Журнал микробиологии, эпидемиологии и иммунобиологии (Jul 2023)

Ability for vegetation and spore formation of <i>Bacillus anthracis</i> strains with different phenotypical properties under soil simulating conditions

  • Elena A. Koteneva,
  • Olga I. Tsygankova,
  • Aleksander V. Kalinin,
  • Alena V. Abramovich,
  • Victoriya Yu. Shcherbakova,
  • Ivan S. Rodionov

DOI
https://doi.org/10.36233/0372-9311-304
Journal volume & issue
Vol. 100, no. 3
pp. 186 – 193

Abstract

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Introduction. The study of the ability of Bacillus anthracis strains with different phenotypic properties to spore germination, reproduction and sporulation on a medium based on an aqueous soil extract can help assess the significance of these processes in the formation and maintenance of soil anthrax foci. Aim. The analysis of individual characteristics of the development of a vegetative culture of anthrax pathogen strains with different phenotypes in a soil medium model. Materials and methods. On a group of anthrax microbe strains with different plasmid composition and virulence, the possibility of spore germination, reproduction of bacilli and, at least in some of them, productive spore formation on the soil medium was studied. Results. Three variants of culture development of B. anthracis strains were identified: 1 spores remain intact, not germinating; 2 after germination of spores, bacilli are formed, which multiply with different intensity, passing into involutional forms without spore formation; 3 the passage of a complete physiological cycle "sporebacillusspore". The presence of 2% blood in the soil environment contributed to the germination of spores and reproduction of the culture, but inhibited the process of sporulation during the observation period of 3 days. No correlation was found between a certain phenotype of the studied strains of B. anthracis and the ability to germinate and vegetate on soil media. Conclusion. The data obtained that only 17% of CFU gives rise to the formation of colonies on the soil medium suggest the heterogeneity of the properties of the population of the studied strains. Isolation of such cultures and their further detailed study will make it possible to identify the most significant complexes of biological properties for the realization of a complete physiological cycle under soil-simulating conditions.

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