Isolation and Characterization of Forespores from Bacillus megaterium

A procedure for isolation of intact forespores from sporulating Bacillus megaterium cells was developed. The cells were digested with lysozyme and made to release free forespores from the protoplasts by disruption of the cytoplasmic membrane with sonication in phosphate buffer containing 10% glycero...

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Published in:MICROBIOLOGY and IMMUNOLOGY 1987, Vol.31(2), pp.101-111
Main Authors: Watabe, Kazuhito, Koshikawa, Tomihiko, Yamazoe, Mari, Ogawa, Setsuko, Torii, Mitsuo
Format: Article
Language:English
Subjects:
Bacillus megaterium
Bacillus megaterium - analysis
Bacillus megaterium - physiology
Bacillus megaterium - ultrastructure
Bacteriology
Biological and medical sciences
Centrifugation, Density Gradient
Fundamental and applied biological sciences. Psychology
Growth, nutrition, cell differenciation
Microbiology
Microscopy, Electron
Picolinic Acids - analysis
Spores, Bacterial - analysis
Spores, Bacterial - isolation & purification
Spores, Bacterial - physiology
Spores, Bacterial - ultrastructure
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Summary:A procedure for isolation of intact forespores from sporulating Bacillus megaterium cells was developed. The cells were digested with lysozyme and made to release free forespores from the protoplasts by disruption of the cytoplasmic membrane with sonication in phosphate buffer containing 10% glycerol. The suitability of the procedure was confirmed by recovery of dipicolinic acid in the isolated forespores and an electron microscopic observation. The fine structure of the forespores prepared at 6hr (t6) after initiation of sporulation was similar to that of mature spores, except that the cortex layer and primordial cell wall were thinner and the core was larger. The density, determined by density gradient centrifugation, of the forespores isolated at t6, t10, t12, and mature spores was estimated to be 1.2783, 1.2875, 1.2861, and 1.2858, respectively. The isolated forespores at t6 and t8 were extremely heat labile (D80 of 9.5 and 21.5min, respectively) relative to mature spores (D80 of 277.8 min). These forespores were also less resistant to organic solvents. Germination of the forespores as well as mature spores was induced by KNO3, D-glucose, and L-leucine. Forespores at t6 were more sensitive to KNO3-induced germination than those at t10, t12, and mature spores when measured by reduction in the optical density of cell suspension.
ISSN:0385-5600
1348-0421
DOI:10.1111/j.1348-0421.1987.tb03073.x