The kinetics of succinate (SDH) and lactate (LDH) dehydrogenases were determined in single muscle fibres in unfixed sections of the gastrocnemius of dystrophic mdx mice (with an X-linked genetic disorder lacking a cytoskeletal protein, dystrophin) and age-matched C57BL/10 control mice. Quantitative gel substrate-film techniques and a real-time image analysis system were used. Three main fibre types were observed in regenerated mdx gastrocnemius and in corresponding controls: small fibres (S) with high SDH and LDH initial reaction velocities and activities, large fibres (L) with low activities of these dehydrogenases and intermediate-sized fibres (I) with intermediate enzyme activities. The small and intermediate fibres in both mdx and control muscles exhibited respectively high and moderate sub-sarcolemmal SDH and LDH activities attributable to accumulated mitochondria. The ratios of the initial velocities of the intrinsic enzyme reactions in the sarcoplasm, excluding the subsarcolemmal regions, of mdx muscle fibres compared to those in control fibres were 0.958 (S), 1.09 (I) and 0.959 (L) for SDH, and 1.03 (S), 1.06 (I) and 1.07 (L) for LDH. A parameter a, a measure of the diffusion of LDH out of muscle sections during incubation on gel substrate films, was found to be 0.981 and 1.00 in mdx and control muscles, respectively. Thus there are no significant differences in the activities and microenvironments of the enzymes between regenerated mdx muscle fibres and normal control muscle fibres. These data suggest that dystrophin deficiency in mdx muscles has no effects on the interactions of LDH with cytoskeletal proteins or on SDH activities in mitochondria whose number and morphology differ in mdx muscle fibres compared to those in normal controls. SDH and LDH activities were also found in the mitochondria clustered on two longitudinally directed poles of each central nucleus in regenerated mdx muscle fibres. They were proportional to the activities in the sarcoplasm excluding the subsarcolemmal regions.