Your search keyword '"Beletsky, A. V."' showing total 2 results

1. Molecular analysis of microbial diversity in the Zavarzin Spring, Uzon Caldera, Kamchatka.

Author

Gumerov, V. M., Mardanov, A. V., Beletsky, A. V., Bonch-Osmolovskaya, E. A., and Ravin, N. V.

Subjects

SULFUR, MICROBIOLOGY, ORGANIC compounds, GASES from plants, HYDROGEN-ion concentration, PROKARYOTES

Abstract

The Zavarzin spring is situated in the caldera of the Uzon volcano, Kamchatka, and is characterized by a temperature of about 60°C, neutral pH, and high concentration of sulfur. The bottom of the spring is covered with a cyanobacterial mat. The structure of the microbial community of the water from the Zavarzin spring was qualitatively and quantitatively characterized by pyrosequencing of the V3 variable region of the 16S rRNA gene, which yielded 37 654 independent sequences. The microbial community includes about 900 bacterial and 90 archaeal genera. Bacteria comprised 95% of the microorganisms and archaea less than 5%. The largest part (32.3%) of the community was constituted by the chemolithoautotrophic bacteria Aquificae from the genera Sulfurihydrogenibium and Thermosulfidibacter. Among autotrophic microorganisms, members of Thermodesulfobacteria (7.3%), the gammaproteobacteria Thiofaba (7.6%), the deltaproteobacteria Desulfurella (2.6%), and the betaproteobacteria Thiomonas (0.6%) were also identified. Heterotrophic bacteria were represented by Calditerrivibrio (12.1%), Thermotogae (6.3%), the betaproteobacteria Tepidimonas (6.0%), Deinococcus-Thermus (4.4%), Caldiserica (1.7%), and Dictyoglomi (1.6%). About 1.9% of microorganisms belonged to the BRC1 phylum, which does not include cultured members, and 0.2% of bacteria formed a new phylogenetic branch of the phylum level, representatives of which have been found only in the Zavarzin spring. Members of all four archaeal phyla were identified: Euryarchaeota (42% of archaeal sequences), Crenarchaeota (50%), Korarchaeota (7.5%), and Nanoarchaeota (0.5%). Thus, in the Zavarzin spring, apart from photosynthesis carried out by the cyanobacterial mat, which covers the bottom, chemolithoautotrophic production of organic matter can occur. In aerobic conditions, it proceeds at the expense of the oxidation of sulfur and its reduced compounds, and in anaerobic conditions, at the expense of the oxidation of hydrogen with sulfur and sulfates as electron acceptors. The organic matter formed by autotrophic bacteria may be utilized by various organotrophic microorganisms, including both fermentative bacteria and organisms that carry out anaerobic respiration with sulfur and nitrate as electron acceptors. [ABSTRACT FROM AUTHOR]

Published

2011

2. The first crenarchaeon capable of growth by anaerobic carbon monoxide oxidation coupled with H2 production.

Author

Kochetkova, Tatiana V., Mardanov, Andrei V., Sokolova, Tatyana G., Bonch-Osmolovskaya, Elizaveta A., Kublanov, Ilya V., Kevbrin, Vadim V., Beletsky, Alexey V., Ravin, Nikolay V., and Lebedinsky, Alexander V.

Subjects

OXIDATION of carbon monoxide, CARBON monoxide, GENE clusters, THERMOPHILIC bacteria, HOT springs, YEAST extract

Abstract

The ability to grow by anaerobic CO oxidation with production of H 2 from water is known for some thermophilic bacteria, most of which belong to Firmicutes , as well as for a few hyperthermophilic Euryarchaeota isolated from deep-sea hydrothermal habitats. A hyperthermophilic, neutrophilic, anaerobic filamentous archaeon strain 1505 = VKM B-3180 = KCTC 15798 was isolated from a terrestrial hot spring in Kamchatka (Russia) in the presence of 30% CO in the gas phase. Strain 1505 could grow lithotrophically using carbon monoxide as the energy source with the production of hydrogen according to the equation CO + H 2 O → CO 2 + H 2 ; mixotrophically on CO plus glucose; and organotrophically on peptone, yeast extract, glucose, sucrose, or Avicel. The genome of strain 1505 was sequenced and assembled into a single chromosome. Based on 16S rRNA gene sequence analysis and in silico genome-genome hybridization, this organism was shown to be closely related to the Thermofilum adornatum species. In the genome of Thermofilum sp. strain 1505, a gene cluster (TCARB_0867-TCARB_0879) was found that included genes of anaerobic (Ni,Fe-containing) carbon monoxide dehydrogenase and genes of energy-converting hydrogenase ([Ni,Fe]-CODH–ECH gene cluster). Compared to the [Ni,Fe]-CODH–ECH gene clusters occurring in the sequenced genomes of other H 2 -producing carboxydotrophs, the [Ni,Fe]-CODH–ECH gene cluster of Thermofilum sp. strain 1505 presented a novel type of gene organization. The results of the study provided the first evidence of anaerobic CO oxidation coupled with H 2 production performed by a crenarchaeon, as well as the first documented case of lithotrophic growth of a Thermofilaceae representative. [ABSTRACT FROM AUTHOR]

Published

2020