Gene Details:
- Gene ID: MD10G1002300
- Gene Symbol: MdSPSC2
- Gene Name:
- Genome: Golden ASM211411v1
- Species: Malus domestica
Functional Descriptions:
- It was found that MdcyMDH1 accelerated sucrose anabolism in the cytoplasm by affecting both the expression of the apple sucrose phosphate synthase gene MdSPSB2/C2 and the SPS activity, and thus increased the sucrose content in fruit.
- Key enzymes of sucrose synthesis, sucrose 6-phosphate synthetase genes MdSPSB2 and MdSPSC2.
- Further study showed that the inhibition of MdSPSB2 or MdSPSC2 expression in MdcyMDH1 transgenic fruit could reduce or eliminate, respectively, the positive effect of MdcyMDH1 on sucrose accumulation.
Function-related keywords:
Literature:
- Malate metabolism mediated by the cytoplasmic malate dehydrogenase gene MdcyMDH affects sucrose synthesis in apple fruit. DOI: 10.1093/hr/uhac194 ; PMID: 36338852
Related News:
Gene Resources:
Sequences:
cDNA Sequence
mRNA Sequence
- />MD10G1002300
GGACACTAATACTGGGTTACACCTGTTGCTTATGAAGACACTAATACTTGGCAACAGAGATGACATTGAAGAAATGTCAAATAGTAGCTCGGTTGTTCTTACAACCGTGCTCAAGCTCATTGACAAGTATGATCTGTATGGGCAAGTGGCCTATCCTAAGCATCACAAGCAATCAGATGTACCTGACATATATCGTCTAGCTGCAAAAACAAAGGGAGTTTTCATCAACCCAGCTCTCGTGGAACCTTTCGGGCTCACAATTATAGAGGCAGCTGCTTACGGTTTACCAGTGGTCGCCACCAAAAATGGAGGACCTGTGGATATTCTGAAGGCACTAAACAACGGCCTCCTAGTTGACCCACATGACCAGAAAGCCATAGAAGAGGCACTGCTAAAGCTTGTAGGAGACAAAAACCTGTGGCTTGAATGCAGAAAGAACGGCCTAAAGAACATCCACCGCTTTTCGTGGCCGGAACACTGCCGGAACTACCTCTCCCATGTTGAACATTCCCGAAACCGTCACCCCACTACCCGCCTTCAGATCACGCCAATTCCTGAAGAACCATTGAGTGACTCTCTAAAAGATGTGGAAGACCTTTCTTTGAGGTTCTCTGTAGAAGGAGACTTCAAGCATAATGGAGAGCTCGATACAGCAACTAGACAGAGGGAACTGATTGAAGCCATAACTAGAATGTCTTCGTCCAGTAGCAATGTCGGTGCTACTTATGGTCCTGGCAGAAGGCAGAGGCTATTTGTAATAGCCATGGATTGTTATGACCGGAACGGAGACGGCACCGAAGTATTTCAAGAAGTTGTAGTGAATGTAAAGAAAGTAGCAAGCTTAGGCTATGGCCAGGGTCGAGTAGGCATTGTGTTGTTAACTGGTTCCAGCTTACAAGATATCGTCAAAGCGTTTAAAGGCTGCCAAGTAAACATTGAAGATTTTGACGCGTTGGTCTGCAAAAGTGGGAGTGAAATGTACTACCCGTGGAGGGATTTGGCAGCTGACGCAGATTATGAAACCCATATTGAGTACAGATGGCCTGGCGAGAATGTGAGGTCCATGGTTCCAAGGCTTGCCAGGCTAGAAGTTGGGGCTGACGATGATATCGTGGAGTATGCTGGATCAAGTAGCTCTAGGTGCTACTCTTATAGTGTGAAGCCAGGAGCCAAGACTCGGCGGGTCGACAACCTGCGCCAACGGCTGCGGATGAGAGGCTTCCGATGCAACCTTGTCTACACTCGTGTAGCATCAAGGTTAAATGTTGTACCCCTGGTTGCATCAAGAGTACAAGCACTAAGATATCTTTCCGTCAGGTGGGCCATTGATCTGTCAAAAGTGGTTGTACTTGTTGGGGAAAAAGGAGATACAGACATTGAAGACCTGCTGGCCGGCCTCCACAAGACCCTTGTTCTAAGAGGTTCTGTTGAGTATGGCAGTGAGAAGCTTATTCACGGTGAAGATAGTTTCAAAAGAGAAGATGTAGTCCCACAAGATAGCCCTAACATTGCCCTTGTGGAGAGCTATCAAGCCCATGACATCTCAGCGGCACTTGAAGCACGTGGGATCAAGGGATTTTAGTTTTTTCCATTATTTCTCCTTCACTTGTCTATATGGGGAGTATATTTCGACAACTCAAGCAAAAGTCTGAGTGCCACACATAAAGGGAATATACATCTCAACCACTTGCAAGTAATTTCGCTTTGTGCAAGCAAGCATATACATATAAAATAACTCAAGTTTCCGTTTCCACCCTACCAGGCTACCCTCTATATCTTTTAATTTCATTACTGCTGTCTACTAGACATTCAAGACACGTGCATGTGGCGAGTAAATAGCAGATAGACTGTTTATCTAGGTGATTTACTTCTCACTTGTGACCGAAATTTGTACAACTTCAACCAACGTTTATGCACAAAATGACAAATTAATTTCAACTTGCACTGTACCAAACCTGTTGCAAGAAAGGTACTAGATTTGGTTTCGATTCTTGTTTGAACAGTTACCAGAAAAGCAAGCCAAGTATTCTAGGCTGTGGCCATTAGCCAACTGATGATTTCGTTTCCCAGACTTCCATCTTGCCCAATCCATTCGTGTGTTTCAAGTTTTTTTATGCACAAATGTCCAATTCCACTCCGCAAGCACATTTTACCACATGAGATATTCCCTGTAAT
Protein Sequence
- />MD10G1002300
MKTLILGNRDDIEEMSNSSSVVLTTVLKLIDKYDLYGQVAYPKHHKQSDVPDIYRLAAKTKGVFINPALVEPFGLTIIEAAAYGLPVVATKNGGPVDILKALNNGLLVDPHDQKAIEEALLKLVGDKNLWLECRKNGLKNIHRFSWPEHCRNYLSHVEHSRNRHPTTRLQITPIPEEPLSDSLKDVEDLSLRFSVEGDFKHNGELDTATRQRELIEAITRMSSSSSNVGATYGPGRRQRLFVIAMDCYDRNGDGTEVFQEVVVNVKKVASLGYGQGRVGIVLLTGSSLQDIVKAFKGCQVNIEDFDALVCKSGSEMYYPWRDLAADADYETHIEYRWPGENVRSMVPRLARLEVGADDDIVEYAGSSSSRCYSYSVKPGAKTRRVDNLRQRLRMRGFRCNLVYTRVASRLNVVPLVASRVQALRYLSVRWAIDLSKVVVLVGEKGDTDIEDLLAGLHKTLVLRGSVEYGSEKLIHGEDSFKREDVVPQDSPNIALVESYQAHDISAALEARGIKGF