The previously observed alterations in the energy transducing system of rat liver mitochondria during 3'-methyl-4-(dimethylamino)azobenzene (3'-Me-DAB) carcinogenesis were investigated using aliphatic dicarbonyl compounds as molecular probes and the effect of temperature on the membrane-linked NADH-indophenol reductase. The vicinal diketone, diacetyl, uncouples oxidative phosphorylation in normal rat liver mitochondria while the higher diketones, acetylacetone and acetonylacetone, are increasingly less effective in that order; diacetyl totally abolishes respiratory control with substrates the oxidation of which involves the NADH leads to CoQ segment, but only partially with succinate which bypasses this segment. Diacetyl, likewise, uncouples oxidative phosphorylation in liver mitochondria from rats fed 3'-Me-DAB, but the mitochondria are most resistant to this uncoupling (in terms of the P/O ratio) at the time period when the respiratory control index (determined in the absence of diacetyl) is at the dye-induced minmum. This time period is at 3 to 4 weeks of dye administration, representing the cumulative dose for tumorigenesis threshold. At this threshold period of feeding 3'-Me-DAB, discontinuities in the Arrhenius plot of the mitochondrial membrane-localized NADH-indophenol reductase appear, with a return toward the control state (no break) at 8 weeks, only to reappear in the plot of the enzyme from tumor mitochondria, suggesting sequential membrane phase transitions in the mitochondria during azo dye carcinogenesis.