Desiccation tolerance of prokaryotes.

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Microbiol Mol Biol Rev. 1994 December; 58(4): 755-805

Desiccation tolerance of prokaryotes.

M Potts

Department of Biochemistry and Anaerobic Microbiology, Virginia Polytechnic Institute and State University, Blacksburg 24061.

SUMMARY

The removal of cell-bound water through air drying and the additionof water to air-dried cells are forces that have played a pivotalrole in the evolution of the prokaryotes. In bacterial cellsthat have been subjected to air drying, the evaporation of freecytoplasmic water (Vf) can be instantaneous, and an equilibriumbetween cell-bound water (Vb) and the environmental water (vapor)potential (psi wv) may be achieved rapidly. In the air-driedstate some bacteria survive only for seconds whereas otherscan tolerate desiccation for thousands, perhaps millions, ofyears. The desiccated (anhydrobiotic) cell is characterizedby its singular lack of water--with contents as low as 0.02g of H2O g (dry weight)-1. At these levels the monolayer coverageby water of macromolecules, including DNA and proteins, is disturbed.As a consequence the mechanisms that confer desiccation toleranceupon air-dried bacteria are markedly different from those, suchas the mechanism of preferential exclusion of compatible solutes,that preserve the integrity of salt-, osmotically, and freeze-thaw-stressedcells. Desiccation tolerance reflects a complex array of interactionsat the structural, physiological, and molecular levels. Manyof the mechanisms remain cryptic, but it is clear that theyinvolve interactions, such as those between proteins and co-solvents,that derive from the unique properties of the water molecule.A water replacement hypothesis accounts for how the nonreducingdisaccharides trehalose and sucrose preserve the integrity ofmembranes and proteins. Nevertheless, we have virtually no insightinto the state of the cytoplasm of an air-dried cell. Thereis no evidence for any obvious adaptations of proteins thatcan counter the effects of air drying or for the occurrenceof any proteins that provide a direct and a tangible contributionto cell stability. Among the prokaryotes that can exist as anhydrobioticcells, the cyanobacteria have a marked capacity to do so. Oneform, Nostoc commune, encompasses a number of the features thatappear to be critical to the withstanding of a long-term waterdeficit, including the elaboration of a conspicuous extracellularglycan, synthesis of abundant UV-absorbing pigments, and maintenanceof protein stability and structural integrity. There are indicationsof a growing technology for air-dried cells and enzymes. Paradoxically,desiccation tolerance of bacteria has virtually been ignoredfor the past quarter century. The present review considers whatis known, and what is not known, about desiccation, a phenomenonthat impinges upon every facet of the distributions and activitiesof prokaryotic cells.

Microbiol Mol Biol Rev. 1994 December; 58(4): 755-805

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