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Glycogenolysis (also known as "Glycogenlysis") is the catabolism of glycogen by cleavage of a glucose monomer through cleavage with inorganic phosphate to produce glucose-1-phosphate. This derivative of glucose is then converted to glucose-6-phosphate, an intermediate in glycolysis.

The hormones glucagon and epinephrine stimulate glycogenolysis.

Contents 1 Function 2 Clinical significance 3 Reaction 3.1 First step 3.2 Second step 3.3 Third step 4 Regulation 5 External links

Function

Glycogenolysis transpires in the muscle and liver tissue, where glycogen is stored, as a hormonal response to epinephrine (e.g., adrenergic stimulation) and/or glucagon, a pancreatic peptide triggered by low blood glucose concentrations.

• Liver (hepatic) cells can consume the glucose-6-phosphate in glycolysis, or remove the phosphate group using the enzyme glucose-6-phosphatase and release the free glucose into the bloodstream for uptake by other cells.

• Muscle cells in humans do not possess glucose-6-phosphatase and hence will not release glucose, but instead use the glucose-6-phosphate in glycolysis.

Clinical significance

Parenteral (intravenous) administration of glucagon is a common human medical intervention in diabetic emergencies when sugar cannot be given orally.

Reaction

First step

The overall reaction for the 1st step is:

Glycogen (n residues) + Pi <-----> Glycogen (n-1 residues)+ G1P

Here, glycogen phosphorylase cleaves the bond at the 1 position by substitution of a phosphoryl group. It breaks down glucose polymer at α-1-4 linkages until 5 linked glucoses are left on the branch. (Furthermore, glycogen phosphorylase (EC 2.4.1.1) can be used as a marker enzyme to determine glycogen breakdown. )

Second step

The 2nd step involves the debranching enzyme that moves the remaining glucose units to another non-reducing end. This results in more glucose units available to glycogen phosphorylase. (step 1) The final action of the debranching enzyme leads to the original glucose 1-P connected 1,4 to another branch being released.

Third step

The 3rd and last stage converts G1P (glucose-1-phosphate) to G6P (glucose-6-phosphate) through the enzyme phosphoglucomutase.

Regulation

The key regulatory enzyme of the process of glycogenolysis is Glycogen phosphorylase:

• Phosphorylation --> activation
• Dephosphorylation --> inhibition

External links

• The chemical logic of glycogen degradation at ufp.pt
• MeSH Glycogenolysis

v • d • e Metabolism: carbohydrate metabolism Anabolism Gluconeogenesis - Glycogenesis - Photosynthesis (Carbon fixation) Carbohydrate catabolism Glycolysis - Glycogenolysis - Fermentation (Ethanol, Lactic acid) - Cellular respiration - Xylose metabolism Other Pentose phosphate pathway

v • d • e Metabolism: carbohydrate metabolism - glycogenesis and glycogenolysis enzymes Glycogenesis Phosphoglucomutase - UDP-glucose pyrophosphorylase - Glycogen synthase (Glycogen branching enzyme) Glycogenolysis Glycogen phosphorylase (Debranching enzyme) - Phosphoglucomutase - Glycogenin Maltase Regulation Phosphorylase kinase - Phosphoprotein phosphatase

Wikipedia content modification information:

• This page was last modified on 13 May 2008, at 11:12.

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