Add to ORKGInternational audienceExtreme halophiles are microorganisms adapted to low water activity living at the upper salt concentration that life can tolerate. We review here recent data that specify the main factors, which determine their peculiar salt-dependent biochemistry. The data suggested that evolution proceeds by stage to modify the molecular dynamics properties of the entire proteome. Extreme halophiles therefore represent tractable models to understand how fast and to what extent microorganisms adapt to environmental changes. Halophiles are also robust organisms, capable to resist multiple stressors. Preliminary studies indicated that they have developed a cellular response specifically aimed to survive when the salt condition fluctuate...
Current knowledge of life in hypersaline habitats is mostly limited to sodium and chloride-dominated...
Abstract Halophilic archaea thriving in hypersaline environments, such as salt lakes, offer models f...
Poly-extremophiles microorganisms have the capacity to inhabit hostile environments and can survive ...
Extreme halophiles are microorganisms adapted to low water activity living at the upper salt concent...
International audienceHalophilic proteins subjected to below about 15% salt in vitro denature throug...
International audienceHalophilic proteins subjected to below about 15% salt in vitro denature throug...
Halophilic bacteria adapted to high salinity (low water activity) provide insight into how they natu...
International audienceHalobacterium salinarum is an extreme halophile archaeon with an absolute requ...
Microorganisms that love salt are known as halophiles, and they are found in both the archaeal and e...
Extremophiles are organisms that can thrive under extreme environmental conditions. There are many t...
The halophilic gamma-proteobacterium Halomonas elongata DSM 2581(T) thrives at salt concentrations w...
© 2007-2018 Frontiers Media S.A. All Rights Reserved. Poly-extremophiles microorganisms have the cap...
Scope and Method of Study: Approximately 97% of all water on earth is present in saline oceans, sali...
International audienceHalophilic archaea thriving in hypersaline environments, such as salt lakes, o...
Thesis (Ph.D.)--University of Washington, 2013Although microbial adaptation to new environments has ...
Current knowledge of life in hypersaline habitats is mostly limited to sodium and chloride-dominated...
Abstract Halophilic archaea thriving in hypersaline environments, such as salt lakes, offer models f...
Poly-extremophiles microorganisms have the capacity to inhabit hostile environments and can survive ...
Extreme halophiles are microorganisms adapted to low water activity living at the upper salt concent...
International audienceHalophilic proteins subjected to below about 15% salt in vitro denature throug...
International audienceHalophilic proteins subjected to below about 15% salt in vitro denature throug...
Halophilic bacteria adapted to high salinity (low water activity) provide insight into how they natu...
International audienceHalobacterium salinarum is an extreme halophile archaeon with an absolute requ...
Microorganisms that love salt are known as halophiles, and they are found in both the archaeal and e...
Extremophiles are organisms that can thrive under extreme environmental conditions. There are many t...
The halophilic gamma-proteobacterium Halomonas elongata DSM 2581(T) thrives at salt concentrations w...
© 2007-2018 Frontiers Media S.A. All Rights Reserved. Poly-extremophiles microorganisms have the cap...
Scope and Method of Study: Approximately 97% of all water on earth is present in saline oceans, sali...
International audienceHalophilic archaea thriving in hypersaline environments, such as salt lakes, o...
Thesis (Ph.D.)--University of Washington, 2013Although microbial adaptation to new environments has ...
Current knowledge of life in hypersaline habitats is mostly limited to sodium and chloride-dominated...
Abstract Halophilic archaea thriving in hypersaline environments, such as salt lakes, offer models f...
Poly-extremophiles microorganisms have the capacity to inhabit hostile environments and can survive ...
