Gene Details:
- Gene ID: MD10G1304000
- Gene Symbol: MdHT1.2
- Gene Name:
- Genome: Golden ASM211411v1
- Species: Malus domestica
Functional Descriptions:
- MdHT1.2 functions on the root epidermis to absorb rhizospheric Glc, which regulates the carbohydrate allocation for plant growth and fruit sugar accumulation.
- Uptake of glucose from the rhizosphere, mediated by apple MdHT1.2, regulates carbohydrate allocation.
- Based on RNA-seq data, MdHT1.2 showed the highest expression level among 29 MdHT genes in apple roots. Biochemical analyses demonstrated that MdHT1.2 was mainly expressed in the epidermal cells of fine roots, and its protein was located on the plasma membrane.
- MdHT1.2 functions on the root epidermis to absorb rhizospheric Glc, which regulates the carbohydrate allocation for plant growth and fruit sugar accumulation.
Function-related keywords:
- root , growth , root-growth , plant-growth , sugar , plasma-membrane , epidermis , root-epidermal-cells
Literature:
- Uptake of glucose from the rhizosphere, mediated by apple MdHT1.2, regulates carbohydrate allocation. DOI: 10.1093/plphys/kiad221 ; PMID: 37061824
Related News:
Gene Resources:
Sequences:
cDNA Sequence
mRNA Sequence
- />MD10G1304000
TTCTCATCTTGTTCCTCTTTGGCCTATTTCCTCACTCTCACTCTCTCTCTAAAACCCTTTTGCCTACTCTCTCTCTGATCAAACCTCTTAGCATTTGAACCTCCCAGAAACCCCAACAATGCCTGCTGTTGGTATCGCCACCGGCGGGAACGGCAAGGCCTATGCCGGAAATCTCACTCCTTACGTTCTTGTCACATGTATCGTTGCAGCCATGGGTGGTCTGATTTTCGGCTACGATATCGGAATTTCTGGTGGTGTAACGTCCATGGATTCGTTCCTGAAGAAGTTCTTTCTGTCTGTGTACCACAAGAAGGAGAAAGACAAGACGAACAACCAGTACTGTCAGTATGATAGTCAAACGTTGACCATGTTCACATCGTCGCTGTACTTGGCTGCCCTCATATCCTCGATCGTGGCCGCCACCGTGACGAGAAAATTCGGCCGGAAACTGTCCATGTTGTTCGGCGGTCTGCTGTTTTGCTCCGGTGCTATCATCAATGCCGCTGCCAAAGCTGTCTGGATGTTGATTCTCGGCCGTATGTTGCTCGGTTTCGGCATCGGATTCTCCAATCAGTCAGTGCCACTCTACCTCTCTGAGATGGCACCCTACAAATTCAGGGGAGCTCTCAACATTGGCTTCCAGCTATCAATCACAATTGGTATCCTTGTGGCCAATGTGCTGAACTACTTCTTTGCCAAGATCAAGGGTGGCTGGGGATGGAGATTGAGCTTGGGCGGCGCGATGGTGCCCGCCCTTATCATCACAATCGGCTCACTTGTCCTGCCAGACACTCCCAACTCCATGATTGAGCGCGGCCAGCACGACGAAGCCAAGGCCAAGCTTCAGCGCATTCGCGGCGTTGATGATGTTAGCGAGGAATTCAGTGACCTAGTTGCCGCCAGTGATGCCGCGAACCAAATTGAGGACCCGTGGAGAAACTTGTTGAGGAGGAAGTACAGACCTCACCTCTGCATGGCAATACTCATTCCTTTCTTTCAGCAGCTCACCGGCATTAATGTGATCATGTTCTACGCGCCGGTTTTGTTCAACACGATCGGGTTTGGATCTGATGCCTCGCTCATGTCAGCTGTGATCACCGGCAGTGTTAATGTTCTTGCAACTATGGTCTCAATCTACGGTGTTGACAAGTGGGGAAGAAGGTTCCTTTTCCTTGAGGGTGGAGCTCAAATGTTAATTTGCCAGGCAGTTGTGGCAACATGCATTGGTGCAAAGTTTGGAGTAAATGGGACCCCTGGAGAATTGCCAAAGTGGTATGCAATTGTGGTGGTGTTGTTCATCTGCACATATGTTGCAGGATTCGCATGGTCATGGGGTCCCCTCGGATGGCTAGTCCCGAGTGAAATCTTCCCGTTGGAAATCCGATCAGCCGCACAGAGCGTCAACGTTTCAGTCAACATGATCTTCACCTTCATTGTGGCTCAAATCTTCCTGACAATGCTCTGCCACTTGAAGTTTGGGCTCTTCATTTTCTTTGCGTTCTTTGTGTTTGTGATGTCAATCTTCGTTTACTACTTCTTGCCTGAGACGAAGGGGATTCCGATCGAAGAAATGGGCCAAGTGTGGAGGTCACATTGGTACTGGAAGAGATTCGTGAGTGCTGAAGAGGGAGGAGGTTATGAGATGCAGAAGGCAGCTCAAACTGTCAAAAATGTGTAATTCGGGTGATGGGCAAATATACGCCTCATTAACTTTTATTTTTATTTTTGTAGCAGTGAATATTATTGTTCCCATCGGCAAGGGTGATATAAAATTATTGTGCATTTATGTCCAATTTAGTTTTGCTATAAGGTTTTTTTACTGATATTTTACTCTAATTTAGAGTATGAAAAATAATATTCGAATT
Protein Sequence
- />MD10G1304000
MPAVGIATGGNGKAYAGNLTPYVLVTCIVAAMGGLIFGYDIGISGGVTSMDSFLKKFFLSVYHKKEKDKTNNQYCQYDSQTLTMFTSSLYLAALISSIVAATVTRKFGRKLSMLFGGLLFCSGAIINAAAKAVWMLILGRMLLGFGIGFSNQSVPLYLSEMAPYKFRGALNIGFQLSITIGILVANVLNYFFAKIKGGWGWRLSLGGAMVPALIITIGSLVLPDTPNSMIERGQHDEAKAKLQRIRGVDDVSEEFSDLVAASDAANQIEDPWRNLLRRKYRPHLCMAILIPFFQQLTGINVIMFYAPVLFNTIGFGSDASLMSAVITGSVNVLATMVSIYGVDKWGRRFLFLEGGAQMLICQAVVATCIGAKFGVNGTPGELPKWYAIVVVLFICTYVAGFAWSWGPLGWLVPSEIFPLEIRSAAQSVNVSVNMIFTFIVAQIFLTMLCHLKFGLFIFFAFFVFVMSIFVYYFLPETKGIPIEEMGQVWRSHWYWKRFVSAEEGGGYEMQKAAQTVKNV