Glycolysis: Difference between revisions
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Glycolysis is the metabolic process by which [[Glucose|glucose]] is converted to [[Pyruvate|pyruvate]]. The process of glycolysis is important in producing energy for the cell, particularly in [[Anaerobic|anaerobic]] conditions. The word glycolysis literally means "sugar splitting" or "sugar breaking"; this accurately describes the process of glycolysis, in which a 6-carbon sugar [[Molecule|molecule]] is broken into two 3-carbon molecules. Glycolysis consists of ten separate reactions, each catalysed by a different [[Enzyme|enzyme]]. For each molecule of glucose that goes through the process of glycolysis, there is a net gain of 2 ATP molecules and 2 NADH molecules.<br> | Glycolysis is the [[metabolic process|metabolic process]] by which [[Glucose|glucose]] is converted to [[Pyruvate|pyruvate]]. The process of glycolysis is important in producing energy for the cell, particularly in [[Anaerobic|anaerobic]] conditions. The word glycolysis literally means "sugar splitting" or "sugar breaking"; this accurately describes the process of glycolysis, in which a 6-carbon sugar [[Molecule|molecule]] is broken into two 3-carbon molecules. Glycolysis consists of ten separate reactions, each catalysed by a different [[Enzyme|enzyme]]. For each [[Molecule|molecule]] of glucose that goes through the process of glycolysis, there is a net gain of 2 [[ATP|ATP]] molecules and 2 [[NADH|NADH]] [[Molecule|molecules]].<br> | ||
Revision as of 00:10, 15 November 2010
Glycolysis is the metabolic process by which glucose is converted to pyruvate. The process of glycolysis is important in producing energy for the cell, particularly in anaerobic conditions. The word glycolysis literally means "sugar splitting" or "sugar breaking"; this accurately describes the process of glycolysis, in which a 6-carbon sugar molecule is broken into two 3-carbon molecules. Glycolysis consists of ten separate reactions, each catalysed by a different enzyme. For each molecule of glucose that goes through the process of glycolysis, there is a net gain of 2 ATP molecules and 2 NADH molecules.