Genomic Variation and Arsenic Tolerance Emerged as Niche Specific Adaptations by DifferentExiguobacteriumStrains Isolated From the Extreme Salar de Huasco Environment in Chilean - Altiplano

Castro-Severyn, Juan; Pardo-Este, Coral; Mendez, Katterinne N.; Morales, Naiyulin; Marquez, Sebastian L.; Molina, Franck; Remonsellez, Francisco; Castro-Nallar, Eduardo; Saavedra, Claudia P.

Abstract

Polyextremophilic bacteria can thrive in environments with multiple stressors such as the Salar de Huasco (SH). Microbial communities in SH are exposed to low atmospheric pressure, high UV radiation, wide temperature ranges, salinity gradient and the presence of toxic compounds such as arsenic (As). In this work we focus on arsenic stress as one of the main adverse factors in SH and bacteria that belong to theExiguobacteriumgenus due to their plasticity and ubiquity. Therefore, our aim was to shed light on the effect of niche conditions pressure (particularly arsenic), on the adaptation and divergence (at genotypic and phenotypic levels) ofExiguobacteriumstrains from five different SH sites. Also, to capture greater diversity in this genus, we use as outgroup five As(III) sensitive strains isolated from Easter Island (Chile) and The Great Salt Lake (United States). For this, samples were obtained from five different SH sites under an arsenic gradient (9 to 321 mg/kg: sediment) and isolated and sequenced the genomes of 14Exiguobacteriumstrains, which had different arsenic tolerance levels. Then, we used comparative genomic analysis to assess the genomic divergence of these strains and their association with phenotypic differences such as arsenic tolerance levels and the ability to resist poly-stress. Phylogenetic analysis showed that SH strains share a common ancestor. Consequently, populations were separated and structured in different SH microenvironments, giving rise to multiple coexisting lineages. Hence, this genotypic variability is also evidenced by the COG (Clusters of Orthologous Groups) composition and the size of their accessory genomes. Interestingly, these observations correlate with physiological traits such as growth patterns, gene expression, and enzyme activity related to arsenic response and/or tolerance. Therefore,Exiguobacteriumstrains from SH are adapted to physiologically overcome the contrasting environmental conditions, like the arsenic present in their habitat.

Más información

Título según WOS: Genomic Variation and Arsenic Tolerance Emerged as Niche Specific Adaptations by DifferentExiguobacteriumStrains Isolated From the Extreme Salar de Huasco Environment in Chilean - Altiplano
Título de la Revista: FRONTIERS IN MICROBIOLOGY
Volumen: 11
Editorial: Frontiers Media S. A.
Fecha de publicación: 2020
DOI:

10.3389/fmicb.2020.01632

Notas: ISI