Heat and cold shock responses in different strains of Thiobacillus ferrooxidans

Abstract

Different strains of Thiobacillus ferrooxidans were examined for their ability to produce a heat shock and a cold shock response. Strain A1, heat shocked from 20° to 35°C, acquired thermotolerance, as it showed a 1000-fold reduction in cell mortality when exposed to the supermaximum temperature of 42°C, as compared to a non-heat-shocked control. A heat shock from 25° to 35°C yielded similar results, although a higher degree of thermotolerance was achieved for the shorter exposure times. Cultures heat shocked for 5 h showed a five-log reduction in viable counts after 41 h at 42°C, whereas non-heat-shocked cultures showed a similar reduction in viability in 28 h. Conferred thermotolerance was immediate and sustained for the duration of the exposure to 42°C. Heat-shocked cultures were not significantly protected against loss of viability due to freezing (-15°C for 24 h). Strain S2, cold shocked from 25° to 10°C, and strain D6, cold shocked from 25° to 5°C, were not protected against freezing at-15°C. An analysis of proteins extracted from heat-shocked cells of strain A1 showed the presence of at least one newly induced protein and eight hyper-induced proteins. The molecular weights of the heat shock proteins were in the range of 15–80.3 kDa.