTACTGTCTTCTAATTCAGATCTGTGTTGCTTTAGCTATTTCATTTCTGGTTAGTGCACAGGAGGAATCAGGTTCGTTGTTATGTTTCAATGTGGAGAAATAGCATATTCAAGTTAGTCTATGTCTCTCTAAGATTGATAACTATTAACTACGGCTCTCTCTTTGTGTAATTTGTTGTTCAGGATTCATTAGCATTGACTGTGGAGTTTCAAAGAATTCTAGCTACACAGACAGAGTAACAGGCATAAAGTACACTTCTGATGCATACTTCACGGAAACTGGTATAAATAAGAGCATATCATCTGATTTCAACACAACCACTCTTCCACAGCAATTCTGGTATGTTAGAAGCTTTCCTGAAGGAGATAGGAACTGTTACATCATAAAGCTTGCTCAAGGAAAAGGTTACAAGTATTTGATCAGAGCGAGTTTCATGTACGGAAACTATGATGGCCAAGGTAAAGCACCGGCTTTTGATTTGTACATGGGAGTTAATAAGTGGGATTCAGTAGTATTGAACAATGAATCCAGTATCATAATCAAAGAAGTCATACATGCACTTCCTACATCTTCCATAAACATATGTCTGGTGAATACTGGCTTTGGTTCACCTTTTATATCAGCATTGGAGCTCAAGCTTTTGAAAAATGCTACTTACATGACCAATTTCGAATTGTTAGCACTCCATAGACGGCTGGATATAGGTTCAACTACCAATAAAACTGTCAGCTAAGCCATTTACGAAAAAGTTACTTAAACTTGTTGATTTAGGACTGTGGTCATCATAGCTTGTGATTTAGGGTTCATTCAGTGGTGTTCCCGTTTCTTGTTTCTCGTTTTCAATTTTTTTAATAAGCTTAAGCATTTTACAACTATTTATTTTCTTGTTTCTCGTTTTTTAGAAACATTCTCAAAATTGTATAGAAATTTTAGAAATAACAAAAACAAGTTTATTATTTCTTATTTCTGTTTCTAATTTATTTCAAAATATAAATAAAGATATTGTTTTATCATTCTTGAATCCATGGGTGTTGGGGGCATCCAATTCTATTTTTCTTTATTAGATAGAGGAAACAAAAACAAGAAACGGGAACTTTACCAAATGTGCTCTTAATGTCTGTGTTGTCTCTCTCAGGTACAGTGATGATGTTCGTGATCGGATCTGGTTGCCCTATAACTTTCCTCATTACAAAATTATAA ATGGCGGGGAAGATCCTGGGCACGGCGACCTCCTTCATTTTTGTTTTCGCAGTTATGGTGGTTCTTGTTGCGCTTTTCATCGGTCCTTCCTTCAAGTTTCCATTTCCATTTCCGATCTCCTTCACCTCCTCCCCTGGACAGAAACTCTTCAAAGTTGATGAGCTAGCTCTGTATAATGGAACTGACGAGGGATTACCTATCCTTCTTGGAATTCTTGGATCAGTCTTTGATGTCACGAAAGGAAAATCTCACTATGGTGTGGGAGGAGGTTACAATCACTTTTCTGGAAGAGATGCTTCTCGTGCATTTGTTTCCGGAAACTTCACAGGGGAAGGACTCACTGATTCTTTGCGGGGTTTGTCAAATTCTGAGGTCAAGAGTGTTGTTGAATGGCGGAGCTTCTACCATAAAACCTACACTTTTGTAGGTAAGCTGGTGGGTCTTTACTATGATGATCAAGGAAATCCCACAAAACATTTAAAGGGAGCTGAGGCAAAGGCTGCCAGAGGTGCACAACTTTTGAAGAAACAAAAGCAAGAGGAAGATAAACTGCCAAGTTGTAATTCGAAATGGAGTCAAGGAGAGGGTGGTGAGGTCTGGTGTGATGATGGCTTCCCGAGGTTGGTACAAAGGCCTTTAGAAATTGCGTTGACGGGGAAGATGGGCAAACGGTGCGCTTGCTTTAGAGAAGACCAACTGGGGGAGCCAGGATTAGAGATCTGTGTTGCTTTAGCTATTTCATTTCTGGTTAGTGCACAGGAGGAATCAGGATTCATTAGCATTGACTGTGGAGTTTCAAAGAATTCTAGCTACACAGACAGAGTAACAGGCATAAAGTACACTTCTGATGCATACTTCACGGAAACTGGTATAAATAAGAGCATATCATCTGATTTCAACACAACCACTCTTCCACAGCAATTCTGGTATGTTAGAAGCTTTCCTGAAGGAGATAGGAACTGTTACATCATAAAGCTTGCTCAAGGAAAAGGTTACAAGTATTTGATCAGAGCGAGTTTCATGTACGGAAACTATGATGGCCAAGGTACAGTGATGATGTTCGTGATCGGATCTGGTTGCCCTATAACTTTCCTCATTACAAAATTATAA ATGGCGGGGAAGATCCTGGGCACGGCGACCTCCTTCATTTTTGTTTTCGCAGTTATGGTGGTTCTTGTTGCGCTTTTCATCGGTCCTTCCTTCAAGTTTCCATTTCCATTTCCGATCTCCTTCACCTCCTCCCCTGGACAGAAACTCTTCAAAGTTGATGAGCTAGCTCTGTATAATGGAACTGACGAGGGATTACCTATCCTTCTTGGAATTCTTGGATCAGTCTTTGATGTCACGAAAGGAAAATCTCACTATGGTGTGGGAGGAGGTTACAATCACTTTTCTGGAAGAGATGCTTCTCGTGCATTTGTTTCCGGAAACTTCACAGGGGAAGGACTCACTGATTCTTTGCGGGGTTTGTCAAATTCTGAGGTCAAGAGTGTTGTTGAATGGCGGAGCTTCTACCATAAAACCTACACTTTTGTAGGTAAGCTGGTGGGTCTTTACTATGATGATCAAGGAAATCCCACAAAACATTTAAAGGGAGCTGAGGCAAAGGCTGCCAGAGGTGCACAACTTTTGAAGAAACAAAAGCAAGAGGAAGATAAACTGCCAAGTTGTAATTCGAAATGGAGTCAAGGAGAGGGTGGTGAGGTCTGGTGTGATGATGGCTTCCCGAGGTTGGTACAAAGGCCTTTAGAAATTGCGTTGACGGGGAAGATGGGCAAACGGTGCGCTTGCTTTAGAGAAGACCAACTGGGGGAGCCAGGATTAGAGATCTGTGTTGCTTTAGCTATTTCATTTCTGGTTAGTGCACAGGAGGAATCAGGATTCATTAGCATTGACTGTGGAGTTTCAAAGAATTCTAGCTACACAGACAGAGTAACAGGCATAAAGTACACTTCTGATGCATACTTCACGGAAACTGGTATAAATAAGAGCATATCATCTGATTTCAACACAACCACTCTTCCACAGCAATTCTGGTATGTTAGAAGCTTTCCTGAAGGAGATAGGAACTGTTACATCATAAAGCTTGCTCAAGGAAAAGGTTACAAGTATTTGATCAGAGCGAGTTTCATGTACGGAAACTATGATGGCCAAGGTACAGTGATGATGTTCGTGATCGGATCTGGTTGCCCTATAACTTTCCTCATTACAAAATTATAA MAGKILGTATSFIFVFAVMVVLVALFIGPSFKFPFPFPISFTSSPGQKLFKVDELALYNGTDEGLPILLGILGSVFDVTKGKSHYGVGGGYNHFSGRDASRAFVSGNFTGEGLTDSLRGLSNSEVKSVVEWRSFYHKTYTFVGKLVGLYYDDQGNPTKHLKGAEAKAARGAQLLKKQKQEEDKLPSCNSKWSQGEGGEVWCDDGFPRLVQRPLEIALTGKMGKRCACFREDQLGEPGLEICVALAISFLVSAQEESGFISIDCGVSKNSSYTDRVTGIKYTSDAYFTETGINKSISSDFNTTTLPQQFWYVRSFPEGDRNCYIIKLAQGKGYKYLIRASFMYGNYDGQGTVMMFVIGSGCPITFLITKL Homology
BLAST of Moc11g08930 vs. NCBI nr
Match: XP_022136427.1 (membrane-associated progesterone-binding protein 4 isoform X1 [Momordica charantia]) HSP 1 Score: 486.1 bits (1250), Expect = 2.7e-133 Identity = 239/240 (99.58%), Postives = 240/240 (100.00%), Query Frame = 0
BLAST of Moc11g08930 vs. NCBI nr
Match: XP_022981227.1 (membrane-associated progesterone-binding protein 4 [Cucurbita maxima]) HSP 1 Score: 409.8 bits (1052), Expect = 2.4e-110 Identity = 204/240 (85.00%), Postives = 219/240 (91.25%), Query Frame = 0
BLAST of Moc11g08930 vs. NCBI nr
Match: KAG6607996.1 (Membrane-associated progesterone-binding protein 4, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 406.0 bits (1042), Expect = 3.5e-109 Identity = 203/240 (84.58%), Postives = 218/240 (90.83%), Query Frame = 0
BLAST of Moc11g08930 vs. NCBI nr
Match: KAG7037514.1 (Membrane-associated progesterone-binding protein 4 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 406.0 bits (1042), Expect = 3.5e-109 Identity = 203/240 (84.58%), Postives = 217/240 (90.42%), Query Frame = 0
BLAST of Moc11g08930 vs. NCBI nr
Match: XP_022940087.1 (membrane-associated progesterone-binding protein 4 [Cucurbita moschata]) HSP 1 Score: 405.6 bits (1041), Expect = 4.6e-109 Identity = 203/240 (84.58%), Postives = 217/240 (90.42%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy Swiss-Prot
Match: Q2HIW2 (Membrane-associated progesterone-binding protein 4 OS=Arabidopsis thaliana OX=3702 GN=MAPR4 PE=2 SV=1) HSP 1 Score: 330.9 bits (847), Expect = 1.9e-89 Identity = 164/222 (73.87%), Postives = 184/222 (82.88%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy Swiss-Prot
Match: A2CES0 (Neuferricin OS=Danio rerio OX=7955 GN=cyb5d2 PE=3 SV=1) HSP 1 Score: 160.6 bits (405), Expect = 3.4e-38 Identity = 84/197 (42.64%), Postives = 115/197 (58.38%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy Swiss-Prot
Match: Q5SSH8 (Neuferricin OS=Mus musculus OX=10090 GN=Cyb5d2 PE=1 SV=1) HSP 1 Score: 155.2 bits (391), Expect = 1.4e-36 Identity = 78/195 (40.00%), Postives = 111/195 (56.92%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy Swiss-Prot
Match: Q6AY62 (Neuferricin OS=Rattus norvegicus OX=10116 GN=Cyb5d2 PE=2 SV=1) HSP 1 Score: 152.1 bits (383), Expect = 1.2e-35 Identity = 75/197 (38.07%), Postives = 111/197 (56.35%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy Swiss-Prot
Match: Q28FI8 (Neuferricin OS=Xenopus tropicalis OX=8364 GN=cyb5d2 PE=2 SV=1) HSP 1 Score: 147.9 bits (372), Expect = 2.3e-34 Identity = 82/197 (41.62%), Postives = 114/197 (57.87%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy TrEMBL
Match: A0A6J1C5H2 (membrane-associated progesterone-binding protein 4 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111008133 PE=4 SV=1) HSP 1 Score: 486.1 bits (1250), Expect = 1.3e-133 Identity = 239/240 (99.58%), Postives = 240/240 (100.00%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy TrEMBL
Match: A0A6J1ITE8 (membrane-associated progesterone-binding protein 4 OS=Cucurbita maxima OX=3661 GN=LOC111480426 PE=4 SV=1) HSP 1 Score: 409.8 bits (1052), Expect = 1.2e-110 Identity = 204/240 (85.00%), Postives = 219/240 (91.25%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy TrEMBL
Match: A0A6J1FIN0 (membrane-associated progesterone-binding protein 4 OS=Cucurbita moschata OX=3662 GN=LOC111445811 PE=4 SV=1) HSP 1 Score: 405.6 bits (1041), Expect = 2.2e-109 Identity = 203/240 (84.58%), Postives = 217/240 (90.42%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy TrEMBL
Match: A0A6J1C4A5 (membrane-associated progesterone-binding protein 4 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111008133 PE=4 SV=1) HSP 1 Score: 401.0 bits (1029), Expect = 5.5e-108 Identity = 192/193 (99.48%), Postives = 193/193 (100.00%), Query Frame = 0
BLAST of Moc11g08930 vs. ExPASy TrEMBL
Match: A0A5A7VCP1 (Membrane-associated progesterone-binding protein 4 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold384G003220 PE=4 SV=1) HSP 1 Score: 398.3 bits (1022), Expect = 3.5e-107 Identity = 201/240 (83.75%), Postives = 213/240 (88.75%), Query Frame = 0
BLAST of Moc11g08930 vs. TAIR 10
Match: AT4G14965.1 (membrane-associated progesterone binding protein 4 ) HSP 1 Score: 330.9 bits (847), Expect = 1.3e-90 Identity = 164/222 (73.87%), Postives = 184/222 (82.88%), Query Frame = 0
BLAST of Moc11g08930 vs. TAIR 10
Match: AT2G19210.1 (Leucine-rich repeat transmembrane protein kinase protein ) HSP 1 Score: 132.9 bits (333), Expect = 5.3e-31 Identity = 67/127 (52.76%), Postives = 83/127 (65.35%), Query Frame = 0
BLAST of Moc11g08930 vs. TAIR 10
Match: AT4G29990.1 (Leucine-rich repeat transmembrane protein kinase protein ) HSP 1 Score: 132.1 bits (331), Expect = 9.1e-31 Identity = 64/99 (64.65%), Postives = 75/99 (75.76%), Query Frame = 0
BLAST of Moc11g08930 vs. TAIR 10
Match: AT2G19230.1 (Leucine-rich repeat transmembrane protein kinase protein ) HSP 1 Score: 124.4 bits (311), Expect = 1.9e-28 Identity = 60/106 (56.60%), Postives = 74/106 (69.81%), Query Frame = 0
BLAST of Moc11g08930 vs. TAIR 10
Match: AT1G05700.1 (Leucine-rich repeat transmembrane protein kinase protein ) HSP 1 Score: 121.7 bits (304), Expect = 1.2e-27 Identity = 62/106 (58.49%), Postives = 73/106 (68.87%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (OHB3-1) v2
Date Performed: 2022-08-01
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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