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A list of all pages that have property "Description" with value "[[Image:R-L.jpg|50 px|R-L net ROUTINE capacity]] The '''''R-L'' net ROUTINE capacity''' is [[ROUTINE respiration]] corrected for [[LEAK respiration]]. ''R-L'' is the respiratory capacity available for phosphorylation of ADP to ATP. Oxygen consumption in the ROUTINE state of respiration measured in living cells, therefore, is partitioned into the ''R-L'' net ROUTINE capacity, strictly coupled to phosphorylation ''P»'', and nonphosphorylating LEAK respiration, ''LR'', compensating for proton leaks, slip and cation cycling: ''R'' = ''R-L''+''LR''. It is frequently assumed that [[LEAK respiration]] ''L'', as measured in the LEAK state, overestimates the LEAK component of respiration, ''LR'', as measured in the ROUTINE state, particularly if the protonmotive force is not adjusted to equivalent levels in ''L'' and ''LR''. However, if the LEAK component increases with enzyme turnover during ''R'', the low enzyme turnover during ''L'' may counteract the effect of the higher ''pmF''.". Since there have been only a few results, also nearby values are displayed.

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R-L net ROUTINE capacity + ([[Image:R-L.jpg|50 px|R-L net ROUTINE capa … [[Image:R-L.jpg|50 px|R-L net ROUTINE capacity]] The '''''R-L'' net ROUTINE capacity''' is [[ROUTINE respiration]] corrected for [[LEAK respiration]]. ''R-L'' is the respiratory capacity available for phosphorylation of ADP to ATP. Oxygen consumption in the ROUTINE state of respiration measured in living cells, therefore, is partitioned into the ''R-L'' net ROUTINE capacity, strictly coupled to phosphorylation ''P»'', and nonphosphorylating LEAK respiration, ''LR'', compensating for proton leaks, slip and cation cycling: ''R'' = ''R-L''+''LR''. It is frequently assumed that [[LEAK respiration]] ''L'', as measured in the LEAK state, overestimates the LEAK component of respiration, ''LR'', as measured in the ROUTINE state, particularly if the protonmotive force is not adjusted to equivalent levels in ''L'' and ''LR''. However, if the LEAK component increases with enzyme turnover during ''R'', the low enzyme turnover during ''L'' may counteract the effect of the higher ''pmF''.R'', the low enzyme turnover during ''L'' may counteract the effect of the higher ''pmF''.)

R-L net ROUTINE capacity +