Abstract
The diversity of anaerobic microorganisms in terrestrial mud volcanoes is largely unexplored. Here we report the isolation of a novel sulfate-reducing alkaliphilic bacterium (strain F-1T) from a terrestrial mud volcano located at the Taman peninsula, Russia. Cells of strain F-1T were Gram-negative motile vibrios with a single polar flagellum; 2.0-4.0µm in length and 0.5µm in diameter. The temperature range for growth was 6-37°C, with an optimum at 24°C. The pH range for growth was 7.0-10.5, with an optimum at pH 9.5. Strain F-1T utilized lactate, pyruvate, and molecular hydrogen as electron donors and sulfate, sulfite, thiosulfate, elemental sulfur, fumarate or arsenate as electron acceptors. In the presence of sulfate, the end products of lactate oxidation were acetate, H2S and CO2. Lactate and pyruvate could also be fermented. The major product of lactate fermentation was acetate. The main cellular fatty acids were anteiso-C15:0, C16:0, C18:0, and iso-C17:1ω8. Phylogenetic analysis revealed that strain F-1T was most closely related to Pseudodesulfovibrio aespoeensis (98.05% similarity). The total size of the genome of the novel isolate was 3.23Mb and the genomic DNA G + C content was 61.93mol%. The genome contained all genes essential for dissimilatory sulfate reduction. We propose to assign strain F-1T to the genus Pseudodesulfovibrio, as a new species, Pseudodesulfovibrio alkaliphilus sp. nov. The type strain is F-1T (= KCTC 15918T = VKM B-3405T).
Highlights
Dissimilatory sulfate-reducing bacteria are widespread in nature and play a significant role in the global cycling of carbon and sulfur (Rabus et al 2015)
We report the isolation of an alkaliphilic sulfate-reducing strain F-1T from a terrestrial mud volcano and describe its physiological, metabolic and genomic properties
The purity of strain F-1T was assessed by routine microscopic examination and confirmed by results of 16S rRNA gene and complete genome sequencing
Summary
Dissimilatory sulfate-reducing bacteria are widespread in nature and play a significant role in the global cycling of carbon and sulfur (Rabus et al 2015). The first strain of Desulfovibrio was isolated by Beijerink in 1895 and since more than 100 species of Desulfovibrio have been described (Parte et al, 2020 -https://lpsn.dsmz.de/genus/pseudodesulfovibrio). In 2016 four species of Desulfovibrio were reclassified into the new genus – Pseudodesulfovibrio, mainly according to 16S rRNA gene phylogeny (Cao et al 2016). In 2020, Desulfovibrio species were subdivided into 13 genera based on the analysis of 120 conserved single-copy marker genes (Waite et al 2020). There are no reports on the detection of Pseudodesulfovibrio in surface terrestrial environments, including terrestrial mud volcanoes, which have significant implications in hydrocarbon exploration, seismicity, and atmospheric budget of methane (Mazzini and Etiope 2017)
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