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the name
glycoalic acid metabolism (uronic acid metabolism) is mainly carried out in the liver and red blood cells, it is by the urethrin nucleoside diphosphate glucose (UDPG) glycogen synthesis pathway, after a series of reactions to generate phosphate sugar into the glyphosate sugar pathway, thus forming another pathway of sugar decomposition metabolism.1-Phosphate glucose and urinary nucleoside triphosphate (UTP) produces urinary diphosphate glucose (UDPG) by catalysis of urinary diphosphate
phosphatification
ase (UDPG carophosphatase) The role of diphosphorus glucose
dehydrogenase
further oxidizes dehydrogenation to produce urinary diphosphorus glucosalic acid, the coenzyme of dehydrogenase is NAD plus, urinary diphosphorus glucosalic acid (UDPGA) is taken off diphosphate to produce glucuronic acid.
glucose aldehyde acid under the action of a series of enzymes, through the NADPH-H-supply hydrogen and NAD-hydrogen-subjected secondary reduction and oxidation process, the production of 5-phosphate xygenic acid sugar into the glyphosate sugar path.the main physiological function of glycosalic acid metabolism is the production of urinary diphosphate glucosalic acid in the metabolic process, which is one of the important detoxifying substances in the body (see liver
sr.
), and is also the raw material for the synthesis of viscous polysaccharides (see connective
tissue
).
This metabolic process consumes NADPH-H-plus (at the same time generates NADH-H-), and the phosphate sugar path is produced by NADPH-H-plus, so the relationship between the two is close, when the phosphate glycosal path is impaired, it will inevitably affect the smooth progress of glycosalic acid metabolism.
.
.