Effects of chaotropic salts on global proteome stability in halophilic archaea: Implications for life signatures on Mars - Groupe Extremophiles et grands assemblages moléculaires / Extremophiles and Large Molecular Assemblies Group (IBS-ELMA)
Article Dans Une Revue Environmental Microbiology Année : 2023

Effects of chaotropic salts on global proteome stability in halophilic archaea: Implications for life signatures on Mars

Résumé

Halophilic archaea thriving in hypersaline environments, such as salt lakes, offer models for putative life in extraterrestrial brines such as those found on Mars. However, little is known about the effect of the chaotropic salts that could be found in such brines, such as MgCl 2 , CaCl 2 and (per)chlorate salts, on complex biological samples like cell lysates which could be expected to be more representative of biomarkers left behind putative extraterrestrial life forms. We used intrinsic fluorescence to study the salt dependence of proteomes extracted from five halophilic strains: Haloarcula marismortui , Halobacterium salinarum , Haloferax mediterranei , Halorubrum sodomense and Haloferax volcanii . These strains were isolated from Earth environments with different salt compositions. Among the five strains that were analysed, H. mediterranei stood out as a results of its high dependency on NaCl for its proteome stabilization. Interestingly, the results showed contrasting denaturation responses of the proteomes to chaotropic salts. In particular, the proteomes of strains that are most dependent or tolerant on MgCl 2 for growth exhibited higher tolerance towards chaotropic salts that are abundant in terrestrial and Martian brines. These experiments bridge together global protein properties and environmental adaptation and help guide the search for protein‐like biomarkers in extraterrestrial briny environments.
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hal-04199698 , version 1 (24-11-2023)

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Lorenzo Carré, Daniel Gonzalez, Éric Girard, Bruno Franzetti. Effects of chaotropic salts on global proteome stability in halophilic archaea: Implications for life signatures on Mars. Environmental Microbiology, 2023, 25 (11), pp.2216-2230. ⟨10.1111/1462-2920.16451⟩. ⟨hal-04199698⟩
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