Carbohydrate metabolism: Difference between revisions
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*[[Glycolysis]] - the breakdown of the [[glucose]] molecule in order to obtain [[ATP]] | *[[Glycolysis]] - the breakdown of the [[glucose]] molecule in order to obtain [[ATP]] | ||
*the [[Pentose phosphate pathway]], which acts in the conversion of [[hexose]]s into [[pentose]]s and in [[NADPH]] regeneration. | *the [[Pentose phosphate pathway]], which acts in the conversion of [[hexose]]s into [[pentose]]s and in [[NADPH]] regeneration. | ||
*[[Glycogenesis]] - the conversion of excess glucose into [[glycogen]] in order to prevent excessive [[osmotic pressure]] buildup inside the cell | *Glycogenesis<ref name=WPgly>Wikipedia has an [[Wikipedia:Glycogenesis|article about Glycogenesis.]]</ref> - the conversion of excess glucose into [[glycogen]] in order to prevent excessive [[osmotic pressure]] buildup inside the cell | ||
* | *Glycogenolysis - the breakdown of glycogen into glucose, in order to provide a steady level of glucose supply for glucose-dependent tissues. | ||
*[[Gluconeogenesis]] - <i>de novo</i> synthesis of glucose molecules from simple [[organic chemistry|organic]] compounds | *[[Gluconeogenesis]] - <i>de novo</i> synthesis of glucose molecules from simple [[organic chemistry|organic]] compounds | ||
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Latest revision as of 08:10, 19 September 2024
Carbohydrate metabolism denotes the various biochemical processes responsible for the formation, breakdown and interconversion of carbohydrates in living organisms. It includes:
- Carbon fixation, whereby CO2 is reduced to carbohydrate.
- Glycolysis - the breakdown of the glucose molecule in order to obtain ATP
- the Pentose phosphate pathway, which acts in the conversion of hexoses into pentoses and in NADPH regeneration.
- Glycogenesis[1] - the conversion of excess glucose into glycogen in order to prevent excessive osmotic pressure buildup inside the cell
- Glycogenolysis - the breakdown of glycogen into glucose, in order to provide a steady level of glucose supply for glucose-dependent tissues.
- Gluconeogenesis - de novo synthesis of glucose molecules from simple organic compounds
Footnotes
- ↑ Wikipedia has an article about Glycogenesis.