Affiliation:
1. Laboratory of Molecular Biology, National Institute of Neurological Diseases and Blindness, Bethesda, Maryland 20014
Abstract
Sporulation mutants of
Bacillus subtilis
, blocked either in the citric acid cycle or in another pathway necessary for uracil incorporation during the developmental period, were tested for their sporulation response to different carbon sources. All of the citric acid cycle mutants and all but one of the other mutants failed to respond. The one phenotypically curable mutant, 60764, responded to most metabolizable carboxylic acids, such as acetate and fatty acids, and to some other carbon sources. For an optimal response, it was necessary to add the compound at a certain concentration and time (0.08
m
for acetate, when the extinction of the culture at 600 nm was 1). A liquid medium was devised in which an appreciable amount of antibiotic activity against
Staphylococcus aureus
was produced by our standard strain 60015. The mutant 60764 produced, even in the presence of palmitate, 20 times less antibiotic and sporulated more slowly than 60015. The antibiotic activity in both strains consisted of three major and several minor molecular species, as detected by thin-layer chromatography. When purified antibiotic was added to an exponentially growing culture of our standard strain of
B. subtilis
, lysis ensued, the extent of which increased with the concentration of the antibiotic added; later, resistant bacteria grew up. Three mutants unable to produce antibiotic activity were isolated and found to be deficient in sporulation. These findings show the close correlation between sporulation and antibiotic activity, but they do not prove that antibiotic activity is needed for sporulation.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Cited by
30 articles.
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