T. Yasukochi et al., PUTATIVE FUNCTIONS OF PHENYLALANINE-350 OF PSEUDOMONAS-PUTIDA CYTOCHROME P-450(CAM), Biochimica et biophysica acta. Protein structure and molecular enzymology, 1204(1), 1994, pp. 84-90
Cytochrome P-450(cam) hydroxylates d-camphor, using molecular oxygen a
nd reducing equivalents transferred via putidaredoxin. We constructed
mutant genes in which Phe-350 of P-450(cam) was replaced by Leu, Tyr,
or His by site-directed mutagenesis, expressed them in Escherichia col
i, purified the mutant proteins, and compared their enzymic properties
with those of the wild type P-450(cam). NADH oxidation rate of the Ty
r mutant in the reconstituted system with putidaredoxin and putidaredo
xin reductase was similar to that of the wild type enzyme, while the L
eu mutant and the His mutant showed 67% and 17% activity of that of th
e wild type, respectively. The affinities of these mutant proteins for
camphor and the oxidized form of putidaredoxin were much the same as
those of the wild type protein. Rate constants for the reduction react
ion of P-450(cam) by reduced putidaredoxin, a physiological electron d
onor for P-450(cam), of Tyr and His mutants were much the same as that
of the wild type enzyme, whereas the Leu mutant showed approx. half t
hat of the wild type. Thus, the aromatic ring of Phe-350 of P-450(cam)
probably contributes to enhancing efficiency of the electron transfer
yet does not seem to be essential for the reaction.