HG10000301.1 (mRNA) Bottle gourd (Hangzhou Gourd) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGACTTCGATTGAATCTAATTCCACCTCCATTGGGGGATTCTACCCATCCCAACAAATCATGATGTGTTTTAAACCATCGACAATGGTTTTAGCTTCTAAGGCTTTGACCGACAAATTAGTAGATATTGGGATGCACCCACCCCCAATAGGGACAACCATTCCAATCACGAATGATCCAACTGATCTCACCGTATTGAGCATCTCCGACCAAGCACCATCGACATTCATCTTTCAACAACCCTATCTTGGCGGCTTCCAACGGCTAACAGGTGGATTGATGCTCAGACTAATCCTTGGAGGGGCGGCTTCCTTCTTCAAAAGAAAGAATCTCTAAAGGTTTTTCCACAACAAGACTGATAGCTTGAGGATTTGGAGAGTCGTTAAAACGAATTGTGTTATGGTAGTTCCAAATAGAGATGTCTACGGGGCGAGGCGGGGCGGGGGCCATGGATGGCTTCCTCGCTCCCCATCCCCGCTTCCCATTTCATTCCCCTTCCTTGCAAAACTCCATATGGGGATCAGGGTGGAGATTCCCCACAGATAATTCGTGGGGATCAGGTTTCTGCGCGAATTTTTTTGTCATTTAATTTATTTGTAAAATTTTTAATAGGATTAGTTTCACATGTACAATTTGAAGGGAAAATACTCAAAAGAAAATAGTAGAAAGAAATAATTACCACAATTATTCATAAATATAAACTAAATTTAAAGGTTAAATTCAAAGATATTCAATATCTTAACCATTAAACAATAAAACTTGAAATTTAGATATAAATATTTATATAATAATAATAACATAACATTAAATTATTATAATAATTAAATAAAGGAGACTAACGGAGCAAAGACGGGAAAGGAGTGTGAGGGCGAGAACGGAGAATGCATTTCTCATTCTCGTTCCATTTACCTCACAGAAATTTTTTCCTTCCCTACTCCTCCCATTCTTCGCCTAAATGGAGAATCCCCGCCAAAAAAAATAAACATCTCTGGTTCCAAGTACCCTATTATGGTTCCCATATCTTCTTTGACGTTGGAATTACGAAGACAATAAAATTGTGAACGTGGAAAACTCTGTAATTGTCATGACCACTCATTGGCGCGGGCAAGTTCGTAATTTTAGATATTTAAGCATCTGTAGGAAATCTTCTCTTTAAGTTTTTATTTCTAAAGAAATCTTATCCTTAATTTGTTGTGTGTGATAGTCATTATGAGAAACAAATTGTAGTTGGTGTCAAGCAACAACACTTGGATGAGAACAAGAGAGAGAGAAAAAAAAAAAAAAAACAACAGGTCGGAGAGAAAATAAAGGACAGTTGCAAATATAGTCTTTGCAGATATAACAATGGAAAAAAATTTACAAATATAACAAAATTTAAATCTAATTTTTGAAATCTATTACTTATAGACTATATCGCTAATAGAAGTCTATCAGCAATAGAGTCTACCACTCATAGATTTTGTAATTCTTTAAAAATGTTGTTATACACTTAATTATTAGCTTTAAGAGTGCTACACATTGCAACTATTAAAAAAGGATAGAAATAAGAGAAATTACTATAAACAGAAAAAATATCAAACTATTTACAAATATAGAAAAATTTTACTTTAGATCGCGATAGAATTCTATCAACAATAGATTACAATAGACCGCGAGCGATAGAATTCGTTGTCTATCACTCAGGGAATATAATTTTATCACGTTCTATCGTGGATAGATAATAAATTTTTTCTGTATTTGTAAATAATTTGACTCATTTTTTCATATTTAAAAATAGCCCAACAATAGGAAATTTTCCTATATAGAAAAAATGTCAAACTATTTACAGAAAATAGTAAAAAAAATACTGATAGACATTGATAGACTTCTATCATATCTATCACCGATAGACCCTAATAGACTTCTATGTATCACAACTATCTAAAAATTTTGCTATTTTGTGTAAATAGTTTCTCTCATTATTTTTATTTTAAAAAATTTCCCTAAAAATATATATAAATTATATTAATTAACTTATAATAGAACAAGATTTTAAAATATTGATACAATTATTAGTTTTTGATTTTAATTAATACAACTAAAAAATTTATGAGTATTAAATGGATTTTTTTTTTCCTATTACATTTAAAGAAAATCCATAGCAATCAATCAAAGTAAACAATTAAGATATGTTACATGCATTATCAAACCTCCAAATAGGAAATACAAATACTTTGGTACATGTTATAGGGGTAGAAGTGGAAATTACTTGTAATATGTGTATCTCTTGTATTTAAGTTGTGGGGTTCCGGGTGTAAGGCGATGCTTAATTTTTTCAGTTCTTTAATAGGGTTCTAGAAGGAGAGAAACAACCCTCGTGGAAATGTTTTCTTTTTTTCTTTTCTTTTTCTTTTTAATTAATTAATTTTATTTTTATTTTAATATGTGGGCACGTGGAAGAGTTTGTACTCGCATAATTTGGCTGTTAATATTATACCAAAGTTAGTACACTCTCTCGAGATCAAAAGTTCAAATTTTTACTTCAACAAATTATATGCTTGAATTGGTCCAACTCCAAGTTGATATTAAAGATGTGTTTGATTTAACTTAGTATCCAAGATGAATGATCCAAAAATAGGAGAGAAGATGAAAATTGCCTCCATTTTTTAAAAACAATGTTTTTTGACCCTTTGCTGACGTCAAGTTTGAGTGAAATTACCAAAATGAACTCGCGCACATGAAAAAGTCTATCTCGCTCTCTTCCTTTCATCGCTTCCTCTCTCGCCTGTCTCGCTCTCGCTCTCTCTCTCTCTCTCTCTCTCGCTCTAGCTTTGATCGCGTAGCGTTGGTCAGAGTTGCAGGGTCGCGGAGAAGCTCTCACTCTTCCTCTCGCACATTGTTGGTCGCAGCTGGTCACACATCGTTTATCGGAGATGCAAGGCAGGGTTGGTCGCATCGTTTGTCAGTGTTAACATGGTCGTGGAGAAGAAGAAGAAATCGTGAGTTGCAGAACTTTATCGAAGAAGAAGAAGGAAATCGTGCTAGGAAGAGGAATAAAGAAAGGATAGATGTGTAATTTCACGTGTCTGTGACATTAGCAAAAGGTCATTTGACATTTTTTTTAAAAGTTGGGCCATTTGCCATTTTGGGCCTTTAAAATAGATATTTTGCACAATTATTTCTTTAACTTATCAAGTTTTTAATTTTGAAAATATATAAGTCATTTTAGAAAATTGAAGTGTTTGACAACCACTCAAAATAGATTTTAAAACATTTTAAAAATGTATTTTAAATCGTTTTTATCAAAAGAGATTAAATAAAATGACCTTTTCGAGAAACATTTTTCTTTAGTCAATCCAAACATGCCCTAAAAAATAACAAAAGAAAATTACAAATGTAGAAATGATTTTTTAAAATTTTGAAATTATAGCAAAAAAAAAGCCTGAAATTTGATTTCGATTTTGTATTATTCCAATTTTACTCTCCTTTGTGTATCAACATTATATTTGATAATATACTTTATGTTTGGTATATCAGTCAATTGATATAGTTTATATTTGGTATATTAATTAACTAATATACAAGATAGTTTATATTTGGTATATTAATTAACTAATATACAAAATATAAAATATATCAATTATATAATTGCTATACCAAATTTATCAGTCAACAAATGCTCATGCATTTTCTATTATTTGTGGACTTTAATTTGAATCCTAATTCATTTGTTTTAGAATATAATTTTTCTAATATATTATCATCAATTTATAATGGTTCAATTCATCTTATTTGTAACCATTCTAAATGAATGTTGATAAACTATTGATACACCAATATTTCACTTGAAATTAAATTTTGAACAAACGTTGATATACTACCAATATAATTGAAAATGCATTTTTATGAAGTAGTAAGTATTGATATACTAACTTGATACACCAATGTTATACTTAAATAAATTTTGAATTAATGTTGATATACTACTAATACCTCAATGTTATACTTGAGATTTTATGTTGAACTAATGTTATTCAGATTGATTTTACTCTTGGTTAGAAGGGGCCATTCTTCACCAATTTAGTATTATAGTTATTTTGGATGTGAATAATTACCTTAATGCTAAGGTTGGTCATTTCCTCCACCTTAATGAGATTTGAGATTGACCTTCTAATAACTCTAGAGAATTGGTTAATCTCTTCGAGCAAGTATAATTGATTGTAGTTGCAGTTGGAAGGGAGGATCATATGACCTGGCTCTCTTATCATTATGGAGTGTTTTCAGTCGATAGTGCTTGAGTATCCTTGCATCTTAGACATCTTATGGTGCCTTCGTCTAGCCTTCCTTGGTTTAGAGGTAATATTCCCAAACATTCTTTCATTAATGTAATTAAAATGGTTCGAGACAAAGTTTCATTATCTAGGAATTGGGTTAATAATTCTTTTAGCTATTGTTGTTCCAATTTTATTTAGGAGACCGAACTGTAATGAAGTAAACTAAACTAATCCTACGAACACAAATAAAGTGATCCAATATGGAAAATATAAACTAAGAGACGTCCTAGGGTATTGGTTTCATCACTAAACCTAATAAATTCAATTGTTTAACTCTTGAACCAAATTAAACAACACCTAGATCTCGAGTCTTTTATTCGAGTTGCTCCTCTTGAAGTCAACATTTTCTCTTACCTAATTACTAATTCCAAAATCTCTTGAAACTAGTCAATTAAGTCAGGCATTAACACCTTCCATCATCAAACTCTGCCATTCTTCTATCAGTTATACAATTGATATACCAAATTTATCAGTTAGCAAGTACTCATGCATTTGTTATTATTTGTGGACTTTAATTTGAATCCTTATTCATTTGTTTTAAAGTATTGTTTTTCTAGTGCATTATCATCAACTTATAATGGTTCAATTCATCTTGTTAGTAACTATTCTAAATGAATGTTGATAAACTATTGATATACCAATATTTCATTTGAAGTTGAATTTTGAGCCGGTGTTGATAGACTACTAATATAATTGAAAATGCATTTTTATGAAGTAGTAAGTAGGAATATACTAACTTAATACACCAATGTTATTCTTGAAATAAATTTTGAATTAATGTTGATATACTACTAATACCTCAATGTTATACTTGAAATTTTTATGTTGAACTAATATTGTTCAATTTCGTTCCACCTTTGATTAGAAGGCTTGATTATTCAGCATATTAGTATTGCGGTTATTTTGTATGTGAATAGTTACCTTAATGTTAAGGTTGATGATTTTCACCACCCTAATGGGACTTGAGACTTTCCTTCTAACTCTAGATAATTGGTTAATTTCTTCGGGCAAGTACAATTATTGTGGTTGTGGTTGGAAGGGAGGATTATATGACCTAGTTCTCTTATCATTTTGGAGTATTTTTAGTCGCTATTTCTTGGATGTCCTCACATCCTAGGCATCTTATGGTGCCTTGGTCTAGCCTTTTCTTGGTTTGGAGGTAATATTCTGAAATATTCTTTCATTATCTAGCTTATTGTTTGGAATCAATTACAGACGCATGATCGTTTTAGAAGGTGGTGTTCTGATATCTCTAATGTATGTGTTATGTGCACTAGTGGACTTGGGTACCAGTCTAGGGACTATTAATTCTTTGGTATAAGAGTGTATCTCCTTGAAAGAAAGTGTAATTAAGTGATTTGCCTTAGTTTAATCCCTAAATTTGCCCAATGGTTAGCAACACCTTCTTTTATTGATCTTATGCCTTATTAAAAAAAAACTTTTATGATCAACCAAGCTTTCATAATATGTTTGAGTTCAATATCAAAAGAGTTGAATAAAAATGATCTTCAAAAAAGAAGTAGGGGAACAGATTCTAGACATAGAATTTCATTTTGCCTTACACACAGAGTAAAAGCCTATAAAATAATTTCAAGTATATTTGTCATTATCTAAGTGTCAAAGCAACCCTAGACATATGTGTTGGTTTGCTTAGCCTCCTTAAAATCTTTGAAAAATGATAAGAAAAAAAAAGAGTTAACTCGAATTTGTGTTGCTAAACATCGGATGAAATAGTTTATGGGTGCAATCTTGAGCGCATGCAACCCGTCTCACTGCATTTGAAAGAGTTGCCAGTTGTAGGCGCATATAAAAGTTGCATGCCAGAATTGCTACCTCACTTATTTGGGCAAGATTGCGGGCACATAACGTGCTCATTTCACATGAGTAGAAACTATTTTAAATCTCCTTCTTCTTATCATTTGATTTCTTCTCATTTTCATGTATTGCTACTGTTTTCTTTTGGTGTTTTCAAAACAAAACCCTCAATCAATCATATTTTTACTCGGTTATCTCTCAGTTGTTTCCTAATCACAATTTGCAGTCAAATCGATTTGGAAACTTTGTAAACCATTCCCTTAGGTTTGATTCGAATTACTTCTGTTTTATATTACTTGACGACAGTGCATACTTGCACTTAGGAGGTATCGGTCACGCACTCGTCAACTTCGTTAACCAAATAATTTACCGAGCCTACTAAACTTTGGAGTAGAGAGGGATTGGTTGTTGCATATGAAACCGAACCAATTTCTGTAGGGTAATCTCGAAGTTCCAACGTAACTAGGGGGATTTTGTGTTTATGCTAAGAATAGTAAAAGACGTTTTGAATTTGAATGTATGCAAGATTTTAAGTGCTCCGAAAATAAAGAGAAATTGAATGATTAAAAACCTAGCTTAGATTGTAGAGTTGTCTCCAATTGTCCGATTCATCCATGAATTCTTAATTTAAATTACCTTTTCCTACTTATGTTTAATCAACTCACTCGAAAACGTCAAAAAAAAAAAAAAAAAAAAAAAAAAAACCTAAATTAACTAATCTGTATTAGATGAAACACATCCATACAGATTAATCGACCACATTATGCTTTAGGAAAAATGTTAAGACAATCAAGTAGGTAACACCTAACTTAGTTAATGAACATGCAATGCTAATTGCAAGAATTCTAACCAATCCACAAGCATGACTCAACCATGCTACCTAGCGACCAAATCAATAACAATTATGGATTGCGTTTTTTATCATTAGCAAACAACAATGAGACTATAAACAATTGGTTAGATCATTAATGGAAACAAAGTCATGGAGAAGACTAAAAAATGAGAACCATAACTAAAACAAGGTAAAATCAAAGTTCAAAATCACTTCTCACAACCTAACAATGAGGAACCACCTAAATCTAAGCCAAAGTACTTACCTTTTAGCCACTCATAATCTTCATTATGCTCTAAATACAATGTTTAGTGGCCAAAAGAAAACTCAGTGAGAAAGAGGGAATGGAACGAGGGAGAACATAGAATTCGTAACTGATTTGACTTAAAAGAGAAAATAAGTCTTTTATATCAAGTTGATAGCGTTGCAAAAAAGCATCATCACCTCATATCGTTGCTCAACATTGCCTTATTCCATCTTCTTGAGAGTGTCGCGACACTTAATTAGCTACTACCTTCAATTGCAATGCATTGTGCACAACATTGCAACGTTGCCTTTATGTGTATGTTGATAATTTTCTTTTCATTAATTTTAATATGGTTGGTGACTTAGGGCTTCAAATACTCCATTTTGACATGATTTTCACACAAACACTTGTTCTACCTCCAAAATGCCCGGTTCCTATAAAAATAATTAAAAAAACACTTAACTAATTAAAACCAGCGCGATTTATGTTGAACAACTTTTGACTTTACTAACAAATTTTGTTTGAAAATTGCTTCTTTCTCAACTCAAGATAACTTTTAAAAATTTTGATTATACAAACGGTAAGAGCATTTTTTAACCTTTTTTTTTTAAGATTAAGAGTATAATACAATTTTTGAAAGTCCATAGATAATTTTGAAACGAGATATTAATGGTTTTCATCCATATTTAACAATAAGAGTATTTTCAAATTTTTCGAAATTTAGGAGTATTCTTGAAACTTTTGAAAGTTTAAGGGTGTTTTGTAAACACAATACTATCGATTGTCATCCAAAATTTTCTTTTCTTTTAAAGTTTAAGAAGATTATTGAAACTTTTGAAATTAAAAGATATTTTTTACTTAAAATACAAAATTTAGAGGAAAATTACTATCAACAGAAAAATTATCAAACTATTTACAAATATAAAAAAATTTAACTATCTATGAGCGATCGCTCAAGCGATAGAATTCGAATTCTATCACAATCTATCAATAGTAAAAATTTTCTATAAATTTGTAAATAATTTGACTCATTTTTCTATATTTGAAAATATCCCAAATTTAGAAGTATTTTCAATAATTTAGTCTATAAATTATAAGGTTGTTTTCAAATATAGAAAAATGAGTCAAATTATTTACAAATATAGAAAAATTTTACAGTCTATCAGTGATAGACCGCGATAGAATTCTATCGTTTTCTATCGCTCAAACGATAGAATTTATTTGCTTGAGCTAGAATTCTATCGCAGTCTAGGATAGATAGTGAAATTTTTCTTTATTTGTAAATAGTTTGATATTTTGTCTGTTTATAGTAATTTTCTTAAATTATAAGATATGCATTAAATCCAGCCGCCCTGCTTTCTAGTATAAGCAATACCCCACAGCACATTAGACTCAATTACCCTTTCTAAAGAAAAAAGAAAAAAAAAAGAAAAAAGAAATAACGCCTGTTCTTTCTGTATCTTCTCTCTCAGCATCTCTGTGTTGCTTTACGTTCCCAACAACTTGGCATCGGCCATTGCTCCCTTATTTATATTATTACCAACAATGAGCTTCACCGCTGCAACTCCAATCCATACGTCGTCGTATCCCCCTTCTTCTCTCCATTCCAATCGCTTCAACCCCACAATCCTCTCTCCCATCCCTCTCCGCCGTTCCTTTTCTTCTTTCATCCCCCGCCGCACCCCTCCTCTGCTTTCCGCTTCAGCCACGACGCCCGCAGACATCCAGATGGACGCCGATCGCCTTCAGAAGGGAATCGCCGAGTTCTACGATGAATCATCGGGGCTTTGGGAGAGCGTTTGGGGCGAACATATGCACCATGGATTTTACGATCCTGATTCTTCCATTTCCCTCTCCGATCACCGCTCTGCGCAAATCCGGATGATCGAGGAGACGCTCCGGTTCGCCGGCGTGGAGGCGGCGACGGCAGCGGTGGACGTTGGGTGTGGGATTGGGGGAAGTTCTAGGTATTTGGCGAAGAAGTTTGGGGCGAAATGTAGAGGTATAACTTTGAGCCCTGTCCAAGCTAAACGCGCTCAAGCGATTGCTGCCGCTGAAGGATTAAGTGATAAGGTGTGTACGGTCTTTGAAACCTCTGTTCTTATTTGTTCTTACTCCGTTTATCATTTTTGTTTTTCTTTGGAAATGCTCCGTTACGCTTTTGTTTTGACGTTTTCTTTGCTTTGATACTAAACTTGAAAATTAGTCCTCAATCAACTAGTACAACCAAAATAATTTGTACTTTCTAGATTAGTCCTTTTCAAGTTTGGTTGCAGAAATGGTTAAAAAAATAATGCTTCTTTTTAACCATTCTAAGTTTAGTACTTGAAATTAAATGATTAGTGGTATGTGTAATCTTTGAAATGAATACCAGAGAAATGTATGTTAATTTGAACTTCTAACTTTTTGGTTAGAAGAATATATAATGACTTAACCAATAAAGCTATATTGATATTAAGTGACAAAATTGTAGAAGAAGTTGAAAGAGTTACTTTATTTTCTTGGCGTTCAACAATATGTGAAGACGGGAATATATACTTTATTCAGAGATATAATATGGAATAGGAAGGTATCTAAAATGGTTAAAATGAAAGTTTTAACATAAATATGGGATTGACATGATCATAAGGAGGATTTTTGGTGGGTGGTAGGTGTGTTTTGAAGTGGCAGATGCTCTGAACCAACCATTCTCAGATGGGGAATTTGATCTGGTATGGTCCATGGAGAGTGGGGAGCACATGCCTGACAAATCCAAGGTTATTTTTTCTTTATACTCTCTCACTTTAATGATTTCCATTTCTCTTAAAGTCAGTGTTTGTTTGTGTTGTCTTATCTGTGTTTTGTTGATATGCTTCTTTAAAAACTCTGCAGTTTGTGAGTGAACTAGTTAGAGTTGCAGCCCCAGGAAGTACCATAATTATAGTTACATGGTGCCATAGAAACCTTGGGCCTTCTGAAAACTCCTTGCAGCCATGGGAGGAGAAGCTCCTTCAGAAGATTTGTGATGGCTTCTATCTCCCTGCTTGGTGTTCTACTGCTGATTATGTCAAATTACTCGAATCCCACAATCTACAGGTACTATTGTCTTTATACTTTGAGCATCGTTTCTATTTATTGATGGTCCGAGTTGACATAGTGCCAATAACAAGATTCAAGAGAATGAATGGTTCAAATCATTTAGATAAGGAGGGGAGATGTGATATTTGAAGAATTGTAAAGACATAAAATTGATGTTTTTAGTCGTGGATCCATGAACTTCTTGAGCCAAACAAAAAATGGCATAATTCCACACTACTCTACTCCTACTTCTCCAACTCCTTGGCTTAGGGTGTTTGGCCAAGGAGTTCGAGGAGTAAGAGTTGAGTGGAGTGAATTTTGAATTCCACTCCTTGTTTAGCCCAAGGAGTTCGTGGGTCCCACGACTAAAAGAACATTAATTTTATACCTTATTAACTTTTTACACTGTTGGTCTCAAGAGTTCATAACTCTCTAGACTTATAACTCCATGAAATACACAACTCCACTCTTTGTCCTGAACGCCCCAACCTTTAGGGAGCGTTTGGGACAAGGAGTGAAGTTGTTTAGTATGAAGAGTTGTTTAGTTGTGAGGCCACAGTGTAAGAAGTTAATAAAGTCATGGAAGTGATAATTTTTAGTCGTTGAAAAAATTCTTCGAGCAAATAAGTAGTGAAGTTTCACTCTCCCAACTCTTACTTTTTGAAATAAATGTGCACCTTAATGATTGTATCTTATAAGTAAATATTGTAAAGTTAAATAGTTATGTCGTGAGATTGGTCGAGAGGTATGGATCAATATAATTAAGTTGGTGCCAACATTCATCTCACATTAATCTTTGAATCTGAATCATAATTTGGGGACTGATTAAGAGAGACATTATTAGAAATTTTCAGGATCATTCACCATCATAATTTAATGAATTAATGGAACCCACGTGGGAATGAGAGTTAATTTTGGGATGTAGCGGAACATCTTGATAAAGCTGAATATTTATTTATTTATTTATTTGAATAAACTAAAAGGTTTTTTTCTTTATTATTTTTACTATTGGAAAATGATATGTAAAAAATGGTGTTTGGTGTTGATAGGATATAAAGACAGCAGACTGGTCTCAGAATGTTGCTCCGTTTTGGCCTGCAGTTATTCGGTCTGCTTTGACTTGGAAAGGCTTCACATCACTCTTACGAAGTGGTAAATATTCCTGAATGACTTCGATTGAATCTAATTCCACCTCCATTGGGGGATTCTACCCATCCCAACAAATCATGATGTGTTTTAAACCATCGACAATGGTTTTAGCTTCTAAGGCTTTGACCGACAAATTAGTAGATATTGGGATGCACCCACCCCCAATAGGGACAACCATTCCAATCACGAATGATCCAACTGATCTCACCGTATTGAGCATCTCCGACCAAGCACCATCGACATTCATCTTTCAACAACCCTATCTTGGCGGCTTCCAACGGCTAACAGCTGGTCACACATCGTTTATCGGAGATGCAAGGCAGGGTTGGTCGCATCGTTTGTCAGTGTTAACATGGTCGTGGAGAAGAAGAAGAAATCGTATAACTTTGAGCCCTGTCCAAGCTAAACGCGCTCAAGCGATTGCTGCCGCTGAAGGATTAAGTGATAAGGTGTGTTTTGAAGTGGCAGATGCTCTGAACCAACCATTCTCAGATGGGGAATTTGATCTGGTATGGTCCATGGAGAGTGGGGAGCACATGCCTGACAAATCCAAGTTTGTGAGTGAACTAGTTAGAGTTGCAGCCCCAGGAAGTACCATAATTATAGTTACATGGTGCCATAGAAACCTTGGGCCTTCTGAAAACTCCTTGCAGCCATGGGAGGAGAAGCTCCTTCAGAAGATTTGTGATGGCTTCTATCTCCCTGCTTGGTGTTCTACTGCTGATTATGTCAAATTACTCGAATCCCACAATCTACAGGATATAAAGACAGCAGACTGGTCTCAGAATGTTGCTCCGTTTTGGCCTGCAGTTATTCGGTCTGCTTTGACTTGGAAAGGCTTCACATCACTCTTACGAAGTGGTAAATATTCCTGA ATGACTTCGATTGAATCTAATTCCACCTCCATTGGGGGATTCTACCCATCCCAACAAATCATGATGTGTTTTAAACCATCGACAATGGTTTTAGCTTCTAAGGCTTTGACCGACAAATTAGTAGATATTGGGATGCACCCACCCCCAATAGGGACAACCATTCCAATCACGAATGATCCAACTGATCTCACCGTATTGAGCATCTCCGACCAAGCACCATCGACATTCATCTTTCAACAACCCTATCTTGGCGGCTTCCAACGGCTAACAGCTGGTCACACATCGTTTATCGGAGATGCAAGGCAGGGTTGGTCGCATCGTTTGTCAGTGTTAACATGGTCGTGGAGAAGAAGAAGAAATCGTATAACTTTGAGCCCTGTCCAAGCTAAACGCGCTCAAGCGATTGCTGCCGCTGAAGGATTAAGTGATAAGGTGTGTTTTGAAGTGGCAGATGCTCTGAACCAACCATTCTCAGATGGGGAATTTGATCTGGTATGGTCCATGGAGAGTGGGGAGCACATGCCTGACAAATCCAAGTTTGTGAGTGAACTAGTTAGAGTTGCAGCCCCAGGAAGTACCATAATTATAGTTACATGGTGCCATAGAAACCTTGGGCCTTCTGAAAACTCCTTGCAGCCATGGGAGGAGAAGCTCCTTCAGAAGATTTGTGATGGCTTCTATCTCCCTGCTTGGTGTTCTACTGCTGATTATGTCAAATTACTCGAATCCCACAATCTACAGGATATAAAGACAGCAGACTGGTCTCAGAATGTTGCTCCGTTTTGGCCTGCAGTTATTCGGTCTGCTTTGACTTGGAAAGGCTTCACATCACTCTTACGAAGTGGTAAATATTCCTGA MTSIESNSTSIGGFYPSQQIMMCFKPSTMVLASKALTDKLVDIGMHPPPIGTTIPITNDPTDLTVLSISDQAPSTFIFQQPYLGGFQRLTAGHTSFIGDARQGWSHRLSVLTWSWRRRRNRITLSPVQAKRAQAIAAAEGLSDKVCFEVADALNQPFSDGEFDLVWSMESGEHMPDKSKFVSELVRVAAPGSTIIIVTWCHRNLGPSENSLQPWEEKLLQKICDGFYLPAWCSTADYVKLLESHNLQDIKTADWSQNVAPFWPAVIRSALTWKGFTSLLRSGKYS Homology
BLAST of HG10000301.1 vs. NCBI nr
Match: XP_038900464.1 (tocopherol O-methyltransferase, chloroplastic [Benincasa hispida]) HSP 1 Score: 331.3 bits (848), Expect = 8.5e-87 Identity = 156/161 (96.89%), Postives = 159/161 (98.76%), Query Frame = 0
BLAST of HG10000301.1 vs. NCBI nr
Match: XP_004151846.2 (tocopherol O-methyltransferase, chloroplastic isoform X1 [Cucumis sativus] >KGN63361.1 hypothetical protein Csa_021911 [Cucumis sativus]) HSP 1 Score: 318.9 bits (816), Expect = 4.4e-83 Identity = 149/161 (92.55%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. NCBI nr
Match: XP_008462787.1 (PREDICTED: tocopherol O-methyltransferase, chloroplastic [Cucumis melo] >TYK00989.1 tocopherol O-methyltransferase [Cucumis melo var. makuwa]) HSP 1 Score: 318.2 bits (814), Expect = 7.4e-83 Identity = 151/161 (93.79%), Postives = 156/161 (96.89%), Query Frame = 0
BLAST of HG10000301.1 vs. NCBI nr
Match: KAG6571208.1 (Tocopherol O-methyltransferase, chloroplastic, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 317.4 bits (812), Expect = 1.3e-82 Identity = 148/161 (91.93%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. NCBI nr
Match: KAG7011011.1 (Tocopherol O-methyltransferase, chloroplastic [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 317.4 bits (812), Expect = 1.3e-82 Identity = 148/161 (91.93%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy Swiss-Prot
Match: Q9ZSK1 (Tocopherol O-methyltransferase, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=VTE4 PE=1 SV=2) HSP 1 Score: 271.2 bits (692), Expect = 1.4e-71 Identity = 125/164 (76.22%), Postives = 139/164 (84.76%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy Swiss-Prot
Match: Q6ZIK0 (Probable tocopherol O-methyltransferase, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=VTE4 PE=2 SV=1) HSP 1 Score: 264.6 bits (675), Expect = 1.3e-69 Identity = 122/161 (75.78%), Postives = 140/161 (86.96%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy Swiss-Prot
Match: W5U2K2 (3-hydroxy-16-methoxy-2,3-dihydrotabersonine N-methyltransferase OS=Catharanthus roseus OX=4058 GN=NMT PE=1 SV=1) HSP 1 Score: 175.3 bits (443), Expect = 1.0e-42 Identity = 82/161 (50.93%), Postives = 116/161 (72.05%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy Swiss-Prot
Match: P74388 (2-methyl-6-phytyl-1,4-hydroquinone methyltransferase OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=sll0418 PE=1 SV=1) HSP 1 Score: 104.0 bits (258), Expect = 2.9e-21 Identity = 66/206 (32.04%), Postives = 100/206 (48.54%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy Swiss-Prot
Match: Q8KZ94 (Demethylrebeccamycin-D-glucose O-methyltransferase OS=Lentzea aerocolonigenes OX=68170 GN=rebM PE=1 SV=1) HSP 1 Score: 74.3 bits (181), Expect = 2.4e-12 Identity = 34/75 (45.33%), Postives = 49/75 (65.33%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy TrEMBL
Match: A0A0A0LTM1 (Methyltransf_11 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_2G432780 PE=3 SV=1) HSP 1 Score: 318.9 bits (816), Expect = 2.1e-83 Identity = 149/161 (92.55%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy TrEMBL
Match: A0A5D3BSC2 (Tocopherol O-methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold602G001840 PE=3 SV=1) HSP 1 Score: 318.2 bits (814), Expect = 3.6e-83 Identity = 151/161 (93.79%), Postives = 156/161 (96.89%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy TrEMBL
Match: A0A1S3CHR0 (tocopherol O-methyltransferase, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103501078 PE=3 SV=1) HSP 1 Score: 318.2 bits (814), Expect = 3.6e-83 Identity = 151/161 (93.79%), Postives = 156/161 (96.89%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy TrEMBL
Match: A0A6J1FYT6 (tocopherol O-methyltransferase, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111449074 PE=3 SV=1) HSP 1 Score: 317.4 bits (812), Expect = 6.1e-83 Identity = 148/161 (91.93%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. ExPASy TrEMBL
Match: A0A6J1JGD5 (tocopherol O-methyltransferase, chloroplastic OS=Cucurbita maxima OX=3661 GN=LOC111484262 PE=3 SV=1) HSP 1 Score: 316.2 bits (809), Expect = 1.4e-82 Identity = 147/161 (91.30%), Postives = 155/161 (96.27%), Query Frame = 0
BLAST of HG10000301.1 vs. TAIR 10
Match: AT1G64970.1 (gamma-tocopherol methyltransferase ) HSP 1 Score: 271.2 bits (692), Expect = 9.7e-73 Identity = 125/164 (76.22%), Postives = 139/164 (84.76%), Query Frame = 0
BLAST of HG10000301.1 vs. TAIR 10
Match: AT3G18000.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 46.2 bits (108), Expect = 5.1e-05 Identity = 24/74 (32.43%), Postives = 37/74 (50.00%), Query Frame = 0
BLAST of HG10000301.1 vs. TAIR 10
Match: AT1G73600.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 45.4 bits (106), Expect = 8.7e-05 Identity = 23/74 (31.08%), Postives = 36/74 (48.65%), Query Frame = 0
BLAST of HG10000301.1 vs. TAIR 10
Match: AT1G48600.2 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 45.4 bits (106), Expect = 8.7e-05 Identity = 23/74 (31.08%), Postives = 36/74 (48.65%), Query Frame = 0
BLAST of HG10000301.1 vs. TAIR 10
Match: AT1G73600.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 45.4 bits (106), Expect = 8.7e-05 Identity = 23/74 (31.08%), Postives = 36/74 (48.65%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bottle gourd (Hangzhou Gourd) v1
Date Performed: 2022-08-01
Relationships
This mRNA is a part of the following gene feature(s):
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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