MS006156 (gene) Bitter gourd (TR) v1

Overview
NameMS006156
Typegene
OrganismMomordica charantia cv. TR (Bitter gourd (TR) v1)
DescriptionMitochondrial import inner membrane translocase subunit TIM22-like
Locationscaffold96: 725821 .. 739232 (-)
RNA-Seq ExpressionMS006156
SyntenyMS006156
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGCAGGGGAAACAGGGAGTGCTAGTTAAATTGAATCCTCCTCAGAACCCATTGGAGCAGATTCAAGCTCGTTTCAAGGAACTAGAAAGTGGGTTCAAGTCGTGGTTGGCCAAGCAATCTCTCCCAGTTGAGGCCGCTGTTGTCACCGCCACCAGCGCTGCGCAGGGCGCTGCTATTGGTGGGTTTATGGGCACTCTCACCAACGACGTTTCTTCGTCTCTGCCCACTCCTCAAGCCGGCCTCAACCCTCAGGCCATGGCATCTTTCAAGCAGGCCCAGGCTCTTGCTGGAGGTCCTTTAATACAAGCTCGCAACTTTGCTGTGATGACAGGTGTTAATGCTGGCATATCCTCTGTTATGAAGAGATTGAGAGGCAAGGAGGATGTCCAGTCCAGCATGGTGGCTGCTTTTGGATCCGGAGCTATGTTTTCTTTGGTGAGTGGAATGGGAGGTCCAAATCAGGTGGCAAATGCTGTCACCTCTGGTCTATTTTTTTCCCTCGTTCAAGGTGGACTTTTCAAGTTAGGGGAAAGATTTTCTCAACCACCTGCGGAAGATGTGTACTATGCCAAAACAAGAAGCATGTTGAATAACCTTGGCCTACCGAGTTATGAGAAGAATTTCAAGAGAGGCTTATTGACCGATAGCACTTTGCCTCTGCTTACTGATAGGCATGTAAAC

Coding sequence (CDS)

ATGGAGCAGGGGAAACAGGGAGTGCTAGTTAAATTGAATCCTCCTCAGAACCCATTGGAGCAGATTCAAGCTCGTTTCAAGGAACTAGAAAGTGGGTTCAAGTCGTGGTTGGCCAAGCAATCTCTCCCAGTTGAGGCCGCTGTTGTCACCGCCACCAGCGCTGCGCAGGGCGCTGCTATTGGTGGGTTTATGGGCACTCTCACCAACGACGTTTCTTCGTCTCTGCCCACTCCTCAAGCCGGCCTCAACCCTCAGGCCATGGCATCTTTCAAGCAGGCCCAGGCTCTTGCTGGAGGTCCTTTAATACAAGCTCGCAACTTTGCTGTGATGACAGGTGTTAATGCTGGCATATCCTCTGTTATGAAGAGATTGAGAGGCAAGGAGGATGTCCAGTCCAGCATGGTGGCTGCTTTTGGATCCGGAGCTATGTTTTCTTTGGTGAGTGGAATGGGAGGTCCAAATCAGGTGGCAAATGCTGTCACCTCTGGTCTATTTTTTTCCCTCGTTCAAGGTGGACTTTTCAAGTTAGGGGAAAGATTTTCTCAACCACCTGCGGAAGATGTGTACTATGCCAAAACAAGAAGCATGTTGAATAACCTTGGCCTACCGAGTTATGAGAAGAATTTCAAGAGAGGCTTATTGACCGATAGCACTTTGCCTCTGCTTACTGATAGGCATGTAAAC

Protein sequence

MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAIGGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSVMKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERFSQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTDRHVN
Homology
[Close]
BLAST of MS006156 vs. NCBI nr
Match: XP_022138076.1 (uncharacterized protein LOC111009335 isoform X2 [Momordica charantia])

HSP 1 Score: 428.7 bits (1101), Expect = 3.1e-116
Identity = 224/224 (100.00%), Postives = 224/224 (100.00%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD
Sbjct: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 224

[Close]
BLAST of MS006156 vs. NCBI nr
Match: XP_022138075.1 (uncharacterized protein LOC111009335 isoform X1 [Momordica charantia])

HSP 1 Score: 428.7 bits (1101), Expect = 3.1e-116
Identity = 224/224 (100.00%), Postives = 224/224 (100.00%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD
Sbjct: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 224

[Close]
BLAST of MS006156 vs. NCBI nr
Match: KAA0042522.1 (mitochondrial import inner membrane translocase subunit TIM22-like [Cucumis melo var. makuwa])

HSP 1 Score: 415.6 bits (1067), Expect = 2.7e-112
Identity = 213/226 (94.25%), Postives = 222/226 (98.23%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL PPQNPLEQIQARFKELE+GF++WLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLTPPQNPLEQIQARFKELENGFRTWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ ANAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQAANAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTDRH 227
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTDRH
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTDRH 226

[Close]
BLAST of MS006156 vs. NCBI nr
Match: XP_008437651.1 (PREDICTED: uncharacterized protein LOC103482996 [Cucumis melo] >TYK05925.1 mitochondrial import inner membrane translocase subunit TIM22-like [Cucumis melo var. makuwa])

HSP 1 Score: 410.6 bits (1054), Expect = 8.8e-111
Identity = 211/224 (94.20%), Postives = 220/224 (98.21%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL PPQNPLEQIQARFKELE+GF++WLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLTPPQNPLEQIQARFKELENGFRTWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ ANAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQAANAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTD
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTD 224

[Close]
BLAST of MS006156 vs. NCBI nr
Match: XP_038876132.1 (chloroplastic import inner membrane translocase subunit HP30-2-like [Benincasa hispida])

HSP 1 Score: 409.5 bits (1051), Expect = 2.0e-110
Identity = 210/224 (93.75%), Postives = 220/224 (98.21%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL PPQNP+EQIQARFKELE+GF++WLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLTPPQNPVEQIQARFKELENGFRTWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ ANAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQAANAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTD
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTD 224

[Close]
BLAST of MS006156 vs. ExPASy Swiss-Prot
Match: Q9FLT9 (Chloroplastic import inner membrane translocase subunit HP30-2 OS=Arabidopsis thaliana OX=3702 GN=HP30-2 PE=1 SV=1)

HSP 1 Score: 258.1 bits (658), Expect = 9.6e-68
Identity = 136/217 (62.67%), Postives = 165/217 (76.04%), Query Frame = 0 

Query: 8   VLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAIGGFMGTL 67
           V+  +   QNP++Q Q +FKE+E+GFKSWL+KQ LPVEAAVVTA    QGA IGG MGTL
Sbjct: 16  VMSLMKDQQNPIQQFQVKFKEIETGFKSWLSKQKLPVEAAVVTAMGGVQGAFIGGLMGTL 75

Query: 68  TNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSVMKRLRGK 127
           + ++      PQAG++PQAMAS KQ QAL GGPL+QARNFA +TGVNAGI+ VMKR+RGK
Sbjct: 76  SPEM------PQAGIDPQAMASLKQTQALVGGPLVQARNFAAITGVNAGIACVMKRIRGK 135

Query: 128 EDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERFSQPPAED 187
           ED++S++VAAFGSG  +SLVS  G   Q  NA+T+   F++ QG  FKLGERFS+P  ED
Sbjct: 136 EDLESAVVAAFGSGVAYSLVSA-GLQGQPMNAITTAAGFAVFQGVFFKLGERFSKPSVED 195

Query: 188 VYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
            YY + RSML  LGL  YEKNFK+GLL D TLPLLTD
Sbjct: 196 PYYTRGRSMLLKLGLEKYEKNFKKGLLADPTLPLLTD 225

[Close]
BLAST of MS006156 vs. ExPASy Swiss-Prot
Match: Q9SCK3 (Chloroplastic import inner membrane translocase subunit HP30-1 OS=Arabidopsis thaliana OX=3702 GN=HP30-1 PE=1 SV=1)

HSP 1 Score: 248.8 bits (634), Expect = 5.8e-65
Identity = 130/212 (61.32%), Postives = 164/212 (77.36%), Query Frame = 0 

Query: 13  NPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAIGGFMGTLTNDVS 72
           N  QNP++Q Q +FKE+E+ FK+WL+KQS+PVEAAVV+  S  QGA IGG MGTL+ ++ 
Sbjct: 26  NDQQNPIQQFQVKFKEVETNFKTWLSKQSIPVEAAVVSTMSGVQGAFIGGLMGTLSPEM- 85

Query: 73  SSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSVMKRLRGKEDVQS 132
                PQAG++PQA+AS KQAQAL GGP +QARNFA +TGVNAGI+SVMKR+RGKED++S
Sbjct: 86  -----PQAGVDPQAIASMKQAQALVGGPWVQARNFAAITGVNAGIASVMKRIRGKEDIES 145

Query: 133 SMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERFSQPPAEDVYYAK 192
           ++VAA GSG  +SLVS  G   Q  NA+T+   F++ QG  FKLGERFS+P  ED ++ +
Sbjct: 146 AVVAALGSGFAYSLVS-QGLQGQPMNAITTAAGFAVFQGVFFKLGERFSKPSTEDPFFTR 205

Query: 193 TRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
            R+ML  LGL  YEKNFK+GLLTD TLPLLTD
Sbjct: 206 GRTMLVKLGLEKYEKNFKKGLLTDPTLPLLTD 230

[Close]
BLAST of MS006156 vs. ExPASy TrEMBL
Match: A0A6J1C8P3 (uncharacterized protein LOC111009335 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111009335 PE=4 SV=1)

HSP 1 Score: 428.7 bits (1101), Expect = 1.5e-116
Identity = 224/224 (100.00%), Postives = 224/224 (100.00%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD
Sbjct: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 224

[Close]
BLAST of MS006156 vs. ExPASy TrEMBL
Match: A0A6J1C8F0 (uncharacterized protein LOC111009335 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111009335 PE=4 SV=1)

HSP 1 Score: 428.7 bits (1101), Expect = 1.5e-116
Identity = 224/224 (100.00%), Postives = 224/224 (100.00%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD
Sbjct: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 224

[Close]
BLAST of MS006156 vs. ExPASy TrEMBL
Match: A0A5A7TGI2 (Mitochondrial import inner membrane translocase subunit TIM22-like OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold44G00150 PE=4 SV=1)

HSP 1 Score: 415.6 bits (1067), Expect = 1.3e-112
Identity = 213/226 (94.25%), Postives = 222/226 (98.23%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL PPQNPLEQIQARFKELE+GF++WLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLTPPQNPLEQIQARFKELENGFRTWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ ANAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQAANAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTDRH 227
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTDRH
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTDRH 226

[Close]
BLAST of MS006156 vs. ExPASy TrEMBL
Match: A0A0A0KJR1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G139080 PE=4 SV=1)

HSP 1 Score: 411.0 bits (1055), Expect = 3.3e-111
Identity = 211/228 (92.54%), Postives = 221/228 (96.93%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL P QNP+EQIQARFKELE+GF++WLAKQSLPVEAAVVT TSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLPPHQNPVEQIQARFKELENGFRTWLAKQSLPVEAAVVTVTSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ  NAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQATNAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTDRHVN 229
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTDRHVN
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTDRHVN 228

[Close]
BLAST of MS006156 vs. ExPASy TrEMBL
Match: A0A5D3C3H2 (Mitochondrial import inner membrane translocase subunit TIM22-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold376G00170 PE=4 SV=1)

HSP 1 Score: 410.6 bits (1054), Expect = 4.3e-111
Identity = 211/224 (94.20%), Postives = 220/224 (98.21%), Query Frame = 0 

Query: 1   MEQGKQGVLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAI 60
           MEQGKQGV+VKL PPQNPLEQIQARFKELE+GF++WLAKQSLPVEAAVVTATSAAQGAAI
Sbjct: 1   MEQGKQGVVVKLTPPQNPLEQIQARFKELENGFRTWLAKQSLPVEAAVVTATSAAQGAAI 60

Query: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSV 120
           GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPL+QARNFAVMTGVNAGISSV
Sbjct: 61  GGFMGTLTNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLVQARNFAVMTGVNAGISSV 120

Query: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERF 180
           MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQ ANAVTSGLFF+LVQGGLFKLGE+F
Sbjct: 121 MKRLRGKEDVQSSMVAAFGSGAMFSLVSGMGGPNQAANAVTSGLFFALVQGGLFKLGEKF 180

Query: 181 SQPPAEDVYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
           SQPP EDVYYAKTRSMLNNLGL SYEKNFK+GLLTD+TLPLLTD
Sbjct: 181 SQPPVEDVYYAKTRSMLNNLGLQSYEKNFKKGLLTDTTLPLLTD 224

[Close]
BLAST of MS006156 vs. TAIR 10
Match: AT5G24650.1 (Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein )

HSP 1 Score: 258.1 bits (658), Expect = 6.8e-69
Identity = 136/217 (62.67%), Postives = 165/217 (76.04%), Query Frame = 0 

Query: 8   VLVKLNPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAIGGFMGTL 67
           V+  +   QNP++Q Q +FKE+E+GFKSWL+KQ LPVEAAVVTA    QGA IGG MGTL
Sbjct: 16  VMSLMKDQQNPIQQFQVKFKEIETGFKSWLSKQKLPVEAAVVTAMGGVQGAFIGGLMGTL 75

Query: 68  TNDVSSSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSVMKRLRGK 127
           + ++      PQAG++PQAMAS KQ QAL GGPL+QARNFA +TGVNAGI+ VMKR+RGK
Sbjct: 76  SPEM------PQAGIDPQAMASLKQTQALVGGPLVQARNFAAITGVNAGIACVMKRIRGK 135

Query: 128 EDVQSSMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERFSQPPAED 187
           ED++S++VAAFGSG  +SLVS  G   Q  NA+T+   F++ QG  FKLGERFS+P  ED
Sbjct: 136 EDLESAVVAAFGSGVAYSLVSA-GLQGQPMNAITTAAGFAVFQGVFFKLGERFSKPSVED 195

Query: 188 VYYAKTRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
            YY + RSML  LGL  YEKNFK+GLL D TLPLLTD
Sbjct: 196 PYYTRGRSMLLKLGLEKYEKNFKKGLLADPTLPLLTD 225

[Close]
BLAST of MS006156 vs. TAIR 10
Match: AT3G49560.1 (Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family protein )

HSP 1 Score: 248.8 bits (634), Expect = 4.1e-66
Identity = 130/212 (61.32%), Postives = 164/212 (77.36%), Query Frame = 0 

Query: 13  NPPQNPLEQIQARFKELESGFKSWLAKQSLPVEAAVVTATSAAQGAAIGGFMGTLTNDVS 72
           N  QNP++Q Q +FKE+E+ FK+WL+KQS+PVEAAVV+  S  QGA IGG MGTL+ ++ 
Sbjct: 26  NDQQNPIQQFQVKFKEVETNFKTWLSKQSIPVEAAVVSTMSGVQGAFIGGLMGTLSPEM- 85

Query: 73  SSLPTPQAGLNPQAMASFKQAQALAGGPLIQARNFAVMTGVNAGISSVMKRLRGKEDVQS 132
                PQAG++PQA+AS KQAQAL GGP +QARNFA +TGVNAGI+SVMKR+RGKED++S
Sbjct: 86  -----PQAGVDPQAIASMKQAQALVGGPWVQARNFAAITGVNAGIASVMKRIRGKEDIES 145

Query: 133 SMVAAFGSGAMFSLVSGMGGPNQVANAVTSGLFFSLVQGGLFKLGERFSQPPAEDVYYAK 192
           ++VAA GSG  +SLVS  G   Q  NA+T+   F++ QG  FKLGERFS+P  ED ++ +
Sbjct: 146 AVVAALGSGFAYSLVS-QGLQGQPMNAITTAAGFAVFQGVFFKLGERFSKPSTEDPFFTR 205

Query: 193 TRSMLNNLGLPSYEKNFKRGLLTDSTLPLLTD 225
            R+ML  LGL  YEKNFK+GLLTD TLPLLTD
Sbjct: 206 GRTMLVKLGLEKYEKNFKKGLLTDPTLPLLTD 230

The following BLAST results are available for this feature:
BLAST of MS006156 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022138076.13.1e-116100.00uncharacterized protein LOC111009335 isoform X2 [Momordica charantia][more]
XP_022138075.13.1e-116100.00uncharacterized protein LOC111009335 isoform X1 [Momordica charantia][more]
KAA0042522.12.7e-11294.25mitochondrial import inner membrane translocase subunit TIM22-like [Cucumis melo... [more]
XP_008437651.18.8e-11194.20PREDICTED: uncharacterized protein LOC103482996 [Cucumis melo] >TYK05925.1 mitoc... [more]
XP_038876132.12.0e-11093.75chloroplastic import inner membrane translocase subunit HP30-2-like [Benincasa h... [more]
BLAST of MS006156 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FLT99.6e-6862.67Chloroplastic import inner membrane translocase subunit HP30-2 OS=Arabidopsis th... [more]
Q9SCK35.8e-6561.32Chloroplastic import inner membrane translocase subunit HP30-1 OS=Arabidopsis th... [more]
BLAST of MS006156 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1C8P31.5e-116100.00uncharacterized protein LOC111009335 isoform X2 OS=Momordica charantia OX=3673 G... [more]
A0A6J1C8F01.5e-116100.00uncharacterized protein LOC111009335 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A5A7TGI21.3e-11294.25Mitochondrial import inner membrane translocase subunit TIM22-like OS=Cucumis me... [more]
A0A0A0KJR13.3e-11192.54Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_5G139080 PE=4 SV=1[more]
A0A5D3C3H24.3e-11194.20Mitochondrial import inner membrane translocase subunit TIM22-like OS=Cucumis me... [more]
BLAST of MS006156 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G24650.16.8e-6962.67Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family... [more]
AT3G49560.14.1e-6661.32Mitochondrial import inner membrane translocase subunit Tim17/Tim22/Tim23 family... [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (TR) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePFAMPF02466Tim17coord: 48..166
e-value: 6.7E-10
score: 39.4
NoneNo IPR availablePANTHERPTHR14110:SF6CHLOROPLASTIC IMPORT INNER MEMBRANE TRANSLOCASE SUBUNIT HP30-2coord: 1..225
NoneNo IPR availableCDDcd09487SAM_superfamilycoord: 195..224
e-value: 0.00103261
score: 34.5225
IPR039175Mitochondrial import inner membrane translocase subunit TIM22PANTHERPTHR14110MITOCHONDRIAL IMPORT INNER MEMBRANE TRANSLOCASE SUBUNIT TIM22coord: 1..225

Relationships

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

Feature NameUnique NameType
MS006156.1MS006156.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0045039 protein insertion into mitochondrial inner membrane
cellular_component GO:0042721 TIM22 mitochondrial import inner membrane insertion complex