Biochemical Analysis of the Bacillus subtilis 1604 Spore Germination Response
- 1 October 1989
- journal article
- research article
- Published by Microbiology Society in Microbiology
- Vol. 135 (10), 2723-2733
- https://doi.org/10.1099/00221287-135-10-2723
Abstract
Germination at 37.degree. C of spores of Bacillus subtilis 1604 in the L-alanine and potassium phosphate (ALA) and the glucose, fructose, L-asparagine, potassium chloride (GFAK) germinant systems was triggered following heat activation at 70.degree. C for 1 h. In these conditions, 50% of the spore population became committed to germinate after exposure for 10 min and 14 min to ALA and GFAK, respectively, at which time 38% and 30% losses of OD600 had taken place. Dipicolinic acid (DPA) release, loss of heat resistance and release of soluble hexosamine-containing fragments occurred after commitment and were closely associated with loss of refractility in both the ALA and GFAK pathways. Net ATP synthesis could not be detected until 3-4 min after initiation of germination in both ALA and GFAK, by which time > 20% of the spore population was committed to germinate. The ALA and GFAK germination pathways were > 99% inhibited by 3 and 1 mM-HgCl2, respectively, as measured by OD600 loss. Reversible post-commitment HgCl2-sensitive sites were present in the ALA and GFAK pathways which were 50% inhibited by 0.125 mM and 0.05 mM-HgCl2, respectively. A pre-commitment HgCl2-sensitive site was identified in the ALA pathway which was 55% inhibited by 6 mM-HgCl2. At 3 mM-HgCl2, 70% of the spore population became committed to germinate in the ALA pathway, whereas < 5% OD600 loss occurred. In this system, loss of heat resistance was associated with commitment, whereas OD600 loss and DPA release were identified as post-commitment events. The ALA and GFAK pathways were insensitive to a variety of metabolic inhibitors. Protease inhibitors had different effects on the ALA and GFAK pathways: phenylmethanesulphonyl fluoride (PMSF) solely inhibited ALA germination at a pre-commitment site and had little effect of GFAK germination, whereas N.alpha.-p-tosyl-L-arginine methyl ester (TAME) inhibited both the ALA and GFAK pathways at pre- and post-commitment sites. These results are discussed in relation to a recently proposed model for the triggering of Bacillus megaterium KM spore germination.This publication has 3 references indexed in Scilit:
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