Karpov, D. S.; Osipova, P. G.; Domashin, A. I.; Polyakov, N. B.; Solovyev, A. I.; Zubasheva, M. V.; Zhukhovitsky, V. G.; Karpov, V. L.; Poddubko, S. V.; Novikova, N. D.

doi:10.1134/S0026893320050040

Results

Title: Hyper-Resistance of the Bacillus licheniformis 24 Strain to Oxidative Stress Is Associated with Overexpression of Enzymatic Antioxidant System Genes.
Authors: Karpov, D. S.; Osipova, P. G.; Domashin, A. I.; Polyakov, N. B.; Solovyev, A. I.; Zubasheva, M. V.; Zhukhovitsky, V. G.; Karpov, V. L.; Poddubko, S. V.; Novikova, N. D.
Abstract: At the International Space Station (ISS), artificial living conditions are created and maintained to satisfy human needs, these conditions are also favorable for the growth of numerous microorganisms, molds and bacteria. Among the microorganisms detected on the ISS are those from the automicroflora of crew members, and a significant number of spore-forming bacteria. In most cases, this group of microorganisms gives rise to strains that are able to colonize, grow and reproduce on interior materials and equipment of stations, and may be involved in biodestructive processes. These bacteria show increased resistance to various stress factors, for example, DNA-damaging and oxidizing agents. The molecular mechanisms of this resistance to stress are poorly understood. As part of the sanitary-microbiological monitoring of the ISS habitat, the Bacillus licheniformis 24 strain was isolated. Here, we demonstrated that this strain has increased resistance to hydrogen peroxide and Paraquat when compared to the "terrestrial" B. licheniformis B-10956 strain. B. licheniformis 24 overexpressed genes encoding enzymes that neutralize reactive oxygen species, such as KatX catalase and the superoxide dismutases SodA and SodF. Apart from this, in comparison with B. licheniformis B-10956, of B. licheniformis 24 cells had lower hydrogen sulfide production that was associated with sharply reduced expression of the cysIJ operon that encodes sulfite reductase. The results indicate that enzymatic antioxidant protective systems make a more significant contribution to the hyper-resistance of Bacillus strains to oxidizing agents than components of non-enzymatic systems, such as hydrogen sulfide.
Subjects: INTERNATIONAL Space Station; BACILLUS licheniformis; HYDROGEN sulfide; REACTIVE oxygen species; OXIDATIVE stress; SPOREFORMING bacteria; OXIDIZING agents
Publication: Molecular Biology, 2020, Vol 54, Issue 5, p757
ISSN: 0026-8933
Publication type: Academic Journal
DOI: 10.1134/S0026893320050040

Hyper-Resistance of the Bacillus licheniformis 24 Strain to Oxidative Stress Is Associated with Overexpression of Enzymatic Antioxidant System Genes.

Karpov, D. S.; Osipova, P. G.; Domashin, A. I.; Polyakov, N. B.; Solovyev, A. I.; Zubasheva, M. V.; Zhukhovitsky, V. G.; Karpov, V. L.; Poddubko, S. V.; Novikova, N. D.

INTERNATIONAL Space Station; BACILLUS licheniformis; HYDROGEN sulfide; REACTIVE oxygen species; OXIDATIVE stress; SPOREFORMING bacteria; OXIDIZING agents

Molecular Biology, 2020, Vol 54, Issue 5, p757

0026-8933

Academic Journal

10.1134/S0026893320050040