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MC04g0188 (gene) Bitter gourd (Dali-11) 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.ATGACCATTAGTCCAAAGCTTTTCTCCCTTCTCTTCCTTCAGCTGATGCTCGTGTCGTCTCTCTCGAATGTTGCTGAAGCGAAGGGATTGGAACTCGGGTTTTACCGATATAGCTGTCCTGCGGTAGAGTATATCATTGGCAAAACGGTGGCTCAGTATGTACTGAAACAACCAAGTTTGGCAGCTTCTTTGTTGAGGGTGCACTTCCATGACTGCTTTGTTAAGGTAAATTACCACATTTATTTTCCTGCTCTTCATTTATACATATATGAAATCGTAAGTCACAATTAAATTCTACTATAATTATACCACATTTTTAGACTTTTAGCGGTGGGTTCGTATGAATAATTTTGTAAGTTTTAGAGTAAAATTTGCATAATTTCAAGAATTTAATTTAATAAATTCGAGATTTAATTTAGTAAATGGGTGATTTATGTAAGGGATTTAAACTTTAGCTAAGTTGATATTGGGCTATTGACAGAATTATAGAAGCATAATTTAATTACAATAAGTTTATAAGTTTGGAGTTGCAATTTTTTTTTCTTTTAGAAAAATGATTTCGTAACATAGGAATATAGATTTTCATTCGCTGATTAATTGTGGTGAATGCTATAATGACAGGGCTGTGATGGTTCTGTGTTGCTAAATTCGACGCCAAACAACCAAGCCGAGAAAGACGCCATTCCTAACCTTAGCTTAAAAGGGTTGAATATCATTGACGCCGTCAAAGCAGCCGTTGAAAAGCAGTGCCCCGGCGTCGTTTCGTGTGCCGATGTCGTCGCTTTGGTAGCTCGAGACGCCGTCAGACTGGTAATTACCAATCACAAATAGTAAATATGCATGCTTCAATCTGCATTTCAATTATATTTTAACGAAACCAAACCAAATCTATATAATTGCAACCAATAAAATAATAAAATAAAATTATGAAGGTTAAATAATCAACTCAGTCTCTTCGATTTAAAAAACTTTCAATTTGATTTTTATACTTCGAGCACAGTTAAATTTAGTTTCTATATTCTTTGAAATTTCAATTTAGTCAAATTTCATAAACTATCTTTATTTATTAATTATAAGTTGTTAGAGTATTAAAAAAATTATTAAATTGTTACGGTTTTATATTGAATTATGCAGAGCTATTTTATTTTTTGAGTTAGCTTATAATAGTTCGAGGTAGTGTAAAAAAATAAAAGAAAACACATTGATTTAAATGAAATTTAACCAAATCATAGGATTAGATTGAAACTAAAATCTTTGCGACCTTCCAATTGGAAATAACTTTAAAGTTAGCATAACTTGTTTCTTTGTCTATGTTTCTTCATTTTTAATAAAGAAAAATGAATTTTATGGTCCAAATATCTATAAATTCAAGTATGATAAAGTAATATTTTTAATTATATTTTAGAATAAATTTGAAATGAGAATAAAACAAGTTAAAAAAAACCTGTTTCGATTGTTTTTTAAAATTTCTATACCGAAAATGTTCCAAAAAATTAGAAACAATAAACATAATTAGTTACAAAATGTTTAGATTCCTTAAGAAAATTAAAATGATAACATTACCAAACAAACTCTTTAGATTTAATGGCGGTTTAATATGATGTCAGAGTAATTAAACTTGTTAAAACTCCTAAGCTTAAGTTTTGTCATTTAACATGATTTTCCATCCGAAAAAATTATAAATTATTTGCAAAAAATCAAATAAAAGCACATTAGCAAAAATTAAAAAGAAAATTGTTTATAATATTTTGATTGTTTTGTCAGATTGGAGGGCCATTGTGGGAAGTTCCCACAGGAAGAAGGGACGGAAGAGTATCGATATCGAGGGAAGCCTTGACGAATTTGCCCCCTCCTTTCGCCAATATCTCTGCCCTAAAATCAAGTTTCCTTTCCAAAGGTCTCTCCGTCAAGGATTTGGTTGTTCTGTCCGGTAAATTTTCTCAAATCTCTCGCTACCTCTTTCAATTATTCCATTTTTTCCGATAACCAACCGCCGCCGCCGCCGCAATTTCAGGAGCGCACACCATCGGAGTATCTCACTGCACCTCCTTCTCGAATCGTCTCTACAATTTCACAGGCAAGGGCGACGCCGATCCGAAATTGGACAAGAACTACGCCGTCTCGTTGAAGAAGAAATGCAAGCCAGGGGACCAGAAAACGACCGTCGAGATGGATCCCGGAAGCGTCAAGACCTTCGATGTCGATTACTTCACTCTCGTATCGAAGAGAAGGGGATTGTTCCAGTCCGATTCGGCTCTTCTCGACGATCCTGACACCAAGGCCTACGTTCAATTTCAGGCGATGACGCGCGGCGTTACGTTCGCCGCCGATTTCGCTCAATCGATGCTGAATATGGGCCAAATCGGAGTGCTCACCGGCGCCGACGGCGAAATTCGGAGGCGTTGTGCTTTTGTGAACTGATTTTGGAAACGGACGGTTGCAGTTATTTTTCCGTCGAGTGGTTTTGTTCGTCTGTTCTTAATTTGCAGCAGAAGATTTGTGCGTTTGATTCGGTGTGTGGATTGGGTTTCATGTTTTTGCCCTGCAGAATTTGTCGCGTGGGAAACACGGACGGTCGTGATTTCATCTTGCCTTGTATTGTAACGCAATCCAATTATTATTATTTTATTCAAATAAGAAATTCGTTCGAATGTTTTTTTTCCAATCTAAATATATGTTTTAATCCTTAAATATTGAGTGCTTTTTAATTTTAGTCTGTTTATGAATTATATCTTTGTGGTTATTAATTTATGAACATTAAAATTGACCAATAATAAATATACATGACAAAATACTTAATAAGGAGACACTATACATTTAAATGAAGAATCAGATGAGAAGCAAGTGTGAAACCGTATCTGATAATTTCTATGATTAATAAATTGAGGGGTGATTGAATTTTCAATTTTATATCTAATATGTCTAAACTTTAAAAAGTGTTTAATAAGTCTTTACATTTTTAACTTTGAGCTTAAAATATCTCTAAACTTTTAGTTTTATATCTAATAGTTTCTAACTAATTTGATATTTTTAAAAATTTACTAAACACAAAATTGAAAGTTTAGAATTCTATCATGTCCAATATTCAATTTCATATCTAATAGATTCGTTAGCATTAAAAGATGTTGAATGAGTAAGGAATTTATTAGACATGAAATTAAAAGTTCAATCACTACATTTGAAGTCTAAACACTTATTATATGCAAAATTGAAGTTTGGAGGCTTATTAGACATAAATTTAAAGTTTATTTATGTACTAAATTTTTTTTTTTTTTTTATCTCAAGTGGCATGATCTCCCTCTAAATGTTGATCACCTCTCTAGGTATTATAAGGATACTAAATATCAACGTACTAAAACATATATATATTTAACCTTTTCAATTTTTTGAACTAAAATTTTAACTGTATAACAATTACTTTCACTGTAATTGACCCTGAGGAGTGGCTAACTTCGTATTAAAGAGTAATAACAAATAGTAAATTTCAATATAATTATATATATCTCTTATTCTCATATATGATCGTAGATCAGCAATAGTTGTCATATATTCCTTCTCTTAATTGAGTCGAAAGATGTTATATGTTTGAAATCTCTAGCCATATAAATTCAAAAGTCTAAAATCTTAACCCTCCAACTCTCTAACAAATCATACTCTATAAATAAAAGTTCGTTTATATGATCTATTATTTTATAGCATTTAAGTACAAGTTACACAAGTCAAAGCAAACATAACTCAGTAATAATTTATATATATATATATCTCCAATCAAGAGGTTATAAGTTCGATCTTCACTCCCACATGTTGAAATTACACCAATTTGATATACTTGTAATTTCAAATTATTGGATTGTTACTTTGTATTAAAATGGTAATTTTTAAGGGGATAAAAATGCAAAATGAAACGAGAGGAGAAAGGAGGTTAAATGGTATAGTGCGAAGATAATCATACGTTTATGATCTCATAGATCATCATAAAAGGAGAGATTTTATTTCTTTTTTGAATAATAATACTCTACTCTTTTGTCTCTTATGATATCATTACATGGTATCAAAACCCTCCATCTTAATCACACTTTCTTTTTTTCATACAAGTGGCTAATTTTATGGCAGATTCCATCCTTGATATGATAGGAATTTCTCCATGTCAATATAAGAGATATTTTTTTCCCTTAAATTTAGTTTTGGAGATGAGGACGGAGACGAAGAATGTATTCCTCGTCACCTCTACTAAGTTATAAAAATCTTAAATTGAGTGGGGGACATATAATTAAAAATCTCTTAAAACCCTGGTCGGAGAGTGTCATTCCCAAACCCACCCCGTTTCGTCTAGTTACCATCCTTGGGAAGGCACAGATGGTTGGAGGGAGTGAGAAAATGAATTAATACCAAAAGTGGGAGAGGGGGATCGGAGTTCAATGTCCATCTATTCTATATGATGTAGTTTAAGGTATGAAGGATTGACATTGGGATATAATATAGGATTGTTTTTAGCATTGAGATGATAATAAATGTCTTATCCACTTAAATATGTCCGAATGTCTAACTTTACTATCTTAACCATAAATTTCTCACTCATCAGTCGTTTCTTTTCAAAATAAAATTTTAAGAATATTAAATTTTAGATAATAGATAAGACACTCAAACCTACAATTAACAAATGGAGAGACATTTTATTTATTGCAAAATCATCACATCTTCTCTTCTAAAAATTCAAATGGTAATATAATATTGTTTTAGATGTCATTGTCAACGAAGAAATGAGAAAAATAATAATTATGTAGAGAAGATTGAATTTTATAATTCCCAAACCACGTGAAGAAAAATATATACTATGATTAAGTTGAAATTTGAGTAAAATAATGTGTGTGTGATTGAGCTGTGTTGAATATTTCTTTATTAAAAGAAATAGAACGCTTCTGCATGATTGTTTGGCGTAAATTTTAATATCATTCAAGGTTATATATAGTTGATAACTATTATGACTCTTACTCCATCGAGAAAAAAGAAAAAAAGAATGTCAAAGTGAACACAGTTCATCGATAATTGACACATATCTCGAACTAAGATTTGTAAATTCGATTTCCCACCCCGCATGTTGTAATATAAAAAAAATCCTCCAAAAAAGAATAATTTTTCACAATAACAAGTCTTTCTTAAAATAAGTTATTTTAGGATTTAAATTTTATTTTTCAACTTCAATATAATTGAAATGAATCGAATCAATAATTCAAGAAGAGACATTATTAATATTTTACTAGTTGAGTTTTTTCCTTAAGGTCAATAATTATTATGTTAGATCTAACTACCGACGTTTGAGATGGTAATAATTGTGAATTAGTTGCTTGAGATGGTAATAATTGTGAATTAGTTGCTTAATAGAGAGTGATGTTAAAAAAAACTAATCGTGTTGTGTGATAATATTAAAAAAAATCTAGAAAGAAAAAAAAAACTGAAAATGATTGTACTTATCCAATCCGGGAAAGTATATTGGGGCCTTTTTTTTCTTGTAAAAGTAATGTATGAGAAAAGAAAACAAATTTGGGGTAATTTTCAAATTATTCTAAAAATAGAGTAGATAAATCGCGTTAATTCGGTCATGATTTAATAATGATTCAAGATAAATTGTGCATACTACATGTTTTACATAAAAATCGCAGGCAATTAATACGGTGTAAAGTAAAATTGTATACAGCTCTAAACTATGAATAGAGTGGTACTCTCTTTGTCATACTTATTTTAAAGTATTTATTACTTTTTTTAAAAACCTAATTGCATACAGAGAAAAAATATATATATTTTATCATTGGAAAGTTATCATTACACTGAATTGTCATTAAAAGAATATTAGGCTCAATTGATCAATTGCATTTTTAAATTTCTTATGAAATTTAAATAATTCACGTAAATAATTTTATTAATTTGATTCAAATAATAATTTTAAAGTATTTTTTTATTTATTTTTATTAGATGTGAGACTCAAACCACATCGCCATTAGACCAACAATTAATTTTGGTAAATTTTATCAAATAAATATATACAAAGTATTACAAAGCGAGTATAGCTCAACGATAATGAATATATATCTCCAACCAAGACGATATTATTAAAATAAGTTTTTTTGGTAACTTGCTTTCTTTTTTTATACTGAAGTTGTTAGCTCCCCATGTGATAATAATATATGCTTCTCTTATGTTCATGATTAGAACAACTCTCAATATTGTGTTTTTGTGCAGTGGCCTTTTGGGAAGAGAAAAGGGAACTTTATATATTTTTTGAAATACATGGAAAAATTTGTCAATGCCCAATAATTGTCAACTTTCAATTAAGTTTTTAAACTGATCATTTTGAGATCTTGATCAAATTAATTTTACAAAATTAAAAATATTTAGAATTTTGGATTTTTGTTTTTAAAAATAGGTAAAAGATTAACAAAAAAATAATAATAATAAATACATAAATGACAAACAAACACAATTTAATCATACCTTCTTAAAAACAAAATCACACGTTAATTATCAAATAAGCCTATTATTCAATAATCTTTAGTACCAAGAATTTGGAGTTAAATTAGCTTGTAATTTTTTTTAGTACAACAATTTGGAGATACAAGAGATCGAACCTTCGACTTCCAAGAATGAGAGTGCATGCTAATTACTGCTTTTTTTAGTACACATGCTAATTACTACTAACCTATATTCATGTTGGCAAATTAACAGGTAATTAAATAAGTTATCAGAATATTCTTGATTCATAATCAATTCATAATAATACTCAAATTAACAAAGACCGAATAATTAATTAAATCTTGGTGTAGGTGTGTTCAGCGGTGGAGCGAGAGACTGCCCAAAGAGGATTTTGATAATATAGAGTAATACTAAAAGATTCTTGATTTAAGAATAAAAAATAACTCAAAAGTTTATTTCAATTTTTGTTTATATTACCTAAACACGTACACATCTTAATATATAAATAAGCACTAGGAGAAAAAAAAATTAATTTAAATTTCAAAAGTCATCTCAAATATACACTCTGAGTAAATTTTAACATAACTCTCCAACTGTCAAAATAATAGCTTTTTTTTTTTATATTTTATTTTAGTCGTAGCAGTGTGAAACACTTTAATATATATAAAAGAAAAAAGTATATACACCATTCTAATTATCCATTAATTTCAGTCCCAGCACATGAATTAGTTAGCTCTTGCTCCGCTGGCCATCTCTCGCTAATCCATCTGTCATTATTTTTCAATAACAATATGTTACTGTCTACTACGTCCCCAGTAAGCTGTTTTCTTTCAAAGAATATTTTGATTGACCCAACTCTCCCTCCCAACAACATATATAATAATCTCCTACACAAATTTTTACGAATAATTGCATGCAGCTGCAGCCGACAATCACGATAAAAATCATATTATAAATACCCCCTTCATAATAACATTCCAAAATACCACAGCTCCTTTAAGCTTCTCTTGGAAGATCATAATTTTAGAAAACAACACAATGGAGCTTATGATCTTTCGTGGTCTTGTCTTTCTAGTCGTATGTGTTTTAGGACTTTCGAGCTCGTGCCAGGCTCAGCTGGAGCTCGGGTTTTATTCAAAAACCTGCCCTCACGCTGAGAAAATTGTATATGATTTCGTTAGCCACCACATTCCCAATGCTCCCTCTTTGGCCGCTGCTTTCATTAGAATGCACTTCCACGACTGCTTTGTTCGGGTTTGTCCTCTAAAGTTATCGAATTCTTCCTTTCGTGATGATTGATATCATTTTGTGTAGAAGCTTCAATTTGGAGTTAATTTCTTTTTTGGTCATTAGGGTTGCGATGCTTCTGTGCTTTTGAACTCGAGCGCCAACAGCCAAAGCGAGAAGGCGTCTCCGCCGAATCTGACGCTGAGAGGATTTGACTTCATCGATAAAATTAAGAGTCTTCTGGAAGCCGAGTGTCCAGGAATTGTCTCTTGTGCTGACATTCTTACTTTGGTTGCAAGAGACTCTATCGCTACCATTGTAATGAGTCTAGCTTAATCCAACTCAAAACTTAATCCATTTTAAAAAGTGTTTAATAAATTGGTTAACTGTTACACAGGGCGGTCCATTTTGGAGGGTTCCAACGGGGAGAAGAGACGGTGTGATCTCGAGATCATCGGAAGCATTGGCGAGCATTCCCCCGCCGTTCGGGAACTTATCAACTCTCCAGACACTTTTCGCGAACCAGGGGATGGATCTGAAAGACCTAGTTTTACTCTCGGGCGCTCACACGATCGGGATATCCCACTGCTCGTCGTTCACAAGGCGGCTGTACAACTTCACGGGCGCGGGGGACCAGGACCCGTCGCTGGACAGCGAGTACGCGGCGAATTTGAAGGCCAAGAAGTGCAGAAGCATAAACGCGAACGGGATCGTGGAAATGGACCCGGGGAGTTTCAGGACGTTCGATCTGGGCTACTACTCGCAGGTGCTGAAGCGGAGGGGGCTGTTCCAGTCCGACGCCGCGCTCACCACCAGCCCCGTCACCAAGGCCTTCGTGGCTCAGCTGCTCAACGGCTCGCTCGAGAATTTCTTTGCGGAGTTTGGTTTGGCCATGGAAAAGATGGGCCGGATCGGGGTTAAGACCGGGGCCCAGGGCCAGATTCGGAAGCACTGCGCTCTCGTCAAC ATGACCATTAGTCCAAAGCTTTTCTCCCTTCTCTTCCTTCAGCTGATGCTCGTGTCGTCTCTCTCGAATGTTGCTGAAGCGAAGGGATTGGAACTCGGGTTTTACCGATATAGCTGTCCTGCGGTAGAGTATATCATTGGCAAAACGGGCTGTGATGGTTCTGTGTTGCTAAATTCGACGCCAAACAACCAAGCCGAGAAAGACGCCATTCCTAACCTTAGCTTAAAAGGGTTGAATATCATTGACGCCGTCAAAGCAGCCGTTGAAAAGCAGTGCCCCGGCGTCGTTTCGTGTGCCGATGTCGTCGCTTTGGTAGCTCGAGACGCCGTCAGACTGATTGGAGGGCCATTGTGGGAAGTTCCCACAGGAAGAAGGGACGGAAGAGTATCGATATCGAGGGAAGCCTTGACGAATTTGCCCCCTCCTTTCGCCAATATCTCTGCCCTAAAATCAAGTTTCCTTTCCAAAGGTCTCTCCGTCAAGGATTTGGTTGTTCTGTCCGGACTTTCGAGCTCGTGCCAGGCTCAGCTGGAGCTCGGGTTTTATTCAAAAACCTGCCCTCACGCTGAGAAAATTGTATATGATTTCGGTTGCGATGCTTCTGTGCTTTTGAACTCGAGCGCCAACAGCCAAAGCGAGAAGGCGTCTCCGCCGAATCTGACGCTGAGAGGATTTGACTTCATCGATAAAATTAAGAGTCTTCTGGAAGCCGAGTGTCCAGGAATTGTCTCTTGTGCTGACATTCTTACTTTGGTTGCAAGAGACTCTATCGCTACCATTGGCGGTCCATTTTGGAGGGTTCCAACGGGGAGAAGAGACGGTGTGATCTCGAGATCATCGGAAGCATTGGCGAGCATTCCCCCGCCGTTCGGGAACTTATCAACTCTCCAGACACTTTTCGCGAACCAGGGGATGGATCTGAAAGACCTAGTTTTACTCTCGGGCGCTCACACGATCGGGATATCCCACTGCTCGTCGTTCACAAGGCGGCTGTACAACTTCACGGGCGCGGGGGACCAGGACCCGTCGCTGGACAGCGAGTACGCGGCGAATTTGAAGGCCAAGAAGTGCAGAAGCATAAACGCGAACGGGATCGTGGAAATGGACCCGGGGAGTTTCAGGACGTTCGATCTGGGCTACTACTCGCAGGTGCTGAAGCGGAGGGGGCTGTTCCAGTCCGACGCCGCGCTCACCACCAGCCCCGTCACCAAGGCCTTCGTGGCTCAGCTGCTCAACGGCTCGCTCGAGAATTTCTTTGCGGAGTTTGGTTTGGCCATGGAAAAGATGGGCCGGATCGGGGTTAAGACCGGGGCCCAGGGCCAGATTCGGAAGCACTGCGCTCTCGTCAAC ATGACCATTAGTCCAAAGCTTTTCTCCCTTCTCTTCCTTCAGCTGATGCTCGTGTCGTCTCTCTCGAATGTTGCTGAAGCGAAGGGATTGGAACTCGGGTTTTACCGATATAGCTGTCCTGCGGTAGAGTATATCATTGGCAAAACGGGCTGTGATGGTTCTGTGTTGCTAAATTCGACGCCAAACAACCAAGCCGAGAAAGACGCCATTCCTAACCTTAGCTTAAAAGGGTTGAATATCATTGACGCCGTCAAAGCAGCCGTTGAAAAGCAGTGCCCCGGCGTCGTTTCGTGTGCCGATGTCGTCGCTTTGGTAGCTCGAGACGCCGTCAGACTGATTGGAGGGCCATTGTGGGAAGTTCCCACAGGAAGAAGGGACGGAAGAGTATCGATATCGAGGGAAGCCTTGACGAATTTGCCCCCTCCTTTCGCCAATATCTCTGCCCTAAAATCAAGTTTCCTTTCCAAAGGTCTCTCCGTCAAGGATTTGGTTGTTCTGTCCGGACTTTCGAGCTCGTGCCAGGCTCAGCTGGAGCTCGGGTTTTATTCAAAAACCTGCCCTCACGCTGAGAAAATTGTATATGATTTCGGTTGCGATGCTTCTGTGCTTTTGAACTCGAGCGCCAACAGCCAAAGCGAGAAGGCGTCTCCGCCGAATCTGACGCTGAGAGGATTTGACTTCATCGATAAAATTAAGAGTCTTCTGGAAGCCGAGTGTCCAGGAATTGTCTCTTGTGCTGACATTCTTACTTTGGTTGCAAGAGACTCTATCGCTACCATTGGCGGTCCATTTTGGAGGGTTCCAACGGGGAGAAGAGACGGTGTGATCTCGAGATCATCGGAAGCATTGGCGAGCATTCCCCCGCCGTTCGGGAACTTATCAACTCTCCAGACACTTTTCGCGAACCAGGGGATGGATCTGAAAGACCTAGTTTTACTCTCGGGCGCTCACACGATCGGGATATCCCACTGCTCGTCGTTCACAAGGCGGCTGTACAACTTCACGGGCGCGGGGGACCAGGACCCGTCGCTGGACAGCGAGTACGCGGCGAATTTGAAGGCCAAGAAGTGCAGAAGCATAAACGCGAACGGGATCGTGGAAATGGACCCGGGGAGTTTCAGGACGTTCGATCTGGGCTACTACTCGCAGGTGCTGAAGCGGAGGGGGCTGTTCCAGTCCGACGCCGCGCTCACCACCAGCCCCGTCACCAAGGCCTTCGTGGCTCAGCTGCTCAACGGCTCGCTCGAGAATTTCTTTGCGGAGTTTGGTTTGGCCATGGAAAAGATGGGCCGGATCGGGGTTAAGACCGGGGCCCAGGGCCAGATTCGGAAGCACTGCGCTCTCGTCAAC MTISPKLFSLLFLQLMLVSSLSNVAEAKGLELGFYRYSCPAVEYIIGKTGCDGSVLLNSTPNNQAEKDAIPNLSLKGLNIIDAVKAAVEKQCPGVVSCADVVALVARDAVRLIGGPLWEVPTGRRDGRVSISREALTNLPPPFANISALKSSFLSKGLSVKDLVVLSGLSSSCQAQLELGFYSKTCPHAEKIVYDFGCDASVLLNSSANSQSEKASPPNLTLRGFDFIDKIKSLLEAECPGIVSCADILTLVARDSIATIGGPFWRVPTGRRDGVISRSSEALASIPPPFGNLSTLQTLFANQGMDLKDLVLLSGAHTIGISHCSSFTRRLYNFTGAGDQDPSLDSEYAANLKAKKCRSINANGIVEMDPGSFRTFDLGYYSQVLKRRGLFQSDAALTTSPVTKAFVAQLLNGSLENFFAEFGLAMEKMGRIGVKTGAQGQIRKHCALVN Homology
BLAST of MC04g0188 vs. ExPASy Swiss-Prot
Match: Q9SUT2 (Peroxidase 39 OS=Arabidopsis thaliana OX=3702 GN=PER39 PE=1 SV=1) HSP 1 Score: 391.0 bits (1003), Expect = 1.9e-107 Identity = 197/322 (61.18%), Postives = 238/322 (73.91%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy Swiss-Prot
Match: O23044 (Peroxidase 3 OS=Arabidopsis thaliana OX=3702 GN=PER3 PE=2 SV=1) HSP 1 Score: 378.3 bits (970), Expect = 1.3e-103 Identity = 188/312 (60.26%), Postives = 235/312 (75.32%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy Swiss-Prot
Match: Q9LSY7 (Peroxidase 30 OS=Arabidopsis thaliana OX=3702 GN=PER30 PE=1 SV=1) HSP 1 Score: 345.9 bits (886), Expect = 6.9e-94 Identity = 175/313 (55.91%), Postives = 220/313 (70.29%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy Swiss-Prot
Match: Q9LXG3 (Peroxidase 56 OS=Arabidopsis thaliana OX=3702 GN=PER56 PE=2 SV=1) HSP 1 Score: 306.2 bits (783), Expect = 6.0e-82 Identity = 155/312 (49.68%), Postives = 202/312 (64.74%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy Swiss-Prot
Match: Q43735 (Peroxidase 27 OS=Arabidopsis thaliana OX=3702 GN=PER27 PE=1 SV=1) HSP 1 Score: 295.8 bits (756), Expect = 8.2e-79 Identity = 160/322 (49.69%), Postives = 206/322 (63.98%), Query Frame = 0
BLAST of MC04g0188 vs. NCBI nr
Match: KAG7022877.1 (Peroxidase 3, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 679 bits (1752), Expect = 9.68e-240 Identity = 376/633 (59.40%), Postives = 411/633 (64.93%), Query Frame = 0
BLAST of MC04g0188 vs. NCBI nr
Match: XP_022136149.1 (peroxidase 39-like [Momordica charantia]) HSP 1 Score: 554 bits (1428), Expect = 2.80e-195 Identity = 284/314 (90.45%), Postives = 286/314 (91.08%), Query Frame = 0
BLAST of MC04g0188 vs. NCBI nr
Match: EXC23134.1 (Peroxidase 3 [Morus notabilis]) HSP 1 Score: 554 bits (1427), Expect = 3.94e-191 Identity = 306/581 (52.67%), Postives = 367/581 (63.17%), Query Frame = 0
BLAST of MC04g0188 vs. NCBI nr
Match: KAF9679098.1 (hypothetical protein SADUNF_Sadunf07G0104700 [Salix dunnii]) HSP 1 Score: 562 bits (1449), Expect = 1.36e-185 Identity = 317/622 (50.96%), Postives = 379/622 (60.93%), Query Frame = 0
BLAST of MC04g0188 vs. NCBI nr
Match: TXG55337.1 (hypothetical protein EZV62_020593 [Acer yangbiense]) HSP 1 Score: 531 bits (1368), Expect = 1.06e-181 Identity = 314/619 (50.73%), Postives = 364/619 (58.80%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy TrEMBL
Match: A0A6J1C3H1 (Peroxidase OS=Momordica charantia OX=3673 GN=LOC111007914 PE=3 SV=1) HSP 1 Score: 554 bits (1428), Expect = 1.36e-195 Identity = 284/314 (90.45%), Postives = 286/314 (91.08%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy TrEMBL
Match: W9SRP8 (Peroxidase OS=Morus notabilis OX=981085 GN=L484_018265 PE=3 SV=1) HSP 1 Score: 554 bits (1427), Expect = 1.91e-191 Identity = 306/581 (52.67%), Postives = 367/581 (63.17%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy TrEMBL
Match: F6HIK4 (Peroxidase OS=Vitis vinifera OX=29760 GN=VIT_12s0059g02420 PE=3 SV=1) HSP 1 Score: 543 bits (1399), Expect = 1.59e-185 Identity = 311/661 (47.05%), Postives = 376/661 (56.88%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy TrEMBL
Match: A0A5C7HEG3 (Peroxidase OS=Acer yangbiense OX=1000413 GN=EZV62_020593 PE=3 SV=1) HSP 1 Score: 531 bits (1368), Expect = 5.11e-182 Identity = 314/619 (50.73%), Postives = 364/619 (58.80%), Query Frame = 0
BLAST of MC04g0188 vs. ExPASy TrEMBL
Match: A0A4Y1R734 (Peroxidase OS=Prunus dulcis OX=3755 GN=Prudu_009898 PE=3 SV=1) HSP 1 Score: 530 bits (1365), Expect = 8.68e-181 Identity = 303/639 (47.42%), Postives = 369/639 (57.75%), Query Frame = 0
BLAST of MC04g0188 vs. TAIR 10
Match: AT4G11290.1 (Peroxidase superfamily protein ) HSP 1 Score: 391.0 bits (1003), Expect = 1.3e-108 Identity = 197/322 (61.18%), Postives = 238/322 (73.91%), Query Frame = 0
BLAST of MC04g0188 vs. TAIR 10
Match: AT1G05260.1 (Peroxidase superfamily protein ) HSP 1 Score: 378.3 bits (970), Expect = 8.9e-105 Identity = 188/312 (60.26%), Postives = 235/312 (75.32%), Query Frame = 0
BLAST of MC04g0188 vs. TAIR 10
Match: AT3G21770.1 (Peroxidase superfamily protein ) HSP 1 Score: 345.9 bits (886), Expect = 4.9e-95 Identity = 175/313 (55.91%), Postives = 220/313 (70.29%), Query Frame = 0
BLAST of MC04g0188 vs. TAIR 10
Match: AT5G15180.1 (Peroxidase superfamily protein ) HSP 1 Score: 306.2 bits (783), Expect = 4.3e-83 Identity = 155/312 (49.68%), Postives = 202/312 (64.74%), Query Frame = 0
BLAST of MC04g0188 vs. TAIR 10
Match: AT3G01190.1 (Peroxidase superfamily protein ) HSP 1 Score: 295.8 bits (756), Expect = 5.8e-80 Identity = 160/322 (49.69%), Postives = 206/322 (63.98%), 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
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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