Genome sequences of two Antarctic strains of Pseudomonas prosekii: insights into adaptation to extreme conditions

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Authors

SNOPKOVÁ Kateřina ČEJKOVÁ Darina DUFKOVÁ Kristýna SEDLÁČEK Ivo ŠMAJS David

Year of publication 2020
Type Article in Periodical
Magazine / Source Archives of Microbiology
MU Faculty or unit

Faculty of Medicine

Citation
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Doi http://dx.doi.org/10.1007/s00203-019-01755-4
Keywords Pseudomonas prosekii; Extremophile; Psychrotolerant; Cold adaptation; James Ross Island; Antarctica
Description Pseudomonas prosekii is a recently described species isolated exclusively from James Ross Island close to the Antarctic Peninsula at 64 degrees south latitude. Here, we present two P. prosekii genome sequences and their analyses with respect to phylogeny, low temperature adaptation, and potential biotechnological applications. The genome of P. prosekii P2406 comprised 5,896,482 bp and 5324 genes (GC content of 59.71%); the genome of P. prosekii P2673 consisted of 6,087,670 bp and 5511 genes (GC content of 59.50%). Whole genome sequence comparisons confirmed a close relationship between both investigated strains and strain P. prosekii LMG 26867(T). Gene mining revealed the presence of genes involved in stress response, genes encoding cold shock proteins, oxidative stress proteins, osmoregulation proteins, genes for the synthesis of protection molecules, and siderophores. Comparative genome analysis of P. prosekii and P. aeruginosa PAO1 highlighted differences in genome content between extremophile species and a mesophilic opportunistic pathogen.
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