The pattern of flux and concentration control coefficients in an integrated mitochondrial energetics model is examined by applying a generalized matrix method of control analysis to calculate control coefficients, as well as response coefficients The computational model of Cortassa et al. encompasses oxidative phosphorylation, the TCA cycle, and Ca(2+) dynamics. Control of ATP synthesis, TCA cycle, and ANT fluxes were found to be distributed among various mitochondrial processes. Control is shared by processes associated with ATP/ADP production and transport, as well as by Ca(2+) dynamics. The calculation also analyzed the control of the concentrations of key regulatory ions and metabolites (Ca(2+), NADH, ADP). The approach we have used demonstrates how properties of integrated systems may be understood through applications of computational modeling and control analysis.
Keywords: Mitochondrial computational model; calcium dynamics; control by diffuse loops; distributed control; excitation-contraction coupling; metabolic control analysis; mitochondrial energetics.