Extracellular protease production by Clostridium bifermentans NCTC 2914 occurred throughout the growth phase in batch culture. In both glucose-excess and -limited chemostats, protease formation was inversely related to the dilution rate, over the range D = 0.03 to 0.70 h-1. At high dilution rates (D greater than 0.25 h-1), protease activities were greatest under excess glucose conditions. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of chemostat culture effluents showed the presence of up to 18 bands of protease activity at low dilution rates, with apparent molecular masses ranging from about 36 to 125 kDa. High-performance liquid chromatography gel filtration of culture supernatants gave four peaks of activity at 34, 42, 60, and 102 kDa. Glucose, peptone, and phosphate stimulated protease formation, but ammonia concentrations up to 10 g liter-1 had little effect on the process. Culture pH in glucose-excess chemostats strongly influenced protease synthesis, which was maximal during growth at pH 6.4. The optimal pH of protease activity was 7.0. Although a wide variety of proteins were hydrolyzed by C. bifermentans proteases, none of the enzymes were collagenolytic. Of 21 different p-nitroanilide, beta-naphthylamide, and N-carbobenzoyl substrates tested, none were hydrolyzed. With the exception of Ca2+, divalent metal ions inhibited proteolysis. Experiments with protease inhibitors demonstrated that 1 mM EDTA inhibited protease activities in culture supernatants by over 90%, indicating that the enzymes were principally of the metalloprotease type.