MC11g1145 (gene) 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.ATAGGAACGAAAATAGTACTTTTAACTCTATTGAAATAAAAGTGGCAAGACAAACTTAAAAATCTAAAAATTGAGAGATTGGGTATGATTTTCCTTATTTAAATGGAGAGGTTTCGAAAAAGAATTAAAATAGACATTTTGAAAATAACCAGGATAGGTACAGAATGAAATTAAAGAGTTCCACGTTGAAAAGAATTGGTGTACGGTAGAAGCAGACGCCTTAACCGTTGCAGCCTTAAATATTAGTACCCACCACAGATAAGGATCAAAGAAACCCACCAAATCAAATCTCTCTCTCTCTCCATTATATTCACATTCACAGTCTTCAACTTCTAATTCTCCAATTATTTCTCTCTCTGGAATTTAATTTTTTGCCAGAACCTTCTTCCGAAATTCCTTTTCATTTTTCCGATTCCGGATCTCGCCAATATGATTCTTCGGTTCGCGCGATCGTCGTCGTCTCGGATCTCCTTCCTACGCGCTCCGCCGCTAATTTCCGATCCGGCGGGTCTGTGCGGCTGTGGCCGGCGGAGTAGGCTGCTGGATTATTATAAATGGAGGAGGACGACACGTCGTTTTGAATCCACAGAAGCTGCTGCAAAACAACTGGACCACCTCTACTGTCGTAATGATGATCATCCTCAGGTTGGTTTCCTACATGTCTATCGCAATTCATAACTTCATTTTACTTTTCTTTTTTCCTTTTTCCAATTCTTATGATGCATGTGATTTTATTTCTTTCTTAAAAAAATAAATATACATTTTAGTACTTATCAAATTATTGGGAATAAATCCACATTTCTATAATGTTATAGTTAATCTTTTGTCACAATAAATCAAATAACACCACAAAATATGAAATATATTATTTATATATACATAATATTTTTCCTACACATGCAAATTTTATGGAAAGTTTTTTTTTTTCTATTTTTCTACCTCCTATTCAATATTTAGAATAAAATAATGTTACCTCAATATTATTTTAAAATATTTAAAATTATCATCTCATTTCTATTTATCTCTCTTCTATGTATCTTACATTTTTTTTTTCTTTTCCTCTAAAGTTTTAATATTTATCTTTTTAAATATTTGTCGTGTATAACTTCTCCTCGTCCTCTAAAAATTTTCTCGCTCCAACTTTCCTTTTTCTCAATCTAATTTTCTCTCTCTTAGGACACATTTAACTTTCATTTTTTATTATAAAACTTATCCATTTCTAGACAACTTTTCTTTTAGAATGAATATATCCCACTAATTTATTTTTCTTTCTAAATTTTGTTCTCATCCTCGATAAAACAACTGCTTTTTAAATAATAAAAAAAAAATCTAACACGATTTTCTTTTTATAATTTTTTTAAAAAACTAAAATATTATCCCTCATTCTCTAGTTTTTTTATTTCTAAAAAACACCTCCATTTCTCGAAATTTTTATTTCTCTCCCCCATCTATATATTATTATATTTTTAATAGGTCTCTAATTACCTTTCTCTGACTTAAAACTTCTCCATTTCTCTAACTTTTATTTACCAGCCTACAATTCTTATCTCTTGTACAACTCTCTCCCTCATTTGTCAGAAAACAAAAATAAAAAATAGTTGGTTTTTATTTTTCAAAAAACAAATATAAAAAACAGTGACTAGATAAATATAGTTTTTGTTTCTAAAAATAAAAATAGAAATGATGCCAATTTGCCCCCTGATTTATGTTTTTTATTTGTGATATTTATTTTCTATTTTTGGTTTTTGATTTTTAAAAGAAAAATTATATATGTTTGATAATTATTTTTTTGTAACCGATAACAATTTTTTATTTTATGTTTTTAAAAAGTTAGAAGAATAATAGAGAAAAAAATCCATGTAGGATACACAAATAAAATGTGGCGGGAGTCGGTCATGCCCTTCCATTCTTTGTCCTCCTGGAAAATTTTAGTTTCTGTCCATCTCATTCTCTAATTTTCGAAAATGAAGGTGTAGGTAAAGGATCCCAGATGATCTTGGCAGGAAAAATACCGATTTAATAATTAATTCTAATTATTTTTAGAATTTAAAAAATAAAAAGAGTAGTAATAATATATATGAATTATTATTTACTCGTAAAAATAATTATTAAAAAATTATTTAATATTTTATTTTTAATTTATTAAAATAGGTTTTTTTTGATAAATTAATTTATTAAAATAGTTAATAAAATATATATTTATTATTTAACAAATGGAATTGGGAGGGATATTTTTGTCTTACTTAATGTCGAGACATAAAAAGTAAATTTAGGGAGATAAAAGATAAATTTTAGAGATAAATAAAAAAATTTAGGGAAAAAATTAAAGAGAAAAAGATAAAATTTTTGAAAAAGAGAGTAAAGTTGAGAGAAAAAAGATGTTAGAAAAAAAAAAGATAAATTATTTTAATTTGAGCACGCTATCAAAGCTTTTTTAAAATATAAGAAACATAAAAAGAAAGCCATGCTTGGAAAGAATTTTCACTTCTAGTTTCCTTTTGTTTTTAAATCTAAACTCATTTACTTCTTTTTATTTCATAGTTTCAGAGATAGTACTTTTCAATTCTCAGCCAAAGTTAAAAACAATAAATGAATTTTTAAAAACTATAATTCCATTTGATATATATTTTTTTAAGTGAATCACTTTGTTTATTTTCTAATTTACTTTTTTTTTCTGGAAACTTTATTTAAAATCAGAATAAAACTTCCAGAAATAAAAAATAGGAGCTGTGGGTTTACTAATTTAAGAATTATTCTGAAAATTTGTTCTCTAGAAATTGGTTACAATGTGGGGCCCATGACCCATGACCCATAGAGAGGACAATAATGATATTTTAACCTATGTTGGCAAAACTATACAACACATCATGGTTCCAAAAAATATATACATACATACATGACACATAAACACATATGAAGAGAGGATTTTAGAAAATGAAATTTCATGACCATAAATAAGGGCCGAGCGAAGAAGGAAGAAGACGAGACAAGACAATTACCTTCAATTTAAGATTTCATAATTTTCTTCTAATTTTTACTTGTAAATTTTAAAATTAAAATATTATATTTACAAAAAGACATTTTTTTCTTCATTGATGATAATGAGTCATTTGTTATGGTAGGAGTTGGATTTTCCAGGAGGGAGAGTTTCATTTACGAGTGAAATGAGTTTTATTGCTGAGTCGACTCAGAAACGAGTTCCATGTTATCGAGTTCTTGATGACAATGGGGAGAGAATTACATCCAATAATTTCACGCAGGTTACTCTTCTTTTAACTCTATATATATATATACATTTCATCACTAATATCACTAAAAATTTCAATTTCATCTAAAATTTTTAATTTTGATTTTTATTGTATCAATTTATCTCAATTAAATAGTTTAGTTGAGGAAAAAATAAAATTATAAAGCTATAGTGATGTGAAAATTTAAAATTTGATTGAAAGATAACGCCCCTACCATATCTTTTGTTTAAAAAATCTCGAAGTTCAAAAGTTTTAATACAACTACAATGACATTTGAGTAAATATTTATTAATATTTTGAACATAAAGTTGACATGATTGAATTTTGAACGACGTGACAATTAGCGTACAAGTTTGTCTAGACTAAAGAAATGGGAAATAAATTGTCATTTCTAAAAATAGGATTACGATAAAATTGAGTAAACAATTGAGAAGCAAACTCTCTTACCAATGGGGAAAGAAGACTTTTAAGATAAAATTGAGACGTTAATTGTCACATTAACTTTCTATTTGAAATATTAAATGACTGTTTCTTTAAATGGTGTTTTGAAATGTTTGTGAAAGTTCAATAATATAATATTGAAACTTTTGAAATTTATTTTTTTTCTTGGTAATTTAACCTTAATGAAAGAGATATATATTAGAGCTATAATGATGGGAAATTTAAAATTTGATTGAAAGATAATACCCCACAATATAAAATATATTATCTTATTAATAATTTTTTTTATAAAGAATATGGAAGGTAGGATAATGTATAGCCTGATTTTTATAAATTTAAAAATGAGCTGTTTCCAACATTATTATTTGCTTTTTCTTTGAAAGAAAACAAAACAATTTCCTTTTATTAAGAAAATTTCCCTCGCGGATATGAAGTCTTTTAAAAGGGATGAGAATTCTCTAATTTAATCAACGACCCAGATTTTTTTCCCTCTGACCTTTTACATATATTTTTTTTAATTTCCTAATTGTGTTTAATATTTTCTGTAACTTAACATTAACAAAAAGTATTCATGATAAAAATAACAAATAATGTCAAACAAAAATTATACATTTAATTTGGCGACAATTGAAAAGGAAAAAATGAAACATTTTTCTCCTATGACCCTTATACTTTTGTAATTGTAATATTTTGGTCTTTATACGTCTTAATCGCTACATCTTTGTCCATCTTTGGTCCTCATTTTTCCAAATTTAATAGTTGAACAAAGATGTGGCGGTTAAGATGTATAAAGACATGGTAACGCTCCAAACAATGGACACCATATTCTATGAAGCACAAAGGCAAGGAAGGATCTCATTTTACTTAACTTCGTCGGGAGAAGAAGCAATTACTATTGCTTCAGCAGCTGCACTTCAATCTGACGACGTCGTCCTAGCTCAGGTAAGTTAAATTAGGTTTAAATTTTATTTTTGTTCTAACTTTTGAAAATGAATATTTTAATTCTTTAAATCTTCAAAAGGTCTATTTTAGTCTCTAAACCATTTTTTTTAATTAGTCTTTATTATTATTTTATCACTTAAAATCATCCAACTCAGTATTTGGCCTTCTGGCTTCAATAAATACCCACATCAACTGTTTAATATAAATGTTTAAACATGTGTTATTCATTTGTGAATCAATCATTGATTGATTCAATAACAGGAGTGAGAACTAAAATGGTTTTTTTTTTTTTAGAGATTATAATAGACATTTAAAGTTAAGGAACTAAATTAAAATAAAAGTTTAAATACTATTTGGTTCCGGTACTTTTCATTTTGATATGTTTTGGTTTGTGTACTTTTAAAACGCCCATTTTGACTCCAATAATTTCAATTTTTATTCATTTTTTATCCATGTACTTTTAAAAAATAACTAAACATAGGACCACCACTCAACCCAAAAACTTAAGTTGATGGGTTGAGTAAATTTAATTCATATATTGGATATCTAACCGTCCCTATTTGTAAAATTTTAAAATTAATTCTACACACAATGAAAATCCTTTAATACAAATTAAGAAATATAATAAGTGAAATGTCATACTAAAATTGAAAATTGTGATATAAAAAATGACATCAAAATGAAAATGAATAGATTAAAATAAGCAAATTTTTAAAGAAATATCGAGACAAAAATGGATGGTTTGAAAGTACAAAACTAAAATGAATAAATGTTTTTTGAAAGTTAATGGGGCACAAGATAGAGTTTTAAAAAATTTGAGGACCAAAATGGAATAATTGATAAGTTTAGGGAGGAAGACAGAAAAATGTACAGTTGTTAAATTGTTATTGGGTTGGCAGTACAGGGAGCCGGGCGTTTTACTGTGGCGTGGATTTACGCTGCAAGAGTTCGCCGATCAATTGTTCGGAAACATCGCCGATTATGGAAAAGGTCGGCAGATGCCCATTCACTACGGCTCCAACAAACTTAACTACTTCACCATTTCATCGCCCCTTGCGTAAGACTAACTCTCGATCTTTTTATTTTTTATTTTTAAAAATTAAACGCTATTTTCATTATGTATTTCTTTATATAGCTAATTATTATTTAAAATATTTTAAAAATTTTGAAAACTAAAAAAAAAAATAGTTTTCAAAACTTTATTTTTACTTTTGAAATTTGACTAAGAATTTATGTAACATAATATAAGTATTGTGAGTATAAATCCTCATGACTTCTAAAAATGAAAAACTAAAGGTAAAATGGTTATCAATTAGAATCTATCTTTTTTTATTTTTTGTTTTAAATAATATGGTTATTTATGCACAATTTCATTGGTATGTTTTCACACATCTTAAAAACACAATTGAATTATTAGCAGAATTTATCTTCTGATTTTCAACAAAGGTGGTAATGAAAATAATATTTTTAAGCTTAATTTTTTAAAAATGCACAAGTAAAAAACGAAATAGTTATCGGTTAGAATCTAGTTAATGTGGCACATTGACATACACAAGTCATGGTTGTTAATTGAATAAATTCATTAGAATTAAAGTTGAGAGTTTTAGGAATACAGTTGAAATTACATTGCTTAAAAAAATTTATATTTATGTAATTTTTTTTTCATTGTGAATAATTCAATCTCTTACACAATTTATACTCTAAAAAATGATATGAAGTGAAACGGCGTCGTTTCATGGTGCAGAACGCAGCTCCCTCAAGCTGTAGGAGTGGGTTATTCTCTTAAAATGGATAAAAAAGATGCGTGCGCAGTCACTTATTTTGGAGATGGCACCACCAGCGAGGTAAATTAAATTAATTACCGTCCAATTTATAATCATTTTATTTTTAAAATCAAGTTTTTTATTTTTATTTTTTTAGTAAAAAAACTTCAAATTAACATTAAATATTATTATAAAATTAAAAAAAAAATTGAGCTTTACCCGAGCTTGCTAGATTCAATTTCATTAAATTCATAAGTATTGCGATTTTTACCTTGTGTGGAACTTTTCCCACATTTAGTCACTAATTTTAACTAAAACCAACATCAAAGATCCAAAAAAACTCATTAATTTCAACGAGATTCAAGTTGTGTGCACAATTAAGTCTTGTCAAGGTACAAGATGGACCATTGAATTAATCTCCAAAATCTTACAAATTTCAATAAATATTAGATATCCAACATATGAATTAAATTTACCCAACACTTTTGGGTTGAATAGTAGTTTATTAATCTAACAAAAATCTAACTAAAATATTGTCTTTCTCCAAATTCTCGTCAATTTTATATTAAGCTGTATTTCATAATGCATTGAATGTACACGTTTAAACGAAACGTTGTTACGTTCTATCAAGTTTTAGGATAAAAGTTGGATTTTTTAGACAAAAAATAACAAATATTTGGTAGGAAGAAATGGATAGAATTTAGACAAAAATAACATCAAAGTCAGTTTTTTTCGTTGTCAAAATTTATAAGTTATTTAATGATAAATTTTGAGCATTAGTCAAACTTTATTTTTCTATGAAGTTTAGAGTGAAAATTGATAAAATTTAGGAGGAGAAAATGAAACAACATATAGAGTTAATTACATTTACAATTTTCAGGGTGATTTCCACGCAGCGTTAAATTTCGCAGCAGTACTGAGAGCACCAGTGATTTTCATCTGCCGCAACAACGGCTGGGCCATCAGCACCTCCGTCGAAGAACAATTCCGCAGTACCATTCCCAAATTCGCTAGTTTCCAATTCCAAAATTCCAATTTCCGATTTCGGATTTCCGATTTGATTTCTCAGGTGACGGCGTAGTGGTGAAAGGACAAGCGTACGGAATCCGCAGCATCCGAATCGACGGAAACGATGCCCTAGCCGTCTACACCGCCATTCGCAGAGCTCGAGCCATGGCCGTGGCGGAGCAGGCGCCGGTTCTCGTCGAGGCATTGACTTACAGAGTGGGCCACCACTCCACCTCCGACGATTCCAGCAAGTATCGAGCCATGGACGAGATTCAGTACTGGAAGATGGAGCGCAACCCTGTGAATCGCTTCTCCAACTGGCTCACGACCAATCGATGGCTCACTCAGGAAGATGAATCCAACCATAGAACCACAGTTAAACAGCAGGTCCAAATCCAATCATCTTGAAAAAAGACTCCACTCCAAGATCGAAGAGAAAGCTCCTCCTGAATTACTTCGTGATCCAATAGCATACGGATAAGTGCATCACAAAATTAAAAAATCCACTTGTTTATATTCTATTAGACCACGCATGAATTCAGAAGGAGCTTCCTTCTGAATCTTCAAGAGGAAGTCTTTTACAATCATCTTACATTTCCAATTTGGTTGTATCGATTTGTTAAGAGTTGCCATTTCATTGGTTGATCAGTTGTTGCAAGCAATTCAGAATGCAGAGAGGAGAGAGAAACCTCCAGTTTCAGAGCTGTTCAGTGATGTGTATGATAATGTTCCCTCAAACCTCCATGAACAAGAGCAAGTACTAAGGCAAACTATGAAGAGGTACCCTCAAGATTATCCTTCTGATGTTCCTCTTTAGATTGTAACAAAGTTCATTTGGTGCCTAAATTTGATGGAAAATGCAAGCTTGACCCAAAAAAGAGTTAAAGCTCATATTGGTTAAGATCATGCAAATGTTGTTATGTAAATTAATTCGGAACTTAATTCTATTTCTCTTGTGCGGTGAATAAAATCTCCAAGTCTAAGCACAAATTCGGACATCCACCTTGTCGATGTGGGTTTGACATCTAAGAAGCACGAGTTTAGAAAAATTGTGTTGGGTGCAAGATTATAAGGTCGATCGACTTGCTTGAGAAACTATTCTCTATATCGATAAATTGAAGGAATTGAGAAATTGAGCAGTCACTTAACTGATCGTTTACGAGTCAGATTTGCTTTCTCGCCATGCTTTTCATTAACTTAAATAGTTAAATCAAGACTCAATTGCCTTTTCTTGTTTGGAGCACCATTCTTTCTTGCTCTATAACTTGTAAGGAGAGAACAATCAAGATGCATATTTTCTTACAAAATAAAAAGTAAAGCATAACACAATTCGTCCCGCCGAAAAAGTTACGAGACACGCTCTACTACCTGCTAGTGCATAGATTGAGCAGTTGAAAGAAGTCGGTCTTGAAACTTGAAGTATTGATACGATCCCCTCCAGTTCATGTTAAATCAAACTCACACCAAAATAAATCAATTAATCGTCGGCCTGGTAACAAAGACTAAAAGAGTACAAGGAAATCGCTCGGCCAGATGTTCTAGTTGAACGAACTTTAAAAGTCATAATCCATAAAAGGGAAGATGAAGAGCATGAACCTTTTGACTTCAGGGGGTGTTGAAACTAAAACAAAATGAAGATGCTTCTGAAATTCTTAGAATAAAATCAATATGAGCAGCAGCCACCAGGTGATGCATTCGCTTGAGGAGGTTTCTCTTTGAAGATGTTCTTTTTCAGACCTGTTGAGCCGTCAGCCAAAAGACTGGGAGTGTCCAAAAT ATAGGAACGAAAATAGTACTTTTAACTCTATTGAAATAAAAGTGGCAAGACAAACTTAAAAATCTAAAAATTGAGAGATTGGGTATGATTTTCCTTATTTAAATGGAGAGGTTTCGAAAAAGAATTAAAATAGACATTTTGAAAATAACCAGGATAGGTACAGAATGAAATTAAAGAGTTCCACGTTGAAAAGAATTGGTGTACGGTAGAAGCAGACGCCTTAACCGTTGCAGCCTTAAATATTAGTACCCACCACAGATAAGGATCAAAGAAACCCACCAAATCAAATCTCTCTCTCTCTCCATTATATTCACATTCACAGTCTTCAACTTCTAATTCTCCAATTATTTCTCTCTCTGGAATTTAATTTTTTGCCAGAACCTTCTTCCGAAATTCCTTTTCATTTTTCCGATTCCGGATCTCGCCAATATGATTCTTCGGTTCGCGCGATCGTCGTCGTCTCGGATCTCCTTCCTACGCGCTCCGCCGCTAATTTCCGATCCGGCGGGTCTGTGCGGCTGTGGCCGGCGGAGTAGGCTGCTGGATTATTATAAATGGAGGAGGACGACACGTCGTTTTGAATCCACAGAAGCTGCTGCAAAACAACTGGACCACCTCTACTGTCGTAATGATGATCATCCTCAGGAGTTGGATTTTCCAGGAGGGAGAGTTTCATTTACGAGTGAAATGAGTTTTATTGCTGAGTCGACTCAGAAACGAGTTCCATGTTATCGAGTTCTTGATGACAATGGGGAGAGAATTACATCCAATAATTTCACGCAGTTGAACAAAGATGTGGCGGTTAAGATGTATAAAGACATGGTAACGCTCCAAACAATGGACACCATATTCTATGAAGCACAAAGGCAAGGAAGGATCTCATTTTACTTAACTTCGTCGGGAGAAGAAGCAATTACTATTGCTTCAGCAGCTGCACTTCAATCTGACGACGTCGTCCTAGCTCAGTACAGGGAGCCGGGCGTTTTACTGTGGCGTGGATTTACGCTGCAAGAGTTCGCCGATCAATTGTTCGGAAACATCGCCGATTATGGAAAAGGTCGGCAGATGCCCATTCACTACGGCTCCAACAAACTTAACTACTTCACCATTTCATCGCCCCTTGCAACGCAGCTCCCTCAAGCTGTAGGAGTGGGTTATTCTCTTAAAATGGATAAAAAAGATGCGTGCGCAGTCACTTATTTTGGAGATGGCACCACCAGCGAGGGTGATTTCCACGCAGCGTTAAATTTCGCAGCAGTACTGAGAGCACCAGTGATTTTCATCTGCCGCAACAACGGCTGGGCCATCAGCACCTCCGTCGAAGAACAATTCCGCAGTGACGGCGTAGTGGTGAAAGGACAAGCGTACGGAATCCGCAGCATCCGAATCGACGGAAACGATGCCCTAGCCGTCTACACCGCCATTCGCAGAGCTCGAGCCATGGCCGTGGCGGAGCAGGCGCCGGTTCTCGTCGAGGCATTGACTTACAGAGTGGGCCACCACTCCACCTCCGACGATTCCAGCAAGTATCGAGCCATGGACGAGATTCAGTACTGGAAGATGGAGCGCAACCCTGTGAATCGCTTCTCCAACTGGCTCACGACCAATCGATGGCTCACTCAGGAAGATGAATCCAACCATAGAACCACAGTTAAACAGCAGTTGTTGCAAGCAATTCAGAATGCAGAGAGGAGAGAGAAACCTCCAGTTTCAGAGCTGTTCAGTGATGTGTATGATAATGTTCCCTCAAACCTCCATGAACAAGAGCAAGTACTAAGGCAAACTATGAAGAGGTACCCTCAAGATTATCCTTCTGATGTTCCTCTTTAGATTGTAACAAAGTTCATTTGGTGCCTAAATTTGATGGAAAATGCAAGCTTGACCCAAAAAAGAGTTAAAGCTCATATTGGTTAAGATCATGCAAATGTTGTTATGTAAATTAATTCGGAACTTAATTCTATTTCTCTTGTGCGGTGAATAAAATCTCCAAGTCTAAGCACAAATTCGGACATCCACCTTGTCGATGTGGGTTTGACATCTAAGAAGCACGAGTTTAGAAAAATTGTGTTGGGTGCAAGATTATAAGGTCGATCGACTTGCTTGAGAAACTATTCTCTATATCGATAAATTGAAGGAATTGAGAAATTGAGCAGTCACTTAACTGATCGTTTACGAGTCAGATTTGCTTTCTCGCCATGCTTTTCATTAACTTAAATAGTTAAATCAAGACTCAATTGCCTTTTCTTGTTTGGAGCACCATTCTTTCTTGCTCTATAACTTGTAAGGAGAGAACAATCAAGATGCATATTTTCTTACAAAATAAAAAGTAAAGCATAACACAATTCGTCCCGCCGAAAAAGTTACGAGACACGCTCTACTACCTGCTAGTGCATAGATTGAGCAGTTGAAAGAAGTCGGTCTTGAAACTTGAAGTATTGATACGATCCCCTCCAGTTCATGTTAAATCAAACTCACACCAAAATAAATCAATTAATCGTCGGCCTGGTAACAAAGACTAAAAGAGTACAAGGAAATCGCTCGGCCAGATGTTCTAGTTGAACGAACTTTAAAAGTCATAATCCATAAAAGGGAAGATGAAGAGCATGAACCTTTTGACTTCAGGGGGTGTTGAAACTAAAACAAAATGAAGATGCTTCTGAAATTCTTAGAATAAAATCAATATGAGCAGCAGCCACCAGGTGATGCATTCGCTTGAGGAGGTTTCTCTTTGAAGATGTTCTTTTTCAGACCTGTTGAGCCGTCAGCCAAAAGACTGGGAGTGTCCAAAAT ATGATTCTTCGGTTCGCGCGATCGTCGTCGTCTCGGATCTCCTTCCTACGCGCTCCGCCGCTAATTTCCGATCCGGCGGGTCTGTGCGGCTGTGGCCGGCGGAGTAGGCTGCTGGATTATTATAAATGGAGGAGGACGACACGTCGTTTTGAATCCACAGAAGCTGCTGCAAAACAACTGGACCACCTCTACTGTCGTAATGATGATCATCCTCAGGAGTTGGATTTTCCAGGAGGGAGAGTTTCATTTACGAGTGAAATGAGTTTTATTGCTGAGTCGACTCAGAAACGAGTTCCATGTTATCGAGTTCTTGATGACAATGGGGAGAGAATTACATCCAATAATTTCACGCAGTTGAACAAAGATGTGGCGGTTAAGATGTATAAAGACATGGTAACGCTCCAAACAATGGACACCATATTCTATGAAGCACAAAGGCAAGGAAGGATCTCATTTTACTTAACTTCGTCGGGAGAAGAAGCAATTACTATTGCTTCAGCAGCTGCACTTCAATCTGACGACGTCGTCCTAGCTCAGTACAGGGAGCCGGGCGTTTTACTGTGGCGTGGATTTACGCTGCAAGAGTTCGCCGATCAATTGTTCGGAAACATCGCCGATTATGGAAAAGGTCGGCAGATGCCCATTCACTACGGCTCCAACAAACTTAACTACTTCACCATTTCATCGCCCCTTGCAACGCAGCTCCCTCAAGCTGTAGGAGTGGGTTATTCTCTTAAAATGGATAAAAAAGATGCGTGCGCAGTCACTTATTTTGGAGATGGCACCACCAGCGAGGGTGATTTCCACGCAGCGTTAAATTTCGCAGCAGTACTGAGAGCACCAGTGATTTTCATCTGCCGCAACAACGGCTGGGCCATCAGCACCTCCGTCGAAGAACAATTCCGCAGTGACGGCGTAGTGGTGAAAGGACAAGCGTACGGAATCCGCAGCATCCGAATCGACGGAAACGATGCCCTAGCCGTCTACACCGCCATTCGCAGAGCTCGAGCCATGGCCGTGGCGGAGCAGGCGCCGGTTCTCGTCGAGGCATTGACTTACAGAGTGGGCCACCACTCCACCTCCGACGATTCCAGCAAGTATCGAGCCATGGACGAGATTCAGTACTGGAAGATGGAGCGCAACCCTGTGAATCGCTTCTCCAACTGGCTCACGACCAATCGATGGCTCACTCAGGAAGATGAATCCAACCATAGAACCACAGTTAAACAGCAGTTGTTGCAAGCAATTCAGAATGCAGAGAGGAGAGAGAAACCTCCAGTTTCAGAGCTGTTCAGTGATGTGTATGATAATGTTCCCTCAAACCTCCATGAACAAGAGCAAGTACTAAGGCAAACTATGAAGAGGTACCCTCAAGATTATCCTTCTGATGTTCCTCTTTAG MILRFARSSSSRISFLRAPPLISDPAGLCGCGRRSRLLDYYKWRRTTRRFESTEAAAKQLDHLYCRNDDHPQELDFPGGRVSFTSEMSFIAESTQKRVPCYRVLDDNGERITSNNFTQLNKDVAVKMYKDMVTLQTMDTIFYEAQRQGRISFYLTSSGEEAITIASAAALQSDDVVLAQYREPGVLLWRGFTLQEFADQLFGNIADYGKGRQMPIHYGSNKLNYFTISSPLATQLPQAVGVGYSLKMDKKDACAVTYFGDGTTSEGDFHAALNFAAVLRAPVIFICRNNGWAISTSVEEQFRSDGVVVKGQAYGIRSIRIDGNDALAVYTAIRRARAMAVAEQAPVLVEALTYRVGHHSTSDDSSKYRAMDEIQYWKMERNPVNRFSNWLTTNRWLTQEDESNHRTTVKQQLLQAIQNAERREKPPVSELFSDVYDNVPSNLHEQEQVLRQTMKRYPQDYPSDVPL Homology
BLAST of MC11g1145 vs. ExPASy Swiss-Prot
Match: Q9LPL5 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At1g21400 PE=2 SV=1) HSP 1 Score: 604.7 bits (1558), Expect = 8.5e-172 Identity = 297/414 (71.74%), Postives = 344/414 (83.09%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy Swiss-Prot
Match: Q84JL2 (2-oxoisovalerate dehydrogenase subunit alpha 2, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At5g09300 PE=1 SV=1) HSP 1 Score: 585.1 bits (1507), Expect = 7.0e-166 Identity = 277/413 (67.07%), Postives = 341/413 (82.57%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy Swiss-Prot
Match: A5A6H9 (2-oxoisovalerate dehydrogenase subunit alpha, mitochondrial OS=Pan troglodytes OX=9598 GN=BCKDHA PE=2 SV=1) HSP 1 Score: 408.3 bits (1048), Expect = 1.2e-112 Identity = 195/396 (49.24%), Postives = 264/396 (66.67%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy Swiss-Prot
Match: P12694 (2-oxoisovalerate dehydrogenase subunit alpha, mitochondrial OS=Homo sapiens OX=9606 GN=BCKDHA PE=1 SV=2) HSP 1 Score: 407.9 bits (1047), Expect = 1.5e-112 Identity = 194/396 (48.99%), Postives = 264/396 (66.67%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy Swiss-Prot
Match: Q8HXY4 (2-oxoisovalerate dehydrogenase subunit alpha, mitochondrial OS=Macaca fascicularis OX=9541 GN=BCKDHA PE=2 SV=1) HSP 1 Score: 406.0 bits (1042), Expect = 5.8e-112 Identity = 193/394 (48.98%), Postives = 263/394 (66.75%), Query Frame = 0
BLAST of MC11g1145 vs. NCBI nr
Match: XP_022153717.1 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like isoform X1 [Momordica charantia]) HSP 1 Score: 928 bits (2399), Expect = 0.0 Identity = 464/466 (99.57%), Postives = 464/466 (99.57%), Query Frame = 0
BLAST of MC11g1145 vs. NCBI nr
Match: XP_022153718.1 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like isoform X2 [Momordica charantia]) HSP 1 Score: 712 bits (1839), Expect = 1.02e-256 Identity = 378/466 (81.12%), Postives = 378/466 (81.12%), Query Frame = 0
BLAST of MC11g1145 vs. NCBI nr
Match: XP_038885350.1 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial [Benincasa hispida]) HSP 1 Score: 714 bits (1842), Expect = 7.60e-256 Identity = 366/469 (78.04%), Postives = 409/469 (87.21%), Query Frame = 0
BLAST of MC11g1145 vs. NCBI nr
Match: KAG6592162.1 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 702 bits (1811), Expect = 4.78e-251 Identity = 361/471 (76.65%), Postives = 403/471 (85.56%), Query Frame = 0
BLAST of MC11g1145 vs. NCBI nr
Match: XP_022936690.1 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like [Cucurbita moschata]) HSP 1 Score: 699 bits (1803), Expect = 7.88e-250 Identity = 348/421 (82.66%), Postives = 384/421 (91.21%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy TrEMBL
Match: A0A6J1DJQ4 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111021170 PE=4 SV=1) HSP 1 Score: 928 bits (2399), Expect = 0.0 Identity = 464/466 (99.57%), Postives = 464/466 (99.57%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy TrEMBL
Match: A0A6J1DI76 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like isoform X2 OS=Momordica charantia OX=3673 GN=LOC111021170 PE=4 SV=1) HSP 1 Score: 712 bits (1839), Expect = 4.95e-257 Identity = 378/466 (81.12%), Postives = 378/466 (81.12%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy TrEMBL
Match: A0A6J1FEF0 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial-like OS=Cucurbita moschata OX=3662 GN=LOC111443206 PE=4 SV=1) HSP 1 Score: 699 bits (1803), Expect = 3.82e-250 Identity = 348/421 (82.66%), Postives = 384/421 (91.21%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy TrEMBL
Match: A0A0A0KIX5 (E1_dh domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G395130 PE=4 SV=1) HSP 1 Score: 696 bits (1796), Expect = 4.12e-249 Identity = 354/469 (75.48%), Postives = 393/469 (83.80%), Query Frame = 0
BLAST of MC11g1145 vs. ExPASy TrEMBL
Match: A0A1S3BD09 (2-oxoisovalerate dehydrogenase subunit alpha 1, mitochondrial OS=Cucumis melo OX=3656 GN=LOC103488700 PE=4 SV=1) HSP 1 Score: 691 bits (1783), Expect = 3.77e-247 Identity = 353/470 (75.11%), Postives = 394/470 (83.83%), Query Frame = 0
BLAST of MC11g1145 vs. TAIR 10
Match: AT1G21400.1 (Thiamin diphosphate-binding fold (THDP-binding) superfamily protein ) HSP 1 Score: 604.7 bits (1558), Expect = 6.0e-173 Identity = 297/414 (71.74%), Postives = 344/414 (83.09%), Query Frame = 0
BLAST of MC11g1145 vs. TAIR 10
Match: AT5G09300.1 (Thiamin diphosphate-binding fold (THDP-binding) superfamily protein ) HSP 1 Score: 585.1 bits (1507), Expect = 5.0e-167 Identity = 277/413 (67.07%), Postives = 341/413 (82.57%), Query Frame = 0
BLAST of MC11g1145 vs. TAIR 10
Match: AT5G09300.2 (Thiamin diphosphate-binding fold (THDP-binding) superfamily protein ) HSP 1 Score: 582.0 bits (1499), Expect = 4.2e-166 Identity = 273/395 (69.11%), Postives = 335/395 (84.81%), Query Frame = 0
BLAST of MC11g1145 vs. TAIR 10
Match: AT5G34780.1 (Thiamin diphosphate-binding fold (THDP-binding) superfamily protein ) HSP 1 Score: 300.1 bits (767), Expect = 3.2e-81 Identity = 146/222 (65.77%), Postives = 178/222 (80.18%), Query Frame = 0
BLAST of MC11g1145 vs. TAIR 10
Match: AT1G59900.1 (pyruvate dehydrogenase complex E1 alpha subunit ) HSP 1 Score: 148.3 bits (373), Expect = 1.5e-35 Identity = 82/278 (29.50%), Postives = 146/278 (52.52%), 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
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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