Additive effect of convergent electron flow: Difference between revisions
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= List of publications: CI and CII and CI+II = | = List of publications: CI and CII and CI+II = | ||
{{#ask:[[Category:Publications]] [[Substrate states::CI]] [[Substrate states::CII]] [[Substrate states::CI+II]] | {{#ask:[[Category:Publications]] [[Substrate states::CI]] [[Substrate states::CII]] [[Substrate states::CI+II]] |
Revision as of 13:44, 28 July 2014
- high-resolution terminology - matching measurements at high-resolution
Additive effect of convergent electron flow
Description
Additivity describes the princple of substrate control of mitochondrial respiration, where the additive effect of convergent CI+II electron flow is a consequence of electron flow converging at the Q-junction from respiratory Complexes I and II (CI+II e-input). Further additivity may be observed by convergent electron flow through glycerophosphate dehydrogenase and electron-transferring flavoprotein. Convergent electron flow corresponds to the operation of the TCA cycle and mitochondrial substrate supply in vivo. Convergent electron flow simultaneously through CI+II into the Q-junction supports higher OXPHOS capacity and ETS capacity than separate electron flow through either CI or CII. Physiological substrate combinations supporting convergent CI+II e-input are required for reconstitution of intracellular TCA cycle function. The convergent CI+II effect may be completely or partially additive, suggesting that conventional bioenergetic protocols with mt-preparations have underestimated cellular OXPHOS capacities, due to the gating effect through a single branch, corresponding to additivity.
Abbreviation: Aα+β
Reference: Gnaiger 2014 MitoPathways, Gnaiger_2009_Int J Biochem Cell Biol
MitoPedia methods:
Respirometry
MitoPedia topics:
Substrate and metabolite