Template:SUIT ROX WITH SHAM: Difference between revisions
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After inhibition with SHAM, the ROUTINE state is normally achieved, defined as the respiration in the physiological coupling state where the mitochondrial respiration is driven by the cytochrome ''c' oxidase pathway (CIV). Occassionally, the cytochrome ''c'' oxidase pathway may not be active and then we have the ROX state, where ''Rox'' is the [[residual oxygen consumption]] due to oxidative side reactions estimated either after inhibition of CIII or CIV or in the absence of endogenous fuel-substrates. ''Rox'' is subtracted from oxygen flux as a baseline for all respiratory states, to obtain mitochondrial respiration. | After inhibition with SHAM, the ROUTINE state is normally achieved, defined as the respiration in the physiological coupling state where the mitochondrial respiration is driven by the cytochrome ''c'' oxidase pathway (CIV). Occassionally, the cytochrome ''c'' oxidase pathway may not be active and then we have the ROX state, where ''Rox'' is the [[residual oxygen consumption]] due to oxidative side reactions estimated either after inhibition of CIII or CIV or in the absence of endogenous fuel-substrates. ''Rox'' is subtracted from oxygen flux as a baseline for all respiratory states, to obtain mitochondrial respiration. |
Revision as of 15:17, 9 April 2019
After inhibition with SHAM, the ROUTINE state is normally achieved, defined as the respiration in the physiological coupling state where the mitochondrial respiration is driven by the cytochrome c oxidase pathway (CIV). Occassionally, the cytochrome c oxidase pathway may not be active and then we have the ROX state, where Rox is the residual oxygen consumption due to oxidative side reactions estimated either after inhibition of CIII or CIV or in the absence of endogenous fuel-substrates. Rox is subtracted from oxygen flux as a baseline for all respiratory states, to obtain mitochondrial respiration.