Orcinol hydroxylase (EC 1.14.13.6), which catalyzes the first reaction of orcinol catabolism in Pseudomonas putida 01, has been purified to homogeneity, and crystallized. Orcinol hydroxylase catalyzes the hydroxylation of orcinol with equimolar consumption of O2 and NADH (or NADPH) to 2, 3, 5-trihydroxytoluene, which is nonenzymically oxidized to a quinone. The visible absorption spectrum of the enzyme shows maxima at 373 and 454 nm and a shoulder at 480 nm. FAD can be dissociated from the protein. Reconstitution of enzymic activity was achieved with FAD, and to a limited extent by FMN. The enzyme has a molecular weight of 63,000 to 68,000 and contains 1 mol of FAD per mol of protein. K-m values for the three substrates orcinol, NADH, and O2 are 0.03, 0.13, and 0.07mM, RESPECTIVELY. The molecular activity of the crystalline enzyme is 1560 min minus 1. In the absence of orcinol, NADH is only slowly oxidized with formation of H2O2. Several analogs of orcinol also serve as substrates for hydroxylation, namely resorcinol, 4-methylresorcinol, and 4-bromoresorcinol. Other analogs, m-cresol, m-ethylphenol, 4-ethylresorcinol, and phloroglucinol, mimic orcinol as effectors, in that they (a) accelerate electron flow from NADH to the flavin and (b) decrease the apparent K-m for NADH but not to the same extent as the substrates that are hydroxylated. The latter compounds are not hydroxylated. Instead H2O2 accumulates as the only product of O2 reduction. The enzyme therefore behaves either as a hydroxylase or an oxidase. The ratio of hydroxylase to oxidase activities of the enzyme is decreased by an increase in the temperature of incubation; at 60 degrees the reaction with orcinol is almost 50% uncoupled from hydroxylation. The apparent K-m values for the effectors are in good agreement with the D-D values obtained for orcinol, resorcinol, and m-cresol. K-D values were obtained by measurement of the effector-induced perturbations of the visible absorption spectrum of the flavoprotein by difference absorption spectroscopy. The circular dichroism spectrum of orcinol hydroxylase is also altered in the presence of orcinol. The participation of the flavin in the over-all reaction is demonstrated by its rapid reduction under anaerobic conditions by NADH in the presence or orcinol, resorcinol, or m-cresol. Subsequent introduction of oxygen restores the oxidized form and yields H2O2 when m-cresol is the effector, but not when orcinol is the effector. Transfer of reducing equivalents from the reduced flavoprotein to free FAD may also occur. Reduction of orcinol hydroxylase by NADH in the absence of an effector is 10-4-fold slower than in the presence of an effector. The minimal structural requirements for effectors appear to be a 1,3-dihydroxy or 1-alkyl-3-hydorxybenzene, but only the former are substrates for hydroxylation.