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MC01g0091 (gene) Bitter gourd (Dali-11) v1
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.AAAAAAAAAAAAAAAAAAAAAATCTAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGCTTATTCCTCTAGCTGGACCAAGAAGCCTAGGGACGCCAGCCGAGTCCAAGCGAGCGTGAGTTGCCAATTGCTGTTCTTCCCAAAATCCAAATTTCGCTTCTTCTCTCGATCTTCAGTTGTTCAGTCGTGTGATTCTTCATTCGTCAGAGAAATCAAAGACTGTATCCAAGTATGAGGGATTGACGGATCATCTGTGCTGTTCAATCCCTCGGCTAAAACAAACGATCATTTCTCGCAAAAAAGTGATCCCCAATCCGATTTGGAGAAGTAAATGGGGAATTTGTTTGTCAAGAAGCCCAAAGTCACCGACGTCGACAAGGCGATTCTCTCTCTCAAGACGCAGAGGCGCAAGCTGGGTCAATATCAGCAGCAGGTATTCAGTTGACCCCCTATTCATTTTAATTTTTTCCAATTTCACACAATTACTCTCTTGGGTTGGTGCCTCAAAGATAAAGGCAAAGTCTCTTGGTCAAATGCTTGTAGGGCTCTGCTACGAATCCTTTGGAAAGAAAGGACTTCTAAATAAGTTCGATTCTTTGTAATTTTTGTGATCTTGTTCATTATACAGCCTCAAATTAGAGTGCCCTTCTTAGATTAGAGGCCTTTTGTTTGACTCATCATCCTCATTCTTTGGCTTAGGGTTACCTCTTCTCTAAGACCTTAGATTGTTCTCCTTTTTTTTTTTTTGATTTAATATATTCCTCGGTTTCTTATTATTATTATTTTTTTATTTAAAAAAAGCGCACAAACTATGAGGTCTGTGCATCATGGACTTGACTTACATGAAGATAATTAGCTTGATATGCTGGTTATTTCATAAAAATCAAAGGACATATGCTAAAAGAAATAATTTGAACTTGGTACTAAAATAGTCTATGCTAGGAAGGATGGAGGGAAATAAAGTTATGGCTATTTGGAGTGGCACATTGTTTGGGTCTTCTTGGAGTCTTACAGATCCTTAGGGCTGGACAGGAGTGGTTATTTTGTGGAATGAAAGCATGATTTCAATATAGGCAGTTTTGGGAGCCTTTTCACTGTCTATCAGAATCACTTCAAGGATGATCAAGGATGAATCTTCTTTTTGGGTGTTAACAATCTATGACCTACCTTGTACAACAATTAAAAAATTATATTTTTGGAATGAACTACAGAGCCTATACAGTAACTGCTTATTAGTGTTTGGATGTGGTTTCGATTGATAATTGTGAGAGGGACTTGACAGAAAACCTAGATAGGAGAGTTATGTAATGGATGACCACTCTTTGGTTGGAATATTGTTATCAAATCGACAAATCCAAAGTTTACTTGGTCCAGCCTATGGCATAATCCAATACAGTTTTTGCTACGGAGATTTTAGTTCTGTAGTAATTGGTGGGGGTGGACAAGTCAAGAGATTCTACTAGATGACCAGAGGAACCGAACCATTTATGACCATTCTTTCTTCTTATTTTGGAAATAGGACTATAAAGTATGGGCGTTCCCGGTTCAGATTTGAAAGTTTTTGGCTCCTTTATCCTATTTTTTGCTGTTGTGAAACTGGTGGAAGAGCTTTAAAGAAAATGGGTGGTTGGTTTACAACTCAATGTAGAACTTGAAGAAAGGCAAATTAAAATCAAAATCGAAACCGAGGGATTGGAACAAGGAGGTCTTTGAAAACCTTTACACAAACGAAAGGAGTTAAAAGAAATTGGCCTTAAGGTGGATGAGAGGTGATTTTCACGTGAAGACAAAAAAAGAATAATCAATTTTGGATTCCTCCTTGAAGAGGTAGGGTTTAAGGATAGCCAAGAAACTTACATATGTGTAGACTCAAATGGCTAAATTCAAAACTCTTTCAACTAGGAGACGGAAAATTTCATGTCTAAACTGGCATTCACGAAGGGAAGGAGCTTAATTCAAGAGGATGAGATGAGACAGAGGCAGAGGAAGTACCATCAGGTTCATCTTGGTAGGCATTGATCGGTGAAGATGTCTCAAGAAGAAAGTGATTTCTATATCAATGAAACATGTTTCTTGTTGACCAAAGAATAAAGTGATTTCACGAAAGGTTTTGAGGGAGTAGAGATTATCAAGGCAGTAAAAGGTTTGTAAAGATCAAAATCATCTTACTTAATGAATTTGGACGAGATGCTGAGGACACGTTAATATTTTATATGATTTTTAATTAATATTTAAATAAAAATACAAACACACACATGTTAATATTTTATATGATTTTTAATTAATATTTAAATAAAAACACACACTAAAAGGAAAAAAAACTGGAAGTGGGAGGAGAAAAATCAAAAAGGAAAAAAAAAAGAAAAAAAGGACACTCGCGTGTCCCTAGCATGTCAGATTTTTTAAAAATAAAAAATAAAAAAAAATAATTTTGTACACATGTCTGACATCGACACTTCTTCATTTTGAGCGTGTACCTGCTACCTAGCTTGCTAGCAAAGGCTTGGGGTCTCTAGGTCGTGTTGTGGCTCAGAGGTCTCAAATTTGAACCTTTGGGTGAGTTTAATACATAAAACCCTTGATGTCTTTTGGGTTCCGAGTCTTGGGATGGGTGTGGGTGCCCTTAAATATAGGGGAGTAAAACTCTGACTCTCGTTTATCCAAAAAAAGAAAAAAAGAGAGAAGATTTTATATTGTTACATTAAGATTTATTTTTTAGAATTAGAATCAATTCGTTCTTAAAAGAAAAATATTTTTGCCTCTTAATAAGTGAGACTTAAGATTAGTCAGCTTAAATGGCAGTGTATAAGGGGTTACCGAAATTCGAGGGCTACGACACGATCATAGTAGCTGTTAATTGACTCTCCAAATATGCTGATTTTATTTCCCTAAAACACCCTTTTCGGTAATAGCAGTGGTGGATAATTTCAATAAAGAGGTGGTGCATTTACATGCTAAGGAGGATTGTTTTAGATCGTGATAAAGTATTCACCAGCCTTTTTCGAGAAGAATTATTTTGTTGCATGGGAGCCCAACTGAAATGGAGTATGACATATTACCCACAAACCATAGGCTAGACTAAAGTGGTAAATTGGGGTCTCAAGGAGTACCTTTGCTACTTTACCATGTGCAATCCAAAACAATGGTCTAAGTGGCTGCCTGCCTTGGATGGAATTTAGTTATATACTTCCTACCACTCATCCATGCACGCCCCTTTTGAGGTTGTGTATAGCCCTCTACCTGAAATCTCACGAGTCATGCTATGTGTTTGACTTGCCGACAATGGCTGAGGTTGACTTGCTAACTATTTGAGAGACATTCCATGTTGAGCACCTTAAAGACTGTTTTGCACAAAACTTAGCAACATATGGTGACTACTGCAAATGGAAGGTGTTGAGACGTCGTGTTCGATCTCCAAGATTGGATTTATATGAAACTGAAGTCTTATTGTTAATTGACATTTGTTGAAACATGCACACCCCAAATTGGCCCCGAGTTAGTTGGCCCTTTCTGAATCTTTGACCATGTTGATCCCATGGCATCCTGCTTGACGTTACCGGATGGGGTGAATATTCACCCAATAGTTCATGTGCCCAACTTCGGAAGGCTTTGAACCGAGGAAGTTTGGGTAACTACTGCTCTTATTCGAAATTTGGATCATCTTAAAGAAATGAACTGTACCAAAAAAACAGTGAAGCCTGAATCAAATCGAACCAGTCTTGAATCGAATTGGATTTTGGACTGAACCGAACCAGACCAATACCCAACCCAAATCGAATGAAGACCTAAACCAAAGTGGGTCTTTAATCAAACCAAGGCACGAACACTAGACAGATGGAAGCGAGACTGCAAGATAGGATTCTAGTGGATGTGAACCAGATGTGTGAGTCAAAGGCAATCTTTAAATAATTAATTCTCTTCTCTTTGGGGTGGTTATAAACAAAGATTCTTCGATGTTTGATTGTTGTGATAAAGCTAAAACAGTGTTCATAATCCAAGAGTGAAATATATAATTAAACTTTTTTAGTGGAAATGTCTCTGTCATATTGTTTCTTAATTTTTCAGTAAACGACACCATAGGTGCTCCTTGCTTTTGTTCATGTTGAATTTTATTATTTGGATTTTATGGTCTCTGAATTGCACCCTCTGCCTTATACATTTTTATTTGATTCAGATTCTTGCATAACAGAGAATAACTAAAGGAATGGGAAAGCATATTTCTTGTAACTTTTCAATGATCAATGAAAAGTTTGTTTCTTTAAAGTTTGTTTCTTTAAGAGAAAAAAAAAACAAAAAAAAAAACTAAAAGGAATGGTAAAAGAGAAAATCATCCATAGAAGTGGTAAATGATCAAATTTGAGGCTGTTGGGTTGGATTAGGTTTTCTTCCTATAAAATCAAGATGGAACAAAAGATCTGTATCAGAGTTTAGCATCACCTGATGCATTACTATTATTACCTAAAAGAATAGAAGATCTTGGTAAAGGGCTGAATATGCGGAAGAAAACCTAAAAGATTTTGGTAAAAGGACAGGAGAGTTTAGAATCACTGACAACTTGGGCATACGGTGCTTTTGCTAATTGATTATTTAAATTTTAATAGAATGGAAAGACTGTTGTATATCTTTAATTATTTCTGTGTATAATATAAAATATTAATGTTCAATGTTTAGACATTATATAAATATTTTCATTTACAAATTATTGCTATATATAATTTCATTTGTTTATTTATTTACATTGACCTCACTTCACCTAGGTGATGCCTTTTTGTTGACTCTCGTATTAAGACTATTGAGAGGCCTTTTTTTCCCTTGGTATGTGTTATGGTAGGTTTCTTCTGCTTTGAAAATAGCATTGGGGATTAAACCAATATAAGTCTCGTTAATGCATTTATTATGAACTTTTTTCTAAATAAACATGGATTCTTACAATATCTCCTTTTATGATGTTCCAAGTCTATTGAAAGAATTCTCCTGAAAGCCTATCATCTTGTCCTAAATAGTTAAGATTCCCCATACTTTTAATTGCTGTCATAAACTCTTAAAACTATTAGCTGAATCTAATTTAATGAAAATGTACTTTTTTTATGAATCATGAATTTTAATCAAACAATGTTTCAAATAATTTCTCAAGTCATCTATACATCATAGAATTGAATTATGTATGACCACAAATCACCGTAAAGAAAATTGCATCCTACCTTTGGGTGTAACACCCAAGACCAGTAAATATCTCTAAAAGAGGTCAGATTTTACACAAAATTACTTCTGTGGTTTTCTGTCATGGGAATGAAAGTTTATTTTACTTTTAAAATTTAATAATTCTTTTTTGTCTTTCCGTGACTCTTTATTCCCTAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAAAGAGTTAGTTCGTCAAAAGAAAAAGGATCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCAAGTTGATGCCTGGCTGATAAATGTTGAGCAACAAGTGAGTTCTGTTAATACTTCCCTTGTCTATTCAAATTTTATTATCGCCTTCTATCATAAAACCAAGATTTTGATGGTTGCAATATCTAGGTCTGGTTTTCTGGTTTGACATTAACAATTACATTGTCTCCTTCGTTATTTTGTATTCATGTTCAAAACTTGATTTCCTTAGAAATATGTGTTCATGCTATAATATAGTTGTTGGCTCAGTTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAGGCTATACAAAGTGAAATTAATCTAGATGATGTTCAAAAGCTGATGGATGATACTGCCGAAGCTAAGGCATATCAAGATGTAAGTTTTTCAGTTTTTCAGTTCATCATTTCATTAGCATTCATGTTTGAATATTTTATTTTCTTAGGTTTACATCTCAGATTATGGCTGAAAAAAATTAAATGTATATTAGTAAGTGGTAGCAAGTTTAGCTGATGGGTGACTCCTTTTGTTGGGCTGTTTATATTTATATATGTATGTATATTGTATTCTTTCACCTTCTCTCCAATGAAAGCTTGTTTTCCGATAAGACATTAAAAAATGAAGTAAAAAAAGTAGAAAGTAGTAGATGAACACAAAAAAATGCTAATTGTATTCTAAAGATGGACAAACAGATACAAACCCAAGTCCATTTAAGGGCACTCTCCAACTGCCCTCCAAAGTTTGCCTACTTCACAATCCTCCCAAGTTCCCAGCTCAACTCTAATCAATTTATCAAGTGATTAAATATGCCACTATTAATATTTCTAATGTGTCCCTACTAGTATTCCTAACTACATATCTTGTCCTCAAGGTGGGCTTTATGTATTTTTTTTTTTTTTTTTGAGAAACAATTTCATTGATGGTATTAGATTACAAAAGGGGATGAAACCCCATCCAAAGGAGTTACAAGGTTGGCGCTATGTAATGTAACTGCTAAGTAAGACACCACATCCTCCTCAATACATTGTCTCTATTTATGAGACTAGTAAATTGAACACCCAGACTTAACATGATTAAGAAACTCACATCTCGGTCATCCTAAGACTCTTTCAAGGTGCTCAGCTGCACCATACTGAATCTAGGAAACAGGGAGATCAAGTAAATTGATATTACAGATAACTTGCATAGTCCTACATTGTCACAAATCCCAGCCCGTATCATGCCTTGTATAGCCCAAATCACACCAAAGTCATCAAACCCACTTCCAATGTTACTCTCGAATTATGAAGCGTGAAAACACCTTAGCCTTGATGCCAATGCATTGTATAGTTCAAACCCTTAGCCCCTAAAAGACAGCCCAGTTGGCAAGGGTTCCAGGTCTCTTAGTCATATTGGCTTAGAGGTCTCAAGTTCGAACCTTGTGGTGAGCTTAATACCAACAATCCTTGATGTCTCCCGGGTCCGGATCTTAGGGCGAGCACGGGTGCCTTTGAATATAGGGGAGAAAAGCTCCAACTACAAGTTTTCAGAAAAAAGAAAAAAGTTAAAACCAGTGATGGTATGAAGATCCACCCCACCATATTCTTGATCTTATCTCAGTTGACGTAACCCTCTCAAAAATCATGAAGCCTTGGTGGTGGTATACCATCAATTTTTTCATCTCCAAGATTTGTTCCTTAATCAGCTGCTATTAAAATTTTCCAACCAATCTTTGAAGGTTCTCGCCTGCCAATGAATGATCTCCTTTGCATATGTTAGCAAACTATTACATGTTGTCCACCTTGGTAGAGCTTTATTCTCAACTGCTAATTAAGAATCAAAGAATAGGCTAGTTCCGAACATAATTTCAAAAAATGGGCCCTCACCCACTAGTGTGGTTCGAGCTGATCCTTGGGTTGTCCTTGGGGAATAATGAGTAATTGAAATTTTTTAAGGAATTCTCCACCTCCTCCTTCTCCTCCCTTTGAAGTTGACAAAGCCATTGAAGTTACCTTCTAAATGTGACATGCCCGAGTTCCATTGAATCAACTGTCTAAAATTTGTTCCATCTAAAGAACATTTCCTAGATGCGTTTGACCTGATTCCACCAAGCCACCAAAGATGCACATTATTTGGGTTAGGTTGGTCGAGCTAGATTACATTCATTCCACCCTCAATGAGTTCTTTCCAACTACTTCATTGCTCTAAATTAATCCCCACACTTGTCAGTTGTCATCAAACTTGTTGATAAATGCCCACGTTATCTTACAATTTTCTCCATTTGGCATTTGCATTGGAATGCACTCATTTCTCCAATGTTTTTTGACCTCTTTGCCACCCATTTGGAGGTGTCATTCTCAATGTGGCTGTCTCAATCGCACGACTGGGAAGGGATTATAACAATTTAAGTTGAAGATTTTGATAGACTTTTATCGGTACTAGTTGACCTGTATATATTCCTTCCGTTCTAGCTTTACCCCACCCATGACCCTTACTTATTCCTTTTGAGTTGGGTCTCAATGATTCTTTTAAGTTGTGGTTCACAGATTTCTTGTGCCTTGAAAATCTGTGTGTCTTCATTCTTTCTCGATATGTTCTTTCCTTCTTTCCTAACTAGTATGAGTTTCAGTGTCCCCATAGATGGTGGCTTCCAAATGCATTTGGATCTCTAAGGTAGGAGGAGCCCAATCTTTCTCTGCCCTTGCTCCTTCAATAGTTATCTTCCTTTGATGTTGCTGCTTCCATCATTGCACTCTCATGGTTATTAGCCTATTTGGTACCCACAATCATTCTTTTTGGAGCTCTGCATGTCGCCTTCCTTACTAAGTACTAACTTTAACTTCTTGTTGTATATGACATTCGGTTCTCCTATTCTTGTCCGTATAGCTTTAACTCTTTGCCTTGAGTGACAACTCCAATGTTTTGATCACCTCAACCTTGATCACTGTATGGGTATCTTTTTCTTTCTGAGCTTTTGGTGACAATAATATCATAACTCTGGATCTTTTTCTATTTTATTTAGCATATATTGGATCCTCAAGCCAGCATGCTCCTTAGTTTGACCAATTTCTTGATGAAACTCCTCTATAAACTGTCTAGCCTTGCCATTTCAGAAACCTAACATTCTCAGAAACAGATACAAGTACAAGCACTTTGAAAGCCTGATAATACTCCCTACAAACTACTCTCCAAAATCTGCCTCATTCCCAACGTTCCCAACTCACCCTGTTGATAACCAATAAACTCTAACCCATTTATTAAGTAAATGCAAATATGCAACTGCTAATATTCCTAACATGTCCTTGCTAGTATTCCTAATTGTAAGGTGTTTTCTCATTTTCTTAAAGAAAATTATTTTATGGCCTTCTTTTGAACTAATATGTATTCTACTACCAAAGTTCAGTCACGTCGTAGAGTTGAAAGGTTGATGTATATCTTAGCTTTCCATCTACTCAAAATGTATCATTATCCACAAGTTAATTCACTTAAAATTGCATTGCTGAGGAAGAGATATGATCATGCTTTGGTTAATCCCTATCATGCTGATGACTTTTTGCATTAGTTGGCATGCGATGTTACCAGATTCTTGTGTGGTTGGGCTCTTGATAGGAATGCTGTTAAGATAGTAAGAGTATATTAGTTATTAGCAAAAGGTTTGATTATAAATAGAGTGGATGAGAGAGAATGGAGGCAAGCAATTGTTTAGTGAGTTTAGGCTCGAGTGAAATTACTCAAGAGGGGAGGTTTCAAGTACCTCGAATACTTAGAGGTCCGGTTGTCCTGCTTCATCCTTTTATGACTGCTTCATCCTTTTATATTTCAATACTATTTAAGTTGTTTGGGTTCTATCAGCTCTCTAACCTATTCTATAAAATTTGAAGATGGCTAGAAAGATTATTATTTTTTGTAACCAAAAAATCCTAGACTCCTAGTGTGCTAGGTACATGGAACACGGATGTAAGATTTTGAGGCCTGGATGAGTCCTAAAGAGCTTTTGATTATTGTCTGGGGTTACTTTTTCAATAAGATGTTGAAATCAAATTTCTCTATAGAATTGCTTGAGTTTGTAAAAAAAAATAATCATAATAATAATTATTAGTTAGACTTTATTCTTTTGAATTGCGGACCCTTTCTTTAGGTGGGGTTCGTCCTTGCAGGCTGGTTTTTTGTATGCCTTTGTACATGTGCTTTTGTTTTCATTTGTCTCAAAAGTTCGGTTTCTTATAATATATGTATATATATATTTTGTAATAACTAATAAAATACACTTGTGGTTTTGGCATACCACCACCAAGTTTTGTAACTTGCCCTTTTATTCATTTCATCATGCGAAGTATTTGGTGTTTAGTTTCTCAAATGCTTCTGAATTTCCTTATGAGCAGTTTATGGCTCTCATATGTAGGCATTTCATAAGAATTTATAAACTTGCATGTGAGGGCATTGCTGGTTATAACCGAATGAGTCATTTTGATTCATATCCTCTTTTAACCTTTCGGGATCATTCCATTCATCTGCTTCATTGTTATAATAATTATGTTTCACTTTCCTGTGGCTTTAATTTTATTTATATTTTTGAAGGAAATTAATGCCATCTTAGGAGAGAAATTATCTGAAGAAGACGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGGTATGGGTACCTTATTTGTTATTATTTTTCATACTGCACGATACAATCGGTCCTTTCACTCATTTGGTTGGTGATCTTTAGGTTTCTACTTGAGAATATCATTCACTCACATAGGAGTGAGCACTATAGGACCTTGACTATTAAATTCATTTAATTTTGATTTTAGTTGGGAATAAGGTTTTGGTGAAAATGCTCTTCACCATGGCTGTTGCAAATTGAATTTGGTCATATCCCAAATTTGTATTTTTATTTGAATTAGTTTCCAAACATCAAATAAAAAATCATTTTAGTCCTTGAGATAATTTTTCAATAAATTATTTAATAGATGCTAAAAGATGCTCATTTTTTGTTTATTTTCCTAAATGTGTATATGGACAAGTATTGGATGCCACATGTTGTAAAGTTAGATGTTGTAAAGTTAGATGTTTGGATCGAACTTGAAAGTTTAGAGGCTAAAACAAAATAAGCATATATTCAATAGTTGTATAGTTGTGGCTACTGTCGATTGCCTTTTATTATACTATCTCAAAGCAACCACGTTCGACGTTTTTCTCAGATCACTGTCCAAGATCTACCTGAGGTCCCAACTTCTAACGAAAACGTTGAAAAGTTGGATCTTCCCGACGTGCCCACCAAAAAACCCGTTGCAGCCGACCCCATTGAAGAAGATGCTGAAATTGTTTCATCTGTTGCCCCCACGAAGAGAAGAGGTCGGTCTCTCTCTCTCTCTCTCTACTCTCTACTCTCTCTACTCTCTCTACTCCCAAAGAAAACACATTTAATTTTGTTGAATAATGCAGTTATGGAAGAACCGTTGGCAGCATGAGTGTTGGTATTTGAATTTGATGTGAAGCTGCTCAAAATGTTCATGTCCTGGTGAAGTGCTGAGCATCTGTTATTTGATTTTGTGAATTGTTACTGATGATCAAGAATGGCCCCATTCACCAAAATATGATGTACAGACATTTCCTGATAGATTAACAACACGTACATAAATCTATTTTCTTGTTTCCCTTTTTATTATTAAGATTTGATTAAATTGTTACAATATTTATAGTTACTTCTCTTTAAAAACTTTCTTTCTGAAAGTGTTTGATTCCCTTGTCAAAAGAGTATGAGGTTGTGCGTATTTGGATCGCATGGAAGCATCGGGTTTTAAGAGTTTGAATTTATGTAGTATGTATTTAGTTTGTAGGTGTGTAATTTATAAAAGCGATGTTTAGTTTCGGAGTTTCATAGGCCTAAGTTGATGTGACTCGAGTTCAAATATGTATCGTGTGGG AAAAAAAAAAAAAAAAAAAAAATCTAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGAAAAAGCTTATTCCTCTAGCTGGACCAAGAAGCCTAGGGACGCCAGCCGAGTCCAAGCGAGCGTGAGTTGCCAATTGCTGTTCTTCCCAAAATCCAAATTTCGCTTCTTCTCTCGATCTTCAGTTGTTCAGTCGTGTGATTCTTCATTCGTCAGAGAAATCAAAGACTGTATCCAAGTATGAGGGATTGACGGATCATCTGTGCTGTTCAATCCCTCGGCTAAAACAAACGATCATTTCTCGCAAAAAAGTGATCCCCAATCCGATTTGGAGAAGTAAATGGGGAATTTGTTTGTCAAGAAGCCCAAAGTCACCGACGTCGACAAGGCGATTCTCTCTCTCAAGACGCAGAGGCGCAAGCTGGGTCAATATCAGCAGCAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAAAGAGTTAGTTCGTCAAAAGAAAAAGGATCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCAAGTTGATGCCTGGCTGATAAATGTTGAGCAACAATTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAGGCTATACAAAGTGAAATTAATCTAGATGATGTTCAAAAGCTGATGGATGATACTGCCGAAGCTAAGGCATATCAAGATGAAATTAATGCCATCTTAGGAGAGAAATTATCTGAAGAAGACGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGATCACTGTCCAAGATCTACCTGAGGTCCCAACTTCTAACGAAAACGTTGAAAAGTTGGATCTTCCCGACGTGCCCACCAAAAAACCCGTTGCAGCCGACCCCATTGAAGAAGATGCTGAAATTGTTTCATCTGTTGCCCCCACGAAGAGAAGAGTTATGGAAGAACCGTTGGCAGCATGAGTGTTGGTATTTGAATTTGATGTGAAGCTGCTCAAAATGTTCATGTCCTGGTGAAGTGCTGAGCATCTGTTATTTGATTTTGTGAATTGTTACTGATGATCAAGAATGGCCCCATTCACCAAAATATGATGTACAGACATTTCCTGATAGATTAACAACACGTACATAAATCTATTTTCTTGTTTCCCTTTTTATTATTAAGATTTGATTAAATTGTTACAATATTTATAGTTACTTCTCTTTAAAAACTTTCTTTCTGAAAGTGTTTGATTCCCTTGTCAAAAGAGTATGAGGTTGTGCGTATTTGGATCGCATGGAAGCATCGGGTTTTAAGAGTTTGAATTTATGTAGTATGTATTTAGTTTGTAGGTGTGTAATTTATAAAAGCGATGTTTAGTTTCGGAGTTTCATAGGCCTAAGTTGATGTGACTCGAGTTCAAATATGTATCGTGTGGG ATGGGGAATTTGTTTGTCAAGAAGCCCAAAGTCACCGACGTCGACAAGGCGATTCTCTCTCTCAAGACGCAGAGGCGCAAGCTGGGTCAATATCAGCAGCAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAAAGAGTTAGTTCGTCAAAAGAAAAAGGATCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCAAGTTGATGCCTGGCTGATAAATGTTGAGCAACAATTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAGGCTATACAAAGTGAAATTAATCTAGATGATGTTCAAAAGCTGATGGATGATACTGCCGAAGCTAAGGCATATCAAGATGAAATTAATGCCATCTTAGGAGAGAAATTATCTGAAGAAGACGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGATCACTGTCCAAGATCTACCTGAGGTCCCAACTTCTAACGAAAACGTTGAAAAGTTGGATCTTCCCGACGTGCCCACCAAAAAACCCGTTGCAGCCGACCCCATTGAAGAAGATGCTGAAATTGTTTCATCTGTTGCCCCCACGAAGAGAAGAGTTATGGAAGAACCGTTGGCAGCATGA MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAAKELVRQKKKDRALLALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINLDDVQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQITVQDLPEVPTSNENVEKLDLPDVPTKKPVAADPIEEDAEIVSSVAPTKRRVMEEPLAA Homology
BLAST of MC01g0091 vs. ExPASy Swiss-Prot
Match: Q9FY89 (Vacuolar protein sorting-associated protein 20 homolog 2 OS=Arabidopsis thaliana OX=3702 GN=VPS20.2 PE=1 SV=1) HSP 1 Score: 303.1 bits (775), Expect = 2.5e-81 Identity = 168/226 (74.34%), Postives = 195/226 (86.28%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy Swiss-Prot
Match: Q8GXN6 (Vacuolar protein sorting-associated protein 20 homolog 1 OS=Arabidopsis thaliana OX=3702 GN=VPS20.1 PE=1 SV=1) HSP 1 Score: 299.3 bits (765), Expect = 3.7e-80 Identity = 165/224 (73.66%), Postives = 198/224 (88.39%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy Swiss-Prot
Match: Q503V0 (Charged multivesicular body protein 6 OS=Danio rerio OX=7955 GN=chmp6 PE=2 SV=3) HSP 1 Score: 136.3 bits (342), Expect = 4.1e-31 Identity = 81/196 (41.33%), Postives = 131/196 (66.84%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy Swiss-Prot
Match: Q54KZ4 (Charged multivesicular body protein 6 OS=Dictyostelium discoideum OX=44689 GN=chmp6 PE=3 SV=2) HSP 1 Score: 124.8 bits (312), Expect = 1.2e-27 Identity = 78/180 (43.33%), Postives = 121/180 (67.22%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy Swiss-Prot
Match: Q6GMA4 (Charged multivesicular body protein 6-A OS=Xenopus laevis OX=8355 GN=chmp6-a PE=2 SV=3) HSP 1 Score: 123.2 bits (308), Expect = 3.6e-27 Identity = 80/201 (39.80%), Postives = 125/201 (62.19%), Query Frame = 0
BLAST of MC01g0091 vs. NCBI nr
Match: XP_022149415.1 (vacuolar protein sorting-associated protein 20 homolog 2-like isoform X1 [Momordica charantia]) HSP 1 Score: 396 bits (1018), Expect = 2.50e-138 Identity = 223/223 (100.00%), Postives = 223/223 (100.00%), Query Frame = 0
BLAST of MC01g0091 vs. NCBI nr
Match: XP_038883019.1 (vacuolar protein sorting-associated protein 20 homolog 2-like [Benincasa hispida]) HSP 1 Score: 377 bits (967), Expect = 1.48e-130 Identity = 213/223 (95.52%), Postives = 217/223 (97.31%), Query Frame = 0
BLAST of MC01g0091 vs. NCBI nr
Match: XP_011653914.2 (vacuolar protein sorting-associated protein 20 homolog 2 isoform X2 [Cucumis sativus] >XP_031740173.1 vacuolar protein sorting-associated protein 20 homolog 2 isoform X2 [Cucumis sativus] >KGN55176.2 hypothetical protein Csa_012821 [Cucumis sativus]) HSP 1 Score: 373 bits (957), Expect = 4.94e-129 Identity = 209/223 (93.72%), Postives = 216/223 (96.86%), Query Frame = 0
BLAST of MC01g0091 vs. NCBI nr
Match: XP_022928588.1 (vacuolar protein sorting-associated protein 20 homolog 2-like [Cucurbita moschata]) HSP 1 Score: 370 bits (951), Expect = 4.06e-128 Identity = 209/223 (93.72%), Postives = 215/223 (96.41%), Query Frame = 0
BLAST of MC01g0091 vs. NCBI nr
Match: KAG6603293.1 (Vacuolar protein sorting-associated protein 20-like 2, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 370 bits (950), Expect = 5.76e-128 Identity = 209/223 (93.72%), Postives = 214/223 (95.96%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy TrEMBL
Match: A0A6J1D5M8 (vacuolar protein sorting-associated protein 20 homolog 2-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111017847 PE=4 SV=1) HSP 1 Score: 396 bits (1018), Expect = 1.21e-138 Identity = 223/223 (100.00%), Postives = 223/223 (100.00%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy TrEMBL
Match: A0A6J1EPH4 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita moschata OX=3662 GN=LOC111435445 PE=4 SV=1) HSP 1 Score: 370 bits (951), Expect = 1.96e-128 Identity = 209/223 (93.72%), Postives = 215/223 (96.41%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy TrEMBL
Match: A0A1S3B5R7 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucumis melo OX=3656 GN=LOC103486109 PE=4 SV=1) HSP 1 Score: 367 bits (942), Expect = 4.62e-127 Identity = 208/223 (93.27%), Postives = 214/223 (95.96%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy TrEMBL
Match: A0A6J1EBQ2 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita moschata OX=3662 GN=LOC111432566 PE=4 SV=1) HSP 1 Score: 365 bits (938), Expect = 1.95e-126 Identity = 208/224 (92.86%), Postives = 215/224 (95.98%), Query Frame = 0
BLAST of MC01g0091 vs. ExPASy TrEMBL
Match: A0A6J1HVP8 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita maxima OX=3661 GN=LOC111467276 PE=4 SV=1) HSP 1 Score: 362 bits (929), Expect = 3.97e-125 Identity = 205/223 (91.93%), Postives = 213/223 (95.52%), Query Frame = 0
BLAST of MC01g0091 vs. TAIR 10
Match: AT5G09260.1 (vacuolar protein sorting-associated protein 20.2 ) HSP 1 Score: 303.1 bits (775), Expect = 1.8e-82 Identity = 168/226 (74.34%), Postives = 195/226 (86.28%), Query Frame = 0
BLAST of MC01g0091 vs. TAIR 10
Match: AT5G63880.1 (SNF7 family protein ) HSP 1 Score: 299.3 bits (765), Expect = 2.6e-81 Identity = 165/224 (73.66%), Postives = 198/224 (88.39%), Query Frame = 0
BLAST of MC01g0091 vs. TAIR 10
Match: AT5G63880.2 (SNF7 family protein ) HSP 1 Score: 285.8 bits (730), Expect = 3.0e-77 Identity = 165/248 (66.53%), Postives = 198/248 (79.84%), Query Frame = 0
BLAST of MC01g0091 vs. TAIR 10
Match: AT2G19830.1 (SNF7 family protein ) HSP 1 Score: 57.8 bits (138), Expect = 1.3e-08 Identity = 59/212 (27.83%), Postives = 99/212 (46.70%), Query Frame = 0
BLAST of MC01g0091 vs. TAIR 10
Match: AT4G29160.1 (SNF7 family protein ) HSP 1 Score: 55.8 bits (133), Expect = 5.0e-08 Identity = 61/226 (26.99%), Postives = 102/226 (45.13%), 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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