L. A. Cira-Chávez, Joseph Guevara-Luna, Marisela YadiraSoto-Padilla, Brenda Román-Ponce, M. Vásquez-Murrieta, M. I. Estrada-Alvarado
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Hypersaline environments are those with salt concentrations 9–10 times higher (30–35% of NaCl) than sea water (3.5% of NaCl). At high concentrations of soluble salts, cytoplasm—mainly of bacteria and archaea—is exposed to high ionic strength and achieves osmotic equilibrium by maintaining a cytoplasmic salt concentration similar to that of the surrounding media. Halophilic enzymes are extremozymes produced by halophilic microorganisms; they have similar characteristics to regular enzymes but different prop -erties, mainly structural. Among these properties is a high requirement of salt for biologi- cal functions. Furthermore, the discovery of enzymes capable of degrading biopolymers offer a new perspective in the treatment of residues from oil deposits, under typically high conditions of salt and temperature, while giving valuable information on heterotrophic processes in saline environments.
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