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dc.contributor.author Boase, Katelyn
dc.contributor.author González, Carolina
dc.contributor.author Vergara, Eva
dc.contributor.author Neira, Gonzalo
dc.contributor.author Holmes, David
dc.contributor.author Watkin, Elizabeth
dc.date.accessioned 2024-09-26T00:27:41Z
dc.date.available 2024-09-26T00:27:41Z
dc.date.issued 2022-04-18
dc.identifier.issn 1664-302X
dc.identifier.uri https://repositorio.uss.cl/handle/uss/12234
dc.description Publisher Copyright: Copyright © 2022 Boase, González, Vergara, Neira, Holmes and Watkin.
dc.description.abstract Acidihalobacter is a genus of acidophilic, gram-negative bacteria known for its ability to oxidize pyrite minerals in the presence of elevated chloride ions, a capability rare in other iron-sulfur oxidizing acidophiles. Previous research involving Acidihalobacter spp. has focused on their applicability in saline biomining operations and their genetic arsenal that allows them to cope with chloride, metal and oxidative stress. However, an understanding of the molecular adaptations that enable Acidihalobacter spp. to thrive under both acid and chloride stress is needed to provide a more comprehensive understanding of how this genus can thrive in such extreme biomining conditions. Currently, four genomes of the Acidihalobacter genus have been sequenced: Acidihalobacter prosperus DSM 5130T, Acidihalobacter yilgarnensis DSM 105917T, Acidihalobacter aeolianus DSM 14174T, and Acidihalobacter ferrooxydans DSM 14175T. Phylogenetic analysis shows that the Acidihalobacter genus roots to the Chromatiales class consisting of mostly halophilic microorganisms. In this study, we aim to advance our knowledge of the genetic repertoire of the Acidihalobacter genus that has enabled it to cope with acidic stress. We provide evidence of gene gain events that are hypothesized to help the Acidihalobacter genus cope with acid stress. Potential acid tolerance mechanisms that were found in the Acidihalobacter genomes include multiple potassium transporters, chloride/proton antiporters, glutamate decarboxylase system, arginine decarboxylase system, urease system, slp genes, squalene synthesis, and hopanoid synthesis. Some of these genes are hypothesized to have entered the Acidihalobacter via vertical decent from an inferred non-acidophilic ancestor, however, horizontal gene transfer (HGT) from other acidophilic lineages is probably responsible for the introduction of many acid resistance genes. en
dc.language.iso eng
dc.relation.ispartof vol. 13 Issue: Pages:
dc.source Frontiers in Microbiology
dc.title Prediction and Inferred Evolution of Acid Tolerance Genes in the Biotechnologically Important Acidihalobacter Genus en
dc.type Artículo
dc.identifier.doi 10.3389/fmicb.2022.848410
dc.publisher.department Facultad de Medicina y Ciencia


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