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MS010862 (gene) Bitter gourd (TR) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGTTGAAAATCATCTCCCTATCGCAACCTCGTATCAAGTCTGTAGCCCATTATGTAGCCTCTGCATGTTGCACCTCAACGAGCTGTCTATCACCGTCTAATTCCCCTTCGAATCTATTGGCACCTTCGATTTGGATTCTGTTTTCGCCATTCTCGAATTCGTCCAAGCAGAAGAAGGAAGATACAAACGACGTTGTTTCCGTTTTCAACAGAGACCCAACAGCTCCCGCGAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACGTTTCTGGAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAAGAACAACGAGATGGGTATTTTGATACTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCAAGAGGGGCTCGCGCTGGTGAGTCATTGAGATGTGAATTCTATTGCAAGAATTGCTCTTTTACATCTTGATTGTAATCTTGTTATTCTTCCATCTTTTTGGAAAGGTCTGTGAGCTGGTAGCTTAAGACTTTAGTTTACAGCCTTTAACTTTTAGTTAACTCTCTTACAACAGGTAATTCGTTGTTACTTATTAAAAGTTTTACGTAGCTGTTAATTAGTTATCAGCGAGCTGTTAGTTAGTTTTCAGGTTGTTTACCGTAGCCCTTCTCTTATAAATAGGAGCTAGTAGCTACTTCTTCCTTTGTAAGCATTATTTAGTAAATTCAATAAAAAACCCCCCTCACTTGAATACATCATTTTTTCTTAGGCTTTTTAATATTTATAACCTCAACTAGGAATTACTATTTATAGGATTCAGCCTGGCTATCCTAGCTAGATTGATTTAAAAACACACGGCGACTAAGTGCATGGCTCATGGAAAGATCAACAAATATTACCATATCTCCGATTCCAATGGTGTTGCAAAGCAAGTGAATACATTAATCATCTTTTTCTGAACTGCTCTTCTTGTAGTTCTTTTGGTGGTGATTGCTGCATCTTTATCAACTATTTAGGTTCCTACCCTCTCTTTCTCTGTTTTATGTGCAGATTTTAGGATTGTTAGGTGAAGATGTTTAGAGCCCAGGTGAGATCTAGAGATACCATAATTACCAAAGGCATTAGTGTCAACATAAGCATAACTCAATAGGTTAAGACACCTTGTGTCATATAAGAAAGGCACCTTATGTCATACCAGAAAGTCGTGAGTTCGAATCTCTCACCCCCACATATTGTATTAAAAAAAAAATAAAAAAAGCCTTAGTACTAGAGGTCCAAGAGGACACGAAGATTCTAACACACTCCCAAAACAGGTCTCTTTATTATTCTTCTCCAAGGAAAGTCCGATTGTTTCTTTCATACCAAAGCCTCCAAACCAAACCAACTATCCCACTAGACCAAAGAACTTTCGTTTGCCCTTGAAAATAGGTTCCTGGAGCAGTTGAAGAAAAGCCTTAGAACCATTGTTTGGGAACACCCAACTCATGCCGAAAATTCTGAACATATCAAGCCAACATGCAGCCGCAAAGGGCAATTGAAGGACAGGTGCCACTGTTCTTATTCACTCTTCTTACATAAAACACACCAGCTAGGGGAAAGGCAAACATTGGGCATCTGTTGCTTTTGAAGTCTGCTGCAAGTTTCTTACATAAAACACACCAGCTGGGGGAAGGCAAACATTAGGTGTTTGCTGTAATAGAATCTTTAAGGGGTGGAGAGAGATGGAGAGTTGGTTTGGGATCTCATTAGATTAAATGTTTCTTTGTGGAGTTCTGTTTCGAAAGTGTTTTGTAATTACCAGTTAGGTTCTATTCTTTTGGATTGGAAGCCCTTTCTTTAGATAGGGCTCCTCCTTCTGGACTTTTGTTTTTGTATGTCCTTGTATATGCTCTCTATTTTCATTTGTCTTAATAAAAAGTTCAGTTTCTTATAAAAAAATGAAAAAAAGAAAAGTCTGCTGCAAGTTTTTAGCCATCCATGAATCAACAATCATAGGAATATTTTAACTTTTTTCGGGTCCTCTAGTTGCTAGATTAAACCACCTTTGAAGTTGCCTCCATTCGAGTTTTGTTGTAAAAGATTGGCCATAAAGGATTTGACTGTAAACGACGCCACTGTTGTCTGACCAAACTTTCCTGTCACTTAAGTTTGATAAGGAAACTCCAGTAAGTAAATTTGTCAACCCAGCCCATTCTTCAACCTCCAAATTAGCAAAATTCCTTCTAAAGGCCAAATCCCAACCCCTACCCTCTTCTAACCATCATTGAGCTATCGTGGAAGCTTATGAATTTGCCACTCTATACAGCCATGGGTATACTCTGGATATAGGTTCATTTAGAAGCCAAGAGTCATGCCAAAACAGAGCTTTATCCTCCTTACCCACCTTTAACTTTATACCATTCATCTGCTATCTTACAACAAGGAAGGATATGAACTCACGGCTCCTTAAACTTCGCATTATTTTGCACCTCCGACCACCACTCATTATCCTTAAGATGATACTTGCTTGCAATCACCCTCTCCATAAAGCTCCTCTTTCCGTCATGAACCTCCATCCCCATTCGGCTAGAAGGGCACAGTTTCTATTTGCTAAGTTGCTTAATCCCTTCAGGCAGAGTTACCACCTCCCATCAAATAGGACTTCGACATCCACCTTCCTTGCCAACTTTCTAAAAGAAGTCCCCCAACAGCTTCTCTAGCTTCAATATGCTCTGCTTTGGGCATCTGCAAATCGAAAAATAATACAACAGGATGCTTGAGAGCACTGATTTTGCTAAGGTGAACCTTCCCCCTCTAGAAAGGCACAAGGAGCTCCTTTCGCCAGCTTTCTTACCACTTTGTCTTTAGTGGTAAGAAAGCTGCCAAATCAGTGGGTTGTTATGGAAGTCCTTGGTTTTCTATTTCAAAGATTTGGAAATCTGTGGAGCAGTTCATTCTTTCAAAGTGGGCAATGGGAGGCGTATTTTATTTATTTAATTTTTTTGAAAAGAGGTATGGTTGGGAGATTCTTCCCTGTATAGAAGATTTCCTCATCTTACCAGAATTTAAGGGTTGTTTTAAAATCACCCCTAGTGAAGTCATTATGGAAGCTCAACTATTAGAAGAAAGTGAAGATGTTCCTTTGGTTCATGGCTCACAGAGGACTCAACACTTACTACGGACCTAAAAAGTGTAGAAATTGGGCACTCTTCTCATCGATGGGCAGCTTATGTCTCTTGAGGGAAGAAACCTTTGACTATTTCTTTCGTCATTGGCTCTTTGCTTTGAGATGTTGGTCCATCCTCCCAAGGATTTTGGTTTATCTACTTGCTTTCCTAGTCAAATAGATGCCTAGCTCATTGAAGCTCTTCACGAGCCATCGCTCAATAGCAAAACTAGAATTTTGTGGAGATATGTGACTAGAGTTTTGCTGTGAGTCTTTGGTTGTAAAGAAATCAAAGGTCTTCTAAAGATAAGTCTACAAATTTAGTCTTTTTTTAACAATGTACAACTCACAGCTTCTTGGTGGTGCCACACTTATAGCAAATTATTTTGTACCTACTCTCTCTATCATCCTTCAAGATGCTTTAATCTACTCTTTTGGGAGGGAGTTTACTCTTCCCCTATCCTTAGGCTGTTCCTCCTTTTTGTGATTTATACATCCCTCATGTTTCTTTAAAAAAACAAAGTAGTAGTTATAATTCCTCCTTGATATTGAATGTTATAAGAGATAGACTTTTTTATTTTTAAATGTTGAGTTCATTGGCTCGTCTGTAATCCAGATGGTTAAACATTGCATCATGTTAATTTATTTTCTTTTTCTAATTATGTTTTGTATTTTCAGACACGTATTTTGGACCAGGGACTGTGGACACCATCAAATGCCATTTGAATGTGACAGAGTCGAAGGTACGTGGTATTTTGGTTATGTTTGTGTGTGATTAGGTATACAATGTTATCACTAAACCTTTTCAGTTAAAAATTTTATCAGAGTGAAGTTGATGCTATTTTTGTGAATGCCATTCTCTCTGGTATTCAGCAAAGGAATCTGGAGGTATATCTTGTCTATATTCATTTTCTTCTTCATGTTAGTTCGACCATGGACAACAGCTCTTCAATACACGTTCATATTTTTGTGGATGAAGTTTAGGTTGTGCGTATTTTATCTTTGTACTTGTCATCAATATTTCCTTTTTTGCAATATTCTTTATTTTGATAACATGTTCCTCTATTTTATGTCAGCGGGCATGGGAGAAACCTGTACTGGACCGTGTGGGTCTCATTATAGAGATATTCAATGCTCATGCCTACACAAAGGAGGCGAAGTTACAGGTTTTCTCATGGGCCCAATTAAATATATCATTGCCTTTTTCTTGCTAAACTATATTTACAGTCATTGAATAAAGGGATTGGTTTCAATTTATATTTTGTTATTGTTTTGACTTGGTTCACAAACTATCATAGATTTAAAAAGGAAAAAATGTGAGGGACCAACATTGAAACAAATACTCTATAATTTGCAGAGCGAAGATTGAGGTCTGACCTATATTCTCTCTTAGGCTTAAATGTGTTTTTATCCTTGAACTTTAGAATGGACCCTACCGCTCAAAAGTTTGATTTTCGTACCTACGCCTTCAGTTCCTTGTTCTTGCATCAACCTTTTTTTTTTTTTTTTTCTTTTGCATCAATTCAAATAAAAAGTAGCGGAGACACGGACATGCTCGAACACATGTCCGACACGTGTCAGACATGTTAACTAGAGTGCCCTATTTTTCTTTTCATTTTTTAGTTTATTGGGCACGAGGGGACATGGGAAAAATAAAAAAATTTCACGAGCTCTTCTTGCCATTTAGTGCCATCGCCATACCCCCACAACATGTGCGTCAAACCCACCACGGATAAAGATGAAGAAAGGGAGGAGAAGAGTCAGAATAGTTGGAAGATGAACGGTCAAATAGCAGATATTCTCACGAAAGGATTGAACAACAACAACAATTTTGAGCATTTGGTTAGCGAGTTGGAAATGGAGATTATTCATTCACCAATTTGAGCGAGAGTGCTAAATTATGTTGTACAATTATTCTTTGTTAATTTGTATTTATTTTATGTTCAAATAAGTACCCACTTATTAAGGATTGAAGTTAAAGAACTTGGAAAGCTGAAATATTTTCTCAATACAATCTCCCATAAATTTGTATTTTCTTTGTGTGTGTGTTTTTTTTATTCTTTTTTGGTTCTTTCCTGTACTTGCTATTTAGTCTATGTATCTATTCTTTGTAATGAAGCAAAAATCCTTTTCTCAGCTTTGACACCTTACTATTTATAGGCTGAACTGGCTGCTTTGATGTATAAAAAGTCAAGGCTTGTTCGTGTACGTGGCCTTGATGGACGTTACACATTTGGTGCTACAGGAGAATCCGAAGTTGTTAGTGCCAGAGGGTAGGGTATACTGCATTTACAGCTTTGCAATAACAAAAACCGTAACAAGCCAAAGTTGTCCCTTTTTTGTGGTTTTTATTAATTGACATGGCGAGTAATTGCTTGTGAAGTTATCAATTGCAGGAGAGGGAGTGGAGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAAATTCAACTTCAGCGGCGAAGGTTGAAATATATGATGCTAATTGCTCAAATTTGAAAACTCCTTTCTTACAAACAAAATTTTTAATGAAAAGTCCTTGGTTTCTNNNNNNNNNNNNNNNNNNNNNNNNTTTAATAAAAAGTTAAAAAAAAAAAAAACAAACAAAATTTTATAACAAGAAGGATTCAATAATTAGAGGATATTTACTTCTCTGCTGCAGTTTAAGTTCTGTAAAACTATTTTTTCAGAATTTTGATACGAAGAAATCATCTATTATCTCAAATTGAAGAGGTACGCCGTACACGTGCTTTGCAGCGTGCTTCTCGAAAAAGGCACGGAGGTTCAAATGGGCAACATTTAGCCACTGTTGCTGTAGTTGGGTATACTAATGCTGTAGGTGCTCAGATCCAATTATTTATGATTCTTTTCTGAGTTTCATAAAAGATTAAAAAAAAATCTAAATATCTTTATGTAACCCATTTAATAGGGGAAGTCGACATTGGTTGGTGCACTTTCAGGCAATGATCTCTATAGTGATTCTCGGTATTTGACATGCTTTTCAATCATTACTAGACAATGGCATAGATAATTTTCTTTTTTCCTTTTCTTTGCCAGAATTTTTCATCTGATTTGATCATTGGAATCTGAATTTATGCAGATTGTTTGCAACTGTTGATCCCAGATTAAGAAGCGTTCTTCTTCCTTCTGGGTAATATGATCTCTAACGAGTTGGAAGTGTTACTTTTTGTTGACTTCTATTAATTAAGACTTCGATCTTATCTTTAATTTTCAGAGATTTTTCTATAACCTTTTGCTGTCTAATAATTTTCAGGAGAAAAATACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGGTAATGAAATTATGAAAGCATGGGGTGTTACTTTTTCTCTTTCACAGGTTATTCCTAAAACTCTTTCTAGCTAAAAGACGATGAATTTTTTATAGTTGGTCGAAGCATTTCATGCGACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGGTATGATCTGCTTCCTTTGACCTTTCTTTATTTGCAAGGATTTTGCATCTCCAGCTCCGTTGAACAGTGGTCTCACGTGAATGATATACTTTATTATGTGGATCATTTTACCTTTTGTTCTCCATTAACTTGTAGTTTCTTCATTGTTTTGAACTTATTGTATCAATTATTTCCTTTTTTTTAACAGGATACGAACTTCTTATTGATTAATGAAACAAAATGTTCAAATGATGCAATCTTAAGTGAGCGAAAAAAGAACAAAAAGAAAAGAGAAATCTAGATTCTAAATAAGGTTATACAACTCAAAAGAGCATACAAGAAAAACTACATAAAGACCAAAACAGCTACTTTTAAATAGAGCCTCCAAATAGCAAGGAACCATAAATAAAAGCTTTGGGAATCTTGATCATCAAAAGCATCATCAAGGTCATCTTTATCTTATGGGAGCAAATCTTTGAACTTCTGAGAATGTTTGGCCCAAATATTTCTGAGACCTTCAGCGAGTTCTATTTCCCGATCAACTTGAATTTCTATCTTTCTAAAGTATGTTTCAATACAAATAAAGTTCTCTTTCCCGATCAACTTGAATTTCTATCTTTCTAAAGTATGTTTCAATACAAATAAAGTTCTCTTTCCCGATCAACTTGAATTTCTATCTTTCTAAAGTATGTTTCAATACAAATAAAGTTCTCTTTCCCGATCAACTTGAATTTCTATCTTTCTAAAGTATGTTTCAATACAAATAGCCCTTTCTTTGCGAATTTGGATAAGCTTGGACTTAAGAGATGATAAATAATCATCCAATTGAGAAGGAGATAAGCTTGAAATGAACTTGAGAGAAGAAACGAGGTCTTCTTTAAAAACTTTGAGGGGAAGATCCATGAAGCCAAGAAAAAAAACCTCACAGCAAACCAGAAATAAGCTTCTGATTTGGAACAAGCCAACAATGGAACTCCTTCCCTTAAATAAGAGAAGCAAAGGCATAATAAGTGTTAAATGATAAGAAAAAAATAATTCCTTTTCAGCTCTCAACTTCTAGAATTAGCTCCAACGTTGAATTTTGAGACACTCAAAATCGGAGGCTTTTCATCAGCACACAACGTAGAATAAACCCTTTCTTTAGATAAATTTGTTTTAAGACTGGAATATTTAAAATTAGAGTTAAAACTCATTCAGATAATTCTCTACCCAAAGCATTTTTCTCCTAAAATAACTCTCTTATAGAGAGTTACAGCAGGTGGGGGTGTCCCGGGTTATGGGGGCAAAACTTTGACTCCCAATTATTAAAAAAAAAAAAAGTTATCTTACCTCTTCATAGAATTTAGTGGGTGATGCCTTACTAATGTTCGGCTGAAATTTTTATCTAAGTTTAAAGCACTTGTTCCTTGCAGTTTTTTTCACCCTTGTTTTTGTGCCGTAATATGTCTTACATGATCCCTGGGGACCATGCTTGCCTTATTACAGTTGAATTATTTTCCACAATAACATGGTGGCACAATATGATACTGATTTGTTTGTTTAATACCTATTAATGGATAATAAAATCAATTCTGAAGTAGCTGTCCAGGATATTTTATCATATAGATACTAGTATGAGACATCAATGTTGTTACCTTGATTATTGCAGCATGTGGTGGATTGCACTGCCCCCAACCTTGACGAGCATCGATTGACTGTTTTCCAAGTACTTGAGAAAATAGGAGTTTCTAAGACGAAGCTTCAAGATATGGTTGAAGTTTGGAACAAGGTAATTCTACTTACCACATTTCTTACTTCTGCACAAGAAGAAAAGTACTGAAGTTTGCTTGGTAATGCATGATCCGTGTAATAATTTGGACAGATTGATTATCATGAAGAAGGCAAGAGTATAGACGAATATTATGATGAAGATAATAGCGAGGCTGGCAATTTGTCAGGAGAAGATAGTACAATGGCAAAGCTATCAAATTCTAAAACCAACAATTTCATTGAAATAGAGAAGGGCGATATTACAACAAAGCAAGCAACTGGACTAGTCCGCCGATCCTCCATCGGAAATGTCTGCCAGCTTTCTCAGGGAGTTCTTGGAAACACCATGGAGGGACAAGACAGCGATTGCTCTGATGATTGGCTAGCAGAAGATGATGATCAAAACCATTGGGTTGATGAAAATGGTTACTCTGAGGCTGAGTCTGAGGCTTGGGAGACCTCTGAAGGCCGGGGGATGGTAAACGTTGTACAGCCTCCAGGTGATCAATGCAGTCCACATGTCAGAATATCAGCTAGATTTGGAGTTGGTTTGCGGGAGTTGCTAGAACTCATAGATGATAAGCTGAAGGTTCAGGATGAGAGGCTGAAAACTCAAAATGTTTTAGAGAGAAGTATTTTTGAACGTAAATGGAGGCCATCTCAGACAGAGGCAGAA ATGTTGAAAATCATCTCCCTATCGCAACCTCGTATCAAGTCTGTAGCCCATTATGTAGCCTCTGCATGTTGCACCTCAACGAGCTGTCTATCACCGTCTAATTCCCCTTCGAATCTATTGGCACCTTCGATTTGGATTCTGTTTTCGCCATTCTCGAATTCGTCCAAGCAGAAGAAGGAAGATACAAACGACGTTGTTTCCGTTTTCAACAGAGACCCAACAGCTCCCGCGAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACGTTTCTGGAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAAGAACAACGAGATGGGTATTTTGATACTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCAAGAGGGGCTCGCGCTGACACGTATTTTGGACCAGGGACTGTGGACACCATCAAATGCCATTTGAATGTGACAGAGTCGAAGAGTGAAGTTGATGCTATTTTTGTGAATGCCATTCTCTCTGGTATTCAGCAAAGGAATCTGGAGCGGGCATGGGAGAAACCTGTACTGGACCGTGTGGGTCTCATTATAGAGATATTCAATGCTCATGCCTACACAAAGGAGGCGAAGTTACAGGCTGAACTGGCTGCTTTGATGTATAAAAAGTCAAGGCTTGTTCGTGTACGTGGCCTTGATGGACGTTACACATTTGGTGCTACAGGAGAATCCGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGAGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAAATTCAACTTCAGCGGCGAAGAATTTTGATACGAAGAAATCATCTATTATCTCAAATTGAAGAGGTACGCCGTACACGTGCTTTGCAGCGTGCTTCTCGAAAAAGGCACGGAGGTTCAAATGGGCAACATTTAGCCACTGTTGCTGTAGTTGGGTATACTAATGCTGGGAAGTCGACATTGGTTGGTGCACTTTCAGGCAATGATCTCTATAGTGATTCTCGATTGTTTGCAACTGTTGATCCCAGATTAAGAAGCGTTCTTCTTCCTTCTGGGAGAAAAATACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTCGAAGCATTTCATGCGACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACTGCCCCCAACCTTGACGAGCATCGATTGACTGTTTTCCAAGTACTTGAGAAAATAGGAGTTTCTAAGACGAAGCTTCAAGATATGGTTGAAGTTTGGAACAAGATTGATTATCATGAAGAAGGCAAGAGTATAGACGAATATTATGATGAAGATAATAGCGAGGCTGGCAATTTGTCAGGAGAAGATAGTACAATGGCAAAGCTATCAAATTCTAAAACCAACAATTTCATTGAAATAGAGAAGGGCGATATTACAACAAAGCAAGCAACTGGACTAGTCCGCCGATCCTCCATCGGAAATGTCTGCCAGCTTTCTCAGGGAGTTCTTGGAAACACCATGGAGGGACAAGACAGCGATTGCTCTGATGATTGGCTAGCAGAAGATGATGATCAAAACCATTGGGTTGATGAAAATGGTTACTCTGAGGCTGAGTCTGAGGCTTGGGAGACCTCTGAAGGCCGGGGGATGGTAAACGTTGTACAGCCTCCAGGTGATCAATGCAGTCCACATGTCAGAATATCAGCTAGATTTGGAGTTGGTTTGCGGGAGTTGCTAGAACTCATAGATGATAAGCTGAAGGTTCAGGATGAGAGGCTGAAAACTCAAAATGTTTTAGAGAGAAGTATTTTTGAACGTAAATGGAGGCCATCTCAGACAGAGGCAGAA ATGTTGAAAATCATCTCCCTATCGCAACCTCGTATCAAGTCTGTAGCCCATTATGTAGCCTCTGCATGTTGCACCTCAACGAGCTGTCTATCACCGTCTAATTCCCCTTCGAATCTATTGGCACCTTCGATTTGGATTCTGTTTTCGCCATTCTCGAATTCGTCCAAGCAGAAGAAGGAAGATACAAACGACGTTGTTTCCGTTTTCAACAGAGACCCAACAGCTCCCGCGAAACTCTTCGTGGTTCAACCTCGTCTTCGTCCCGATACGTTTCTGGAAGCAAAGCTAAACGAGGCTTTGTGTCTTGCAAATTCTCTAGAAGAACAACGAGATGGGTATTTTGATACTGATTTCTTTGACAAGGAAATACCCCCTCACGTTGTAGTTCAAAATCCTTCTGCAAGAGGGGCTCGCGCTGACACGTATTTTGGACCAGGGACTGTGGACACCATCAAATGCCATTTGAATGTGACAGAGTCGAAGAGTGAAGTTGATGCTATTTTTGTGAATGCCATTCTCTCTGGTATTCAGCAAAGGAATCTGGAGCGGGCATGGGAGAAACCTGTACTGGACCGTGTGGGTCTCATTATAGAGATATTCAATGCTCATGCCTACACAAAGGAGGCGAAGTTACAGGCTGAACTGGCTGCTTTGATGTATAAAAAGTCAAGGCTTGTTCGTGTACGTGGCCTTGATGGACGTTACACATTTGGTGCTACAGGAGAATCCGAAGTTGTTAGTGCCAGAGGGAGAGGGAGTGGAGGACGTGGCTTTATAAGTGGTGCAGGAGAGACTGAAATTCAACTTCAGCGGCGAAGAATTTTGATACGAAGAAATCATCTATTATCTCAAATTGAAGAGGTACGCCGTACACGTGCTTTGCAGCGTGCTTCTCGAAAAAGGCACGGAGGTTCAAATGGGCAACATTTAGCCACTGTTGCTGTAGTTGGGTATACTAATGCTGGGAAGTCGACATTGGTTGGTGCACTTTCAGGCAATGATCTCTATAGTGATTCTCGATTGTTTGCAACTGTTGATCCCAGATTAAGAAGCGTTCTTCTTCCTTCTGGGAGAAAAATACTCCTAAGTGATACGGTGGGATTTATTTCAGATTTGCCTGTGCAGTTGGTCGAAGCATTTCATGCGACTTTAGAAGAAGTTGTTGAAGCAGACTTGTTAGTGCATGTGGTGGATTGCACTGCCCCCAACCTTGACGAGCATCGATTGACTGTTTTCCAAGTACTTGAGAAAATAGGAGTTTCTAAGACGAAGCTTCAAGATATGGTTGAAGTTTGGAACAAGATTGATTATCATGAAGAAGGCAAGAGTATAGACGAATATTATGATGAAGATAATAGCGAGGCTGGCAATTTGTCAGGAGAAGATAGTACAATGGCAAAGCTATCAAATTCTAAAACCAACAATTTCATTGAAATAGAGAAGGGCGATATTACAACAAAGCAAGCAACTGGACTAGTCCGCCGATCCTCCATCGGAAATGTCTGCCAGCTTTCTCAGGGAGTTCTTGGAAACACCATGGAGGGACAAGACAGCGATTGCTCTGATGATTGGCTAGCAGAAGATGATGATCAAAACCATTGGGTTGATGAAAATGGTTACTCTGAGGCTGAGTCTGAGGCTTGGGAGACCTCTGAAGGCCGGGGGATGGTAAACGTTGTACAGCCTCCAGGTGATCAATGCAGTCCACATGTCAGAATATCAGCTAGATTTGGAGTTGGTTTGCGGGAGTTGCTAGAACTCATAGATGATAAGCTGAAGGTTCAGGATGAGAGGCTGAAAACTCAAAATGTTTTAGAGAGAAGTATTTTTGAACGTAAATGGAGGCCATCTCAGACAGAGGCAGAA MLKIISLSQPRIKSVAHYVASACCTSTSCLSPSNSPSNLLAPSIWILFSPFSNSSKQKKEDTNDVVSVFNRDPTAPAKLFVVQPRLRPDTFLEAKLNEALCLANSLEEQRDGYFDTDFFDKEIPPHVVVQNPSARGARADTYFGPGTVDTIKCHLNVTESKSEVDAIFVNAILSGIQQRNLERAWEKPVLDRVGLIIEIFNAHAYTKEAKLQAELAALMYKKSRLVRVRGLDGRYTFGATGESEVVSARGRGSGGRGFISGAGETEIQLQRRRILIRRNHLLSQIEEVRRTRALQRASRKRHGGSNGQHLATVAVVGYTNAGKSTLVGALSGNDLYSDSRLFATVDPRLRSVLLPSGRKILLSDTVGFISDLPVQLVEAFHATLEEVVEADLLVHVVDCTAPNLDEHRLTVFQVLEKIGVSKTKLQDMVEVWNKIDYHEEGKSIDEYYDEDNSEAGNLSGEDSTMAKLSNSKTNNFIEIEKGDITTKQATGLVRRSSIGNVCQLSQGVLGNTMEGQDSDCSDDWLAEDDDQNHWVDENGYSEAESEAWETSEGRGMVNVVQPPGDQCSPHVRISARFGVGLRELLELIDDKLKVQDERLKTQNVLERSIFERKWRPSQTEAE Homology
BLAST of MS010862 vs. NCBI nr
Match: XP_022142222.1 (GTP-binding protein At3g49725, chloroplastic [Momordica charantia]) HSP 1 Score: 1198.0 bits (3098), Expect = 0.0e+00 Identity = 615/622 (98.87%), Postives = 619/622 (99.52%), Query Frame = 0
BLAST of MS010862 vs. NCBI nr
Match: KAG6574274.1 (GTP-binding protein, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 951.8 bits (2459), Expect = 2.9e-273 Identity = 508/623 (81.54%), Postives = 547/623 (87.80%), Query Frame = 0
BLAST of MS010862 vs. NCBI nr
Match: KAG7013344.1 (GTP-binding protein, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 951.4 bits (2458), Expect = 3.8e-273 Identity = 507/623 (81.38%), Postives = 548/623 (87.96%), Query Frame = 0
BLAST of MS010862 vs. NCBI nr
Match: XP_023541707.1 (GTP-binding protein At3g49725, chloroplastic [Cucurbita pepo subsp. pepo]) HSP 1 Score: 949.9 bits (2454), Expect = 1.1e-272 Identity = 506/623 (81.22%), Postives = 547/623 (87.80%), Query Frame = 0
BLAST of MS010862 vs. NCBI nr
Match: XP_022945023.1 (GTP-binding protein At3g49725, chloroplastic [Cucurbita moschata]) HSP 1 Score: 948.7 bits (2451), Expect = 2.4e-272 Identity = 507/623 (81.38%), Postives = 546/623 (87.64%), Query Frame = 0
BLAST of MS010862 vs. ExPASy Swiss-Prot
Match: Q0WTB4 (GTP-binding protein At3g49725, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=At3g49725 PE=2 SV=2) HSP 1 Score: 557.0 bits (1434), Expect = 2.7e-157 Identity = 341/636 (53.62%), Postives = 426/636 (66.98%), Query Frame = 0
BLAST of MS010862 vs. ExPASy Swiss-Prot
Match: A0L4B2 (GTPase HflX OS=Magnetococcus marinus (strain ATCC BAA-1437 / JCM 17883 / MC-1) OX=156889 GN=hflX PE=3 SV=1) HSP 1 Score: 208.4 bits (529), Expect = 2.4e-52 Identity = 136/296 (45.95%), Postives = 180/296 (60.81%), Query Frame = 0
BLAST of MS010862 vs. ExPASy Swiss-Prot
Match: C1F407 (GTPase HflX OS=Acidobacterium capsulatum (strain ATCC 51196 / DSM 11244 / JCM 7670 / NBRC 15755 / NCIMB 13165 / 161) OX=240015 GN=hflX PE=3 SV=1) HSP 1 Score: 202.6 bits (514), Expect = 1.3e-50 Identity = 135/304 (44.41%), Postives = 178/304 (58.55%), Query Frame = 0
BLAST of MS010862 vs. ExPASy Swiss-Prot
Match: Q8RAS5 (GTPase HflX OS=Caldanaerobacter subterraneus subsp. tengcongensis (strain DSM 15242 / JCM 11007 / NBRC 100824 / MB4) OX=273068 GN=hflX PE=3 SV=1) HSP 1 Score: 200.3 bits (508), Expect = 6.5e-50 Identity = 133/321 (41.43%), Postives = 186/321 (57.94%), Query Frame = 0
BLAST of MS010862 vs. ExPASy Swiss-Prot
Match: D9R4W7 (GTPase HflX OS=Clostridium saccharolyticum (strain ATCC 35040 / DSM 2544 / NRCC 2533 / WM1) OX=610130 GN=hflX PE=3 SV=1) HSP 1 Score: 178.7 bits (452), Expect = 2.0e-43 Identity = 124/345 (35.94%), Postives = 192/345 (55.65%), Query Frame = 0
BLAST of MS010862 vs. ExPASy TrEMBL
Match: A0A6J1CM56 (GTP-binding protein At3g49725, chloroplastic OS=Momordica charantia OX=3673 GN=LOC111012389 PE=4 SV=1) HSP 1 Score: 1198.0 bits (3098), Expect = 0.0e+00 Identity = 615/622 (98.87%), Postives = 619/622 (99.52%), Query Frame = 0
BLAST of MS010862 vs. ExPASy TrEMBL
Match: A0A6J1FZN1 (GTP-binding protein At3g49725, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111449388 PE=4 SV=1) HSP 1 Score: 948.7 bits (2451), Expect = 1.2e-272 Identity = 507/623 (81.38%), Postives = 546/623 (87.64%), Query Frame = 0
BLAST of MS010862 vs. ExPASy TrEMBL
Match: A0A6J1HS97 (GTP-binding protein At3g49725, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111467356 PE=4 SV=1) HSP 1 Score: 937.2 bits (2421), Expect = 3.6e-269 Identity = 502/623 (80.58%), Postives = 545/623 (87.48%), Query Frame = 0
BLAST of MS010862 vs. ExPASy TrEMBL
Match: A0A5D3C2J4 (GTP-binding protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold351G00250 PE=4 SV=1) HSP 1 Score: 914.4 bits (2362), Expect = 2.5e-262 Identity = 487/624 (78.04%), Postives = 528/624 (84.62%), Query Frame = 0
BLAST of MS010862 vs. ExPASy TrEMBL
Match: A0A1S3CIG8 (GTP-binding protein At3g49725, chloroplastic isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501174 PE=4 SV=1) HSP 1 Score: 914.4 bits (2362), Expect = 2.5e-262 Identity = 487/624 (78.04%), Postives = 528/624 (84.62%), Query Frame = 0
BLAST of MS010862 vs. TAIR 10
Match: AT3G49725.1 (GTP-binding protein, HflX ) HSP 1 Score: 557.0 bits (1434), Expect = 1.9e-158 Identity = 341/636 (53.62%), Postives = 426/636 (66.98%), Query Frame = 0
BLAST of MS010862 vs. TAIR 10
Match: AT5G57960.1 (GTP-binding protein, HflX ) HSP 1 Score: 161.0 bits (406), Expect = 3.1e-39 Identity = 128/369 (34.69%), Postives = 197/369 (53.39%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (TR) v1
Date Performed: 2021-10-25 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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