Studies of the enzymatic properties of cell-free extracts prepared from overnight cultures of the normal, and nitroreductase-deficient and -enriched strains ofSalmonella typhimurium,designed for use in theumugene induction assay of Odaet al.(1992), were undertaken in an effort to clarify the nature of nitroreductase deficiency in relation to mutagenicity. The ability of these strains to promote oxygen consumption and free radical intermediates of representative nitroarene substrates was measured, respectively, by oxygen polarography and electron spin resonance (ESR) spectroscopy. The substrates 4-nitropyridineN-oxide (4NPO) and 4-nitroquinolineN-oxide (4NQO) stimulated the rate and extent of NADH-dependent oxygen consumption catalyzed by cell-free extracts prepared from wild-type, and nitroreductase-deficient and -enriched strains. The extent of oxygen consumption was greater than stoichiometric with respect to the amount of nitroaromatic substrate, which implied one-electron reduction of 4NQO by these bacterial extracts and subsequent redox cycling with oxygen. ESR spectroscopy confirmed the production of free radical metabolites of the nitroarene substrates, which were inferred by the oxygen consumption studies. At equal protein concentrations the cell-free extracts of each strain catalyzed univalent reduction of 4NPO yielding the 59 line signal characteristic of the 4NPO nitro anion radical. This ESR signal was potently inhibited by the flavoprotein inhibitors CuSO 4 and PCMB, albeit a twofold or higher concentration of both inhibitors was required to inhibit the signal produced by extract from the nitroreductase-deficient strain than that produced by the other strains. The results indicate that the nitroreductase-deficient strain ofSalmonella typhimuriumdeveloped for use in theumugene induction assay is not deficient in either one-electron nitro group or quinone reductase activity.