Difference between revisions of "Net P/E control ratio"

Revision as of 10:45, 8 November 2020

high-resolution terminology - matching measurements at high-resolution

Net P/E control ratio

Description

The netOXPHOS-control ratio, (P-L)/E, expresses the OXPHOS capacity (corrected for LEAK-respiration) as a fraction of ET-capacity. The netOXPHOS-control ratio remains constant, if dyscoupling is fully compensated by an increase of OXPHOS capacity and free OXPHOS-capacity P-L is maintained constant.

Abbreviation: ≈P/E

Reference: Gnaiger 2020 MitoPathways

Compare

OXPHOS-coupling efficiency
More details: »ET-coupling efficiency

MitoPedia concepts: Respiratory control ratio, Ergodynamics

@@ Line 1: / Line 1: @@
 {{MitoPedia
 |abbr=''≈P/E''
-|description=[[Image:NetP over E.jpg|60 px|netOXPHOS control ratio]] The '''netOXPHOS-control ratio''' (''≈P/E''-control ratio), ''≈P/E'' = (''P-L'')/''E'', expresses the [[OXPHOS capacity]] (corrected for [[LEAK respiration]]) as a fraction of [[ET capacity]]. ''≈P/E'' remains constant, if [[dyscoupling]] is fully compensated by an increase of OXPHOS capacity and [[free OXPHOS capacity]] (''≈P'' = ''P-L'') is maintained constant.
+|description=[[Image:NetP over E.jpg|60 px|netOXPHOS control ratio]] The '''netOXPHOS-control ratio''', (''P-L'')/''E'', expresses the [[OXPHOS capacity]] (corrected for [[LEAK-respiration]]) as a fraction of [[ET-capacity]]. The netOXPHOS-control ratio remains constant, if [[dyscoupling]] is fully compensated by an increase of OXPHOS capacity and [[free OXPHOS-capacity]] ''P-L'' is maintained constant.
-|info=[[Gnaiger 2014 MitoPathways]]
+|info=[[Gnaiger 2020 MitoPathways]]
 }}
 == Compare ==