Journal
MICROORGANISMS
Volume 11, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/microorganisms11010195
Keywords
spores; Bacillus; disinfection; metabolism; 3-phosphoglycerate
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The development of Bacillus spore cores involves the accumulation of 3-phosphoglycerate (3PGA) during sporulation and before decreases in core water content occur due to Ca-dipicolinc acid (CaDPA) uptake. The accumulation of 3PGA is inhibited by core acidification and phosphoglycerate mutase (PGM) at pH 6.4. The germination of spores and the generation of ATP rely on the catabolism of 3PGA.
The development of Bacillus spore cores involves the accumulation of 3-phosphoglycerate (3PGA) during sporulation, following core acidification to similar to 6.4, and before decreases in core water content occur due to Ca-dipicolinc acid (CaDPA) uptake. This core acidification inhibits phosphoglycerate mutase (PGM) at pH 6.4, allowing 3PGA accumulation, although PGM is active at pH 7.4. Spores' 3PGA is stable for months at 4 degrees C and weeks at 37 degrees C. However, in wild-type spore germination, increases in core pH to 7.5-8 and in core water content upon CaDPA release and cortex peptidoglycan hydrolysis allow for rapid 3PGA catabolism, generating ATP; indeed, the earliest ATP generated following germination is from 3PGA catabolism. The current work found no 3PGA in those Bacillus subtilis spores that do not accumulate CaDPA during sporulation and have a core pH of similar to 7.4. The ATP production in the germination of 3PGA-less spores in a poor medium was minimal, and the germinated spores were >99% dead. However, the 3PGA-replete spores that germinated in the poor medium accumulated >30 times more ATP, and >70% of the germinated spores were found to be alive. These findings indicate why 3PGA accumulation during sporulation (and utilization during germination) in all the Firmicute spores studied can be crucial for spore revival due to the generation of essential ATP. The latter finding further suggests that targeting PGM activity during germination could be a novel way to minimize the damaging effects of spores.
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