Halophiles: Genetics and Genomes
Abstract
Extreme halophilic environments - including salt lakes and springs, seawater evaporation facilities for the production of sea salt, and subterranean salt deposits derived from ancient oceans - are distributed patchily all over the world. The life that dominates them is microbial (e.g., prokaryotes and the viruses that infect them). The best studied in these environments are the haloarchaea (family Halobacteriaceae), a diverse group of salt-loving organisms in the archaeal phylum Euryarchaeota. These remarkable organisms have an obligate requirement for salt concentrations between 10% and 35% NaCl for survival (sea water has ~3.5% salt). Haloarchaea have evolved several biochemical and molecular strategies to counteract the deleterious effects of their salty environments, including efficient ion pumps, UV absorbing pigments, proteins that can resist the effects of osmotic stress, and the denaturing effects of salts. The best studied, extremely halophilic member of the Bacteria is Salinibacter, which is abundant in saltern crystallizer ponds worldwide. The application of modern genomic approaches to research on halophilic Archaea and Bacteria and their viruses in recent years has yielded fascinating insights into the adaptations and evolution of these unique organisms. This book highlights current genetics and genomics research to provide a timely overview. It represents a valuable source of information to all scientists interested in halophilic microorganisms, extremophiles, microbial ecology, and environmental microbiology. The chapters are written by expert authors from around the world and include topics such as: ecology and evolution of Haloquadratum walsbyi microdiversity of Salinibacter ruber horizontal gene transfer in halobacteria comparative genomics of haloarchaeal viruses genomics of the halophilic bacteria Natranaerobius thermophilus and Halobacillus halophilus the haloarchaeal cell wall cell cycle and polyploidy in haloarchaea cell regulation by proteolytic systems protein conjugation.
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