Electron Transport & Oxidative Phosphorylation

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Revision as of 13:41, 9 February 2023

Electron Transport & Oxidative Phosphorylation is a metabolic pathway that uses the energy released from the Citric Acid Cycle and oxygen to produce ATP. It is the major ATP production mechanism in human carbohydrate metabolism. See also [1].

NADH-coenzyme Q oxidoreductase (complex I)

The reaction that is catalyzed by this enzyme is the two electron oxidation of by or ubiquinone (represented as Q in the equation below), a lipid-soluble quinone that is found in the mitochondrion membrane:

NADH + Q + 5H⁺(matrix) ⟶ NAD⁺ + QH₂ +4H⁺(intermembrane)

The start of the reaction, and indeed of the entire electron chain, is the binding of a NADH molecule to complex I and the donation of two electrons. The electrons enter complex I via a prosthetic group attached to the complex, (FMN). The addition of electrons to FMN converts it to its reduced form, FMNH2. The electrons are then transferred through a series of iron–sulfur clusters: the second kind of prosthetic group present in the complex. There are both [2Fe–2S] and [4Fe–4S] iron–sulfur clusters in complex I.

Succinate-Q oxidoreductase (complex II)

Succinate Dehydrogenase

Succinate-Q oxidoreductase, also known as complex II or succinate dehydrogenase, is a second entry point to the electron transport chain. It is unusual because it is the only enzyme that is part of both the citric acid cycle and the electron transport chain. Complex II consists of four protein subunits and contains a bound flavin adenine dinucleotide (FAD) cofactor, iron–sulfur clusters, and a heme group that does not participate in electron transfer to coenzyme Q, but is believed to be important in decreasing production of reactive oxygen species.

Complex III

Complex III of Electron Transport Chain

To view automatically seeded indices concerning Electron Transport & Oxidative Phosphorylation See:

Electron Transport

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Alexander Berchansky, David Canner

Retrieved from "http://52.214.119.220/wiki/index.php/Electron_Transport_%26_Oxidative_Phosphorylation"

@@ Line 1: / Line 1: @@
 <StructureSection load='2f1o.pdb' size='350' frame='true' side='right' scene='2f1o/Com_view/2'  caption='NADPH dehydrogenase complex with FAD and dicoumarol [[2f1o]]'>
-[[Electron Transport & Oxidative Phosphorylation]] is a metabolic pathway that uses the energy released from the [[Citric Acid Cycle]] and oxygen to produce ATP. It is the major ATP production mechanism in human [[carbohydrate metabolism]].
+[[Electron Transport & Oxidative Phosphorylation]] is a metabolic pathway that uses the energy released from the [[Citric Acid Cycle]] and oxygen to produce ATP. It is the major ATP production mechanism in human [[carbohydrate metabolism]]. See also [https://en.wikipedia.org/wiki/Oxidative_phosphorylation].
 '''NADH-coenzyme Q oxidoreductase (complex I)'''
@@ Line 15: / Line 15: @@
 '''Succinate-Q oxidoreductase (complex II)'''
 *[[Succinate Dehydrogenase]]
+Succinate-Q oxidoreductase, also known as complex II or succinate dehydrogenase, is a second entry point to the electron transport chain. It is unusual because it is the only enzyme that is part of both the citric acid cycle and the electron transport chain. Complex II consists of four protein subunits and contains a bound flavin adenine dinucleotide (FAD) cofactor, iron–sulfur clusters, and a heme group that does not participate in electron transfer to coenzyme Q, but is believed to be important in decreasing production of reactive oxygen species.
 '''Complex III'''

Electron Transport & Oxidative Phosphorylation

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Revision as of 13:41, 9 February 2023

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