Restricted pH ranges and reduced yields for bacterial growth under pressure.

Hydrostatic pressure was found to cause a marked narrowing of pH ranges for growth and reductions in growth yields for a variety of bacteria. In many cases, reduced yields under pressure could be directly related to increased sensitivities to metabolic acids that accumulated in the enclosed culture vessels used. Magnesium and calcium ions partially reversed increases in sensitivities of representative gram-positive and gram-negative bacteria to low, but not high, pH. Growth inhibition of these organisms at both extremes of pH was associated with enhanced loss of K(+) from pressurized cells. Inhibited cells in alkaline media also lysed under pressure, but microscopically observable lysis was clearly a secondary phenomenon because it occurred slowly. Apparent volumes for growth-inhibitory protonation-deprotonation reactions were calculated on the basis of measured shifts in inhibitory pH with pressure. The values ranged from 99 to 431 ml/mole, and their magnitudes indicated that growth inhibition by acids or bases involves cooperative changes in polymeric interactions such as those which accompany protein denaturation.