Cytochrome P-450scc was purified from the human placenta by extraction of mitochondria with cholate and Emulgen 911, chromatography on phenyl-Sepharose and DEAE-Sephacel, and ammonium sulphate fractionation. The catalytic properties of the purified human cytochrome P-450scc were analysed in Tween-20 micelles and compared to those of bovine adrenal cytochrome P-450scc analysed in the same system. Both enzymes had the same Km for cholesterol and were stimulated by cardiolipin when the cholesterol concentration was subsaturating. Examination of the rates of pregnenolone synthesis from 20 alpha-hydroxycholesterol, 22R-hydroxycholesterol and 20 alpha, 22R-dihydroxycholesterol by human and bovine cytochromes P-450scc revealed that the first hydroxylation (22R position) was rate-limiting for both in Tween-20 micelles. The rate of the 22R-hydroxylation was further decreased when a 20 alpha-hydroxyl group was already present on the cholesterol side-chain. The second hydroxylation occurred at about the same rate as the third hydroxylation for both enzymes. The rate of side-chain cleavage of 25-hydroxycholesterol by human cytochrome P-450scc in Tween-20 micelles was low, the highest rate being about 1% of the Vmax for cholesterol. Substrate inhibition was seen with high concentrations of 25-hydroxycholesterol. Conversion of 25-hydroxycholesterol to pregnenolone was accompanied by a build-up of products with intact side-chains, which were probably intermediates of the reaction. Side-chain cleavage of 25-hydroxycholesterol by bovine cytochrome P-450scc showed similar characteristics to the human enzyme, except that the highest velocity observed was approx. 25% of the Vmax for cholesterol. Rates of cleavage of 25-hydroxycholesterol by both enzymes were higher in dioleoylphosphatidylcholine vesicles than in Tween-20, but were still well below the Vmax for cholesterol and showed substrate inhibition. This study shows that there is close similarity in catalytic properties between human and bovine cytochromes P-450scc which suggests that the active site of the cytochrome is highly conserved.