Polypeptide MELO3C017757P1
Accession: MELO3C017757P1
Name: MELO3C017757P1
Description: Similar to Probable inositol transporter 1 (Arabidopsis thaliana) (uniprot_sprot:sp|Q8VZR6|INT1_ARATH)
Sequence:
>MELO3C017757P1 Similar to Probable inositol transporter 1 (Arabidopsis thaliana) (uniprot_sprot:sp|Q8VZR6|INT1_ARATH) MTLALESLPGSSGYLDIYPERKMYYFKNPYVLGLTVVAGIGGLLFGYDTGVISGALLYIKDDFEAVKNSSFLQETIVSMA VLGAIVGAAAGGWINDAYGRKKATLLADVVFALGAAVMAAAPDPYILIAGRFLVGMGVGVASVTAPVYIAEASPSEIRGG LVSTNVLMITFGQFLSYLVNLAFTQVPGTWRWMLGVSGVPAVIQFVFMLFLPESPRWLFMKDEKSKAIAVLSKIYDFPRL EDEIDYLSSQLEEEKLKKTNVSYMDVFKSKEIRLAFLAGAGLQAFQQFTGINTVMYYSPTIVQMAGFRSNQLALLLSLIV AAMNAAGTVLGIYLIDHAGRKKLAISSLSGVIVSLAILSGALFAGQYGLTNGLDGWIAVIGLALYIAFFSPGMGPVPWTV NSEIYPEAYRGLCGGMSATVNWVSNLIVAQTFLSLAEVAGTGLTFLIFAAIAVLAIVFIVVYVPETQGLTFEEVERIWKE RACGRDPNTESLLA*
Download fasta sequence.
Properties
These properties come from blast2go analysis
molecular_function: 2-alkenal reductase activity, substrate-specific transmembrane transporter activity.
cellular_component: cytoplasmic membrane-bounded vesicle, integral to membrane.
biological_process: oxidation-reduction process, transmembrane transport, carbohydrate transport.
These properties come from reactome analysis
REACTOME_REACTION: HMIT co-transports myo-inositol with a proton (REACT_90383), Glucose transport by class I GLUTs (REACT_19335), HMIT co-transports myo-inositol with a proton (REACT_33092), Transport (efflux) of fructose, galactose, and glucose by GLUT2 (REACT_9458), alpha-D-glucose (cytosol) <=> alpha-D-glucose (extracellular) (REACT_21316), alpha-D-glucose (extracellular) <=> alpha-D-glucose (cytosol) (REACT_1338), Transport of Extracellular Glucose to the Cytosol by GLUT1 and GLUT2 (REACT_21415), Dehydroascorbate transport across the plasma membrane (REACT_11168).
biological_process: carbohydrate metabolic process, regulation of insulin secretion, vitamin metabolic process, water-soluble vitamin metabolic process, energy reserve metabolic process, glucose transport, hexose transport, transmembrane transport.
REACTOME_COMPLEX: GLUT4 tetramer [plasma membrane] (REACT_2699), GLUT3 tetramer [plasma membrane] (REACT_4043), GLUT2 tetramer [plasma membrane] (REACT_8747).
REACTOME_PATHWAY: SLC-mediated transmembrane transport (REACT_87124), Facilitative Na+-independent glucose transporters (REACT_19343), Vitamin C (ascorbate) metabolism (REACT_11202), Transmembrane transport of small molecules (REACT_81024), Metabolism of vitamins and cofactors (REACT_11193), Inositol transporters (REACT_88128), Transport of glucose and other sugars, bile salts and organic acids, metal ions and amine compounds (REACT_30685), Transport of glucose and other sugars, bile salts and organic acids, metal ions and amine compounds (REACT_19305), Metabolism of water-soluble vitamins and cofactors (REACT_11238), SLC-mediated transmembrane transport (REACT_19118), Transmembrane transport of small molecules (REACT_15518), Inositol transporters (REACT_89200), Transport of glucose and other sugars, bile salts and organic acids, metal ions and amine compounds (REACT_105287), Transmembrane transport of small molecules (REACT_97365), Hexose transport (REACT_9441), Integration of energy metabolism (REACT_1505), Glucose transport (REACT_212), Metabolism of carbohydrates (REACT_474), Diabetes pathways (REACT_15380), Regulation of Insulin Secretion (REACT_18325), SLC-mediated transmembrane transport (REACT_96636).
These properties come from phylome analysis
molecular_function: myo-inositol:hydrogen symporter activity, 2-alkenal reductase activity, substrate-specific transmembrane transporter activity.
cellular_component: plant-type vacuole membrane, integral to membrane.
biological_process: oxidation-reduction process, carbohydrate transport.
These properties come from kegg analysis
COG: Permeases of the major facilitator superfamily (COG0477).
This polypeptide in other databases
In PhylomeDB is Phy003A0E6_CUCME .
