Moc08g38910 (gene) Bitter gourd (OHB3-1) v2
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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.ATGGCCGCGGATTTGCTGAGCCAATTTCAACGGATTTTAGATTCCGACCCTCTGATGTAAGTATCTAGTTATAAAAAGTTCGACTCCCATTCGTTCGAATTCGATTTCACCGAAAAATTCATGTAACTCATCGTCTCAATTTGATGAGAAAAAACCCATTGTCAGATTCTAATTACTGACGGTTTTATGGATGCTTTCTCTTGCTACTTATAATGGTTATGGTTTTAAGATCATTGTAGTGGAACCAACAATTAACGTCTAGTTCCTGTTCTAGTTCTATTTCTAGGGAAGCTTTCATTTTGTGGGAACTGGGTATTCATCGCATATGCAAGTTCTAATTCTTATCAGATTCGGTTCCCATACATAGATATTGTGATTACAGGGGCAACATTTCTCTTAAGATTAGTACCTTCTTCGTGTTTTGTTGTATTGGGTAGTTTCTTGACCGCTTTTCTGTCCTATTGCATGAATTTAGCGATGAGATTGGATTTATACACCCGTCCCAGATTACCAAACTAAATGAAGAGGCGGGTAGTTCTGAAAGTGCTACCAATGAAATTCTGGGGAACAAAAGTTCAGATTTTTGGCTACAAGATCATAAGTTGGGCATATCAACGCAGATCCTTCATCCTTTGTATACAGTAGCTAGAAACACATTTATGGCTGCTATTAGGAAATATAGGAGCTTTTGCAAGCAAGACGATCAAGCCGTGGCTGGAAATTTTTTATGTGGATTATCTAATTCATTTAATATTGTTGAAAGTGAGGTCATGAAGCATAGCAGGGCTCTTTTGTTGCTGAGCTGTGATTTCGGCACTGCATGGAATTCCAGGTTTCTGCTTGTTTCTTTTTTGGTATACATTTTCCCCATTATTGAATTGCTGACTATTCCTCTTATTATCTATCATCATGTCTTACTTCCCTTTTTAAGAGTTCAGTTCTAAGTTTTCTCTCAAGTATCAACTCAAATACTACTCTGTTACAACTAACAAGCAGTTCACTTGAGGAGCAAAAAATTGTATATCCTGGCCTTTATTTGGTAAAATTATTTGTTGCTTATTAAATGGAAGTTCAATCTAAGGTTCACGCCCACGACCTCCCGCTCCTCTCTACGACCATCTCCTGCGGCGGCGACGCTCTCTGTGAGCGACTCTACGGCAGTGACAACGAGTTATTTGGTGTGATAGCAGGAGCAACAGCAGCTGCGTGGCTGGAGATTGGACATGAAAACAGTTCCTGGAATCATGAAGGTCTGCATAAAGATGTAGACGACACAGTATTGGAATTTTATGAGCTCCGATGGGAAAACAAATGGTGAGGATAGAGAATAAGTTCTTCACGTGCAACTACGACAGAAAGAAAAATGGTAACTTTGTCAGGATAGTTGAGAAACATGGCAAAAGGAGCTTTGAGATTACAGTGGAGGCGCTGGCGGCAGTGTGGAATGCAGATAGCGTGGATGACCTTCTACTGGCCCTTAAGACTAAAAAGTTCTTCAGGAAGACGAACTGCAATGGGGGTTTTCAATGGATTCAAAAAACGATGAACAAAAGAGGCTGCTTTTTGGAAGTAGCAAAGGTTTAAACCTCGGGGGGGGGGGGGGGGGAAGAACCTTGTCATTCCTTCAGACGTCGACTTCAAAGGTTGGCGAGCCTTCTGGGGTCTGATAATGGATTTCATGAATAGAAAGGAGGAAGCTTTCCCCTCTCATAAGGTGAGCTCTTCACCCTCCCCCTCATCCAACAGTGTTTTAATGTCTAGAAACTGGAAATCTTTAGCAGAGATGGTTAAAACAAACAAGAGAGACATGGAAAAGGAGGAGAGAATCCTGGACCAGGAAAGCGCTGGGAGAAAAGGGGCTGGAAATGAGGAAGTCAGAAGACTCAACTGGGAAGAGACCATAGTGATCACTCGCCGGGACTTCCACGATGATTGGAGCCGCATTTTGAGTTATGTGAAAGAACAAACTGAAAGCTCCTACATTATCAATCCTTTTCAGGCGGACAAGGCGCTTATGAAATGCCCCTCGAAAGACTTGGCTTGTCTCCTTCTTACGAATAAGGGGTGGGTTACCTTTGGCCCTGTAACGGTGAAATTGGAAGCTTGGAACCCCCTTCTTCACGGAAGGGCCTTCCTCTTCCCCTCCTACGGTAATTGGGTTAAGATTAGAAACATTCCTTTACATTTATGGAGCTTGGCTACATTTAAGGCGATCGGTAACGCCCTCGGGGGCTTCATTGACTACGATGATAATAATTCATGTTTTATAGAATGTTTTGATGTAGCTATTAAAGTCAAAAGCAATTACTGTGGTTTTATCCCTGCGGAAATCAGTTCGATGGATGGCCCTCTCTGTTTTCAAGCAAAAGTGGTTTCTTTCGAAGATAGTAAATGGCTCGCCAGAAAAGATGTCGGGATTCATGGCGGTTTTTCATCGGAAGCGGCTAGGTCTTTTCATCAAGGAAGTGCAGAGCAGAGTGCCAACTCTATTGACCGTTGGAGATTGGAGAACGGGTGTAATTACCCGGGGGTCAATATACAGTACCCTAACTTTATTCCCTTTAAGTCAGCTCGAAATGGAGGCTCAAAGTTATACTTTAGAGCAACAAGAAGTTTCTTACACGAAAATGCAAAAAGGAGAGAGAGGAAAAAGTGGGACCCAGGATTGACTTTGAAAAGGATAAAGATAAATTGTCTTGGCCTTTGTGCACGGAAAACACAGATGCCCACGTTTCCCGAGGTGACAAGAAAAAGGCAAAAGAAAAAGAAAGAGTAGTTTCTTTCTAAAAAAAAGAGGAAAGGTGTGCTCTATGGAGCCAGATTTTGTGCAGGATACGACTCAGAAGGAAAACGACCTAGAGGGACAGTCAGCCTCATCCATGATTAGCCTAATTGGCACATGCTTTGTTAAACCACCCAAGTTGATTATGTTTCGCCTCTTCCTCGGAGAAAGATGATCAAACAATTCCCAATCGTAAGTAAATTACTCCCAGTTGTTCAATCATTTGATAACCAGAGTCATTCTTGGAATTCTATTTACTCACTTTAAATTGAGTATCCGTTTCCATTTCCTGGTTTTTTTCCACGAAAAGCAAACATGAGATAACAAATCCAGTCTTTCGTTGAAGCGACCCCGTTGGCTGAAAATCAGGGAGATATACCAGAAGGATATTTCGAGAGTATTAGAGAGGAAGAATTAAGGGAAAGGAGGGAGATCTCTCCTGATACAGAAAGGCATCTGGAAAGGGATCGTGAAGAAACCAATTCTCTGGTGAGCTTAGACCTACCTCCAGATCAAGAAGTAGAAGGGGAGGATTCAGAGGAAGATGAGGAGGAATCAGAGCACTTTCCTTTTTCTAGAAAGCTGGTCCGCAATCTGTGGAAGTGTAAGATGTGTATCAGACCCCTTTCTAATAAAGGGAGTGTTTCAACAAAGAAGAAAACTAGAGAAATCACTAACTTGCTCCGGGCGATGGAGAGAGAAATTGAAGAAGAGACCGAAGTAGAAGAGGGATAGACAGGTTCTAAATGAAAATCCTCTCCAGGAATGTTAGAGGTCTTGGTGCTTCCTCCAAAAGAGCACTTGTAAAGTCCCTTCTAGTGAAATTTAATCCAGATGTGGCAATTTTGCAAGAAACAAAGTTGCAGTCTATCGACAGAAAAGTAGTGAAATCTGTTTGGAGCTCTAGGCATTTAGGGTGGGTGGAGCTTGATGCTGTCGGGTCAGCTGGCGGTATTCTTATCATGTGGAACCAAAATTCTGTGAAAGTAGAGGACTCAGTGATAGGTCGGTACTCTATCTCTATTTATGCTAACTTCAATGATAGTTTTTTTGGTTGGTTAACAGGAGTCTATGGGCCTTCTAGTTATAAAGGCAGAGACGATTTTTGGCAGGAGCTGCTGGATCTAAATGGGCTATGTGCGGATAATTGGTGCCTTGGAGGAGATTTTAATGTGGTGAGAAGAATTTTTGAGAAATCCAGTGGGGGAAGAGTCACCTGAAGTATGAAGAATTTCAACCTGTTGATCGATGAGCTGAAGGTGACGGATGTTCCTATGAAGAATGGCTCGTTTACTTGGTCCGATGGTAGGGAAAGACCGATAGCCACTCGCATAGACAGATTCTTTCTTTCTCATACTTGGATAGAGGCCTTTAAAGAGGTGGAGCTTATTAGGCTCCCAAGAACGACGTCAGATCATTTTCCTCTTTTCTTAAAGATGGGAAATCAGAAATGGGGTCCTTCCCCTTTTCGTTTTGAGAACATGTGGCTTGGCCATCACTCTTTCAAGGCTTGCGTAGAATCCTGGTGGACCTCCCTTTCTTCTCAAGGCTGGCCGGGATATGCCTTTACAGGAAAGCTGAAAGCTTTGAAAGAGTTATGAAAATAAAATTGAAGCTCTTGACAAATTAGAATTGGAAGGCTTGATTTCTGAAACAGAGAGAAAAGACAAAGTGGAGCACAAGAAGTCTTACTTGAACTTAGTTCTCAGTGAACAAAGGAAATGGGCTAAAAAATGCAAGTTGATGTGGGTTAAAAGAAGGGGATGAGAATTCTAGCTTTTTCCATAGATGGGCGACGACAAGAAAATCCAAATCTTGCATTTCAATGACAGAATCAGATGTAGGGGAGCTTCTTACTTCAGACATGGAGATTGAGCAGGAGATAGTAGGTTACTACGAATGGTTATATGGGCAGACTTCTGGACAACGATTCTTGATTGAGAATGTACAATGGGGAACCCTCGAGGAAAATTGGAAAGATTGGCTTGAAAGGCCTTTTGATATGGAAGAGATTAAGCAAGCGGTTTTCAACCTCGGAAATCTGAAGTCCCCAGGTCCGGATGGCTTCACTAATGAATTCTTAAAAAAGTCGTGGAACATCCTCAAGGGTGATTTGCTAGGGGTGTTCCAAGATTTTTTTAGGAATGGGGTCATCAACTGTCGTACCAATGAGACATATATTTGTTTGATCCCAAAAAAGATAAAGGCTATGAAAGTAGGCTATGAAACAAGGTGGACTGGTCTTACCTTGATGCTGTTTTGGAGCAAAAGGGTTTCGACCGTCGATGGAGGAAATGGGTTAATGGCTGCTTAGCTTCTACGAATTTCTCCATCTTCATTAATGGAAGACTGAGGGGTAAGATTTTTGCTAAGAGAGGGTTGAGACAAGGGGATCCTCCCTCCCCTTTCCTCTTCACGATTGTTGGGGACTCCTTTAGTCGGATGGTCCATTTATGTAGCCAAAGAAGATTAATCAGAGGGTTGGGGGCTGGGAAGAAGGAGGTGGAAGTGTCTCACTTACAATATGCGGATGATACCATGATCTGCCCAAACGACCATGGTATTCTCGAAAATTGGTGGATGGTCCTGGATATTTTCCTCAAAGCATCTGAATTGTCTTTGAATCTAGACAAAACGTCTTTGATAGGGATACATGTGGCAGAAGACATCCTTCAGAATATGGCCAGTAGGTTGGGCTGCAAAGTGGAGAAGCTCCCCGTCTCTTATTTGGGCATCCCTCTGGGGGAATTTTAAGAAGAATTCTTTTTGGCTCCGCTCATCGACAGAGTGAAGAAAAGAATTGAAAAATGGAAGAATCTCCTTCTCTCGAAAGGAGGAAGACTAAATCTTGCCTGGTCAGTGATTACTAGCATTCATATTTACTTCTTCTTGGTCCTAAAAGCTCCGAAAGGAGTTGTTAAATAAATAGAGAGACTGACTAGAAATTTCTTCCGGAATGGGGAACCTCTAAAGGGTTGTGTAACCACCTGGTCAACTGGGGAAAAACCGGCCTCCCCTCGCAGTTTGGCGGTTTGGGCATAGGGGCTTTACAACAACGGAACAACAGCCTTCTTCTCAAGTGGCTATGGAGATTCACTCAAGAACCCCACGCCTTGTGGAGAAGGGTGATTGCAAGCATTTACGGAGAGGACAAACACGGGTGGGGTACTCTCCCTCCCAAAGGGAGTGCTAAAGGTACAAACAGGGACCCGTATAAAATTCTGGATGGATTTATGGATTGGAGAAAGACCCCTAGCTGATGCTTTCCCAGATTTGTTTAATATCTCCACCACGAAAAAGGCCACAGTTGCAGACTGTTGGAATAGCAGTGAGAATGATTGGGATTTGGGCTTCCGTAGAGGCCTTTTTGATTGGGAAGTAGATAGTTGGATGGACCTAATTCATATTATTGACGTGGTGAGAATTGGGGAAGGAGAAGATCGTGTTTCTTGGTCCATTGGAAAAGGAGGAAGCTTCTCCACTCGCTCAGCTCGGCTGAAAATGGTAGAGTGCATTCCCTCTTTAAAGTCCCCCCTCATCTCGACGATTTGGAATTTCAAAGCTCCTAAAAAGATTAAGGTCTTCCTTTGGTCCTTAGCCCATAGAGCCTTAATACTCATGATATGCTTCAGAAAAAGTGTAGGAAATGGCTGATTTCCCCATCAGTGTGCAGTCTGTGTAATGGTGTAATGGGAACAGTGAGAATATAGACCATACTTTTGTTCACTGCAATTTCGCAACAAGAGCTTGGTGTTTTCTTTGTGATATTTTTGGGGTGGCGATTTGCTTCCCAAAAAGAATAGATGATTGGCTTGTGGAAGTTCTTCACGGGTGGTCACTTCCTAAGAAGGCGAGATTTATTTGGAAGTGTGCTTCAAGAGCTCTTTTGTGGCACTTATGGCTAGAAAGGAATTCTCGGGTCTTTGAAGATAGATCTACTCCTTTTGACATTTTTTGTATTTTTTGTAGGAATGTACAGCACACTGCTTCTTGGTGGTGCATTAATTATAGAGAATTCTTTTGTAATCACAACCTTTCCTTGTTCATGAACAATTGGAAAGGGTTCTTTGGATGGGGTTGCCTCTACCCCAACCCTTTGGCTGTATTTTTGTGCTGTCTTTAATGAAAGGTTCTGAATTTCCATATAAAAAAAAATAACAATAATAAATGGAAGGACCATGAATTATTTTAGAATAGTACAAGAAACATCAAACTCATATTGATTACAAATTCAGAAATTTTATTATTAACTTGCTATCTTAGTGTTAATTGGAATAGGAACCATCGCTCCTGATCTTACCATGTCCTGCAGGAAATTCGTGTTGCCAAAGAAACAACATCTCTCCATGTATTTGGACGAACTCCTCCTGTCAAAGCTTGTACTTTCATATTCCCCCAAGAGTGAACAAGCATGGAGTCATAGGTAAGGATTCAATAATTGGTGCAAGTTTGTTCATACTGGTATAGTAACTGTCTGAGGTTGGGTTATTATTACCCTCCAGGTACCATTTGAGGATAGTATAACTAATAAAATGAAACCATAATCCTTTTTTTTTTTATTTTATGGCTTCATTGCTAAAATACAGGCTCCACTTATTTTTCAATGATGAAACGATTTCTCTTTACCCCCCAAATTAGCTGCTGCATTTGGTATATTGGTAGGGTTTTTGTCAAAGTTTTCAAGCCCGTACTATTTAATGATACATAGTGAGTGGGACAAAGTTTTTGAGATGACCAAGTTTTATTGTTCCTCACGGTGTTCCCCCATCTAATTTGTTCTATAATTATTCTCTTTTAGTTCTAATAGGGAATTTTTGTAAGCGTATGTAGGAATTTGATGTTTTGCGTATAACTTTTCACAACCTCAATGAAAAATGAGTTTCCTATCTAAAAGAAGAAAGAAAGAAAAAAAAATTTTACCACTTGGTTGTTGGCAGGCGGTGGGTGATCAAGCTGCTTGTTCAAAAAGGCTATAATGTAGAAGAGATTTTGAAGAAAGAATCTGAGCTAGTGGAAAGAAAAGCTGAGGTTCAAGGACCTGCATATTATTAAAATTTGGAGGTTCACTATAAATTTCTTTGTAAGGATAATTTGTACAACATGCATTCTGTTTATTGCTGTTTCTATGAAGGATTTATTCATAGACTTCATGGTGACCAACTTTGGGACTGCGTGTCCATTAGTTTTTTATTCTAACTTTTAATGTTAATCAAACGTAAAAGTGATCAGCAAGGGTTGGATAAAAAAGCTCATTCAACATAGGATGCTAAAAACTGAATTAAAAAGCCCCCAGAACTTACAGATATATAGCATGAAATTATATCCTTTTCCTGTTAATCCCTACTCAATAATGAAAAAATGCAAAGTTTATTTGAGAACTGCTGCCCATTCGAGGTTAGTTACCTGTGATAAATTGAGCTTAGAAATCTACTTCTGTACGTTGTGGTCCTAGCAGGTGCATTCTACAAGGAAGGTAGAGTCTGCTAACTTTCTTTTTCTTGGATTGCCCCTACATGCTAAATATTCATTGGACGTAGCTGGAAGCACTTACGGTTGCTTTTCTCCCCCTAGTTAGATTGTATTCATTCTTTGAACCCTTGGTTCAGTTCATGCTGTAAACATTATTCTAAACAATCGATTTTAACTGGACTCTTATTACTAGCTTGCTGTAATAATATGAAGTTTGTCTTATCTAAGTTAACTTCACTGTCTTATCCAAGTTAACTTCACTTTGGTGTAGATGTCAAAAATGAATCACCGTGCATGGAACCACCGACGCTGGTTAGTTTCTTACATGTCAAGAGAACAGGTGGGTTTTTCTTCTTTTTTCTTGTTTGACAGTTCTGTTGTAACTTTAAGGCACGGCTGTAGAATTGAGGGTGGTTCTTTCTTCAGATATTAGTCATGCTGTCACCTGAGCTGAAAATGGATAAATTGACTCCTTCAAAGTTGAGAAATGGAAAGAATAATTTATTGGATAGCCAAAAACAATTTTTATGGGAGGGAATTACATGAGCTGGTAACCTGTAAACACATGTAACAACTCTCTATTATTCACAAGTTCAGTATTGTAAGCTACAACATGCACCTTTTGTAGTAATTTTTTGATTATTATCTTTTCCGTGAAGAATGTTTTATGGGCTCAAGTGCATTGTTCTCAAGAGAGAATCTAAAAACCTCCATCTTCAGGTGTTGAATGAACTAAAGGAAACCAGAAAATGGGCAGCGTTGCATGTTGCTGACAATTGTTGCTTCCACTATCGCAGAGTGAGTTCTACCTACTTAAGCCTGATAAAAATTGATTAAATCCTTTGAAAATAAATTAGACGAATGTTCATTATTGCAAGTGTTAAAAGAAATAAATGGAAGATCTATAGTATGGATTCTTCTTCTTCTTCTTTTTTTTTTAACCTAAAACACGATCCAAGTTAATATTATTCACTGCATATTCTAGGAAGCATACTCTAGTACAAATCTAAGCCGGATTTAATACAAAGGCTAGAATCCACTTATAATTTCTCTTTTCAAGGAATGAGAGATGAGAGAGCTGGAACACACTTTTTTCACCAATATTTTCACCTCTCTGAATCGGGAGATCCATCGCCATACGAGACCAGGCCCTTCTTCCCATCTGGGCTACCAGAAGGAGACCTGGACCTATCTCTGATAGTCCTCCTGGGGGATTGCGAATCACATAGTAAATTGCTTAAATTATCTTGAAATGATGCCCGAGTTTTTTCCATTCGCAGCGGCTCATGCTCAAAATGTTAGAGGAATCAACTCGCACAGAATTAAGTTCTGGTCTCAGCATTGACACTTATCGAGTGTGGAAGGTGAGCTTGTTTATTCTTTATCCAACTCTCTCTTAGTCAATGTTCTCTCTATCTAAAACAAACTCTCTCTTCTTCTTCTTCTTTTTTTTTTTAATATAAAAAGAAATGTTCTCTCTATGTGCAATTATAAATCGGCCATGTTGATGCCTTTTCAAATTTTATTATTCGAACTAAAATTGGAAATCTTTTACTGTTTCCTTAAATATAATTTCAATGCTGTTAAATAGCAACATTTTCTTTTGTGTCTACGCCTTTGATGGGTAGATTCTTCTGCACCATCTTTCAGTGACACGGATGTATGTATTCTATTTTGCCTAAAAAACTTCTGAGTTCTATGTCTCTTGGAGTAAATTAGTCCTTGTTTGAGTTGTTTGAATGTTCTCTAGCTTTGTTAGCTTGGGGAGCAGAAAAGAAACAATAAATGAGCCTATAATTAAAAGTTATCTATAAGCGTCCATTCTTGCTGTGTTTGAGATAGATGATCTTTAATTGACTTTATCTGTTTAAAACTGGCTTGTTAATATCTTGCATATTGTTATATTGAAAGGAAGAGCTTGATTGGGATGAAATGCTGATAAAGCGATATATTGGAAGAGAGGTACATGCTTCTCTGTCTCTCTTTTTCTTTTTTTTCCTTTTTTTTTTCTGGGGGGGGGGGGGGGGGGGGGGGGGGTGGTGGGTTGGTCAATTGGAGATGAATATGAGTGGAGGAGAATTTCTTTTGACGATTTACTTTGCTGCTGATTATACCCTCCTCAGATAACTTTTCGTCATCTTAACTTGCAATGATGTATTCAGACAAATCCTATTCCATCTTCTACATTATAGTCTGCGCTTGGCTACATGGTTTTCTGAATGCTAGCATTTTGTTCTATTCCTTTCGCTCTGTTAAATGAGACATTCTGGTCCTTTTTGTTCAAGAGAAAAGAGCGTGAAACTTTGTTGCTAGCATTTTGATCTTTTTTTGTTCTCCTTGAATTATATCCATTCTGGACAGGCTTTATGGATTCACCGTCGATTCCTTTCGCTGTGTTGGATGAGACATTTTGCATCCAATCTCAATACATATGAGCAAGAGGGGGGAATAAACAACGATGTCCTTTTCTTTACAGAAAATGAATCAAATCTTGTGAATTCCTGCTCATTTATCCTAGATAACAACTTCGAGGATTATCATGCACAAGCAACATATTCTGCTGCATATCTCTTATGGTTGATAAAGGTGAAATTTATTCCTTCCGTATCAACATCTTCATTTACTTTTGTTAATCCAGGCTTTCTGCCCAAATTACTTGAGTGATTCTTCCACATTTTTATGCTTACAGAACTGTCCAAAGCCACATGTGATCAAACTGGATGAGAAGCTTAGAGCATGCAATTTGAAGACTCTGCTTTACAAGGCATGCCCAGAAAGGTATTCACTTTGGGATTCTTTAATGGATTCCATTGAAAACTCTGATTAAATGGCCGCGGATTTGCTGAGCCAATTTCAACGGATTTTAGATTCCGACCCTCTGATCGATGAGATTGGATTTATACACCCGTCCCAGATTACCAAACTAAATGAAGAGGCGGGTAGTTCTGAAAGTGCTACCAATGAAATTCTGGGGAACAAAAGTTCAGATTTTTGGCTACAAGATCATAAGTTGGGCATATCAACGCAGATCCTTCATCCTTTGTATACAGTAGCTAGAAACACATTTATGGCTGCTATTAGGAAATATAGGAGCTTTTGCAAGCAAGACGATCAAGCCGTGGCTGGAAATTTTTTATGTGGATTATCTAATTCATTTAATATTGTTGAAAGTGAGGTCATGAAGCATAGCAGGGCTCTTTTGTTGCTGAGCTGTGATTTCGGCACTGCATGGAATTCCAGGAAATTCGTGTTGCCAAAGAAACAACATCTCTCCATGTATTTGGACGAACTCCTCCTGTCAAAGCTTGTACTTTCATATTCCCCCAAGAGTGAACAAGCATGGAGTCATAGGCGGTGGGTGATCAAGCTGCTTGTTCAAAAAGGCTATAATGTAGAAGAGATTTTGAAGAAAGAATCTGAGCTAGTGGAAAGAAAAGCTGAGATGTCAAAAATGAATCACCGTGCATGGAACCACCGACGCTGGTTAGTTTCTTACATGTCAAGAGAACAGGTGTTGAATGAACTAAAGGAAACCAGAAAATGGGCAGCGTTGCATGTTGCTGACAATTGTTGCTTCCACTATCGCAGACGGCTCATGCTCAAAATGTTAGAGGAATCAACTCGCACAGAATTAAGTTCTGGTCTCAGCATTGACACTTATCGAGTGTGGAAGGAAGAGCTTGATTGGGATGAAATGCTGATAAAGCGATATATTGGAAGAGAGGCTTTATGGATTCACCGTCGATTCCTTTCGCTGTGTTGGATGAGACATTTTGCATCCAATCTCAATACATATGAGCAAGAGGGGGGAATAAACAACGATGTCCTTTTCTTTACAGAAAATGAATCAAATCTTGTGAATTCCTGCTCATTTATCCTAGATAACAACTTCGAGGATTATCATGCACAAGCAACATATTCTGCTGCATATCTCTTATGGTTGATAAAGAACTGTCCAAAGCCACATGTGATCAAACTGGATGAGAAGCTTAGAGCATGCAATTTGAAGACTCTGCTTTACAAGGCATGCCCAGAAAGGTATTCACTTTGGGATTCTTTAATGGATTCCATTGAAAACTCTGATTAA ATGGCCGCGGATTTGCTGAGCCAATTTCAACGGATTTTAGATTCCGACCCTCTGATCGATGAGATTGGATTTATACACCCGTCCCAGATTACCAAACTAAATGAAGAGGCGGGTAGTTCTGAAAGTGCTACCAATGAAATTCTGGGGAACAAAAGTTCAGATTTTTGGCTACAAGATCATAAGTTGGGCATATCAACGCAGATCCTTCATCCTTTGTATACAGTAGCTAGAAACACATTTATGGCTGCTATTAGGAAATATAGGAGCTTTTGCAAGCAAGACGATCAAGCCGTGGCTGGAAATTTTTTATGTGGATTATCTAATTCATTTAATATTGTTGAAAGTGAGGTCATGAAGCATAGCAGGGCTCTTTTGTTGCTGAGCTGTGATTTCGGCACTGCATGGAATTCCAGGAAATTCGTGTTGCCAAAGAAACAACATCTCTCCATGTATTTGGACGAACTCCTCCTGTCAAAGCTTGTACTTTCATATTCCCCCAAGAGTGAACAAGCATGGAGTCATAGGCGGTGGGTGATCAAGCTGCTTGTTCAAAAAGGCTATAATGTAGAAGAGATTTTGAAGAAAGAATCTGAGCTAGTGGAAAGAAAAGCTGAGATGTCAAAAATGAATCACCGTGCATGGAACCACCGACGCTGGTTAGTTTCTTACATGTCAAGAGAACAGGTGTTGAATGAACTAAAGGAAACCAGAAAATGGGCAGCGTTGCATGTTGCTGACAATTGTTGCTTCCACTATCGCAGACGGCTCATGCTCAAAATGTTAGAGGAATCAACTCGCACAGAATTAAGTTCTGGTCTCAGCATTGACACTTATCGAGTGTGGAAGGAAGAGCTTGATTGGGATGAAATGCTGATAAAGCGATATATTGGAAGAGAGGCTTTATGGATTCACCGTCGATTCCTTTCGCTGTGTTGGATGAGACATTTTGCATCCAATCTCAATACATATGAGCAAGAGGGGGGAATAAACAACGATGTCCTTTTCTTTACAGAAAATGAATCAAATCTTGTGAATTCCTGCTCATTTATCCTAGATAACAACTTCGAGGATTATCATGCACAAGCAACATATTCTGCTGCATATCTCTTATGGTTGATAAAGAACTGTCCAAAGCCACATGTGATCAAACTGGATGAGAAGCTTAGAGCATGCAATTTGAAGACTCTGCTTTACAAGGCATGCCCAGAAAGGTATTCACTTTGGGATTCTTTAATGGATTCCATTGAAAACTCTGATTAA MAADLLSQFQRILDSDPLIDEIGFIHPSQITKLNEEAGSSESATNEILGNKSSDFWLQDHKLGISTQILHPLYTVARNTFMAAIRKYRSFCKQDDQAVAGNFLCGLSNSFNIVESEVMKHSRALLLLSCDFGTAWNSRKFVLPKKQHLSMYLDELLLSKLVLSYSPKSEQAWSHRRWVIKLLVQKGYNVEEILKKESELVERKAEMSKMNHRAWNHRRWLVSYMSREQVLNELKETRKWAALHVADNCCFHYRRRLMLKMLEESTRTELSSGLSIDTYRVWKEELDWDEMLIKRYIGREALWIHRRFLSLCWMRHFASNLNTYEQEGGINNDVLFFTENESNLVNSCSFILDNNFEDYHAQATYSAAYLLWLIKNCPKPHVIKLDEKLRACNLKTLLYKACPERYSLWDSLMDSIENSD Homology
BLAST of Moc08g38910 vs. NCBI nr
Match: XP_022149858.1 (protein prenyltransferase alpha subunit repeat-containing protein 1 [Momordica charantia]) HSP 1 Score: 857.4 bits (2214), Expect = 5.0e-245 Identity = 419/419 (100.00%), Postives = 419/419 (100.00%), Query Frame = 0
BLAST of Moc08g38910 vs. NCBI nr
Match: KAG7020985.1 (Protein prenyltransferase alpha subunit repeat-containing protein 1 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 701.4 bits (1809), Expect = 4.6e-198 Identity = 343/418 (82.06%), Postives = 376/418 (89.95%), Query Frame = 0
BLAST of Moc08g38910 vs. NCBI nr
Match: XP_023538443.1 (protein prenyltransferase alpha subunit repeat-containing protein 1 isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 700.7 bits (1807), Expect = 7.8e-198 Identity = 343/418 (82.06%), Postives = 376/418 (89.95%), Query Frame = 0
BLAST of Moc08g38910 vs. NCBI nr
Match: XP_022937607.1 (protein prenyltransferase alpha subunit repeat-containing protein 1 isoform X1 [Cucurbita moschata]) HSP 1 Score: 700.3 bits (1806), Expect = 1.0e-197 Identity = 343/418 (82.06%), Postives = 375/418 (89.71%), Query Frame = 0
BLAST of Moc08g38910 vs. NCBI nr
Match: XP_022965495.1 (geranylgeranyl transferase type-2 subunit alpha [Cucurbita maxima]) HSP 1 Score: 697.2 bits (1798), Expect = 8.6e-197 Identity = 341/418 (81.58%), Postives = 375/418 (89.71%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy Swiss-Prot
Match: Q7Z6K3 (Protein prenyltransferase alpha subunit repeat-containing protein 1 OS=Homo sapiens OX=9606 GN=PTAR1 PE=1 SV=2) HSP 1 Score: 105.9 bits (263), Expect = 1.1e-21 Identity = 89/320 (27.81%), Postives = 156/320 (48.75%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy Swiss-Prot
Match: A3KPW7 (Protein prenyltransferase alpha subunit repeat-containing protein 1 OS=Danio rerio OX=7955 GN=ptar1 PE=2 SV=1) HSP 1 Score: 100.9 bits (250), Expect = 3.6e-20 Identity = 72/234 (30.77%), Postives = 111/234 (47.44%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy Swiss-Prot
Match: Q0IHB3 (Protein prenyltransferase alpha subunit repeat-containing protein 1-A OS=Xenopus laevis OX=8355 GN=ptar1-a PE=2 SV=1) HSP 1 Score: 99.8 bits (247), Expect = 8.0e-20 Identity = 65/234 (27.78%), Postives = 115/234 (49.15%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy Swiss-Prot
Match: A1L3L1 (Protein prenyltransferase alpha subunit repeat-containing protein 1-B (Fragment) OS=Xenopus laevis OX=8355 GN=ptar1-b PE=2 SV=1) HSP 1 Score: 98.2 bits (243), Expect = 2.3e-19 Identity = 67/234 (28.63%), Postives = 113/234 (48.29%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy TrEMBL
Match: A0A6J1D7W4 (protein prenyltransferase alpha subunit repeat-containing protein 1 OS=Momordica charantia OX=3673 GN=LOC111018185 PE=3 SV=1) HSP 1 Score: 857.4 bits (2214), Expect = 2.4e-245 Identity = 419/419 (100.00%), Postives = 419/419 (100.00%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy TrEMBL
Match: A0A6J1FBP7 (protein prenyltransferase alpha subunit repeat-containing protein 1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111443964 PE=3 SV=1) HSP 1 Score: 700.3 bits (1806), Expect = 4.9e-198 Identity = 343/418 (82.06%), Postives = 375/418 (89.71%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy TrEMBL
Match: A0A6J1HNV7 (geranylgeranyl transferase type-2 subunit alpha OS=Cucurbita maxima OX=3661 GN=LOC111465379 PE=3 SV=1) HSP 1 Score: 697.2 bits (1798), Expect = 4.2e-197 Identity = 341/418 (81.58%), Postives = 375/418 (89.71%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy TrEMBL
Match: A0A0A0LHK5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G075320 PE=3 SV=1) HSP 1 Score: 677.6 bits (1747), Expect = 3.4e-191 Identity = 328/418 (78.47%), Postives = 367/418 (87.80%), Query Frame = 0
BLAST of Moc08g38910 vs. ExPASy TrEMBL
Match: A0A1S3B4C5 (protein prenyltransferase alpha subunit repeat-containing protein 1 OS=Cucumis melo OX=3656 GN=LOC103485879 PE=3 SV=1) HSP 1 Score: 673.3 bits (1736), Expect = 6.5e-190 Identity = 329/418 (78.71%), Postives = 367/418 (87.80%), Query Frame = 0
BLAST of Moc08g38910 vs. TAIR 10
Match: AT1G10095.1 (Protein prenylyltransferase superfamily protein ) HSP 1 Score: 399.1 bits (1024), Expect = 4.5e-111 Identity = 213/415 (51.33%), Postives = 281/415 (67.71%), 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 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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