Moc09g07340 (gene) Bitter gourd (OHB3-1) v2

Overview
NameMoc09g07340
Typegene
OrganismMomordica charantia cv. OHB3-1 (Bitter gourd (OHB3-1) v2)
DescriptionMetal tolerance protein 11
Locationchr9: 5778045 .. 5788296 (-)
RNA-Seq ExpressionMoc09g07340
SyntenyMoc09g07340
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGATGTTCTTCCGAGACATGTACCTGGAATACTTGTGATCCAAGGTCATGATCCTGTCAAATGTATAAAAAGAACTGGAGATCATTGTGGGAGAATTTTGAGTTCTGATGCTGGAGCCTGTAGGGGCTCCGTTTTCCACAGAAGGAGTTCTTGTTTGTCTGACGTATTGATTCGAAGACACCTTAATGTTCGTTTCTTGATTTGTGTGTCATTCTTGAACTCGGGTCATGCTAATCTAAAAGGACGATACATGCAAGTATCCGGTGATCTTTGTAATCCTTCTGCAATCAGTTTTTGTGTTTGCATGCCAGGGAAGGGGGTGAAGAAAGGTTATGAACTTGGTTTTTTTTTTCCTTTTCTGTACATTTCCATGCACAAGTTATTGAACTCGGTAGAATGCAAAAAGTTCTTTTCTAGAGAAGAATGGAAAAAAGTGATGGGGACGAGGGGAGCTTATGAAGTTATCATCCTACACAATGAGCTGGAACATGCAGTAATCATGTTAGAGGAAAGAGGAAGGATTGTTTCTTCTATCTCTATTCAACTGGTCACAATTTTACGGATAGCTGAGTGTCTTCAGAGGCTGTTAAACGGTCTGAGAACCGATATGTTTTTTGAAGAAACTAGGTGCCATTTTATTTCTTCTTCTTTATTCTCCTTCACCTTCTTCCCACCGACCAACGTCATCGTCATTGCCGCACTTCGTCATCGCTCGTTGGAGAGCACTTCCCTCTTCGTTGCAAGGGGAGAGAGCTCTCCCCCTCTCTCTTTGACGAAAGCGACAGCAGGCGATGGGCATCGGAGAGAGCTTACCCTCGCCATCCAGGAGAGAAAAGGGGAGAGCTCTCCGACGAAGTCGATGGTGGGTAGTGGGGAGAGCTCTCTAGTGGGCGATGAGGGACTGCGGCAGCACCACCAGCGGTCGGTGGCTACAAGCAACGTTGGAATTGATTTTGCCCAGGACAAGAAACTGGTGGATTTTCGTTTTGGTGTCCCTTACATCCTGTTGGATTTGTTGCAAAGTGGTAGTAGCTCCTCTATACTTCTTGCCAATGGATTCATCAACATTGGTGAAACTGTTGTCGGCACTGCAACTTTAGAGAGCACAAGGAGAGGAAACTACTACCTTGTGGTCTCCATGATTGCCTTGGCTAGTGTTTTGAGTCCTGAAGATTACGTGGCTGAGTACTATCAACAGCGGGTAGAAATGCTTGAGAGATTTAATGAGATGCTGGAATCTAAAGCTATGCATCTTTACTTTGGTGAAAATTTGAAATTACTCTTTGTTGTTCATTGCAATTACTCTTTGTTGTTTATTGCTGCCTGCGCTTTCACCAATGAGATAATCAAAGTGTATGCACAAGATCATTTCTTTGATGTGGTCACCAATGCTATCAGCCTTATCAGTTGCCCCCGAGTATCTGCTGAAACTGACCTACCTATGTTGGAACCATCACAAGGCCATCAGATGCTTGACACAGTCCGACATTTGGGTCTCACTACTTTGTCAAGGTCGACATTGTTCTGCCTGGAGACATGCCACTGGAAGAGGCCCACAACATTGGCTAGTCGTTGCAGGAAAATTTCGAGCTCCTACCACAGATTGAGAGGGCCTTTGTTTCATCACGATTACAAGTACAAGCATAAACCAGAGCATGCACAAGCACACTCTTAG

Coding sequence (CDS)

ATGGATGTTCTTCCGAGACATGTACCTGGAATACTTGTGATCCAAGGTCATGATCCTGTCAAATGTATAAAAAGAACTGGAGATCATTGTGGGAGAATTTTGAGTTCTGATGCTGGAGCCTGTAGGGGCTCCGTTTTCCACAGAAGGAGTTCTTGTTTGTCTGACGTATTGATTCGAAGACACCTTAATGTTCGTTTCTTGATTTGTGTGTCATTCTTGAACTCGGGTCATGCTAATCTAAAAGGACGATACATGCAAGTATCCGGTGATCTTTGTAATCCTTCTGCAATCAGTTTTTGTGTTTGCATGCCAGGGAAGGGGGTGAAGAAAGGTTATGAACTTGGTTTTTTTTTTCCTTTTCTGTACATTTCCATGCACAAGTTATTGAACTCGGTAGAATGCAAAAAGTTCTTTTCTAGAGAAGAATGGAAAAAAGTGATGGGGACGAGGGGAGCTTATGAAGTTATCATCCTACACAATGAGCTGGAACATGCAGTAATCATGTTAGAGGAAAGAGGAAGGATTGTTTCTTCTATCTCTATTCAACTGGTCACAATTTTACGGATAGCTGAGTGTCTTCAGAGGCTGTTAAACGGTCTGAGAACCGATATGTTTTTTGAAGAAACTAGGTGCCATTTTATTTCTTCTTCTTTATTCTCCTTCACCTTCTTCCCACCGACCAACGTCATCGTCATTGCCGCACTTCGTCATCGCTCGTTGGAGAGCACTTCCCTCTTCGTTGCAAGGGGAGAGAGCTCTCCCCCTCTCTCTTTGACGAAAGCGACAGCAGGCGATGGGCATCGGAGAGAGCTTACCCTCGCCATCCAGGAGAGAAAAGGGGAGAGCTCTCCGACGAAGTCGATGGTGGGTAGTGGGGAGAGCTCTCTAGTGGGCGATGAGGGACTGCGGCAGCACCACCAGCGGTCGGTGGCTACAAGCAACGTTGGAATTGATTTTGCCCAGGACAAGAAACTGGTGGATTTTCGTTTTGGTGTCCCTTACATCCTGTTGGATTTGTTGCAAAGTGGTAGTAGCTCCTCTATACTTCTTGCCAATGGATTCATCAACATTGGTGAAACTGTTGTCGGCACTGCAACTTTAGAGAGCACAAGGAGAGGAAACTACTACCTTGTGGTCTCCATGATTGCCTTGGCTAGTGTTTTGAGTCCTGAAGATTACGTGGCTGAGTACTATCAACAGCGGGTAGAAATGCTTGAGAGATTTAATGAGATGCTGGAATCTAAAGCTATGCATCTTTACTTTGGTGAAAATTTGAAATTACTCTTTGTTGTTCATTGCAATTACTCTTTGTTGTTTATTGCTGCCTGCGCTTTCACCAATGAGATAATCAAAGTGTATGCACAAGATCATTTCTTTGATGTGGTCACCAATGCTATCAGCCTTATCAGTTGCCCCCGAGTATCTGCTGAAACTGACCTACCTATGTTGGAACCATCACAAGGCCATCAGATGCTTGACACAGTCCGACATTTGGGTCTCACTACTTTGTCAAGGTCGACATTGTTCTGCCTGGAGACATGCCACTGGAAGAGGCCCACAACATTGGCTAGTCGTTGCAGGAAAATTTCGAGCTCCTACCACAGATTGAGAGGGCCTTTGTTTCATCACGATTACAAGTACAAGCATAAACCAGAGCATGCACAAGCACACTCTTAG

Protein sequence

MDVLPRHVPGILVIQGHDPVKCIKRTGDHCGRILSSDAGACRGSVFHRRSSCLSDVLIRRHLNVRFLICVSFLNSGHANLKGRYMQVSGDLCNPSAISFCVCMPGKGVKKGYELGFFFPFLYISMHKLLNSVECKKFFSREEWKKVMGTRGAYEVIILHNELEHAVIMLEERGRIVSSISIQLVTILRIAECLQRLLNGLRTDMFFEETRCHFISSSLFSFTFFPPTNVIVIAALRHRSLESTSLFVARGESSPPLSLTKATAGDGHRRELTLAIQERKGESSPTKSMVGSGESSLVGDEGLRQHHQRSVATSNVGIDFAQDKKLVDFRFGVPYILLDLLQSGSSSSILLANGFINIGETVVGTATLESTRRGNYYLVVSMIALASVLSPEDYVAEYYQQRVEMLERFNEMLESKAMHLYFGENLKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLISCPRVSAETDLPMLEPSQGHQMLDTVRHLGLTTLSRSTLFCLETCHWKRPTTLASRCRKISSSYHRLRGPLFHHDYKYKHKPEHAQAHS
Homology
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BLAST of Moc09g07340 vs. NCBI nr
Match: KAF9590125.1 (hypothetical protein IFM89_031729 [Coptis chinensis])

HSP 1 Score: 58.9 bits (141), Expect = 1.6e-04
Identity = 38/109 (34.86%), Postives = 48/109 (44.04%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISL---------------- 484
           +KLL V++C +         FTNEI+K YAQDHFFDV+TN I L                
Sbjct: 45  VKLLLVLYCRF---------FTNEIVKAYAQDHFFDVITNIIGLVAVLVANYVNDFMDPV 104

Query: 485 ---------------------------ISCPRVSAETDLPMLEPSQGHQ 491
                                      +S PRVS ET++ +LEP QGHQ
Sbjct: 105 GAILFGIIHHENMVEYGAGKCKLPGRQVSSPRVSPETNISVLEPPQGHQ 144

[Close]
BLAST of Moc09g07340 vs. NCBI nr
Match: KAG2403855.1 (Metal tolerance protein [Vigna angularis])

HSP 1 Score: 58.2 bits (139), Expect = 2.7e-04
Identity = 43/125 (34.40%), Postives = 58/125 (46.40%), Query Frame = 0 

Query: 437 LLFIAACAFTNEIIKVYAQDHFFDVVTNAISLISCPRVSAETD-LPMLEPSQGHQMLDTV 496
           LL I    FTNEIIK YAQDHFFDV+TN I LI+    +   D +  +      + +DTV
Sbjct: 269 LLMIYCRTFTNEIIKAYAQDHFFDVITNVIGLIAALLANYVDDWMDPVGAIIAVRHIDTV 328

Query: 497 R--HLGLTTLSRSTLFCLETCHWKRPTTLASRCRKISSSYHRLRGPLFHHDYKYKHKPEH 556
           R    G        +        +    +    ++       +     H DY+Y HKPEH
Sbjct: 329 RAYTFGSHYFVEVDIVLPADMQLQEAHDIGESLQEKLELLPEIERAFVHLDYEYSHKPEH 388

Query: 557 AQAHS 559
           AQ+HS
Sbjct: 389 AQSHS 393

[Close]
BLAST of Moc09g07340 vs. NCBI nr
Match: XP_025694366.1 (metal tolerance protein 11 isoform X2 [Arachis hypogaea] >QHO37839.1 Metal tolerance protein [Arachis hypogaea])

HSP 1 Score: 57.4 bits (137), Expect = 4.6e-04
Identity = 36/96 (37.50%), Postives = 43/96 (44.79%), Query Frame = 0 

Query: 437 LLFIAACAFTNEIIKVYAQDHFFDVVTNAISL---------------------------- 489
           LL I   +FTNEI+K YAQDHFFDV+TN I L                            
Sbjct: 231 LLMIYCRSFTNEIVKAYAQDHFFDVITNVIGLIAALLANYVDDWMDPVGAIIVAGFVHYP 290

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BLAST of Moc09g07340 vs. ExPASy Swiss-Prot
Match: O80632 (Metal tolerance protein 11 OS=Arabidopsis thaliana OX=3702 GN=MTP11 PE=2 SV=1)

HSP 1 Score: 50.8 bits (120), Expect = 5.7e-05
Identity = 25/46 (54.35%), Postives = 32/46 (69.57%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLIS 471
           +KLL V++C          +FTNEI+K YAQDHFFDV+TN I LI+
Sbjct: 225 VKLLLVLYCR---------SFTNEIVKAYAQDHFFDVITNIIGLIA 261

[Close]
BLAST of Moc09g07340 vs. ExPASy Swiss-Prot
Match: Q5NA18 (Metal tolerance protein 5 OS=Oryza sativa subsp. japonica OX=39947 GN=MTP5 PE=2 SV=1)

HSP 1 Score: 48.1 bits (113), Expect = 3.7e-04
Identity = 23/46 (50.00%), Postives = 30/46 (65.22%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLIS 471
           +KL  V++C           FTNEI+K YAQDHFFDV+TN I L++
Sbjct: 245 VKLALVLYCR---------TFTNEIVKAYAQDHFFDVITNMIGLVA 281

[Close]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match: A0A287M3L7 (ZT_dimer domain-containing protein OS=Hordeum vulgare subsp. vulgare OX=112509 PE=4 SV=1)

HSP 1 Score: 59.3 bits (142), Expect = 5.9e-05
Identity = 46/124 (37.10%), Postives = 58/124 (46.77%), Query Frame = 0 

Query: 389 SPEDYVAEYYQQRVEMLERFNEM-------------------------------LESKAM 448
           +PED VAEYYQQ+VEMLE FNEM                               LES   
Sbjct: 19  APEDVVAEYYQQQVEMLEGFNEMDALTDRGFLPGMSKGILVFASVMATLGLQIILESTRS 78

Query: 449 HLYFG-------ENLKLLFVVHCNYSLLFIAAC----AFTNEIIKVYAQDHFFDVVTNAI 471
            L  G       E  K +  +  + +L+ +A       FTNEI+K YAQDH FDV+TN I
Sbjct: 79  LLSDGGEFSLTNEQEKWVVDIMLSVTLVKLALALYCRTFTNEIVKAYAQDHIFDVITNII 138

[Close]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match: A0A287G655 (ZT_dimer domain-containing protein OS=Hordeum vulgare subsp. vulgare OX=112509 PE=4 SV=1)

HSP 1 Score: 58.2 bits (139), Expect = 1.3e-04
Identity = 46/124 (37.10%), Postives = 61/124 (49.19%), Query Frame = 0 

Query: 390 PEDYVAEYYQQRVEMLERFNEM-------------------------------LES-KAM 449
           P D VAEYYQQ++EMLE FNEM                               LES +++
Sbjct: 116 PGDVVAEYYQQQLEMLEGFNEMDTLTDRGCLPGISKGILVFASVMATLGLQIILESTRSL 175

Query: 450 HLYFGENLKL-----LFVVHCNYS------LLFIAACAFTNEIIKVYAQDHFFDVVTNAI 471
               G   +L     ++VV+   +      LL I   +FTNEI+K YAQDHFFDV+TN I
Sbjct: 176 VSSNGAEFRLTKEQEMWVVNIMLAVTLVKLLLVIYCRSFTNEIVKAYAQDHFFDVITNTI 235

[Close]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match: A0A6J1CB93 (metal tolerance protein 11 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111010075 PE=4 SV=1)

HSP 1 Score: 55.8 bits (133), Expect = 6.5e-04
Identity = 57/181 (31.49%), Postives = 72/181 (39.78%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLISCPRVSAETDLPMLE 484
           +KLL VV+C          AFTNEI+K YAQDHFFDVVTNAI L++    +   D   ++
Sbjct: 155 VKLLLVVYCR---------AFTNEIVKAYAQDHFFDVVTNAIGLVAALLANYIDD--WMD 214

Query: 485 PSQGHQM-LDTVRHLGLTT----------------LSRSTLFC------LETCHWKRPTT 544
           P     + L T+R   +T                 L + T  C      +      R  T
Sbjct: 215 PLGAIILALYTIRTWSMTVLENVNSLVGRSAAPEYLQKLTYLCWNHHKAIRHIDTVRAYT 274

Query: 545 LAS-----------------RCRKISSSYH-------RLRGPLFHHDYKYKHKPEHAQAH 559
             S                     I  S          +     H DY+YKHKPEHAQAH
Sbjct: 275 FGSHYFVEVDIVLPGDMPLEEAHDIGESLQEKLELLPEIERAFVHLDYEYKHKPEHAQAH 324

[Close]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match: A0A6J1CET3 (metal tolerance protein 11 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111010075 PE=4 SV=1)

HSP 1 Score: 55.8 bits (133), Expect = 6.5e-04
Identity = 57/181 (31.49%), Postives = 72/181 (39.78%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLISCPRVSAETDLPMLE 484
           +KLL VV+C          AFTNEI+K YAQDHFFDVVTNAI L++    +   D   ++
Sbjct: 226 VKLLLVVYCR---------AFTNEIVKAYAQDHFFDVVTNAIGLVAALLANYIDD--WMD 285

Query: 485 PSQGHQM-LDTVRHLGLTT----------------LSRSTLFC------LETCHWKRPTT 544
           P     + L T+R   +T                 L + T  C      +      R  T
Sbjct: 286 PLGAIILALYTIRTWSMTVLENVNSLVGRSAAPEYLQKLTYLCWNHHKAIRHIDTVRAYT 345

Query: 545 LAS-----------------RCRKISSSYH-------RLRGPLFHHDYKYKHKPEHAQAH 559
             S                     I  S          +     H DY+YKHKPEHAQAH
Sbjct: 346 FGSHYFVEVDIVLPGDMPLEEAHDIGESLQEKLELLPEIERAFVHLDYEYKHKPEHAQAH 395

[Close]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match: A0A6J1CET3 (metal tolerance protein 11 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111010075 PE=4 SV=1)

HSP 1 Score: 48.9 bits (115), Expect = 8.0e-02
Identity = 23/25 (92.00%), Postives = 24/25 (96.00%), Query Frame = 0 

Query: 387 VLSPEDYVAEYYQQRVEMLERFNEM 412
           VLSPEDYVAEYYQQ+VEMLE FNEM
Sbjct: 55  VLSPEDYVAEYYQQQVEMLEGFNEM 79


HSP 2 Score: 55.8 bits (133), Expect = 6.5e-04
Identity = 57/181 (31.49%), Postives = 72/181 (39.78%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLISCPRVSAETDLPMLE 484
           +KLL VV+C          AFTNEI+K YAQDHFFDVVTNAI L++    +   D   ++
Sbjct: 171 VKLLLVVYCR---------AFTNEIVKAYAQDHFFDVVTNAIGLVAALLANYIDD--WMD 230

Query: 485 PSQGHQM-LDTVRHLGLTT----------------LSRSTLFC------LETCHWKRPTT 544
           P     + L T+R   +T                 L + T  C      +      R  T
Sbjct: 231 PLGAIILALYTIRTWSMTVLENVNSLVGRSAAPEYLQKLTYLCWNHHKAIRHIDTVRAYT 290

Query: 545 LAS-----------------RCRKISSSYH-------RLRGPLFHHDYKYKHKPEHAQAH 559
             S                     I  S          +     H DY+YKHKPEHAQAH
Sbjct: 291 FGSHYFVEVDIVLPGDMPLEEAHDIGESLQEKLELLPEIERAFVHLDYEYKHKPEHAQAH 340

[Close]
BLAST of Moc09g07340 vs. TAIR 10
Match: AT2G39450.1 (Cation efflux family protein )

HSP 1 Score: 50.8 bits (120), Expect = 4.0e-06
Identity = 25/46 (54.35%), Postives = 32/46 (69.57%), Query Frame = 0 

Query: 425 LKLLFVVHCNYSLLFIAACAFTNEIIKVYAQDHFFDVVTNAISLIS 471
           +KLL V++C          +FTNEI+K YAQDHFFDV+TN I LI+
Sbjct: 225 VKLLLVLYCR---------SFTNEIVKAYAQDHFFDVITNIIGLIA 261


HSP 2 Score: 39.3 bits (90), Expect = 1.2e-02
Identity = 19/26 (73.08%), Postives = 21/26 (80.77%), Query Frame = 0 

Query: 388 LSPEDYVAEYYQQRVEMLERFNEMLE 414
           L PED VA+YYQQ+VEMLE F EM E
Sbjct: 55  LGPEDNVADYYQQQVEMLEGFTEMDE 80

The following BLAST results are available for this feature:
BLAST of Moc09g07340 vs. NCBI nr
Match NameE-valueIdentityDescription
KAF9590125.11.6e-0434.86hypothetical protein IFM89_031729 [Coptis chinensis][more]
KAG2403855.12.7e-0434.40Metal tolerance protein [Vigna angularis][more]
XP_025694366.14.6e-0437.50metal tolerance protein 11 isoform X2 [Arachis hypogaea] >QHO37839.1 Metal toler... [more]
BLAST of Moc09g07340 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
O806325.7e-0554.35Metal tolerance protein 11 OS=Arabidopsis thaliana OX=3702 GN=MTP11 PE=2 SV=1[more]
Q5NA183.7e-0450.00Metal tolerance protein 5 OS=Oryza sativa subsp. japonica OX=39947 GN=MTP5 PE=2 ... [more]
BLAST of Moc09g07340 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A287M3L75.9e-0537.10ZT_dimer domain-containing protein OS=Hordeum vulgare subsp. vulgare OX=112509 P... [more]
A0A287G6551.3e-0437.10ZT_dimer domain-containing protein OS=Hordeum vulgare subsp. vulgare OX=112509 P... [more]
A0A6J1CB936.5e-0431.49metal tolerance protein 11 isoform X3 OS=Momordica charantia OX=3673 GN=LOC11101... [more]
A0A6J1CET36.5e-0431.49metal tolerance protein 11 isoform X1 OS=Momordica charantia OX=3673 GN=LOC11101... [more]
A0A6J1CET38.0e-0292.00metal tolerance protein 11 isoform X1 OS=Momordica charantia OX=3673 GN=LOC11101... [more]
BLAST of Moc09g07340 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G39450.14.0e-0654.35Cation efflux family protein [more]
Relationships

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

Feature NameUnique NameType
Moc09g07340.1Moc09g07340.1mRNA