MC11g_new0120 (gene) Bitter gourd (Dali-11) v1
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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.TAATTTTAGAAACAATAAATTGCACAAGTTTTTAGAATCTCACGTGTTTTCGTAGCATTTGGGAGCACTGAATAAATGGAGGAATATTATTAGTATATATAGCTATACTCATCATGTTTCCTATTCCAAAGAAGTGTGCCAACAATTATTGAATTCCTCCTCCTACTCCGTTATTCGCATTTCAGCTTCAGGTACATCAAAACAAATTAATTTTTCTTTGTAATTTCTTTAGAAGAAATAGTATTTCTGTGTGTGATGCTTAATTAATATTATGCTAATTTATAGACTACAGATATGGATGTTGCAGCGGCTGTAAATTTGTATCCATCGCACCGCACTAAAATTATTCATCTGGTATATATAGTATAACAAAATCAGAAAATGTATATTTTCTCGTATGTCACCGACGCCGAACACTTTGAATTTTAATTTTATTGAAATTAAGTTTACAGGTGAGGCATGCCCAAGGATTCCATAATGTGGCAATTGATGAGAACTGGACGGCAGCTTTATCTGAGGACTATTTTGATGCTCGACTTACTCCTTTAGGATGGGAACAGGTAATCGCTTCTTGTTTCTGTTTCAAACAATATTTTTATTTATGTTTTGAAACAAATTGGAAACATAAACGAGGAAACAAGAAAGAAGAAACTTGTTTTGGCTGTTTCCAAAAATATTCTATACAATTTTGAGAAATATTCTCAAATGAGGAGAAATAAGAAACATGGTTAATTGCAAAATAGTAAGATTTCTTAAGAAAGTTGAAACAAGAAACAAGAAATGAGAACGTGACCTCACATGGAAAAGATAAGAAACCTGACAAAGTTTATAAAATAAATGAGATGCTCCTCCGCCGTTATCAATCGATTTTGAGATGATTTGATACTTATTTATATATACTATTTCCCCCATATTCTATTCCACTCAATTATTTTTTTCTTCTCTTGAGTATTCTATTGAAACAGACCGATGCTCTGCGCAAACATGTACGATCATCTGGATTTTTTAAGACAATTGAGTTAGTCATCACATCCCCCATGTCAAGGTATTATATTCGTTATAACATATGAAATTCTGACTGGTCCCTTATATTATTAAATTAAATTACTAATCAAGCATTATATATTTATTTACAATTTCAACCACGGTGATGCAATTTGCACTGTAGGACTATTCAAACAGCTGTTGGAGCTTTCGGCGGTGAAGAGCACTCGGATGATCTAAATGTTCCTCCATTAATGGTGGAAGATGCCGGAGATAGCAACCGTCCTGCAATATCGAGTTTGAACTGTCCGCCATTTTTGGCAATAGAGGATTGTCGAGAATCTATTGTATAAATTCTTCAGCTCCAATTTAATTCTCGAATGTTTTTCTAGGAACTAACATTTTTCAATGATATATATTATATTGAGTCTAAATTATTGGATTTTATAAAAAAAGAAAAAAAGAATTATATTCTTTGATTCCACAGGGTATTACTCCATGTGACAGAAGGCGAAACATTAGCGAGTATCGACCTCTTTATCCTGCCATCGATTTTTCAATGGCAAGTTTCGCTACAATATCTTGCTAATTTTTTTTTCATCCCATTATAAAATTTTAAATTATTTCATTGCTTTTTAATTTTCTAGATTGAACATGATGAGGATGTTTTGTGGAAGCCAGACGTCAGAGAAACCGATGATGAAATGGCTGCCAGGGGACTGAAGTTTTTTAAATGGTGGGTGTGTATATTTCATTTATATCTACGTTTTCTTTTCTTTCTTTTGGTTTTCAGGGTTAATTTAAAAAATAATTTAATNATATATGTATATGTATTCAAACCACCGATAAAAATTGATAATTTTTTGTCGAACTAAAAAAAGCGTGTACATACCACATGATTTAAGGATGCCACGTAGAACTTAGGTTATATCCAAACCATTGATAAAAATTGATAATTTTTGTTCAAACTAAAAAATCGTGTACATTAATTTAGCATGTTTTTGCTGTCATCAAAATCGCTCCTTTCCCATTGATCATGTTTGATAAATTAATTTTAGTAAAACTTAAAATAACTTTAAATTTATTTTTAAGATATCATTTGGATGGTAATTTTGAAAAATAAATTATATTTAAATTTATTTTTTCAGAATCACTTATTTTACCGTTACTCTGCAAACAGACTGCAGTAACTCCAATGTTTAATAATCATATTAAAACATAGATAATAATGTGTATTGGACTTGGTGTATTGGTGTTCACTTCCCATTATTTCTCTGAGTGGGGTCATACCCTTGTTTATAATTTATTTTTAAACTGATTATCTCTTATATTTTTTAATTAAAAAATATTATGTTTTTATTAGTTCTTTACTATAACCATTTTTTTTATTTTCTTATTTACTTATATATATTTAACAATTTTAGATGTTTTCACAATAGAAAAAACTGTCATGTTTATATTATTTCTTTACAATAAAAATGTTGTTTTTTTATTTATTCTTTATACATGTTTTTTTAATTAATATTTTTATATTATTTCATAAAGGATGTTATTTTAAAAAACAAATTCCTCTTGAAATAAATAGTAAATAATAAAACAACCTTTTTTTTACAGTAAAGAAGTAATATAAAAATGAGAATTTATTTTTGGTAAAAAAATATATAAAAATAAACCGTAAAAAAATTAGTTAAAAATATATAAAAGTAAACAGAAAAAGGGAAATATTTGTAGGCCCGAAGGATCCAACAATGCCGCCAAAGAAATGTTTGAGAGGCATACAACATTATATCAAACATTATAAAATTGTCATTTTAAAATAAAATAATACTTTTGTAATTAGTTTTAAAATATACCGCTAAAGAAATGTATAAATCCTTTTTTCTACTTTAGTATTTCACGTCTTTTGGGTAATTTTTGCATTTTGTAGCTCCTTAATTAATTTTTGTATCGGTTGGTTTTCTATTTTGGTCAGGTTGTTGACTCGAAAGGAGAAGGAGATCGCGGTTGTCAGCCACAGTGGAATCTTATTTAATTCAATGCGTGAATTTGGAAATGATTGCGATGTATTTATACAGAGTGAAATCCGCGAATAGTAAGCATTACCTTGATATTTTTTTTATGAAAAAGAATCTAAAAAACGTTAATACAATATCATTTTCCAAAATATTAAGACATGGACAGTGTCACTGAAGGACAAATTTATTAAAATATATACATTTCTAATATATATATATATATATATATATATATCATTTTTATACAATAGGAAATTTAAAATCAATAAATTTATGCATTTTTATGTTTAAAAAGTGAGTTTGATGTATTTGTCTCCCAAAATTAATTATTCTCTCCTATATTACTATTTATGTCTATTTCTTATGCTTATCAAGTGTTCGATATGTGCCTAACAAGTGTAAAATCCATATTTAATTAGTGTGTAATATGCTTCTAAGTGTCCAATAAGAGTCACAGTTTCCAATGTAGACATGTATTTAAATATACCTCGTCAAATCCATTTAATCTCTATTATTGGTGTCAAAGAGAGAGTTCATAGAAGTATTGCGAAACCATATAAATAGGATTAGTTTGTCAAATGCTCCTACATTTGATTTTAAGGCTTAAAATTTAATTTTCCTCTTTTAATCTTCGCTAAAGAGATTCAATTTATTATGCAGTTTTGCCAATGCGGAGCTTCGTTCCATTGTTCTTATTGATAGGAGGTAAGCACATTCCTCATTACATCATTCTTTCCTTTAGATAATATGCATCCTAGACTCCATCAATTTGGTTTATCATTTGCAGTAGGATCGGATCAGACTCCTCGAATAATTTCCCAGGAGGAATACCGCGAGGACTTGATCTTCCTGTCGACATTGCAATTAAGAAGAATCCAGAGTTTCAGAAACGCCTGAAAAGCTTAGTTAAGTGATATCACCAAAGAGTTCTAATTACCTTCTTGTTCCTTTCTTTGGGAGCTTTGTTGAATTCTGAAAAAACTTTGTTGAAGTTATTATCTACCAAGACAGGTTGAGACTTTAGATTTAGACTACATCTGTATGTTTGTATCTTAAGAATTGTGTTTGTCTGTATCGTATCTATCAGTTGTACTGTATGCTTGCTTTTCTATTCTATTCAGTATAATAAAATGAAGAACAATTTCTATTCTGTATAACTTTTGTCTTCCAATAGAAAGAATAGGATGAATGTGATTATTTTATTGGAAAAAATTAGGCATAATAGTAAACTCGTGCGCAATGCAATAGTATATTGAAAGTTATACGAAAATGAGAGGAACGATTTTAGCCATGGAAGAGGAACAAATTCTTCTTATCTATATGAGTCTCCTCAACCAATCCAAATCCACTCTATAAATGCAGTAAGGTAATTAATTTTCATAATTATGTCTTTTTTTTAACGAATTTTCATAATTATTAATTAAATTTATTATATATGCTTTAATTATTATCGTCGGTACATTGGATAAAGATGATGGTCAGAAAAGTGTTGATTTTATTTAGGCATTTTACTTTTGGAAACTCTAAAATTTACTTGGTGTGCTTTCTTATTTTCATGTCGATCATGAAAACAATGAGAAAATACTGTTAGAAAAATAATTTGCTCAGAAAAGTATGTTTAAGAAAATGACATATAATATATAAGTTGTGACCAGGTTGTGACCTCCGAATGGTAAATAAAATCTTAAGTTGACTATGAAACGAAAATATCATAGATATACAAGTAAGACACGTCTCCACTGATTTGGATCTTTTGAATGGATTATGTCCAAAAGAGATAATATGAACCTCGGAAGATTAAATTATTTGTACAACCATAAATCATTCTTTGATTGGTGTTATTGTTGATGCTAAATCATCAATTTCTAGTGGGTCATGTTGCAGTACATATTTTACCCTCCAACAATTACTACTAAATCTTCTTTCTTTGGTGTCTCTAGAGGATAGCTTGAGTGGTTTGAGACCTAGTGAATAACTTTACGGTCTTGAATTCAAGTCATATGGGATGCAACTTCTATCGAGTGAGACTCCACAGGTATGTACACGAGTATGAAGATAATGTGCATATCCTCGAATATAGGAACATAAAGGTCAAACAACCGCTTCATTCTCTCTCCAATGTACCTTCTTGCTGTTTTTGAGAGCAATAAATTATTACTAATAATTCGTCTTTTCTCTCCATTCTTATTCCCCCATGTGAGTGAATTCATTGCCACACACCAAAGATTTCCCTCTTCCTTGTCTTGTCCAGTTTGTCCTTATGCCAAATTTGTTATAAATAATAATATTATTTTAATTTCTTTATCCCTCCAACACTTCTCTTCCTCCTTCCCTTTTTACTTTATTATTTAGGACCAAGTTTCTTACTTTTTTTTTTGTCATCTTCAATTTATTTTTAAAATATAAATAAAAATATTATTTTTTCATTTTTCTAATCATGAGCTTTTTGGATCATGCCGCTCTATACTTCTTTATTAAAAAAGAGTAAATAAAAACAAGAAACGAAAACATCGACAAATAAACTTTTAAAAGTACACATGAAGTAGGTCTTACACAAACCAGAAGAAAAAAAGTGAGAGATGAAAGAAGGTATGAGAGAGAAAGTTGGAAGGAAATGGGAGGAAAATGGATAAGGAACGGGTGAGTATTAAAAAGAAAAGATATTTGATAATATCTTCACATAAATAAAACGTGCATGAAATATGTGAACATATCTTAATATTTCTTATTTTTAAAAATTTATTGGTTGGTATAATATCTTCAATATCAACATCAGCATTCACATGAATAACGTGAACTAGCATTCACGTGAATCATGCTAATCTACATCTACCTCGTAAATATAGAGATACTTTTTTTTTAACCTTCGTACTCATCACCAATACAAATTTGATGGGTAATTAATTTTTTAAAAAATAGGAAAAATATCTAATTTTATGATTTTCTCCCCCTCCTACCAAAAAAAATAATGATTAGATTAGCAAAGGTAGATATAATACTTTTCATTTTTTTTATAAATAAATATAAAAAATTCCAATCAAGAAATATTATCATTATTATATAAACTCATACCCATCACATTTGGGAAATTGACCCAAACGAACCACCCAACTAAAACCCACCCTAAACCCTAAACCCAAACCAAATTTTCACTTTGTTCAAAAATTCCAATCAAGAAAATTGTTTTTCTAACCTAAAGCATCTTTTTGTGACATGTCAGTATAGGAGAAACTCGGGCGAGATCGAAGCCAACTCGCTCGAGTTTTGTAAAATTTGGTCGAAATTGTTGGTTAATGGGCAATTTTTTTATAACCTAGGGGATCTCAAACAATTTCAATTAATATATATTGTCGTATGTAAACTTATCTATGGCTCGGTGGTGTGAATCTAACCTTCATTTAACATGTCCATGTACAATTCTTGCTTTATACTGCGATTTTTAATTTATTTTGCGAATAATTTCATAAAGTTAAAATTCTAATACAAAACAAGCTCAAACCCACACCTTGAAGATGGTGGGATGCTTAAGGATCCATCAAGCAATACAACATCTTTGTTATAAAAGTTGTGAATCAATTATTTTGAGAAAATTTTACAACTCGGGACAAGTTTTCTTCGAACTCACTCGAGTTTTCCATTAATCTTGGACAAGTTTTCTTACAACTCGTCCACGTTTTACTTGAATATTGTCTTGTCCATTTTTATTCTAACTAATATTATTTCGTGAAAAACATTTTAAAATTAGGTTATTTGAATTAAGAAAATACGTCCATTGCGAGATTAAAAAAATTCTTACAAAAAATAAAATTATATTCGTAAATAAATAATCCTATTAAAATTTTATTTAATATTCAAGCTTTTAATTAAAATAAATATGACATAGATTAAACAAATGTATTGTTATTGAAATATTAATCTCTTTATGAAACTAATTAATAATTTATTTATATGGGATTAAAATTAAAAAGACATAAAAAACCAGCTAGCTCAAGTCTCGCTCTCATAATTATAATCCTATATTCGAAACAAAATTTTAATTTCATAATAATTAAATTAATTAAATAACAATCTTACTAATGCTATATTTAAAATAAATCTATGATTTCCTTCTTTAGTTAACGCTAAATTTGAAGGATAAAAGTCTAAATCTATTGTATAATTAAATACATTAATTCTCACCCCAATTAGTTCAAATATACCTTGTTGTAGTTATTCATAGTAATAATCCAACTTTTCTCTTCATTTTCATCCCACGTGAATGAATTCATTACCACACACCAAAGAGATTTCCCTCTTCTTTATCTTAGTCTTTATGCCAAATTTGTTAATTTATAATATTATTTTAGTTTCTTTTATCCTTCCGGTGGTCCTTTTCTCTTTCTCCTCCGTTTTCTCCCTTTTCTTTTTGAGAAGTGAGAGGAAAATGAATAAGAAAGGAGTAGATTGGAAGGAAGAAGAAAGAGTGGAAGGGAGAGAAATCGAAAAAAGAGAGTATTAAAAAGAATAAAGAAATGGATTCACCTAAATGTTATTTAATTATTTAACAATATGAATTATGTGAATATATAATAATATATTTTATTTTAACAAATTTGTCAATTACTCGAATTGCTTTGATATCGATACCAGCATTCACATGAACCACGTGAATTAGCATTCACATGAACCACGCATGAATCTATATTTATATTGGTCTTCATATTAGTCATAAAAAAAAAATTGGATGGAATATGATTTTTTTTTTTAAATTAGAAAAAAAAATACTAATTTTATGCTTTCTCCTCTCTTACTCGTACAAAATTTAAGGATCTTCCATTACATTCATTATTGTTTTAAAAAAAAATTCCATTCATTCATTGTGTCTCCAATGAGTTCAATTTACCTTCTTATAGTTTTTTAGAGTAATAATTCATCTTCTCTCTTAATTTTTATTCCCCACGTGAATGAATTCATTACCACACCAAAGATATCTCCCTCTTCCTTATCTTATCCATTTTGTCCTGATGCCAAATTTGTTATTAATAAAAATATTATTTTAATTTCTTTATCCTTCCATCACTTTTCTCTTTCTCCTTCGTTTTTTACTTTTTTTTTTTTGGTTTTTATTCAGGACCCATGCATTTGATATTGTTTCCATTTTTTTATTCGCCTCTATTTTTATTAGGAAATTTCAAACATTTTGCAATTATTGAGGTTTCTTATATTATATTCTCATTTTTGGAAAAATATTTTTAAATTGTTTAGAACATTTGGAAAAAGAAAACAATTATTCTCATTTTCCACTTCCAAAAACCCACATGAAGTAGGTTTTACACAAACAAGAAGAGAAAAGTTGATAGATGAAAGAAGACATGAGAGAGAAAGTTTGGAGGAAATGAGAAGAAAATGGATAAGGAGGGGAGGGCGTGAGTATTAAAAAGAAAAAAAATATATTAGATTCACATCAATAAAACGTGCATAAAAGATGTGAATATATCTTAGTATTTATTATGTTTTAAAATTTATTGGTAAGCATAAAAGCTATGATGTTAATATCAGGATTCCCATGAATAACGTGAACTAGCATTTATGTGAATCTTGTTAATCTACCTCTCTATCGTGTAAATATAGAGATCTTTTTTCTTTTAATCTTCATATTATCCACCAATAAAAATTTGACGGATTATTAATTTTTAAAAAATAAGAAAAATATCTAATTTTATGATTTTCTCCCCCTCCTGGAAAAAAAATTAATAGTGATTAGATTAGCAAAGATAGAGACATAATATTTGTCATTGTTTTTAAAAATAAATGTAAAAAAGGTAGGGATATTGCCAATACCATTTTTTTTGGGGAGCACTGAATCAATCCAGAAATGTTATTATTATATATACCCATACTCATCACACTTCTTACTCCACAGAAACGTGTCAAAAAATATTGAGTCCTTGGTCTTCTTCTTACTTTGCTATTCACTCTTTTTCCTGCCCTTCAGTTCAAGGTACATCAAATCATCAAATCAATTTTCCTATTTTTTTATATATTACAACTGTAGCGTGGAGATTAAATTCAAAATCTATTGATTAGGGACCGATGTCTATTATTACTGAGTTTAACTCATACTGATATTAAATCAATATTTTTTAATTATTTACTTGCTATTAATAATTAATATTATGCTGATCTAATGATAGACAATAGACATGGAAGCTGCAGCGGCTATAAATGTGTATCCATTCCACCGCACTAAGACTATTCATCTGGTATGTGCTAACAATGTAAAAAATGTACATCTTCTTCCATCTATGCACTTGTATTTTAGTTTTATTGAAATAAGTTTACAGGTGACTCATATACTAGGTTTTTATTTTAATTTTGTTTTTTTGTTATTGCAATATATATGCATATTTGATATTTTTATATATTTCTTAAATTAAGTAAATAATTTAGATTTTTATGTCGGGTAAATTTACAGTGTGGACCATATTTCTACTAATAAATTTAAATTTATCCCTTAGATAAAATGCGAAATAATTATAAACATATAGAATTATATATATTTTTATTTTAGTTTATTCTTTAAACTATTTATATAAAAAATAACTCAATCATATTTTATTTAGACAAAGTAATATCAAACTGTGTTTATAATAACTGCATCTAAGATTATATTTGGAAAAAACTTTCATTTTATACCCATAAAAACTGGGTAAGTTGTATAAATTTTTTTACCATAAATTTTTATTTTTATCAAATTCAACCATACATTTAGATAAGTGTTGCACTATTCAATTTTCACTTCTTCACCAAGTAGTTTAAATAATTATAAAGAAAACACGATAAATATTCTATAAAAAAACTAATTAATTTGATAAAAAGCTAGTTTGATTGATGCACAAAATTCACACCTAAATAACTCTATACCATAAAAGCTTACAATTAAAAAAAAAAACAGCTCTACCGTCATTTTTGTCTAAATTATGTCAATTTCATATCAAATATATTTTTTTATACCTCGACACATATGAGATTATTTTTTTAACAAATTTTCAAATGAAAATTTATTAGAAGGTAAAATTTGCTACACTTTTAACTTTTAAGGTCAAGATTGCAACACATATATAAGTGTAAGGTGTAATTAATTGTAATTGAAATCGAGGTTAAATTTGGTCATTTTCCTTTATGTTTATACGAATTGAAGGTGTAATTTATTGTAATTGAAATCGATGTTAAATTTGGTGGTTTTCTAATATGTTTATGAATTGTGCCCCACTAACGTGAAATCGTGGATCCGCCCCTATAGGTGAGGCATGCCCAGGGATTTCATAATTTGAATGAGGACCTAGATTCACTTCTATCTGAGGAGTTTTTTGATGCTCGACTTACTCCTGTAGGATGGAAACAGGTAATCGCTTCCCTTTGCTTATTTAATTTATAATTACTATTTTCCCCATAAATTGAACCCTTCTTCATGCTTTTCTGGGTGTTTTATTGAAATAGGTCGACACTCTACGCAAACATGTACAATCACGTGGAATTTCTAAGAAAATTGAGTTGGTCATCACATCCCCCATGTCAAGGTACCGTATTGTTATTGTATAATTTTGACCCCTTGGCTTCTATTATATATTTATTTACAATTTCAATGCAATTTATACTGTAGGACTATTGAAACAGCTGTTGGAACCTTCGGTGGTGAAGAGCACTCGGATGATTTAAATGTTCCTCCCTTGATGGTGGAAAATGCTGGGGGTAACAACCGTCCCGCAATATCCAGTTTGAACTGCCCGCCAGTTTTGGCAATTGAGGATTGTCGGGAACTTATTGTACAAATTCTTCAACTTCAAACTTCTCAAATGTTGTTTTAGGAAGCTAACATCTTCCAATGACATATATTATATTGAGCCTTAAATATATTATTGGATTTTATGAAAAAATCATTAATATTCTTTCATTCTATAGGGCGTTCTGCCAAATGTGAGGAGGCGAAGCATTAGCGAGTATCGGCCTCTTTACCCTGCCATTGATTTTTCAATGGCAAGTTTCACTCGAATCTCTTGCTAATTTTGTGTTCATCTCCATTATAAAGTTTTTAACTTATTTTCATATTGCTTTTTTTTCTCTCTAGATTGAACATGATGAGGATGTTTTCTGGAAGCCAGACGTCTTCGAGACCGAGGACGAAATTACTGCTAGGGGACTGAAGTTTTTCAAATGGTGAGTGTGTATTTCATTCATATATATATATATATATATATATATATTTACGTTTTCTTTTCGTTATTAGTTTTTTCTGCCATTAAATTAATTCTGGTTTAGTATTTCATGTATTTTATTTTGGTCCGTTTTAGGATTCGATAGCTCCTTAATTAATTTCTGTATCTCTCGGTTTTCTACTTTGGCCAGGTTATTGACTCGGAAGGAGAAGGAGATCGCGGTTGTCACCCATAGTGCATTCTTAATTTTTTCAATGCTACATTTTGGAAATGATTGCGATCTATTTATACAAAGTGAAATCCGCGGAAGGTAAGCATTACCTCGATATATTATTAATAAGGATATTTATACAATAAGGAATTTAAAATTTTTAAGGATGAATAAACTATTACTCAACTCAAAAGCTTAAGTCGATGGGTTGGGTAAATTTAATTCATGTATGAGTAATAAAAGTCAATAAATTCATACATTTTTATGCTTAAAGTGAGTTTGATGTATTTTTCTCTTAAAATTTACTATTTTTTCTCCTATATTACTATTTATGTCTATTTCTTATGCTTGTCAAGTGTTCTATAATGTCTAACAGGTGTCAAATCCATATCCACTTTGTATAGCTAGTGTGTATGATATGTTTCTATTGAGCTAATAAGTGTCTCATACATGTCTAATAAATGCTGGAGATTCGAATGTAGACACGTATTTAAATATACCGCATCAAATGTATTTAATCTCTATTATTAATGTCGGAGGGATGGAGAAGTATTGCGATACCATATAAATTAGTGTTGTCAAAGCTCCTACATTTAATTTTAAGGCTTGAAATTTTATTTTTGTCTTTTAATTTGGACTAAAGAGATTCATGACTTTAATATGCAGTTTTGCGAACGCTGAGCTTCGTTCCATTGTTCTTATCGATAGGAGGTAAGCACATTTCTCGATATTTCATTGTTTTCTTTAGGTATTATTATGATCTAAGACTCCATCAATTTGGTTTATCATTTGCAGTAGGATCGGATCAGATTCCTCGAATAATTTCCCAGGAGGAATACCGCGAGGGCTTGATCTTCCTGTCGACATTGCAATTAAGAAGAATCCAGAATTTCAGAAACGCCTGAAAAGCTTAGTTAAGTGATATCACCAAAGAGTTCTAATTACCTTCTTGTTCCTTTCTTTGGGAGCTTTGTTGAATTCTGAAAAAAACTTTGTTGAAGTTATTATCTACCAAGACAGGTTGAGACTTTAGATTTAGACTACATCTGTATGTTTGTATCTTAAGAATTGTGTTTGTCTGTATCGTATCTATCAGTTGTACTGTATGCTTGCTTTTCTATTCAGTATAATAAAATGAAGAACATTTTCTATTCTGTATAATTTTTGTCTTCTAATAGAAAGCGAAAATGAGAGGAACGATTTTAGATGGATGTTGCAGCGGCTGTAAATTTGTATCCATCGCACCGCACTAAAATTATTCATCTGGTGAGGCATGCCCAAGGATTCCATAATGTGGCAATTGATGAGAACTGGACGGCAGCTTTATCTGAGGACTATTTTGATGCTCGACTTACTCCTTTAGGATGGGAACAGACCGATGCTCTGCGCAAACATGTACGATCATCTGGATTTTTTAAGACAATTGAGTTAGTCATCACATCCCCCATGTCAAGGACTATTCAAACAGCTGTTGGAGCTTTCGGCGGTGAAGAGCACTCGGATGATCTAAATGTTCCTCCATTAATGGTGGAAGATGCCGGAGATAGCAACCGTCCTGCAATATCGAGTTTGAACTGTCCGCCATTTTTGGCAATAGAGGATTGTCGAGAATCTATTGGTATTACTCCATGTGACAGAAGGCGAAACATTAGCGAGTATCGACCTCTTTATCCTGCCATCGATTTTTCAATGATTGAACATGATGAGGATGTTTTGTGGAAGCCAGACGTCAGAGAAACCGATGATGAAATGGCTGCCAGGGGACTGAAGTTTTTTAAATGGTTGTTGACTCGAAAGGAGAAGGAGATCGCGGTTGTCAGCCACAGTGGAATCTTATTTAATTCAATGCGTGAATTTGGAAATGATTGCGATGTATTTATACAGAGTGAAATCCGCGAATATTTTGCCAATGCGGAGCTTCGTTCCATTGTTCTTATTGATAGGAGTAGGATCGGATCAGACTCCTCGAATAATTTCCCAGGAGGAATACCGCGAGGACTTGATCTTCCTGTCGACATTGCAATTAAGAAGAATCCAGAATTTCAGAAACGCCTGAAAAGCTTAGTTAAGTGA ATGGATGTTGCAGCGGCTGTAAATTTGTATCCATCGCACCGCACTAAAATTATTCATCTGGTGAGGCATGCCCAAGGATTCCATAATGTGGCAATTGATGAGAACTGGACGGCAGCTTTATCTGAGGACTATTTTGATGCTCGACTTACTCCTTTAGGATGGGAACAGACCGATGCTCTGCGCAAACATGTACGATCATCTGGATTTTTTAAGACAATTGAGTTAGTCATCACATCCCCCATGTCAAGGACTATTCAAACAGCTGTTGGAGCTTTCGGCGGTGAAGAGCACTCGGATGATCTAAATGTTCCTCCATTAATGGTGGAAGATGCCGGAGATAGCAACCGTCCTGCAATATCGAGTTTGAACTGTCCGCCATTTTTGGCAATAGAGGATTGTCGAGAATCTATTGGTATTACTCCATGTGACAGAAGGCGAAACATTAGCGAGTATCGACCTCTTTATCCTGCCATCGATTTTTCAATGATTGAACATGATGAGGATGTTTTGTGGAAGCCAGACGTCAGAGAAACCGATGATGAAATGGCTGCCAGGGGACTGAAGTTTTTTAAATGGTTGTTGACTCGAAAGGAGAAGGAGATCGCGGTTGTCAGCCACAGTGGAATCTTATTTAATTCAATGCGTGAATTTGGAAATGATTGCGATGTATTTATACAGAGTGAAATCCGCGAATATTTTGCCAATGCGGAGCTTCGTTCCATTGTTCTTATTGATAGGAGTAGGATCGGATCAGACTCCTCGAATAATTTCCCAGGAGGAATACCGCGAGGACTTGATCTTCCTGTCGACATTGCAATTAAGAAGAATCCAGAATTTCAGAAACGCCTGAAAAGCTTAGTTAAGTGA MDVAAAVNLYPSHRTKIIHLVRHAQGFHNVAIDENWTAALSEDYFDARLTPLGWEQTDALRKHVRSSGFFKTIELVITSPMSRTIQTAVGAFGGEEHSDDLNVPPLMVEDAGDSNRPAISSLNCPPFLAIEDCRESIGITPCDRRRNISEYRPLYPAIDFSMIEHDEDVLWKPDVRETDDEMAARGLKFFKWLLTRKEKEIAVVSHSGILFNSMREFGNDCDVFIQSEIREYFANAELRSIVLIDRSRIGSDSSNNFPGGIPRGLDLPVDIAIKKNPEFQKRLKSLVK Homology
BLAST of MC11g_new0120 vs. ExPASy Swiss-Prot
Match: Q9FGF0 (Phosphoglycerate mutase-like protein 1 OS=Arabidopsis thaliana OX=3702 GN=At5g64460 PE=2 SV=1) HSP 1 Score: 349.0 bits (894), Expect = 5.2e-95 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy Swiss-Prot
Match: Q8GY96 (Phosphoglycerate mutase-like protein OS=Arabidopsis thaliana OX=3702 GN=PGM PE=2 SV=1) HSP 1 Score: 335.1 bits (858), Expect = 7.8e-91 Identity = 158/264 (59.85%), Postives = 202/264 (76.52%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy Swiss-Prot
Match: F4IBB2 (Phosphoglycerate mutase-like protein 2 OS=Arabidopsis thaliana OX=3702 GN=At1g58280 PE=2 SV=1) HSP 1 Score: 329.3 bits (843), Expect = 4.3e-89 Identity = 164/301 (54.49%), Postives = 201/301 (66.78%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy Swiss-Prot
Match: D4B4V1 (Probable phosphoglycerate mutase ARB_03491 OS=Arthroderma benhamiae (strain ATCC MYA-4681 / CBS 112371) OX=663331 GN=ARB_03491 PE=1 SV=1) HSP 1 Score: 70.1 bits (170), Expect = 4.7e-11 Identity = 64/236 (27.12%), Postives = 98/236 (41.53%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy Swiss-Prot
Match: P36069 (Probable phosphoglycerate mutase PMU1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=PMU1 PE=1 SV=1) HSP 1 Score: 67.8 bits (164), Expect = 2.3e-10 Identity = 63/229 (27.51%), Postives = 104/229 (45.41%), Query Frame = 0
BLAST of MC11g_new0120 vs. NCBI nr
Match: XP_022136291.1 (phosphoglycerate mutase-like protein 1 [Momordica charantia] >XP_022136301.1 phosphoglycerate mutase-like protein 1 [Momordica charantia]) HSP 1 Score: 586 bits (1511), Expect = 2.62e-211 Identity = 288/288 (100.00%), Postives = 288/288 (100.00%), Query Frame = 0
BLAST of MC11g_new0120 vs. NCBI nr
Match: XP_022136326.1 (phosphoglycerate mutase-like protein 1 isoform X1 [Momordica charantia]) HSP 1 Score: 477 bits (1227), Expect = 4.85e-168 Identity = 237/288 (82.29%), Postives = 254/288 (88.19%), Query Frame = 0
BLAST of MC11g_new0120 vs. NCBI nr
Match: XP_022136313.1 (phosphoglycerate mutase-like protein 1 [Momordica charantia]) HSP 1 Score: 476 bits (1224), Expect = 1.34e-167 Identity = 235/288 (81.60%), Postives = 256/288 (88.89%), Query Frame = 0
BLAST of MC11g_new0120 vs. NCBI nr
Match: XP_022136334.1 (phosphoglycerate mutase-like protein 1 isoform X2 [Momordica charantia]) HSP 1 Score: 446 bits (1146), Expect = 5.30e-156 Identity = 222/269 (82.53%), Postives = 238/269 (88.48%), Query Frame = 0
BLAST of MC11g_new0120 vs. NCBI nr
Match: XP_022141648.1 (phosphoglycerate mutase-like protein 1 [Momordica charantia] >XP_022141656.1 phosphoglycerate mutase-like protein 1 [Momordica charantia]) HSP 1 Score: 416 bits (1070), Expect = 3.01e-143 Identity = 200/280 (71.43%), Postives = 233/280 (83.21%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy TrEMBL
Match: A0A6J1C354 (phosphoglycerate mutase-like protein 1 OS=Momordica charantia OX=3673 GN=LOC111008016 PE=4 SV=1) HSP 1 Score: 586 bits (1511), Expect = 1.27e-211 Identity = 288/288 (100.00%), Postives = 288/288 (100.00%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy TrEMBL
Match: A0A6J1C377 (phosphoglycerate mutase-like protein 1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111008037 PE=4 SV=1) HSP 1 Score: 477 bits (1227), Expect = 2.35e-168 Identity = 237/288 (82.29%), Postives = 254/288 (88.19%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy TrEMBL
Match: A0A6J1C7A8 (phosphoglycerate mutase-like protein 1 OS=Momordica charantia OX=3673 GN=LOC111008026 PE=4 SV=1) HSP 1 Score: 476 bits (1224), Expect = 6.48e-168 Identity = 235/288 (81.60%), Postives = 256/288 (88.89%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy TrEMBL
Match: A0A6J1C415 (phosphoglycerate mutase-like protein 1 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111008037 PE=4 SV=1) HSP 1 Score: 446 bits (1146), Expect = 2.56e-156 Identity = 222/269 (82.53%), Postives = 238/269 (88.48%), Query Frame = 0
BLAST of MC11g_new0120 vs. ExPASy TrEMBL
Match: A0A6J1CJV8 (phosphoglycerate mutase-like protein 1 OS=Momordica charantia OX=3673 GN=LOC111011947 PE=4 SV=1) HSP 1 Score: 416 bits (1070), Expect = 1.45e-143 Identity = 200/280 (71.43%), Postives = 233/280 (83.21%), Query Frame = 0
BLAST of MC11g_new0120 vs. TAIR 10
Match: AT5G64460.2 (Phosphoglycerate mutase family protein ) HSP 1 Score: 349.0 bits (894), Expect = 3.7e-96 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), Query Frame = 0
BLAST of MC11g_new0120 vs. TAIR 10
Match: AT5G64460.1 (Phosphoglycerate mutase family protein ) HSP 1 Score: 349.0 bits (894), Expect = 3.7e-96 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), Query Frame = 0
BLAST of MC11g_new0120 vs. TAIR 10
Match: AT5G64460.3 (Phosphoglycerate mutase family protein ) HSP 1 Score: 349.0 bits (894), Expect = 3.7e-96 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), Query Frame = 0
BLAST of MC11g_new0120 vs. TAIR 10
Match: AT5G64460.4 (Phosphoglycerate mutase family protein ) HSP 1 Score: 349.0 bits (894), Expect = 3.7e-96 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), Query Frame = 0
BLAST of MC11g_new0120 vs. TAIR 10
Match: AT5G64460.6 (Phosphoglycerate mutase family protein ) HSP 1 Score: 349.0 bits (894), Expect = 3.7e-96 Identity = 164/277 (59.21%), Postives = 213/277 (76.90%), 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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