We screened cDNA libraries from periwinkle (Catharanthus roseus) cell cultures induced for indole alkaloid synthesis and selected clones for induced cytochrome P-450 (P-450) proteins by differential hybridization, size of the hybridizing mRNA, and presence of amino acid motifs conserved in many P-450 families. Four cDNAs satisfying these criteria were analyzed in detail. They were grouped in two classes (pCros1, pCros2) that represented two closely related genes of a new P-450 family designated CYP72. Antiserum against a cDNA fusion protein overexpressed in Escherichia coli recognized in C. roseus a protein band of 56 kD. Quantification of western blots showed that it represented 1.5 +/- 0.5 and 6 +/- 1 mug/mg of protein in the membranes from noninduced and induced cells, respectively, and analysis of the total P-450 content suggested that the cDNA-encoded protein was one of the dominant P-450 proteins. The pathway to indole alkaloids contains two known P-450 enzymes, geraniol-10-hydroxylase (GE10H) and nerol-10-hydroxylase (NE10H). The induction kinetics of the cloned P-450 protein and of GE10H activity were similar, but those of NE10H were different. Western blots with membranes from other plants suggested that P-450 CYP72 is specific for C. roseus and other plants with GE10H activity. A tentative assignment of CYP72 as GE10H is discussed. The cDNA was recloned for expression in Saccharomyces cerevisiae, and the presence of the protein was demonstrated by western blots. Assays for GE10H failed to detect enzyme activity, and the same negative result was obtained for NE10H and other P-450 enzymes that are present in C. roseus.