Information report for MdMa11
Gene Details
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Functional Descriptions
- Allelic variation of MdMYB123 controls malic acid content by regulating MdMa1 and MdMa11 expression in apple.
- Finding provides valuable functional validation of MdMYB123 and its role in the transcriptional regulation of both MdMa1 and MdMa11, and apple fruit malic acid accumulation.
- Both proteins could bind to the promoters of MdMa1 and MdMa11, but only MdMYB123 could activate their transcription, suggesting their different roles in the regulation of apple fruit acidity.
- MdMa11 and MdMa13 genes encoding P3A-type and P3B-type proton pumps, respectively, are located on the tonoplast. Both P3A-type and P3B-type proton pumps can directly or indirectly mediate the transmembrane transport of H+ and affect vacuolar acidity.
Functional Keywords
Literature and News
- Allelic variation of MdMYB123 controls malic acid content by regulating MdMa1 and MdMa11 expression in apple. DOI: 10.1093/plphys/kiad111 ; PMID: 36810940
- Transcriptional factor MdESE3 controls fruit acidity by activating genes regulating malic acid content in apple. DOI: 10.1093/plphys/kiae282 ; PMID: 38758108
Homologs
- Arabidopsis thaliana: AT3G42640, AT3G47950, AT3G22910, AT2G41560, AT3G21180
- Brachypodium distachyon: Bradi5g15668
- Cucumis sativus: CsHMA3, CsHMA4
- Medicago truncatula: Medtr6g052990
- Oryza sativa: OSA7;osAHA7, OsA3, OsA2, OsA8, osECA1, OsHMA4, OsHMA5
- Triticum aestivum: TaHMA2b-7A, TaHMA3-B1, TaHMA3-5A
- Vitis vinifera: VIT_201s0011g01030
Sequences
cDNA Sequence
mRNA Sequence
- />MD17G1155800
ACAAACACGTTGTGAGACAATGGCGCGACTTGAATTGAGACATGATGCTGAAAGCAGATCATCATCTGCTTTTCATTCAACCAACCGTCAGCTACCAAATCAATTAGATGGAAGAGGAGGTGTCAAAGGAAATACTTCTAATCACAATCACTTCTTTACTTTTATTATAACAGCTTATAGCGTCTCCTTCCTTACTCTTCTCTGTACCCACTTCAGCAGAGCAAGAGGAGGAGCTAAAAAGCCTCATCTTTCTCTGCTTCTGTTCTTCCCCAAGTGCTCACTCGGGTACTTCCCGATTGTCGAGATTTTTCAATCATCACCTAATGATGCGATGCACATTTGATAAATTCAGGATTTGAAAGCTTAAATCATGGCTGAAGATCTGGAGAAACCATTGTTGGATCCGGTGAATTTCAATCGGGATGGTATCGATTTGGAACGCTTGCCATTGGGAGAAGTCTTCGAGCAACTGAGGACATCACCACAAGGTCTTTCAACCGAAGATGCTGAAGCCAGATTGGTGATTTTTGGCTTTAACAAGCTTGAAGAGAAGACTGAGAACAAATTTTTGAAGTTCCTTGGTTTTATGTGGAACCCCTTGTCATGGGTTATGGAAGCTGCAGCTATAATGGCTCTTGTCCTCGCTAATGGCGGAGGTGAGGGTCCTGACTGGCAGGACTTTGTAGGGATTGTTATCCTGCTTATCATCAACTCAACGATTAGTTTCATAGAGGAGAATAATGCAGGAAATGCTGCATCAGCTCTAATGGATCGCTTAGCTCCGAAGACAAGGGTTCTCAGAGATGGGCGCTGGACAGAGCAAGATGCAGCTATTTTAGTACCAGGTGATATAATTAGCATTAAGCTCGGGGACATCATTCCGGCTGATGCTCGTCTGCTTGAAGGAGACGCGCTGAAAGTTGACCAGTCAGCTCTTACAGGAGAGTCACTACCTGTCACCAAGAAGACAGGTGATGAAGTATTTTCTGGTTCAACATGTAAACATGGAGAGATTGAAGCTGTTGTGATCGCAACTGGAGTTAACTCCTTTTTCGGAAAGGCAGCACATTTGGTGGACTCCACTGAAGTTGTTGGACATTTCCAGCAGGTCCTTACTGCCATTGGGAATTTCTGCATTTGCTCTATTGCTGTGGGAATGATTCTTGAAATCATTGTCATGTTCCCAATACAGCACCGCTCTTACAGGGATGGGATCAACAACCTTCTTGTTCTCTTAATTGGAGGAATTCCGATTGCCATGCCAACGGTGTTATCTGTTACACTTGCCATTGGTTCTCATCGACTTTCTCAACAGGGTGCCATTACAAAAAGGATGACAGCAATTGAAGAGATGGCAGGAATGGATGTCCTCTGCAGTGACAAAACCGGAACTCTCACCCTGAATCGCCTAACAGTTGATAGAAACCTAGTCGAGGTTTTCAACAAAGATCTAGACAAAGACGCGGTTATCATGTTTGCAGCCAGAGCAGCTAGAATGGAGAACCAGGACGCTATTGATGCAGCCATCGTCAATATGCTTGGTGATCCAAAGGAGGCACGAGGAGGCATTACAGAAGTGCATTTTCTGCCCTTCAATCCGGTGGACAAGCGTACTGCTATTACATACATTGATTCAGAAGGTAACTGGTATCGGGCCAGCAAAGGAGCTCCGGAACAGATTCTAGATCTATGCCCGGAGAAAGACGAGATTGCTGGAAGGGTGCATTCAATTATTGACAAATTTGCTGAAAGGGGATTGCGGTCTCTTGGAGTTGCCTTTCAGGAAGTTCCAGAAAAAACTAAGGATAGCCCTGGAGGTCCATGGACATTTGCTGGGTTGTTGCCCTTGTTTGATCCTCCTAGGCATGACAGTGCTGAGACCATTCGTAGAGCGCTTAACCTTGGAGTCTGTGTAAAGATGATTACAGGTGATCAGTTGGCAATTGCAAAGGAGACAGGGCGGCGACTTGGTATGGGAACAAACATGTACCCCTCCTCTTCGTTATTAGGCCGCCACATAGAAGAACATGAAGCTCTTCCCGTGGATGAGTTGATTGAGAAGGCTGATGGCTTTGCTGGTGTCTTCCCTGAACACAAGTATGAAATCGTAAAGATTTTACAAGAAAAGAAGCATGTGGTTGGGATGACTGGAGATGGAGTTAACGATGCACCTGCTTTAAAGAAAGCAGACATTGGTATAGCAGTGGCAGATTCCACAGATGCTGCAAGAAGTGCTTCTGATATAGTCTTAACTGAGCCTGGATTGAGTGTGATTGTCAGTGCTGTCCTCACCAGTCGCGCTATATTCCAAAGAATGAAGAATTACACGATATATGCTGTCTCCATAACCATTAGGATTGTGCTTGGTTTTGTGCTTCTTGCATTGATCTGGGAATATGACTTCCCACCTTTCATGGTTCTGATTATAGCCATACTGAATGACGGAACCATCATGACAATTTCACAGGATCGCGTAAAGCCCTCCCCGAAGCCTGATAGTTGGAAGCTGAAGGAGATATTTGCTACTGGCATTGTCATTGGCACATACCTTGCTTTAGTTACTGTATTGTTCTACTGGGTTGTTGTTGACACTGACTTCTTCGAGAGAACCTTCAATGTAAGAGATTTATCGAGCAGTAGTGAGGAAGTTTCATCTGCTGTATATCTGCAAGTCAGTATCATCAGCCAGGCTCTCATATTTGTGACAAGAAGCCAGGGGTGGTCATTCCTTGAGAGGCCCGGAACTATGTTGATGTGCGCTTTCGTGGTGGCTCAACTGGTGGCAACTTTGATTGCTGTATATGCAACAATCAGCTTTGCATATATCAGCGGCATTGGATGGGGATGGGCCGGAATCATCTGGTTGTACAGTGTGATTTTCTACATTCCTTTGGACGTCATTAAATTTGCAATTCGCTATGCTTTGACCGGGGACGCTTGGAATCTGTTATTCGATAGAAAGACAGCTTTTACTAGTAAGAAAGACTATGGCAAGGAAGATAGGGCAGCTAAGTGGATACTTTCTCAGAAAAGCTTACAAGGGTTACAAGACTTTGAGATCAACAGGACCGGCAAGCGTTCTTCTTTGATTGCAGAACAGGCGAGGCGACGCGCTGAAATTGCCAGGCTCGGGGAGATACACACTCTGAGAGGACATGTAGAATCTGTACTGAGGCTCAAGAATTTGGACCTGAGTGCCATTCAATCAGCCCACACAGTCTGAAGAAAATACACGGATATCTGCAAAATGTATCAACGTACCCTGAAGGCACAAATTTATCAGCATTTGCTCACATGATTGATGCTGAGTATCTGCAAAAGAAATTGACATGTGGGTTTTTGGGGATGGTCAATTCTTTGGGCCTAAAAGGTCAGAAAATCCATTTGCTTAATTTGTATCTGATTTATTATTACATATGATTTCCTCTTTTAAAAGAGTAAATACACATTGAATTTTTGTAGTTATTCAAAAGAAGACTTGCTATTTTTTTTTGTACTGTGTCAAGGATTGAACAAGATGAATTGGAGCATCAATTTCATTGTTGGAGTGATATTTAATGCAAAAGAAAGTTCTAGTT
Protein Sequence
- />MD17G1155800
MAEDLEKPLLDPVNFNRDGIDLERLPLGEVFEQLRTSPQGLSTEDAEARLVIFGFNKLEEKTENKFLKFLGFMWNPLSWVMEAAAIMALVLANGGGEGPDWQDFVGIVILLIINSTISFIEENNAGNAASALMDRLAPKTRVLRDGRWTEQDAAILVPGDIISIKLGDIIPADARLLEGDALKVDQSALTGESLPVTKKTGDEVFSGSTCKHGEIEAVVIATGVNSFFGKAAHLVDSTEVVGHFQQVLTAIGNFCICSIAVGMILEIIVMFPIQHRSYRDGINNLLVLLIGGIPIAMPTVLSVTLAIGSHRLSQQGAITKRMTAIEEMAGMDVLCSDKTGTLTLNRLTVDRNLVEVFNKDLDKDAVIMFAARAARMENQDAIDAAIVNMLGDPKEARGGITEVHFLPFNPVDKRTAITYIDSEGNWYRASKGAPEQILDLCPEKDEIAGRVHSIIDKFAERGLRSLGVAFQEVPEKTKDSPGGPWTFAGLLPLFDPPRHDSAETIRRALNLGVCVKMITGDQLAIAKETGRRLGMGTNMYPSSSLLGRHIEEHEALPVDELIEKADGFAGVFPEHKYEIVKILQEKKHVVGMTGDGVNDAPALKKADIGIAVADSTDAARSASDIVLTEPGLSVIVSAVLTSRAIFQRMKNYTIYAVSITIRIVLGFVLLALIWEYDFPPFMVLIIAILNDGTIMTISQDRVKPSPKPDSWKLKEIFATGIVIGTYLALVTVLFYWVVVDTDFFERTFNVRDLSSSSEEVSSAVYLQVSIISQALIFVTRSQGWSFLERPGTMLMCAFVVAQLVATLIAVYATISFAYISGIGWGWAGIIWLYSVIFYIPLDVIKFAIRYALTGDAWNLLFDRKTAFTSKKDYGKEDRAAKWILSQKSLQGLQDFEINRTGKRSSLIAEQARRRAEIARLGEIHTLRGHVESVLRLKNLDLSAIQSAHTV