Effects of heat-, CaCl2- and ethanol-treatments on activation ofBacillus spores*

Abstract

The effects of heat, CaCl2, and ethanol on activation of Bacillus spores were determined by monitoring the absorbance decrease during germination in inosine. Bacillus cereus T, B. subtilis A and B. megaterium QM B1551 spores were activated by heat- and CaCl2-treatments. Ethanol activated B. megaterium and B. subtilis spores yet did not activate B. cereus spores. CaCl2- and ethanol-activations were less effective than heat-activation as judged by optimal germination rates and germination extents. The presence of CaCl2 during heat-treatment inhibited heat-activation of all three Bacillus spores without affecting viability or dipicolinic acid content of the spores. The electrophoretic patterns of coat plus outer membrane proteins extracted from Bacillus spores treated with CaCl2 and heat in the presence of CaCl2 were similar to each other and were distinctively different from the patterns of proteins from unactivated spores or the spores treated with heat and/or ethanol.