MC11g0464.1 (mRNA) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.GGGAAGAACACGTCGTCACTTTCCACTTCCCATTTTGGTTGATGGTTCATCACCGAATCGGAGCTCTTGATTCGTGGAACTTCGACGTTCTCTTCTTGCGGAACCTGCGCGGCCATACTCGGAGAAGGAGAAGAAATTGCGTTTCGAAGATGAGAAGAGGACCTTCAACTTCAACAATTTCTTCGTTTTTGTCGCTGAGGATCGCTCGTCAATCTTCCAACTCAGGCATTGATCTGATTCGTGTTCGATTCCTATCTTCGTCTTCAAAGCCTCCTGGTTTCTCTCTCTCTCGCTCTGGCATTCGCATTATTTGTGTGCATATGTAACGTGAAGTATGAAATTAACATGTAGTGTATTCGTGTTTTTGGAAGTTCACTCTCTAGCTAGTTTGTGCATAGTACGCTGTTATTGTGGTGATTACTGGCTAATGACTCATGAGAGATTGAATTCCTTGCTTGACGTGTCATGTTTACGATCATGATTCGGTGCGTGTTTGATCACTGAAGTTATATTAGTTCGATTTCTGTTATCTTTGGTACGATCATAAGAAGTTAGATTTGTTTTCATCCAACGAACGAATAGAGAGAGGTTAAAGCATTGATTGATCTCAATTTCTCAATTTCTCGAATTCGAACTTTCTGGTTGTCTTATTTTGTTGTCGGAGGGAAGGATGCGAAGTGGATAATGTTTTAATCAGTCATTTTGCCTGACCGCTTTAGGATATCCGAGTTCGTGTATATTTTAATTGATAGGCTTGGATTCCGTAATGCCATAGTCATAGTCACAGCTGTATTTCAGACTTGTAACGTGAAATTCGTTCTTTCAGGGCTATTGGTACATTACAGGCATCTAGTTGAGCGAGGGGAGCTACAACATGATCCTTTTCAAGAGAGAGTAGCTTCCGAATTGGAGAGTTTGCTTGGAAGGTTGGAGCAGTATGAAAAAGATATGGAAGATTATCATGTACTAATCGGAATTGTTTAATTCCATTATGATTTGAATGTCTGATATGTTTTTACTCTTACGAATAGGTTGAGACCTACTGCTAAAGCTCTTTTTTGAACCTCTTGCTTTCAAGGTAAAACTAGCTAACTGGAAACAGAATAGGGAGAATGAGAGGCGCAAACTTTTAATGGAGGAAGCTGAATCTAAACAACAGGGTGATGTCTGGACATCGGTAAACAAGCGCCAAAGCAAACTTGTTGAAACACTGATGTTTCGGTTAGGAACACTCCTTTTCAAAGTCACCATTCTGAACTTAAAATCTTCAGCAACTCTTTTGGCTTCTGATTATCATAAAATTTTTAGCATCTGATCTTTTAAAGTATTTATTAATTTTTTCCCTTAGGAATAAGTCTGAAAATATTGAACCTGGAGTCGGTAAATGGGTTTCATACCTTAACCGAGAGAGGAAGTTGGATTCACTTGTAGGGCGTTGTCCTTCTGCTCCACATGCTCCTAGGGGACTGTACATATATGGCAATGTTGGAAGTGGTAAGTTTCAGAATATGATAAATGTTTATGTGGCAAGCTTGGAAATTAGTTACAGTTAAATTCAGCCCACTATCATTTTCATTTTTCTCTAAGACAATATCTTCTACTCAAATTTTCTGCTAAAGCTAGTGCGTTATACTTAAGCATTGAACTAAAAGGGTGCAAATATTGGCATTCATTTACAGAAGACCAAACTTGCATCTACCTATTGCTTTCCCCAGGATATACATTAGAGTCTAAGCATAGTGATTTATGCTTATAATTTTACAATCAACATAATTTCTGATTCACTGAACTAATATCTAATAATCTAGGGAAGACAATGCTCATGGATATGTTTTACAATGCTACTAAAGGAATAGTTAAACATCGACGAAGGTACCATTTTCATGAGGTGAGCATTTATTTAACTTGGAAACATTTTGAACAAACAGTTGCAATTCATTTTCAACCATTGTATTATGATTTAATGAGTTTCAGAGATGCGTGCTTTATTTATTTTGAATTGTTATTGGTCTGAAATTTTACTTCATTGTTTGGCAGGCTATGCTAAAAATTAATGAAGATATGCACCAGATATGGAAAAATCAAGTGAGGGAGAAATCTTCACAATCAAGCATTTCGAGTTGGATTATGAATCTCCCCTTTGATACAAAAGTGAAGGAGTGGTTGGCTGCAGAAGAAAAATACAAGCAAGAGGTACAGATGAAAAACATTCTTCCTGCTGTTGCCGATAAATTTCTTGTTGATCAGCAAGCAGACCAAGTAGGAGCCAGCATTCTTTGCTTTGATGAGATACAGGTAAATGGAAATATCCTAAAGTAAAATTTCTGGCTGACGTTTTAAGAATAGTGGATCATTTGTTATGATGCATAAGTAGGAGAAGTATAGTTTCAAAATTATGGGGGCGAACTTAGATACTACGATTTCAGAATATGGAGTGAAATATGAGGTATTTATCATGGAAAAATGACTGTTGTTATGTTTTTGATATCTGAACCAAGTTGAGTTCAAGCTCGTTCTGTAAGCAAACATTTTGAAATGAGTTGCATATGATTCTATTCATTCATGATTCACGATGTATATTTATTTGCTTGTTCTGCTTTCTCTTTCAGACAGTTGATGTATTTGCTATTGTGGCCTTATCTGGAATTGTAAGCAGATTGTTGAGTACTGGTACAGTTCTTGTGGCCACCAGCAATCGAGCTCCAAAGGACTTGAATCAGGTACCATTCTAATTGAAATGTTGAAGGAGAGAAGATATACACCAACTGGTTATTAAAATTTTTAATTTTCCATGTTTTCAAATCTTACTGCTGATGAAGACTGGTATTCTAATTTTCAATTTAATTAGATTTGATTTTCTTCTCTATATAAATGTTAGTTTTATGTAGGTGAAATTGAGTCTTTGAGGGAGCCAAGTCCCCCAAAATATGCATGTTAGTTTGAGGGAATGGAAAGATATAGAAGTCAATATTTTTTATACCTACAATGAGTCAACTTTCTTCCCTATATAGGAAATTGTGAATGCCTATTGAAACTAATGAGTAAAACTATACGGACGACATGACTAAACAGTAAACAGTGGAAAATTAATTAAAATATCAACATGGCAACAGAGCATTAGTACAACTTAGTGAAAATCAAAACAAACAAAGGTACCTTGTCAACCATTAGGGCACACTAAGGACATGCTTCCCTTTCCTCTTCGGCAGCTGAGTTAGAAACAGTTCAATTTCAAACTGGAAAAATAATATGAAAAGAGAAGATGAGTTGTCCACCAAACCCATTGAGCTTTACAAAAGAGCTCCATTTGAGAGTTAATAATAACTTTCTTCTTCAGACTTGATAAGATGGGAGTAATATGTCTTTGATATGCTTTTCACCTTATTCTATAGATTGAAAACAAGAAGTTCCGTTATTATGTGCAAAAAGCAAACGCTCCCTTCTATAGAAGCCCAAGTTGTCACCACCTCTCACTAATGCCAGATTGAGCCCCCTTCACCAACTGCACCTACTTTACTTCCAGCTCCTACCCCAGTCCTGTCAGGCAACTGGCAGAAACATGAAGATCCTCTTCAATTCTCTTAACAGTAGGAAACTATAATTATCAAAAGGGACAGGGTGGTTGAACATTAGCAGAATGTTAGGGGGGAGGGTTCGAAATAAACCTCTTAGACAGTTGAGTCGACAAGCAGGTATGCAGTGAACTTGTACATGAAAATCACCATTTTGATTGTGTTGACAAATTATGTTAATGCAGGATGGCATGCAGAAGGATATCTTCCAAAAGTTTGTAGCCAAACTGGAGGAGCATTGTGAATTTGTTCTCATTGGAAGTGAGATTGATTACAGGCGCTTTATAGCTCAAAGATCTTTTGACCAGGTGAGAGCATGAACAGTGTAACAAGGTATTCAAGAAAAATATGCGCATACAATTTCAAAGTATACGTTGTTGAATGTACGTCTTAACCACAGGAACAACGTCTTAACCACAGGAATATTTCCACCTGACATTACATCGATTGTAATTTTAAAAACGATGATCTGGTCCATAGAAACTCATTTTATCATTAGTTGCTCTCTGAAGTCTGAATATCATTTGCACAAAGTCATATTATCATAATTATGAGTTATGAAGCATGGGGATTTTAGTTTAGGCAATGTTTTTGTGGCTCATAGAATTAGATACACCAATACTTCCTGGAGACCTAAGTTAAAGTGTTAGATCTTTTATGATTTTTAAAACCCAATTCGGGATATAGACATGACAAAAATTATTAAATAAGAGTAGTGAATTTTGATGTAAATCATTACTATTTTTTTAACCTTATAATTGTATGGATATATTTATTTTGAATTTTTTTTCCTATTAGATAGTGAATAATTTATGCTCTTCTATATTCTCAATATAAACTTTTGTTAATCATGTTGTATATTTTATTATATTGTATTTTAATTTTTAAATATTAATGCATAAATAGCCATTGTTGTACATAAAAATCACTGAAATGCATAAATATATTTAAAATTATTATTGAATAATCAGTCCTATTGTCTTCATTTCCTAGTTTTTGAGGAAGTGATGCCTTTTCATCCACTCAGGTTATTGTTGTCATTTCTCATTATGATAGGTGTCTCTTTTGCTATTTTATCTTATCCTTTTGTTTGGCTTTTCAATCTTTGAATTTCTTAAGCATGTGATATGGAGATGGTAAGTGCAATACATATGTATTGTTATGATCTTAGTTATTGTCCTTGATCAATCATTATTGGTTGTTATTACATTGGTGCATTTGATGGCTTTAACACCACGCATGGGCAGTGAAATGTTAGGATTCATTTACCGATCGCAATTTCTTTCCTACGGTGCTTTATATTTTATTCATTTATCATTGAATGCATGTATAGGTGCATTATTTCTGGCCTTTAGAGCTAACATCGGTGGGTAAATTTGAAAAGATGTGGGCCGAAATGACCCGCCAATTGGGAGGACAAATCACCTCTGAGACTATTTCTGTGATGTTTGGAAGGTACTTTCTAACTTAACGCAATTTTTTTCATTGAACTTGCTTTACGAATTTGTATATATATCAATCAGAAAATTGGAGGTGTCAGAAAGCTGCAATGGAGTGGCACGATTTGCATTTGATTTTCTCTGTGGTCAACCGGTATTTGCTTATCTTTGTATTATTCATATAATGGTGTACAATGTGCCTTTTTGGTTTCTGATTATGACACTTGTCTCTGTTCTTTGAATCTGGTTATGTGTGTCATTATATCACCTTTCTTTTAATTGGTCTCTATAGGTAGGTGCTGCAGATTATATTGCCTTAGCCCAAAACTATCATACTGTCTTCATATCCAACATCCCAATGATGAGCATGCGCATCCGTGACAAGGTATGAGCAAGCTCTTTTAGAAAAGCTTCAATTAGATAAAAATTAGGGCTCATATTGTCCTGGCAACATGCCCATGGTACATGCATATTAATTGAATGTCGCTCTCTTTGGCCCTTGACATCTTTGGTATCTTTATTTGATAGTTAAGGTTCAAAATGACTACTGATGCCCCATAGCATGGATATCTTTCTTGCTGCCCACTTATTTTACTCATTTTAAACTTAGAATTTCATTTTGTCAGGCCCGGCGGTTCATCACTCTCATTGATGAGCTATACAATCACCATTGCTGCCTATTTTGCTTGGCAGCTACTTCAATTGAGGACTTGTTTCAAGGCACTGAAGAGGGTACTCTTTTCGATTTGGAGAGGTAATTATTTCTCCTGTGTCTGGGTTGAACATTGCTATAAAATTTTCTTTTCCTCTTTTTGGGAGAAACTCTACGAATATGAATGCTGCCATGGACCATCATCACTTTTGGATGTTCCAGCTTTTAAGTGAATTTTCCAACTTCAGTTCAAGTACATCGATATATGAAGAAAGTATATTAATCATGACTTCATTTATGCTAAAGTGGCGTACAAGTATGACATATTTATGATCTCCATTTTTCAAATGAATATTGGCTAGAAGAGTTTGGCGAATGTAGTGCATGACAGTAAATAATTAATTCCAATAATATGTGATCTTGAACTTCCTTTTTCCATCCTTTCCTCCATTTTCCAGTTGGTCGGCATTTATGGTCAAAGGTTTTTGAGATCTTGTGTTAGTTTTGACTTCCCCCGTATTATGGTTAAATGCTACAAGAGCCATCTTTTTGGCGTGTGTTTCATTAGAAAGGAATGGGAGATCTTTTCCAGGAAAAGTTAAGGGAGTGGCAGGTCTGTGTTCAATCCTGTAATATTGTCACTTGAGTTGTTGGATTATGAGTTCAGTAATTAGTATGGGAAATAGCAGATGGTTAGTATATAATGAAATTTTTGCATGCATTCATTCAGTTTGTAATAATTCTAATTTGTGCTGTTTCTTATATTCGTCCAAACTATGTGTATATATCTTTCTAAGTCTTTTGACGAGATTGGTAGGAGATCAAGTATATTGGATACCACCACATCAACTTTATGCTGCTTCTGCTCTAAACCATTTGGCCAGCATGCAGTTTTTTAGGTCTTTTATGAGCGTATATGTATATTGTTGGATCACTTTTGATTCCCTTGCTTAGTAGCAAACGGTCCACGTCTTTTCAGTATCTTTTGAGCATCAATGTAGGTTTTGCAACAATGGTACGAACTTAGTATTTCTGGTTCCAGTTTTCAGTTCGAAACAGAGGCAGAAGGGGGAAAGCTTCGTCGAAATGTCCTAGAGGAAGGCAATGTAGGCTCCGTAGGTGCTCCAACTGCAATTGTGTCAATGCTATCTGGTCAAGAAGAAATGTTTGCATTCCGTCGAGCTGTAAGTTTCGTTTGTCTCCTTGGTTTCTTTAACGGTTCCTGTATCATTTGCATGAAGTCTTCACTTTTGATACTACACTAAAAATACTATATTACGAAGCAGACTCACTCCGCAGGTGTGGAACCAACAAGGAACCAACAAGGAACCAACAGGCTTGTTAATTTTTGGTTTCTGATATTAGTATGAAATTTATGCTCTGGCTCATTTCAAATCTGTTGCTATTAGTTTACTCTAGAACTGGTTACTTTTGGTGTTAAAGCATGGAGTTTCCACACAACCATAATCTCACCAATTGTCGGGGTCGATATTATCAGCAAGTTGTCTTATTTTTAAGTGAAGACTTTAGGAAGGTTGCGAGGAAAAATTCCTTTCTAGTCTTTTATAGAAACAAATTTTCCATTATAATCCTTGAATTTAGAAAGTTACCCTAAATATATATTCTTTTTGCTGATTCTCACAATTTTCCTGTTATCGTTAGTCTTCTATTATTGTGCTACTCTGTGAGTTTTACAAGATAGAAATATATATAAAGAAATTAAAATCTTTTGTTGGTGATATTGTTCTGGCATTTACAAATTACAGGTTTGCTCTCCTTGTAGGTCTCTCGATTGATTGAGATGCAGACACCTCTATACTTGGAGGGAGTGCGAAGCCTTCATCCATATTTTCAGAGACGAGAACAAGAATCGTTAGTCGATCGTGCGACCAAGTTCCATTCTCAGCTATCATCATGACTTTACAAGGTACTCCTCCATTCTGCAAGTTCTCTCTCTCATTTGGGAGTGGGATAAATAGGAAGGGGAGAGAGGTCTCCAACCCGATAAAATAAGATAAAATATTTAGGCCCCGTTTGGTAACCATTTCGTATTTGTTTTTCTGTTTTTGAAAATTATATTTGTTTCGTCACAATCTCTTTTCTATGTTTTCACCCTTCTTAAAAAATACACTTTAACTTGTTTTTGAGAACTGTTGTTTTTTTTTTCGTTTTCAAAATTTGTTTTAGATTTTGAAAACAATTTCAAAGAGCAGAGGCTAAACAAAAAAATACATACATAGGTGAAAATGGCGCTAAACTGAAAATCAAAAACAAAATAGTTATCAGATCGGGCCTTAACTCTCTAGAGCCAACTAGTCTATTCATTTGAGGCCTGTCTGTAAAAGCTGAACAACAGGGTAAAAATAGGGGAATTCAAAATAATTTCAAATTAGGTAGTATAAAAGAAATCGTAGTAACTTAATAAGCTTTATGCTCATTGCCTCCATCCTCTCTCTACCCGTTAATAATATTATATCTTTATCATCCATGGTCAATTGATTCTGTATTGAGCTGAAACCTGCAATTTTATTTATCTTTGGCACCTGAGTTAAGATACTTGGTAAGATTCCTTTTATTTTCATGTGTAATTCCACTTGCACGTGCATATTGAGAGTTTCTTGTCACAAATTGTTCGAAGTAAAACAAATTGTTTTTAACACATGAAAATAGCTTCAATATTCCTAAGAACCATAACATTTTGTGGTGAGGGTGGGGAGTCAGATCTTGAACTTGTAATGGAGATTACTAACGATTCAACTAGTAAAGTTATGTTCTAATTGACACGATATTATATTATTTATCAACATTATACTTTTGCATCCCTTTCTTGAGCGAAGCTAAAATAAATTTATCCATTCCATATGGAGTTACT GGGAAGAACACGTCGTCACTTTCCACTTCCCATTTTGGTTGATGGTTCATCACCGAATCGGAGCTCTTGATTCGTGGAACTTCGACGTTCTCTTCTTGCGGAACCTGCGCGGCCATACTCGGAGAAGGAGAAGAAATTGCGTTTCGAAGATGAGAAGAGGACCTTCAACTTCAACAATTTCTTCGTTTTTGTCGCTGAGGATCGCTCGTCAATCTTCCAACTCAGGCATTGATCTGATTCGTGTTCGATTCCTATCTTCGTCTTCAAAGCCTCCTGGGCTATTGGTACATTACAGGCATCTAGTTGAGCGAGGGGAGCTACAACATGATCCTTTTCAAGAGAGAGTAGCTTCCGAATTGGAGAGTTTGCTTGGAAGGTTGGAGCAGTATGAAAAAGATATGGAAGATTATCATGTAAAACTAGCTAACTGGAAACAGAATAGGGAGAATGAGAGGCGCAAACTTTTAATGGAGGAAGCTGAATCTAAACAACAGGGTGATGTCTGGACATCGGTAAACAAGCGCCAAAGCAAACTTGTTGAAACACTGATGTTTCGGAATAAGTCTGAAAATATTGAACCTGGAGTCGGTAAATGGGTTTCATACCTTAACCGAGAGAGGAAGTTGGATTCACTTGTAGGGCGTTGTCCTTCTGCTCCACATGCTCCTAGGGGACTGTACATATATGGCAATGTTGGAAGTGGGAAGACAATGCTCATGGATATGTTTTACAATGCTACTAAAGGAATAGTTAAACATCGACGAAGAATTGTTATTGGTCTGAAATTTTACTTCATTGTTTGGCAGGCTATGCTAAAAATTAATGAAGATATGCACCAGATATGGAAAAATCAAGTGAGGGAGAAATCTTCACAATCAAGCATTTCGAGTTGGATTATGAATCTCCCCTTTGATACAAAAGTGAAGGAGTGGTTGGCTGCAGAAGAAAAATACAAGCAAGAGGTACAGATGAAAAACATTCTTCCTGCTGTTGCCGATAAATTTCTTGTTGATCAGCAAGCAGACCAAGTAGGAGCCAGCATTCTTTGCTTTGATGAGATACAGACAGTTGATGTATTTGCTATTGTGGCCTTATCTGGAATTGTAAGCAGATTGTTGAGTACTGGTACAGTTCTTGTGGCCACCAGCAATCGAGCTCCAAAGGACTTGAATCAGGATGGCATGCAGAAGGATATCTTCCAAAAGTTTGTAGCCAAACTGGAGGAGCATTGTGAATTTGTTCTCATTGGAAGTGAGATTGATTACAGGCGCTTTATAGCTCAAAGATCTTTTGACCAGGTGCATTATTTCTGGCCTTTAGAGCTAACATCGGTGGGTAAATTTGAAAAGATGTGGGCCGAAATGACCCGCCAATTGGGAGGACAAATCACCTCTGAGACTATTTCTGTGATGTTTGGAAGAAAATTGGAGGTGTCAGAAAGCTGCAATGGAGTGGCACGATTTGCATTTGATTTTCTCTGTGGTCAACCGGTAGGTGCTGCAGATTATATTGCCTTAGCCCAAAACTATCATACTGTCTTCATATCCAACATCCCAATGATGAGCATGCGCATCCGTGACAAGGCCCGGCGGTTCATCACTCTCATTGATGAGCTATACAATCACCATTGCTGCCTATTTTGCTTGGCAGCTACTTCAATTGAGGACTTGTTTCAAGGCACTGAAGAGGGTACTCTTTTCGATTTGGAGAGTTTTCAGTTCGAAACAGAGGCAGAAGGGGGAAAGCTTCGTCGAAATGTCCTAGAGGAAGGCAATGTAGGCTCCGTAGGTGCTCCAACTGCAATTGTGTCAATGCTATCTGGTCAAGAAGAAATGTTTGCATTCCGTCGAGCTGTCTCTCGATTGATTGAGATGCAGACACCTCTATACTTGGAGGGAGTGCGAAGCCTTCATCCATATTTTCAGAGACGAGAACAAGAATCGTTAGTCGATCGTGCGACCAAGTTCCATTCTCAGCTATCATCATGACTTTACAAGGTACTCCTCCATTCTGCAAGTTCTCTCTCTCATTTGGGAGTGGGATAAATAGGAAGGGGAGAGAGGTCTCCAACCCGATAAAATAAGATAAAATATTTAGGCCCCGTTTGGTAACCATTTCGTATTTGTTTTTCTGTTTTTGAAAATTATATTTGTTTCGTCACAATCTCTTTTCTATGTTTTCACCCTTCTTAAAAAATACACTTTAACTTGTTTTTGAGAACTGTTGTTTTTTTTTTCGTTTTCAAAATTTGTTTTAGATTTTGAAAACAATTTCAAAGAGCAGAGGCTAAACAAAAAAATACATACATAGGTGAAAATGGCGCTAAACTGAAAATCAAAAACAAAATAGTTATCAGATCGGGCCTTAACTCTCTAGAGCCAACTAGTCTATTCATTTGAGGCCTGTCTGTAAAAGCTGAACAACAGGGTAAAAATAGGGGAATTCAAAATAATTTCAAATTAGGTAGTATAAAAGAAATCGTAGTAACTTAATAAGCTTTATGCTCATTGCCTCCATCCTCTCTCTACCCGTTAATAATATTATATCTTTATCATCCATGGTCAATTGATTCTGTATTGAGCTGAAACCTGCAATTTTATTTATCTTTGGCACCTGAGTTAAGATACTTGGTAAGATTCCTTTTATTTTCATGTGTAATTCCACTTGCACGTGCATATTGAGAGTTTCTTGTCACAAATTGTTCGAAGTAAAACAAATTGTTTTTAACACATGAAAATAGCTTCAATATTCCTAAGAACCATAACATTTTGTGGTGAGGGTGGGGAGTCAGATCTTGAACTTGTAATGGAGATTACTAACGATTCAACTAGTAAAGTTATGTTCTAATTGACACGATATTATATTATTTATCAACATTATACTTTTGCATCCCTTTCTTGAGCGAAGCTAAAATAAATTTATCCATTCCATATGGAGTTACT ATGGTTCATCACCGAATCGGAGCTCTTGATTCGTGGAACTTCGACGTTCTCTTCTTGCGGAACCTGCGCGGCCATACTCGGAGAAGGAGAAGAAATTGCGTTTCGAAGATGAGAAGAGGACCTTCAACTTCAACAATTTCTTCGTTTTTGTCGCTGAGGATCGCTCGTCAATCTTCCAACTCAGGCATTGATCTGATTCGTGTTCGATTCCTATCTTCGTCTTCAAAGCCTCCTGGGCTATTGGTACATTACAGGCATCTAGTTGAGCGAGGGGAGCTACAACATGATCCTTTTCAAGAGAGAGTAGCTTCCGAATTGGAGAGTTTGCTTGGAAGGTTGGAGCAGTATGAAAAAGATATGGAAGATTATCATGTAAAACTAGCTAACTGGAAACAGAATAGGGAGAATGAGAGGCGCAAACTTTTAATGGAGGAAGCTGAATCTAAACAACAGGGTGATGTCTGGACATCGGTAAACAAGCGCCAAAGCAAACTTGTTGAAACACTGATGTTTCGGAATAAGTCTGAAAATATTGAACCTGGAGTCGGTAAATGGGTTTCATACCTTAACCGAGAGAGGAAGTTGGATTCACTTGTAGGGCGTTGTCCTTCTGCTCCACATGCTCCTAGGGGACTGTACATATATGGCAATGTTGGAAGTGGGAAGACAATGCTCATGGATATGTTTTACAATGCTACTAAAGGAATAGTTAAACATCGACGAAGAATTGTTATTGGTCTGAAATTTTACTTCATTGTTTGGCAGGCTATGCTAAAAATTAATGAAGATATGCACCAGATATGGAAAAATCAAGTGAGGGAGAAATCTTCACAATCAAGCATTTCGAGTTGGATTATGAATCTCCCCTTTGATACAAAAGTGAAGGAGTGGTTGGCTGCAGAAGAAAAATACAAGCAAGAGGTACAGATGAAAAACATTCTTCCTGCTGTTGCCGATAAATTTCTTGTTGATCAGCAAGCAGACCAAGTAGGAGCCAGCATTCTTTGCTTTGATGAGATACAGACAGTTGATGTATTTGCTATTGTGGCCTTATCTGGAATTGTAAGCAGATTGTTGAGTACTGGTACAGTTCTTGTGGCCACCAGCAATCGAGCTCCAAAGGACTTGAATCAGGATGGCATGCAGAAGGATATCTTCCAAAAGTTTGTAGCCAAACTGGAGGAGCATTGTGAATTTGTTCTCATTGGAAGTGAGATTGATTACAGGCGCTTTATAGCTCAAAGATCTTTTGACCAGGTGCATTATTTCTGGCCTTTAGAGCTAACATCGGTGGGTAAATTTGAAAAGATGTGGGCCGAAATGACCCGCCAATTGGGAGGACAAATCACCTCTGAGACTATTTCTGTGATGTTTGGAAGAAAATTGGAGGTGTCAGAAAGCTGCAATGGAGTGGCACGATTTGCATTTGATTTTCTCTGTGGTCAACCGGTAGGTGCTGCAGATTATATTGCCTTAGCCCAAAACTATCATACTGTCTTCATATCCAACATCCCAATGATGAGCATGCGCATCCGTGACAAGGCCCGGCGGTTCATCACTCTCATTGATGAGCTATACAATCACCATTGCTGCCTATTTTGCTTGGCAGCTACTTCAATTGAGGACTTGTTTCAAGGCACTGAAGAGGGTACTCTTTTCGATTTGGAGAGTTTTCAGTTCGAAACAGAGGCAGAAGGGGGAAAGCTTCGTCGAAATGTCCTAGAGGAAGGCAATGTAGGCTCCGTAGGTGCTCCAACTGCAATTGTGTCAATGCTATCTGGTCAAGAAGAAATGTTTGCATTCCGTCGAGCTGTCTCTCGATTGATTGAGATGCAGACACCTCTATACTTGGAGGGAGTGCGAAGCCTTCATCCATATTTTCAGAGACGAGAACAAGAATCGTTAGTCGATCGTGCGACCAAGTTCCATTCTCAGCTATCATCATGA MVHHRIGALDSWNFDVLFLRNLRGHTRRRRRNCVSKMRRGPSTSTISSFLSLRIARQSSNSGIDLIRVRFLSSSSKPPGLLVHYRHLVERGELQHDPFQERVASELESLLGRLEQYEKDMEDYHVKLANWKQNRENERRKLLMEEAESKQQGDVWTSVNKRQSKLVETLMFRNKSENIEPGVGKWVSYLNRERKLDSLVGRCPSAPHAPRGLYIYGNVGSGKTMLMDMFYNATKGIVKHRRRIVIGLKFYFIVWQAMLKINEDMHQIWKNQVREKSSQSSISSWIMNLPFDTKVKEWLAAEEKYKQEVQMKNILPAVADKFLVDQQADQVGASILCFDEIQTVDVFAIVALSGIVSRLLSTGTVLVATSNRAPKDLNQDGMQKDIFQKFVAKLEEHCEFVLIGSEIDYRRFIAQRSFDQVHYFWPLELTSVGKFEKMWAEMTRQLGGQITSETISVMFGRKLEVSESCNGVARFAFDFLCGQPVGAADYIALAQNYHTVFISNIPMMSMRIRDKARRFITLIDELYNHHCCLFCLAATSIEDLFQGTEEGTLFDLESFQFETEAEGGKLRRNVLEEGNVGSVGAPTAIVSMLSGQEEMFAFRRAVSRLIEMQTPLYLEGVRSLHPYFQRREQESLVDRATKFHSQLSS Homology
BLAST of MC11g0464.1 vs. ExPASy Swiss-Prot
Match: Q3V384 (AFG1-like ATPase OS=Mus musculus OX=10090 GN=Afg1l PE=1 SV=1) HSP 1 Score: 191.8 bits (486), Expect = 2.4e-47 Identity = 136/416 (32.69%), Postives = 218/416 (52.40%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy Swiss-Prot
Match: Q32PX9 (AFG1-like ATPase OS=Rattus norvegicus OX=10116 GN=Afg1l PE=2 SV=1) HSP 1 Score: 191.8 bits (486), Expect = 2.4e-47 Identity = 136/416 (32.69%), Postives = 219/416 (52.64%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy Swiss-Prot
Match: Q8WV93 (AFG1-like ATPase OS=Homo sapiens OX=9606 GN=AFG1L PE=1 SV=2) HSP 1 Score: 189.1 bits (479), Expect = 1.6e-46 Identity = 130/421 (30.88%), Postives = 210/421 (49.88%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy Swiss-Prot
Match: P46441 (Putative ATPase N2B OS=Haematobia irritans OX=7368 PE=2 SV=1) HSP 1 Score: 181.4 bits (459), Expect = 3.2e-44 Identity = 131/413 (31.72%), Postives = 202/413 (48.91%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy Swiss-Prot
Match: Q5TYS0 (Lactation elevated protein 1 homolog B OS=Danio rerio OX=7955 GN=lace1b PE=2 SV=1) HSP 1 Score: 176.8 bits (447), Expect = 8.0e-43 Identity = 150/545 (27.52%), Postives = 252/545 (46.24%), Query Frame = 0
BLAST of MC11g0464.1 vs. NCBI nr
Match: XP_022135602.1 (AFG1-like ATPase isoform X1 [Momordica charantia]) HSP 1 Score: 1241 bits (3212), Expect = 0.0 Identity = 636/648 (98.15%), Postives = 639/648 (98.61%), Query Frame = 0
BLAST of MC11g0464.1 vs. NCBI nr
Match: XP_022135609.1 (AFG1-like ATPase isoform X2 [Momordica charantia]) HSP 1 Score: 1157 bits (2994), Expect = 0.0 Identity = 592/604 (98.01%), Postives = 595/604 (98.51%), Query Frame = 0
BLAST of MC11g0464.1 vs. NCBI nr
Match: KAG7024466.1 (AFG1-like ATPase [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 1099 bits (2842), Expect = 0.0 Identity = 564/628 (89.81%), Postives = 588/628 (93.63%), Query Frame = 0
BLAST of MC11g0464.1 vs. NCBI nr
Match: KAG6591578.1 (AFG1-like ATPase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 1078 bits (2789), Expect = 0.0 Identity = 556/623 (89.25%), Postives = 582/623 (93.42%), Query Frame = 0
BLAST of MC11g0464.1 vs. NCBI nr
Match: XP_022135618.1 (AFG1-like ATPase isoform X3 [Momordica charantia]) HSP 1 Score: 1070 bits (2767), Expect = 0.0 Identity = 545/557 (97.85%), Postives = 548/557 (98.38%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy TrEMBL
Match: A0A6J1C362 (AFG1-like ATPase isoform X1 OS=Momordica charantia OX=3673 GN=LOC111007517 PE=3 SV=1) HSP 1 Score: 1241 bits (3212), Expect = 0.0 Identity = 636/648 (98.15%), Postives = 639/648 (98.61%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy TrEMBL
Match: A0A6J1C1X6 (AFG1-like ATPase isoform X2 OS=Momordica charantia OX=3673 GN=LOC111007517 PE=3 SV=1) HSP 1 Score: 1157 bits (2994), Expect = 0.0 Identity = 592/604 (98.01%), Postives = 595/604 (98.51%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy TrEMBL
Match: A0A6J1C5B0 (AFG1-like ATPase isoform X3 OS=Momordica charantia OX=3673 GN=LOC111007517 PE=3 SV=1) HSP 1 Score: 1070 bits (2767), Expect = 0.0 Identity = 545/557 (97.85%), Postives = 548/557 (98.38%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy TrEMBL
Match: A0A6J1FDZ4 (AFG1-like ATPase OS=Cucurbita moschata OX=3662 GN=LOC111443118 PE=3 SV=1) HSP 1 Score: 1069 bits (2765), Expect = 0.0 Identity = 550/613 (89.72%), Postives = 573/613 (93.47%), Query Frame = 0
BLAST of MC11g0464.1 vs. ExPASy TrEMBL
Match: A0A6J1IG43 (AFG1-like ATPase OS=Cucurbita maxima OX=3661 GN=LOC111476619 PE=3 SV=1) HSP 1 Score: 1057 bits (2734), Expect = 0.0 Identity = 545/613 (88.91%), Postives = 569/613 (92.82%), Query Frame = 0
BLAST of MC11g0464.1 vs. TAIR 10
Match: AT2G25530.1 (AFG1-like ATPase family protein ) HSP 1 Score: 779.2 bits (2011), Expect = 2.5e-225 Identity = 393/615 (63.90%), Postives = 484/615 (78.70%), Query Frame = 0
BLAST of MC11g0464.1 vs. TAIR 10
Match: AT4G30490.1 (AFG1-like ATPase family protein ) HSP 1 Score: 155.2 bits (391), Expect = 1.8e-37 Identity = 120/420 (28.57%), Postives = 189/420 (45.00%), Query Frame = 0
BLAST of MC11g0464.1 vs. TAIR 10
Match: AT4G28070.2 (AFG1-like ATPase family protein ) HSP 1 Score: 146.0 bits (367), Expect = 1.1e-34 Identity = 114/409 (27.87%), Postives = 186/409 (45.48%), Query Frame = 0
BLAST of MC11g0464.1 vs. TAIR 10
Match: AT4G28070.1 (AFG1-like ATPase family protein ) HSP 1 Score: 131.7 bits (330), Expect = 2.1e-30 Identity = 112/409 (27.38%), Postives = 181/409 (44.25%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
This mRNA is a part of the following gene feature(s):
The following utr5 feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following utr3 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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