MC09g0110 (gene) Bitter gourd (Dali-11) v1

Overview
NameMC09g0110
Typegene
OrganismMomordica charantia cv. Dali-11 (Bitter gourd (Dali-11) v1)
DescriptionUnknown protein
LocationMC09: 1015500 .. 1029590 (+)
RNA-Seq ExpressionMC09g0110
SyntenyMC09g0110
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: utr5CDSpolypeptideutr3
Hold the cursor over a type above to highlight its positions in the sequence below.
CTCAATCGACTTTTCCTCTGTTCCCCTTCCTCTCTCTCTCCATTCAACGAGAAGTAGTCTTTCCCCTCTCTTCGCCTCTGCCTACGTTGTGATTGCTTCCATCGCCGCCGCGGTTCGATTGTGATTCGTTGTTTCGTCTCAGCCTTACACCAGGTTTGCATTCTTCTCATCCTCTTACACTGATTGAATGCTTGTGCCAAAATTACCCAAATTAGGTGAAATGGCTAATTAAGCTTATGGTTGCTATTTGTAATTTCTCATTTCAGAAATTTGACCTGTGACAATGTGATGAAACTTGATTTCTCTTTAGTCGAATTGACGATTTAGTGGAGTGGCTCTTTCTAATTATCTAGGTCTTTCTTAGTTTCTTGGTCTGGTTCGACATAATTACTGGCTAGGAAATTGTGACCTATAACAATGTGATGAAACTTGATTTCTTTGGATTCCAGTTGACGATTTAGCGGATTGACTCTTTCTAGATATGTGGGTTTCGTTTAGTTTCTGGGTCTGGTTCTCGATATAATTCATGGCTAGGAGATCGTTTAAATGTTTCTGTAGTTCAATGATTATGACCTGGCATCCGCTTGCTTATATTTTTGTTATCTTATAAATTTATATTCGAATTCATAATCATTTTTAGATGAATCCAATTTCCTGTGATGGCTGGAATAATATTTAGAGTGGATCCATAAATGATTCATTAAAGTCTATAGGAATCGTTGTACGATTTATCACCTTTTTTGTACAATCTCATAGAGAAATTCAAGGTAAACACAAAACGGTCCTGAACAACTCGGAGCAGCTAAAAAGATAGTTTACATTGCTTAATGATGGTTGCTGATTTGTTCCCACAAACTTAGCAACTCTTTTCTTTTCACTCTTTCGAGAATTTGTTTCATTAATTCAATGAGAAGTTTGTTTCTTGTTAAAAAAAAAAACTTAGCAGCTGATAATATATGTCAAAAAATTAGGATATTAGATATTTTTGATATGAACTAGTAGAAAATGATACCTAAACTTGTTGATAAACAGTACTTGAGTTCTTAACGGAACAAATATATTATTGAAAATAAATAGGTCACGATTTTGGCAAAAGAAATGCCAAAATCTAAATATTTGGGATTCTTAGATGAATAATAGGTAGGATATTTGATTAGCTTTCATTTACAAAAACTTCATTACTTATAAAAGAAATAAAAGCAAGGGTGAGTAAGGGACTATAAAAAGAAAAACAACTCAATTCCAATCTATTTTATGGGTCTCTGCCATTTTTAGTTTGTACATCTACACGAAGAACCAAATGGAAATAGTCAAGCATGGAAAATATTTGTCTAATGGTAATAAAGGACCCATGGAAAATATTTTACTTTCGCACAACGTTGAGAAAAAATGTCATGTTTGCCCCCTAAAATCAAAAGAGGCAATTGCATTCATGGCAATCTTACTCAAAACAATATAAATATAAAATCTAACAAGTTAAAAATATTTGTAAATATGGCATAATTTTGAGCTCAAACGAATAAAAATGCATGAAAACTTGAAAAGACCCATTAGCATATCTCAACATTGAACAATAAGTGATAGATGTCTATTACTGATGGACGTCGATTTGATAGAAGCAACGTACATTTATCATGATTATTTGCAAGCTCATATGCTATTGGGTCTATTACTTTTTTTTTTTTTTGGATAATTGGGAATTGGAGTTTTGCTATCCTATATCTAGAGGCACTTGCGCCCACCCATGGCTCGGATCTGGGAGGCATCGGTTCTTGGTATTAAGCTCACGGCTCATCGAAAAGTTCGAACTTGAGACCTTGACCAAGAGACCCTAAGTCTTTACCAATCGGGCTGGGGGCAGGTCTATTACTCATATACATCATCAGTATAATAAGAATGGTATAACAATAGTATTTAACTTTTGTTTTTTTATCATTGATTGTTTGTACGGTCATTTACTATTAGGTTTGTTACTGATATAATTTATCAATAAAATAAACATGGTATATAAATGGCATTTGACTTTTGTTTCTCATCTATATTCTAAGAAGCACAGACACTTCATTTTGGGTAACGTATCCGTGTCGGATACTCCGATACTCGGACACTTATCAGACACTTGTTAGCTTAATAGATATGTGTCACACACTAGTTGTGAAAAGTGATAATAGATCTGACACTCGTTACTTGTTAGACACATAAACACTTGTTAAGCATAAGAAATAGACATAAATAGTAATATAAGACGGAATAATAAATTTTGAGGGTAAAATATATCAAACTTATTTTTTTTAACATAAAATTGCATAAGCTTATCAACTATAAATTTCCTTGTGGTATAAAACAAATATATATCTAAAAAAATTGTATATTTTAATTAACGTGTCCTTGTTGTGCCTGTGTCCTGTAATTTTAGAAAATAACATGTCATCGTATATGTCTCTCGTGTCCGTATTCGTGCTTCTTAGTTTGTATTTGTTTGCATCTTATTTGCTAGTAGGTATATCATCGATATATCATATCAACGTGATACAAAATGGCATATCAGTGATATTTTACTTCATTTTATGTTAGCATTGTTTGCATGCTCATTTGCTATTAGGTTAATCACTAATAAACTATATAAGTGGAATAAAAAAATAGTATATCAATGATTTTGACATTTTTCTCAATCAATTATTGTTCATTTGCTATTAGGTATGTTATCGATATACTCTATCAGTATAATAAAAATGATATATCCATGGTATTTAACTTACTTTCATTTTGTTATCGGTGATCCTTTGCATATTTATTGCTATTATGCAATCACAGACCTCTCTATGGTTATTTGAGTAAGAATAAAATTACATAACAATTTATAAATAGGGACACCCTTTTTAAAGTCATATTTGCCATTTATTTTGTTGTACAAATTTGTAAATATGACAACCAATTTTGTCGCCTTTTGTAATTTTTCAAATAAAAATACCATTTCTATGATTTGACAAGTATTGACTTGCCACCATCAAAATTAAAAAAGAAGAAAAAAAAATTGGGCAGACCCATTATTTTTGCAGGTCTAGGACCTTCAAGAATTGCGAGGAGTTCAATGTTTAAAGGGACATACGGAATATCAAATCTCTTTGATATCACAATACACTATATTGATTTCACCCATATCTTCATAAAAAGAGTTACTCCAGTACCTGTGGGTGACAGCCTCCCATTACAAGCGGCATTGGTATTGAGTTTGATCCAATCCGCAGAAGGTGGGTTCCATTTGAATGGATTTGTCTACCTATATGCCGTTTGTTCAAATCATAAGGTTGAATTTGCCTTGTTCAAAGCATGTGGTTTATTGAAAGTGGCTAATAAATTAATTGGAGGATTTTTTATTTTGAAATATACCAAATCACAAATATGGGTGGAATTCAAATATAAAACCTTTGTAGAGATTAATTGGGTTGACCTAGTGATCAATATGTGTCAAGCTAGCTTAGACACCAATATTAAAAAAAAGGAAAAAGAAAATGTGGAGAATAGTAAAAAAGATGCCTTAACACTTGTTGGAGCTAATTGCAGAAACTATTTTAAACAAACAAGATAGTTTTATTAATTTTAAGAACTACTTTCATTTTCGAAATACCATCCACACCAAGGCAGCACCCTTTCAAAATTTATCCCTCTTCATAACTTATTTTTTATCGGAATTATTCTGTCATTGCTGCATCGTACTCGGTTGTCCTCTCTGTTGCTCGCGAGTGCTTATGCTACCATCTAATGACAGTTTAGGGAAAGACACCCCAAAAAGACTGGAGAGTGCAGTGGCTGGGGTGGTTACATGGTGGGACAGTTCGTTGGTGGGTAGGTGGAGTTTTTCAAATGGTATATGATGCTTTGCAATTCATTGAGAGATCGACTTCGGCCCTGGCTTCGTGATTATGATAGGCTTCAGTCTTTTGCAGTCATTCTCATTTATATCCAGGTGCATTCTTTCTCCCATCTCCTCCATCCTCTTTCATCTTTTTGTTCTCTCTGTAATTTTTATTATTTGTTATTATCGTTTTGTCATTCTTAATCTAATTTTTATACACACATATGAGAAAGATCGGGTGCGCATTGATTGGATCGCTAGGGGCATTGTACAACGGTGTATTGCTTATAAATTTGGCGATCGCATTATTCGCTCTGGTCGCCATTGAGAGTAGCAGTCAGAGTCTTGGCCGTACATATGCAGTTCTCTTGTTGTCTGCCATTTTCCTCGATATCTTCTGGTTCATTCTTTTTGCCTACGACACATGGTCTCTTCCTCTCTCTTGTATTGTCAGTCTTAGTATGTTTAGTTTATTTCTGAGCATGGGTTGGCGGACTGCCGATTACATAGCGATATCTTATCCTTGTTCATAGAGTAAAAGTAGAAAGAATGCATTCAGTACAACTGTACAAGTACGTGTTATATTATAATTATACAATACATATTGATATGATATGCTTGAAATGATAGCCAGTACGTTCCCTGTTCGCCCTTGATCTCTTTAGGAATTATTTTATTTATTTTCTCTCTGCAAGAATACATTTCCAGTGTGGAGGCTGCTTATCATACTCATACAATCCTACTATTCTTTAATTACTTGGATAATTTATGATAAATGTTCATTCATGTTTGTCACTGGTCCATGGAAGCATTTCCATAGATCAGATAGACTAAGCTAATTCAGTTAATGAATCAATGATGAAACTTCACACACGAAGTTGATATTCTAATTTCTGACTTATATGCTTATGGTTAGATAATTAATAAAAAATTTGGAAGGAATCTTTGATCTTGTATAATTGCAACCAAACCTATGCATATTACCATCTGTTACTGCTCACCTATCATCCAACCTAGGATAATTTTCTGTAAAACTCTATTTGAGCCTAAGAATCATGGATATGGACACGAGACATGGACACCGTGTGGGAAGTTTCTTATCTAAAAAAAAAATGGACATGGACACGGCAATGGCACATTTATTAAAATATACAGTTTTTTAGGTATCTATATTTATATACCGCAAGAAACTTCAAAGTCAATAAGCTTATGCAAATTTTTATGTTTCAAAAAATGAGTTTGATGTATTTTACTCTCAAAATTCATTATTTTGTCATATATTACTAGCTATGTCTATTTCTTATGTTTAACAAGTGTTTGATGCATGCCTAATAAGTGTTGAATCCATTTTCAGTTTGTACAACTCTAGTGTACGACACACATCTATTAAGCTAACCAGTGTCTCTAGTGTACGACACACATCTATTAAGCTAACCAGTGTCCGATACGTGTTCAATAAGTGTTGGAGTGTCCGACACGGACACATTACATAAAATGAAGTGTTCATGCTTCTTAGATTTGAGCACTGCATTTTTCTGAAGCCCAATTTTTTTTTTGCCTGCCTTTTCTTTTTTAATATTCATTAAATGTGTGAGTGCATAACATGCTTATACTTTGATACATGGTGTTAGTTGCTTTTGTACCCTGTATACTGAATGAAAGATTGCTTGTATGCAGGAACATCTCGTCAAAGCAATATGGACCCCTTTTTAGCTTTTCAGTGAAGCTTACTTTGGCTATGCAGATTATTGGATTTTCTATTAGGTTATCGTCTTCACTACTGTGGATTCAAATCTACAGATTGGGAATTTCATACATGGAAACTTCAGTTCCTCGAGAGGCAGATTATGATTTAAGAAATAGTTTTCTTAGCCCTACTACTCCTGTTGTAGCTAGACAAACCTCAGGTTCTGATGATATGATAGGGGGCTCTATCTATGATCCAGCTTATTACTCATCCCTATTCGAAGATGGTCAAGATAGTAAATGTTTGTCTGGGGTAAGGTATCAATTCTGTTATGCACGTCTGCACGCGATCATTCTTGATTTGTTGTCATTCATGTACTAGATCTAAATGTTATGGTAAGATCCTATTGCTCTATCTTGTTTATAAGTGTTGGGATTTTTAATAATAATAAAATCACAAATCATTAGCACACAAGAGAGAAAATAGAGAACCAAGATTTACATGGAAAACCCCTCAGTGTACGGGGAAAAACCACGGGAGGGTTCTGAAAAACATCCACTATAAATATAAGGGGTCACCAGTTTCTTTCCTAGTCATAACTAGAAGATACAACAAAATACACAAGGCTAGAATCCTGGCTAAAAACTGGTACGTAACAATTCCCTTCATCTACATTGAAATACAGTATTGGGCCTAACTTACTCCTCCATCTCCCCATAGATCTGAAAGGCCGCCCTTTGAACCTTTTGTTTGACGATCAACCATGAACCACCTCAAAATATCTTTGATGGCTGTGTGCTAGAACATGCCTTCCCTCTCAAGTAGCCCATGCTTGAAGCCCAATCTCATGCGGGAAGGGTAACTAATGAAAAATTTTCCATTGTCCCCATTAGTCATCTATCATAATAGCCCCTCCACTCTACCACCACTCACCAAATACCCAATGAAAAATTTTCCATTGTCCCCATTAGTCATCTATCACAATAGCCCCTCCACTCTACCACCACTCACCAAATATCAGCACTCTGACGGAGGACTAGATTCTCACCTCCTTAACACCAATTTCAATAAGTTGTTTCTGGTTCAGAAAAAAAAACACCAATTTCAATAAGACATATTTTGACCGCTTATATGTAGGAAATGGAACTTTGCATCATCACTATCCCCAAATCCAATAAGGAGAAAAAAACACCAGCCAACTCAAGAAAAGGTGTCGGGTATCTGAAAAATCTCTCCTTTTCTATAAACTATGAAAAGAGCAACAACTCCATGGCTCTAGTAAAAAAAATAGCCTTAATTAAGCCACTTATCTCTTGGTCAATCCAAACATTATGATCCTGCAAGAGCAAAGCTTAGCAGTGTGGATAGGTTGATGGTCAAATCATTATGGGGCTTCATTGGATGAGTTGGGCAGCTCTCAATGTTGTCCGCTCAACATGAGGTATTTTAATCACGATCCATTTTTCACTGTTAAAGAGCTAATTGAAGGATCTTACTCTGTCCTAACTTTATTCTTGTTGGCATTTTTCCTTTTGAATCTCTGGCATCTATCTAGGGCTGCCATTGGACCTTTTGTCTGGCAGGAAGTCAGGGATCTTCGCCATCTATGTGATGACTCATGGATCCTCGGAGGAGATTTCAACATTTCGTATTGGTCTTGGGAGAAATCTCTTGGCAGACCTTTTACATAAAGTATGCGGTTCTTCAATTCCCTTGTAGAGTTAGCAGTCATAGACATCCCCTAGAGTAATGGCAGGTACAATTGATCAAGCATGAGATCACATGCTTTCTCTCATGGTTGGACAGATTCTTCTTCACCAATAGATGGCTCCAGTTGTTGGCTTTCATGTCTTAAAACGTTTAGGAAGTATCACTTTACATCATTTTCCCATTCTTTCGTATATAGGGACATCAAATGGGGCCCCAACACCTTTCAGATTTGAGAATGTGTAGCTCCATCAGAAATATTTTAAACCTTTTCTAGAGAACTATTGGCAGAATAAGCCGCTTCAAGGATGGCCAGAGCATGACCTCATGATGAAACTTAGGGGTCTCAGGGCAGCCTTGAAAAACTGGAATAAAGAGCATTTTGGATTTGTCCAGGATCACAAATCTACCATTTAGGCGAAGCTAAAGGCCATCGACAATACAGAGGAGCTAGCCCCCATCTCCTAAACAAGTGGAGGACAGAAACATTTTTGAATTTAGGGACCAAAAGAGTCACTGGGACCAGATGACTTCATAGTGGACCTTTTTTGAACATTATGTAACATAATCTTAGCCGACATCACAGAGATGTTGACATAAATGATTTCCAAAGTGAAACTTACATATGTTTGACCCAAAAGAAAATAGACACAAAAACTGTATGATTACTGTCCAGCTAGCTTAATTCCTTGTGCATATAAGATCTTGTCGAGGGTCTACCAGATAGGTTGAAATGGGTGACAAATCCTCAATGCTTTTGGCTCCCTATAATTGAAAAGACTGGTTACAAGCTTCAAATGTGGAACCACGATTTCTTATCCAAAGGGAGCAGGCTAACCATCATAGAAGCTGTCTTATCAAATTTACCTATTTTCTACACGTCCCTCATCCTCATCCCTACTGGGGCTGCCAATATTCTGAAACAATTATCAGACTCTCTCTAGGAAGGTTCGAAAAAGATAGGCTCTTTGCATCTGATCAATTGGAAAAAGGTCCAGCTACCCACAGTTGCTCAATGGAGGCCTCAAAATTTTTTTTATAATCTAAAGTGGAGCTTTTTTCCCCTATAGTCGGGGACCCGAAATCGCTCCAAGATTTTTATATTAAGCTCATCTGAAGGTTTGAACTTTAGACCTCTAAGTCGTATAACGAGACCCTTAGCTACTGCCACTAGGGCCACCCCTTGGGGCAATGGAGGCCTCAACATTGTGTGTTAGAAAGAAAAATCAGGCCCTCCTCTCAAAATGGATTTGGAGGCTCTCTATGGAAAAATTTCATAATTGCAAAATTGGGGAATCAAACATGACTCGTAGCCTAAAAACAATCTCCACGGAATTAAAGGTCCTTGTATAGCAATTTAAAACTTCACTGACCTTATGAGAAGCAAGGCAGTTTGCAAATTGGCAAAGGCATTAGTGTTAGCTTTTGGCACAATGGACAGGCGTCAAATTCCACCTTGGTGGCTTATTTTCATTTATTTTTCTACATCTCTACAAATAAAAAACCCAAGGTTAGTGAAGCATGATCTCCATTAACAACCTTTTAATAAACTGGAGATCTTTTTTTGCAACTCCCAGTTAGTTGGGGTTCCTTTTCCCCTCCCTTTTGTATAGTTCATACTATCTATGAAATATCTTGTTTCCTGTAAATAAAACATTTTAAAGCTGATCCGCTGTGAAGTAGAAATCTGTACTCTAGTTGTTGGTATTAGTGGAGTAATGATGTAAGATGCTGTAATTAAATAGCTCTATTACTTAGGCAGTGTGGGCTTGCCATTATTATTTTCTAGAGGGCTTGTCATATCTACCACATATTTTCTAGAGGGCTTGCCATTGATTTTACTGTTCGGTTTAATTAGTTTTACTGGGTATACTGGTAATACAGGTTTCAATTGTTTATAAATGCCCCACTTTTTGTCTGGGAAGTTAATAATAAAAATCCATGAGCTTTCGTCTCCTTGATTTGGAGAATAGTTAGTATAAAGTTGATGTAGGTTGTTGTGTTTAGATGAGACTCTTTTTCAAGCCTTGCAGGGTCACCATTAGTTTTACTGTTAATTTTAGCTATTGTAAATGGATTGAACAGTAATAATGGTTCCAATTGTTTATAAGTGTTCTAGGAAGATACTAATAACCAACAAATTTATAGAAACAATTCTTGCTATTTCTGTCTGCAGATCTCCCATTTTGGTAATGGTGATAATGGTTCTACTTCTGGGCTAGATGTATCTCGATCAAAGATATCCCGACATTTCCAAGTAGTTGATGTGAGTGTCCTTTTCCTAGATGATGAAAATCTATTAGTATTTTTAGTTTTATGGAATTATGTTATCAAAACTTATTATGTTTGGATTTAAACATTATTCTCCTAGTTTGATTTATTCAAATTGGAATGTTTTTGTTGCAACATTCTGAGTTCTTTTTAGTAGCTTTTATTTGTATTTTCACCCTTTCGAGGGTTTGTATCTTTGAACAATTTTGTTCCTTTTCATTATTTCAATGAGAAGTTTGTATCTTGTTCAAAAAACTTGCTATGTTTGGATATTTCTCTGGATTGGAAGTGGGTCTATATATTGGCTTGCCTCTGTTGTTGCTATTGAGATAACTTTGTTAGATACGATTCCAATTTTTTTTTGCCATAATTAGGAAAATGCAAGGGTTCTTTTTTTTTTTGGTTTCCTTTTAATATTAAAGAGTGGACATGACAAATTGAGAAATTGGAATGAGTTATTGATTCTCTTGGCTGCAAGTTATAGAAGGATGGAACAAACTTGGCTGGTGATAAGGCTTTGATGTTTACCCATGATGTTAAATCATGTACCCACTCAATATTATGTAGTATGCTTACTTGTTGAAGCTTTTAGGGAAGAAGCAAATGTAGCCTCGATTATGAACTCTGGCATTTTTTTCTGAATGTTTCAACTTTTGTAAGTTCTGCATTTTCTCTGAACCTGCTAGAGCTTGGAAAAAGGCTAATTAGAAGGGGATGTTGCTGAAATTAGACTTCGAGAAAGCTTATGATAAGGTAGATTGGTCGTTCCTAGATGCTTATCTTGAGCTTAAAGGCTTTGGGTCTAGATGGACGAAGTGGATTTGCGGTTGTGTTTCTTCAACCAACTTTTCAGTGTTAATTAACGGTAAACCTCGTTGCAAGATCATTGCCAAGAGGGGGTTAAGACAAGGTGACCCACTTTCTACCTTCCTTTTTACTATTACTGGATATTCTTTAAGCCATTTGATTCATCTTTGTAACGAAAGGGATGTTCTGAGGGTTTTCTCTTTTTAGGATGGTCACTTGGAGATTGCTTATTTACAATGTGCTGGTGATGTGCTGATTTTTTGTCTGGATTCTTCAGATATGTCCAAGCATTGGTGGGATATTCTAAACCTGTTCTTGATGGGCTCTGGGTTGTCTCTTAATGGGGCCAAATGCTCCCTTAGTGGTATTAACTATATCTCGTATGATTTCTCAATTTGGGATTTTGAAATTTCCATTTTTGTATCTAGGNGGGGGGGGGGGGGGGGGTAACCAGTGTGCAGTCAGCTTGTGGGGGTGGACAAGATGAAAGCCAGACATAAATGGAGAGGGGTGGGGGTAGCCAGTGTGCAATCAGCTTGTGTGAGCCGACAGTTGAAAGCCAGACTTGATAAATGGAGAGGTTTGCTGCTTTCAACCTTAGCTCAATCCGTCTTAAAAGGTCTCCCTATTTATTTCTTCTTGATCCTAAAAGCTCATGCCAAAGTTATTGACTCTATGGAAAAGCTTTTGCCCATGAAGAGAACAAAGATGATAGCAACGATTTATGGAGTGGAACCAAATGACTGGCTGCTTAAATCAGTGAAGGCTTCGGCTAGAGCCAGGCCTTGGATCGAGATTGACTGCTTAGACAAGTTTTTCTCAATTTTGTTATGTTCAAAGCCTCAAATGGGAGGAAGATTAGATTTTTGGAAGATACTTGTTTGGATCCTACCCCTTTGGCTATTTTGTTTCCAGATCTTTACTCTCTCCTCAAAAGAGGAGAACTTTATTGTGGTTGGCTGGGTGAATCAAGTTCTCTCTTGGGATTTAGGCTTCAGAAGAAATATGTTTGATAGAGAGATCCAAAGTTGGGCCTTTTTAGGGAGAAGTTGGACAATTTCTATCTAGGGTAGGGGCAGATGGGCTGATTTGGAAAGATGTGGATAGTGGAACTTTTTCAGCAAAATCAGCCTTCTCCCTCCTCACGTCCCCTTTGGCTAGATTGAAAACTCCGGTGGTTAATGCAATCCGGAACTTCAAAATTCCTAAGGTAGTTAAAATTTTCCTTTGGTCCTTGTTCTACGGAAGTCTAAATACTGTTGAGAGACTCCAACAACGCTCTCTATTGGTCCCTTGCCCACTCTGTGTGCAGCTTATGTAGCTCAAATGAGGAGCTTCTGGACCATATCTTCTTACATTGTTCCTTTGCTCAGAATGCTTGGTCTTTTGTTCTTGTATAATTCGGCCTTTCACCAAGTCTTCCCTATAGAATTGTTGATTGGATTGGATTGTGGAGATACTGGAGGCTCATTTCTTAGAGGGAAGACTCAAATCCTTTGGATTTGTGTGGTCTGTGCCCTGTTATGGCTGACTTGGAAAGAAAGAAACAGTAGGCTCCTTGAAGGGAAAAGAGAAAAAGTCCTCTATGGATTCTTTTTGTGATAGTGTACAACACATATCTTCGTGATGGTATATAACCACAAGAAATTATTTTGTAGTTATAGCCTGACTATGATTATTAATGATTGGAAAGCTCTCATTGATCTCCGCCCTCCATCCTAATATATTTCCGTTTCTTATATTAAAAAAAGCTGTTTTGTTGATGTTCATCATTGTTTTATTAAATTTCATCTCTTAATTTCATCCATACACGGACGAAATTTTAGCTAATTACCCGTAGAACTATCTTAGTTGGTTTGTGAATGCTTTTATTCAATCTTATACTTTTTTTTTCGGTTACTTGTAGCCTTATGCAATCTTATACTTCTACCGCACATTATTTATTGACATAATTATTTTCATTATTTAGACTCTAGGTAGATCTAGATTTATCATAGATGGGGTAATCTGCCATGCTTTATCTATTCTACGTCGTGAAGATAATTTTGTATTCCTTAAGGCGAGCTTAGAAACCACTAATAAAATTTTTGTATGCTTACAAATTTATTTTATGTATGAATACAATGGGGATTGATTCGAGTACATTTTCTTTGTTCTATGGTATTGTAAAGTCATAGCTTATCAAAGTTTGAATCAACAATTTCATCTTTATATTTTCTAATTAATACAGTAGTTTCTTGTTATTGTCTATTATTTTTATTCTGTCTGCTATTTGACTATGAAACATTTGGTCGAAAAAATCTTTGAAGAGAAAAACACGGATGTCAGTCCCCAGGTTTTGATTTTTCTTTTACTTTTTTTTTTAAATGGACAAATTTTCTGTAATCTGCTTCCCCCCCCCCCCCCCCCCATTTTTTTTTTTTAAAATAAGATATGTATTCTGTTGTATTATACTTGTTTTATTATTATTAATGTGTTTGTTATTTTTCGAAAAAAAAAAGTTTATGGAGCACCGGAGAAATTAGTCAAAATTAAGGTCTACTTCTACTTCAGGACACACATTAAGGAATACTTGGAAGTCTCAAACGTGTTTGTTATGGACCATGGTCGTGTTTTTAGAGTTTAAGATTAGAATATAACAGGCACATGGTCCCATCATTCTCCCCGTGTAACTTGAGAAACAGGCTTGTTTTCTCTATTGTCTTTGTTATTACTTGTACTTCGAAGTCTAACTAACCAGGTTTAGTATTTGTAGGATGAGCATGCAGCTGGAAATCAGCAGACGGTTTAGAGCCCGAGTCGGTGATGTCACGAGTTTCCTTTACAACTAACTACTCAAGTGCGGCTGGTTAACGTAGAGGGATGTGGTACAACTTCCCATTATATCTATCCTCAGCTATCAAGAGAAGCCTTGTTCGATCTCTTTTTTGAAGTGGTGACCCACCGGGAATATAAGTTCTTCAAACCGAACTAATCTCATTCTTTTTTTGTTACTGCAACGCACCAACCAATGAGTAGTCTCTAGTCTAGTAGTGGTTCGGATTTTGACTGGGTCCGAGCTTCCCAAGCTCTATGTTGGGAAACTCTGCTTCAGTTTGACCATCTTCTTGATCACACCAACCTTCTCGTTTAGATCTACGCTTGATTAGCCGTCTCCATGAGATTCTTATGTAGGAAACATCATGTTAGGTCTTTTGATAGTCCTCTCTTAGCTAGGCGGTGGGGAGGTTATAGGGTCCTTGTCATACTCAATCATACAGGACTTTGTTAGTTTGAGCGGGTTCTTGCTATGTACACCAAGCCTCGGGTTCTTGTTATGTACACCAAGCCTCGGAGTCTGAAAGGTATTCCAACTCTTATGGTTACAGATAAGGATGAATAAATAGAACCATTCTTTCTTTGCGAGAGGTTCCTAGATCAAATGCCTCTCCAAACCCCAAGCGGGAGCTACAAAGGCATAAATATTCAAAATTTTTCCATCGAAGAAAATTCTTGTACCGTCCAGGAATAGAAATGGCATTGGCTTTGACGTCTCAATATGGACAAAAGTTAAATAAAATGAATTATGACTTTTCAGTTGATCGTGAGCTTGTATAAAAATGGTGAACAGACCATGAAGATCAATGGTGTACAAGTTTGGTTTAATTCTCTTCGTTCGGGGATAAATACAAACCAGCACAATCTTCGAGGCTAAGTCAATTTCAATTGAAAGTTTAGTTTTATGATATTTTTGTTTTCAATTCAACAAAATCTAAATGCATGG

mRNA sequence

CTCAATCGACTTTTCCTCTGTTCCCCTTCCTCTCTCTCTCCATTCAACGAGAAGTAGTCTTTCCCCTCTCTTCGCCTCTGCCTACGTTGTGATTGCTTCCATCGCCGCCGCGGTTCGATTGTGATTCGTTGTTTCGTCTCAGCCTTACACCAGGTCTAGGACCTTCAAGAATTGCGAGGAGTTCAATGTTTAAAGGGACATACGGAATATCAAATCTCTTTGATATCACAATACACTATATTGATTTCACCCATATCTTCATAAAAAGAGTTACTCCAGTACCTGTGGGTGACAGCCTCCCATTACAAGCGGCATTGGTATTGAGTTTGATCCAATCCGCAGAAGTTTAGGGAAAGACACCCCAAAAAGACTGGAGAGTGCAGTGGCTGGGGTGGTTACATGGTGGGACAGTTCGTTGGTGGGTAGGTGGAGTTTTTCAAATGGTATATGATGCTTTGCAATTCATTGAGAGATCGACTTCGGCCCTGGCTTCGTGATTATGATAGGCTTCAGTCTTTTGCAGTCATTCTCATTTATATCCAGATCGGGTGCGCATTGATTGGATCGCTAGGGGCATTGTACAACGGTGTATTGCTTATAAATTTGGCGATCGCATTATTCGCTCTGGTCGCCATTGAGAGTAGCAGTCAGAGTCTTGGCCGTACATATGCAGTTCTCTTGTTGTCTGCCATTTTCCTCGATATCTTCTGGTTCATTCTTTTTGCCTACGACACATGGAACATCTCGTCAAAGCAATATGGACCCCTTTTTAGCTTTTCAGTGAAGCTTACTTTGGCTATGCAGATTATTGGATTTTCTATTAGGTTATCGTCTTCACTACTGTGGATTCAAATCTACAGATTGGGAATTTCATACATGGAAACTTCAGTTCCTCGAGAGGCAGATTATGATTTAAGAAATAGTTTTCTTAGCCCTACTACTCCTGTTGTAGCTAGACAAACCTCAGGTTCTGATGATATGATAGGGGGCTCTATCTATGATCCAGCTTATTACTCATCCCTATTCGAAGATGGTCAAGATAGTAAATGTTTGTCTGGGATCTCCCATTTTGGTAATGGTGATAATGGTTCTACTTCTGGGCTAGATGTATCTCGATCAAAGATATCCCGACATTTCCAAGTAGTTGATGATGAGCATGCAGCTGGAAATCAGCAGACGGTTTAGAGCCCGAGTCGGTGATGTCACGAGTTTCCTTTACAACTAACTACTCAAGTGCGGCTGGTTAACGTAGAGGGATGTGGTACAACTTCCCATTATATCTATCCTCAGCTATCAAGAGAAGCCTTGTTCGATCTCTTTTTTGAAGTGGTGACCCACCGGGAATATAAGTTCTTCAAACCGAACTAATCTCATTCTTTTTTTGTTACTGCAACGCACCAACCAATGAGTAGTCTCTAGTCTAGTAGTGGTTCGGATTTTGACTGGGTCCGAGCTTCCCAAGCTCTATGTTGGGAAACTCTGCTTCAGTTTGACCATCTTCTTGATCACACCAACCTTCTCGTTTAGATCTACGCTTGATTAGCCGTCTCCATGAGATTCTTATGTAGGAAACATCATGTTAGGTCTTTTGATAGTCCTCTCTTAGCTAGGCGGTGGGGAGGTTATAGGGTCCTTGTCATACTCAATCATACAGGACTTTGTTAGTTTGAGCGGGTTCTTGCTATGTACACCAAGCCTCGGGTTCTTGTTATGTACACCAAGCCTCGGAGTCTGAAAGGTATTCCAACTCTTATGGTTACAGATAAGGATGAATAAATAGAACCATTCTTTCTTTGCGAGAGGTTCCTAGATCAAATGCCTCTCCAAACCCCAAGCGGGAGCTACAAAGGCATAAATATTCAAAATTTTTCCATCGAAGAAAATTCTTGTACCGTCCAGGAATAGAAATGGCATTGGCTTTGACGTCTCAATATGGACAAAAGTTAAATAAAATGAATTATGACTTTTCAGTTGATCGTGAGCTTGTATAAAAATGGTGAACAGACCATGAAGATCAATGGTGTACAAGTTTGGTTTAATTCTCTTCGTTCGGGGATAAATACAAACCAGCACAATCTTCGAGGCTAAGTCAATTTCAATTGAAAGTTTAGTTTTATGATATTTTTGTTTTCAATTCAACAAAATCTAAATGCATGG

Coding sequence (CDS)

ATGATGCTTTGCAATTCATTGAGAGATCGACTTCGGCCCTGGCTTCGTGATTATGATAGGCTTCAGTCTTTTGCAGTCATTCTCATTTATATCCAGATCGGGTGCGCATTGATTGGATCGCTAGGGGCATTGTACAACGGTGTATTGCTTATAAATTTGGCGATCGCATTATTCGCTCTGGTCGCCATTGAGAGTAGCAGTCAGAGTCTTGGCCGTACATATGCAGTTCTCTTGTTGTCTGCCATTTTCCTCGATATCTTCTGGTTCATTCTTTTTGCCTACGACACATGGAACATCTCGTCAAAGCAATATGGACCCCTTTTTAGCTTTTCAGTGAAGCTTACTTTGGCTATGCAGATTATTGGATTTTCTATTAGGTTATCGTCTTCACTACTGTGGATTCAAATCTACAGATTGGGAATTTCATACATGGAAACTTCAGTTCCTCGAGAGGCAGATTATGATTTAAGAAATAGTTTTCTTAGCCCTACTACTCCTGTTGTAGCTAGACAAACCTCAGGTTCTGATGATATGATAGGGGGCTCTATCTATGATCCAGCTTATTACTCATCCCTATTCGAAGATGGTCAAGATAGTAAATGTTTGTCTGGGATCTCCCATTTTGGTAATGGTGATAATGGTTCTACTTCTGGGCTAGATGTATCTCGATCAAAGATATCCCGACATTTCCAAGTAGTTGATGATGAGCATGCAGCTGGAAATCAGCAGACGGTTTAG

Protein sequence

MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALVAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQIIGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIGGSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAGNQQTV
Homology
[Close]
BLAST of MC09g0110 vs. NCBI nr
Match: XP_022144718.1 (uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144724.1 uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144732.1 uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144739.1 uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144748.1 uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144755.1 uncharacterized protein LOC111014335 isoform X1 [Momordica charantia])

HSP 1 Score: 472 bits (1214), Expect = 1.79e-167
Identity = 245/245 (100.00%), Postives = 245/245 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG 240
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG 240

Query: 241 NQQTV 245
           NQQTV
Sbjct: 241 NQQTV 245

[Close]
BLAST of MC09g0110 vs. NCBI nr
Match: XP_022144772.1 (uncharacterized protein LOC111014335 isoform X3 [Momordica charantia])

HSP 1 Score: 450 bits (1158), Expect = 4.45e-159
Identity = 234/234 (100.00%), Postives = 234/234 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234

[Close]
BLAST of MC09g0110 vs. NCBI nr
Match: XP_022144764.1 (uncharacterized protein LOC111014335 isoform X2 [Momordica charantia])

HSP 1 Score: 450 bits (1158), Expect = 4.96e-159
Identity = 234/234 (100.00%), Postives = 234/234 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234

[Close]
BLAST of MC09g0110 vs. NCBI nr
Match: XP_004149633.1 (uncharacterized protein LOC101215314 isoform X1 [Cucumis sativus] >KGN54008.1 hypothetical protein Csa_021678 [Cucumis sativus])

HSP 1 Score: 447 bits (1151), Expect = 6.93e-158
Identity = 230/244 (94.26%), Postives = 236/244 (96.72%), Query Frame = 0 

Query: 2   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 61
           MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV
Sbjct: 1   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 60

Query: 62  AIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQII 121
           AIESSSQSLGRTYAVLL SAIFLD+FWFILFAYDTWNISSKQYGPLF+FSVKLTLAMQII
Sbjct: 61  AIESSSQSLGRTYAVLLFSAIFLDVFWFILFAYDTWNISSKQYGPLFTFSVKLTLAMQII 120

Query: 122 GFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIGG 181
           GFS+RLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSP TPVV RQ SGSDDMIGG
Sbjct: 121 GFSVRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPATPVVVRQPSGSDDMIGG 180

Query: 182 SIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAGN 241
           SIYDP YYSSLFEDGQDSKCLSGISHFGNGDNGSTSG DVSRSK+SRHFQV DDE+A G+
Sbjct: 181 SIYDPTYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGPDVSRSKLSRHFQVADDEYADGH 240

Query: 242 QQTV 245
           QQTV
Sbjct: 241 QQTV 244

[Close]
BLAST of MC09g0110 vs. NCBI nr
Match: XP_008449916.1 (PREDICTED: uncharacterized protein LOC103491645 isoform X4 [Cucumis melo])

HSP 1 Score: 441 bits (1134), Expect = 2.70e-155
Identity = 228/244 (93.44%), Postives = 235/244 (96.31%), Query Frame = 0 

Query: 2   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 61
           MLCNSLRDRLRP LRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV
Sbjct: 1   MLCNSLRDRLRPCLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 60

Query: 62  AIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQII 121
           AIESSSQSLGRTYAVLL SAIFLD+FWFILFAYDTWNISS+QYGPLF+FSVKLTLAMQII
Sbjct: 61  AIESSSQSLGRTYAVLLFSAIFLDVFWFILFAYDTWNISSEQYGPLFTFSVKLTLAMQII 120

Query: 122 GFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIGG 181
           GFS+RLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSP TPVV RQ SGSDDMIGG
Sbjct: 121 GFSVRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPATPVVVRQPSGSDDMIGG 180

Query: 182 SIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAGN 241
           SIYDP YYSSLFEDGQDSKCLSGISHFGNGDNGSTSG DVSRSK+SRHFQV DDE+A G+
Sbjct: 181 SIYDPTYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGPDVSRSKLSRHFQVADDEYADGH 240

Query: 242 QQTV 245
           QQTV
Sbjct: 241 QQTV 244

[Close]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match: A0A6J1CT50 (uncharacterized protein LOC111014335 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111014335 PE=4 SV=1)

HSP 1 Score: 472 bits (1214), Expect = 8.68e-168
Identity = 245/245 (100.00%), Postives = 245/245 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG 240
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAG 240

Query: 241 NQQTV 245
           NQQTV
Sbjct: 241 NQQTV 245

[Close]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match: A0A6J1CUM7 (uncharacterized protein LOC111014335 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111014335 PE=4 SV=1)

HSP 1 Score: 450 bits (1158), Expect = 2.15e-159
Identity = 234/234 (100.00%), Postives = 234/234 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234

[Close]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match: A0A6J1CT92 (uncharacterized protein LOC111014335 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111014335 PE=4 SV=1)

HSP 1 Score: 450 bits (1158), Expect = 2.40e-159
Identity = 234/234 (100.00%), Postives = 234/234 (100.00%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI
Sbjct: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG
Sbjct: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180

Query: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234
           GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD
Sbjct: 181 GSIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVD 234

[Close]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match: A0A0A0KWY7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G266940 PE=4 SV=1)

HSP 1 Score: 447 bits (1151), Expect = 3.36e-158
Identity = 230/244 (94.26%), Postives = 236/244 (96.72%), Query Frame = 0 

Query: 2   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 61
           MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV
Sbjct: 1   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 60

Query: 62  AIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQII 121
           AIESSSQSLGRTYAVLL SAIFLD+FWFILFAYDTWNISSKQYGPLF+FSVKLTLAMQII
Sbjct: 61  AIESSSQSLGRTYAVLLFSAIFLDVFWFILFAYDTWNISSKQYGPLFTFSVKLTLAMQII 120

Query: 122 GFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIGG 181
           GFS+RLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSP TPVV RQ SGSDDMIGG
Sbjct: 121 GFSVRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPATPVVVRQPSGSDDMIGG 180

Query: 182 SIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAGN 241
           SIYDP YYSSLFEDGQDSKCLSGISHFGNGDNGSTSG DVSRSK+SRHFQV DDE+A G+
Sbjct: 181 SIYDPTYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGPDVSRSKLSRHFQVADDEYADGH 240

Query: 242 QQTV 245
           QQTV
Sbjct: 241 QQTV 244

[Close]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match: A0A1S3BMI4 (uncharacterized protein LOC103491645 isoform X4 OS=Cucumis melo OX=3656 GN=LOC103491645 PE=4 SV=1)

HSP 1 Score: 441 bits (1134), Expect = 1.31e-155
Identity = 228/244 (93.44%), Postives = 235/244 (96.31%), Query Frame = 0 

Query: 2   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 61
           MLCNSLRDRLRP LRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV
Sbjct: 1   MLCNSLRDRLRPCLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 60

Query: 62  AIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQII 121
           AIESSSQSLGRTYAVLL SAIFLD+FWFILFAYDTWNISS+QYGPLF+FSVKLTLAMQII
Sbjct: 61  AIESSSQSLGRTYAVLLFSAIFLDVFWFILFAYDTWNISSEQYGPLFTFSVKLTLAMQII 120

Query: 122 GFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIGG 181
           GFS+RLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSP TPVV RQ SGSDDMIGG
Sbjct: 121 GFSVRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPATPVVVRQPSGSDDMIGG 180

Query: 182 SIYDPAYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGLDVSRSKISRHFQVVDDEHAAGN 241
           SIYDP YYSSLFEDGQDSKCLSGISHFGNGDNGSTSG DVSRSK+SRHFQV DDE+A G+
Sbjct: 181 SIYDPTYYSSLFEDGQDSKCLSGISHFGNGDNGSTSGPDVSRSKLSRHFQVADDEYADGH 240

Query: 242 QQTV 245
           QQTV
Sbjct: 241 QQTV 244

[Close]
BLAST of MC09g0110 vs. TAIR 10
Match: AT1G55535.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: cultured cell; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G13420.1); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 301.6 bits (771), Expect = 5.8e-82
Identity = 158/241 (65.56%), Postives = 193/241 (80.08%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLC SLRDR+ PWLRDY +LQS AV LIY QIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCGSLRDRIHPWLRDYVKLQSLAVFLIYAQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIES+SQSLGRTYAVLL  A+ LDI WFILF  + W+IS++ YG  F FSVKLT+AM++
Sbjct: 61  VAIESNSQSLGRTYAVLLFCALLLDISWFILFTEEIWSISAETYGTFFIFSVKLTMAMEM 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGF +RLSSSLLW QIYRLG + ++TS+PRE D DLRNSFL+P TP +ARQ SG+++++G
Sbjct: 121 IGFFVRLSSSLLWFQIYRLGAAIVDTSLPRETDSDLRNSFLNPPTPAIARQCSGAEEILG 180

Query: 181 GSIYDPAYYSSLFEDGQ---DSKCLSGISHFGNGDNGSTSGLDVS--RSKISRHFQVVDD 237
           GSIYDPAYY+SLFE+ Q   +S   + ++H+  G+NGS S  + S  +S I R    +D+
Sbjct: 181 GSIYDPAYYTSLFEESQTNINSPKATQVNHYSAGNNGSPSAAEASHIKSPIFRSLHSIDE 240

[Close]
BLAST of MC09g0110 vs. TAIR 10
Match: AT1G55535.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; EXPRESSED IN: cultured cell; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G13420.1); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 301.6 bits (771), Expect = 5.8e-82
Identity = 158/241 (65.56%), Postives = 193/241 (80.08%), Query Frame = 0 

Query: 1   MMLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFAL 60
           MMLC SLRDR+ PWLRDY +LQS AV LIY QIGCALIGSLGALYNGVLLINLAIALFAL
Sbjct: 1   MMLCGSLRDRIHPWLRDYVKLQSLAVFLIYAQIGCALIGSLGALYNGVLLINLAIALFAL 60

Query: 61  VAIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQI 120
           VAIES+SQSLGRTYAVLL  A+ LDI WFILF  + W+IS++ YG  F FSVKLT+AM++
Sbjct: 61  VAIESNSQSLGRTYAVLLFCALLLDISWFILFTEEIWSISAETYGTFFIFSVKLTMAMEM 120

Query: 121 IGFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSPTTPVVARQTSGSDDMIG 180
           IGF +RLSSSLLW QIYRLG + ++TS+PRE D DLRNSFL+P TP +ARQ SG+++++G
Sbjct: 121 IGFFVRLSSSLLWFQIYRLGAAIVDTSLPRETDSDLRNSFLNPPTPAIARQCSGAEEILG 180

Query: 181 GSIYDPAYYSSLFEDGQ---DSKCLSGISHFGNGDNGSTSGLDVS--RSKISRHFQVVDD 237
           GSIYDPAYY+SLFE+ Q   +S   + ++H+  G+NGS S  + S  +S I R    +D+
Sbjct: 181 GSIYDPAYYTSLFEESQTNINSPKATQVNHYSAGNNGSPSAAEASHIKSPIFRSLHSIDE 240

[Close]
BLAST of MC09g0110 vs. TAIR 10
Match: AT3G13420.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G55535.1); Has 66 Blast hits to 66 proteins in 16 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 66; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). )

HSP 1 Score: 235.0 bits (598), Expect = 6.6e-62
Identity = 130/213 (61.03%), Postives = 154/213 (72.30%), Query Frame = 0 

Query: 2   MLCNSLRDRLRPWLRDYDRLQSFAVILIYIQIGCALIGSLGALYNGVLLINLAIALFALV 61
           MLC SLR+R+  WLRDY RLQS  +ILIY QIGCALIGSLGALYNGV+LINLAIALF LV
Sbjct: 1   MLCVSLRNRIHNWLRDYVRLQSVVLILIYAQIGCALIGSLGALYNGVVLINLAIALFGLV 60

Query: 62  AIESSSQSLGRTYAVLLLSAIFLDIFWFILFAYDTWNISSKQYGPLFSFSVKLTLAMQII 121
           AIES+SQSLGRTYAVLL  AI LD+ WFILF+ + WNISS  Y   + FSVKLTLAM+I 
Sbjct: 61  AIESNSQSLGRTYAVLLFCAILLDVSWFILFSKEIWNISSDMYQVFYIFSVKLTLAMEIA 120

Query: 122 GFSIRLSSSLLWIQIYRLGISYMETSVPREADYDLRNSFLSP------------------ 181
           GF +RLSSSLLW QIYRLG S +++  PR++D DLRNSFL P                  
Sbjct: 121 GFVVRLSSSLLWFQIYRLGASIIDSPFPRQSDSDLRNSFLEPPLLARQRSRDPELRNSFL 180

Query: 182 TTPVVARQTSGSDDMIGGSIYDPAYYSSLFEDG 197
             P +A+Q S SD+++  SI +PA Y+ L + G
Sbjct: 181 QAPAIAKQRSRSDEILEDSIDEPASYTPLLDGG 213

The following BLAST results are available for this feature:
BLAST of MC09g0110 vs.
Match NameE-valueIdentityDescription
BLAST of MC09g0110 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022144718.11.79e-167100.00uncharacterized protein LOC111014335 isoform X1 [Momordica charantia] >XP_022144... [more]
XP_022144772.14.45e-159100.00uncharacterized protein LOC111014335 isoform X3 [Momordica charantia][more]
XP_022144764.14.96e-159100.00uncharacterized protein LOC111014335 isoform X2 [Momordica charantia][more]
XP_004149633.16.93e-15894.26uncharacterized protein LOC101215314 isoform X1 [Cucumis sativus] >KGN54008.1 hy... [more]
XP_008449916.12.70e-15593.44PREDICTED: uncharacterized protein LOC103491645 isoform X4 [Cucumis melo][more]
BLAST of MC09g0110 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1CT508.68e-168100.00uncharacterized protein LOC111014335 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A6J1CUM72.15e-159100.00uncharacterized protein LOC111014335 isoform X3 OS=Momordica charantia OX=3673 G... [more]
A0A6J1CT922.40e-159100.00uncharacterized protein LOC111014335 isoform X2 OS=Momordica charantia OX=3673 G... [more]
A0A0A0KWY73.36e-15894.26Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G266940 PE=4 SV=1[more]
A0A1S3BMI41.31e-15593.44uncharacterized protein LOC103491645 isoform X4 OS=Cucumis melo OX=3656 GN=LOC10... [more]
BLAST of MC09g0110 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G55535.15.8e-8265.56unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT1G55535.25.8e-8265.56unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT3G13420.16.6e-6261.03unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR35471OS07G0223700 PROTEINcoord: 1..243
NoneNo IPR availablePANTHERPTHR35471:SF1OS07G0223700 PROTEINcoord: 1..243

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
MC09g0110.1MC09g0110.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane