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G6PD deficiency results from mutations in the G6PD gene. G6PD gene contributes to the production of glucose-6-phosphate dehydrogenase. Chemical reactions involving glucose-6-phosphate dehydrogenase produce compounds that prevent reactive oxygen species from building up to toxic levels within red blood cells. If a reduction in the amount of ...
Glucose 6-phosphatase-β is a ubiquitously expressed, 346-amino acid membrane protein that shares 36% sequence identity with glucose 6-phosphatase-α. Within the glucose 6-phosphatase-β enzyme, sequence alignments predict that its active site contains His167, His114, and Arg79.
Glucose-6-phosphatase is an enzyme located on the inner membrane of the endoplasmic reticulum. The catalytic unit is associated with a calcium binding protein, and three transport proteins (T1, T2, T3) that facilitate movement of glucose-6-phosphate (G6P), phosphate, and glucose (respectively) into and out of the enzyme.
When either form 'a' or 'b' are in the active state, then the enzyme converts glycogen into glucose-1-phosphate. Myophosphorylase-b is allosterically activated by AMP being in larger concentration than ATP and/or glucose-6-phosphate. (See Glycogen phosphorylase§Regulation).
G6PD reduces NADP + to NADPH while oxidizing glucose-6-phosphate. [2] Glucose-6-phosphate dehydrogenase is also an enzyme in the Entner–Doudoroff pathway, a type of glycolysis. Clinically, an X-linked genetic deficiency of G6PD makes a human prone to non-immune hemolytic anemia. [3]
To access the energy stored as glycogen, cells use the metabolic pathway glycogenolysis (glycogen breakdown); this produces the simple sugar glucose-6-phosphate (G-6-P), from which cells can extract energy or build other substances (e.g. riboses). G-6-P (which is also produced from glucose) acts as an input substance for: Glycolysis (see above)
The scope of GSD VI now also includes glycogen storage disease type VIII, [2] IX [2] (caused by phosphorylase b kinase deficiency) and X [2] (deficiency protein kinase A). The incidence of GSD VI is approximately 1 case per 65,000–85,000 births, [2] representing approximately 30% all cases of glycogen storage disease.
Without glycogen debranching enzymes to further convert these branched glycogen polymers to glucose, limit dextrinosis abnormally accumulates in the cytoplasm. [5] Glycogen is a molecule the body uses to store carbohydrate energy. Symptoms of GSD-III are caused by a deficiency of the enzyme amylo-1,6 glucosidase, or debrancher enzyme. This ...