ATP: Difference between revisions

Revision as of 10:47, 8 November 2010

ATP (adenosine triphosphate) is a high energy molecule that is hydrolysed to provide energy for many reactions within the mammalian body. ATP is synthesised in the Mitochondria of a cell, in a process called oxidative phosphorylation, in what is called the electron transfer chain. ATP is a very important source of energy for many functions. An example is it's usage in glycolysis, where glucose is converted to pyruvate.

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	ATP ([[Adenosine\|adenosine]] triphosphate) is a high energy molecule that is hydrolysed to provide energy for many reactions within the mammalian body. ATP is synthesised in the [[Mitochondria\|Mitochondria]] of a [[~~cell~~\|cell]], in a process called oxi[[~~oxidative~~ phosphorylation\|dative phosphorylation]], in what is called the [[Electron transfer chain\|electron transfer chain]]. ATP is a very important source of energy for many functions. An example is it's usage in [[Glycolysis\|glycolysis]], where [[~~glucose~~\|glucose]] is converted to [[~~pyruvate~~\|pyruvate]].		ATP ([[Adenosine\|adenosine]] triphosphate) is a high energy molecule that is hydrolysed to provide energy for many reactions within the mammalian body. ATP is synthesised in the [[Mitochondria\|Mitochondria]] of a [[Cell\|cell]], in a process called oxi[[Oxidative phosphorylation\|dative phosphorylation]], in what is called the [[Electron transfer chain\|electron transfer chain]]. ATP is a very important source of energy for many functions. An example is it's usage in [[Glycolysis\|glycolysis]], where [[Glucose\|glucose]] is converted to [[Pyruvate\|pyruvate]].

ATP: Difference between revisions

Revision as of 10:47, 8 November 2010

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