This book presents the latest results in the exploration of halophilic bacteria, archaea, fungi and viruses. Basic and molecular aspects as well as possible biotechnological applications of halophiles are highlighted by leading scientists. Topics include: the family "Halomonadaceae"; the hypersaline lakes of Inner Mongolia; "Salinibacter ruber" - from genomics to microevolution and ecology"; "the" "impact of lipidomics on the microbial world of hypersaline environments; molecular mechanisms of adaptation to high salt concentration in the black yeast "Hortaea werneckii"; viruses in hypersaline environments; initiation and regulation of translation in halophilic Archaea; protein transport into and across haloarchaeal cytoplasmic membranes; protein glycosylation in "Haloferax volcanii"; the effect of anoxic conditions and temperature on gas vesicle formation in "Halobacterium salinarum"; halophiles exposed to multiple stressors; cellular adjustments of "Bacillus subtilis" to fluctuating salinities; the nature and function of carotenoids in "Halobacillus halophilus"; xanthorhodopsin; enzymatic biomass degradation by halophilic microorganisms; and enzymes from halophilic Archaea.

This book presents the latest results in the exploration of halophilic bacteria, archaea, fungi and viruses. Basic and molecular aspects as well as possible biotechnological applications of halophiles are highlighted by leading scientists. Topics include: the family Halomonadaceae; the hypersaline lakes of Inner Mongolia ; Salinibacter ruber - from genomics to microevolution and ecology; the impact of lipidomics on the microbial world of hypersaline environments; molecular mechanisms of adaptation to high salt concentration in the black yeast Hortaea werneckii; viruses in hypersaline environments; initiation and regulation of translation in halophilic Archaea; protein transport into and across haloarchaeal cytoplasmic membranes; protein glycosylation in Haloferax volcanii; the effect of anoxic conditions and temperature on gas vesicle formation in Halobacterium salinarum; halophiles exposed to multiple stressors; cellular adjustments of Bacillus subtilis to fluctuating salinities; the nature and function of carotenoids in Halobacillus halophilus; xanthorhodopsin; enzymatic biomass degradation by halophilic microorganisms; and enzymes from halophilic Archaea.

Microorganisms from extreme environments have attracted the attention of many scientists and are currently one of the main focuses of research due to the fascinating mechanisms that they display in order to live under extreme conditions.One of the basic aspects of study in extremophiles is to unravel the adaptation mechanisms of these microorganisms to the severe conditions of temperature,pH or salinity of extreme habitats,and certainly the results will permit interesting developments in the future.Moreover,the extensive studies carried out during recent years have made it possible to use them as cell f- tories to produce new compounds of biotechnological importance and to develop new strategies for industrial processes. Besides thermophiles,hyperthermophiles,alkaliphiles,acidophiles or p- chrophiles,one of the most interesting groups of extremophiles is costituted by the halophilic microorganisms.These organisms require high levels of salt to grow and are common inhabitants of hypersaline environments, such as lakes,salterns or saline soils.This book is devoted to the salt-loving mic- organisms and focuses on different aspects of halophilic Archaea, Bacteria and Eukarya.