Pressure effects on in vivo microbial processes

Pressures between 10 and 100 MPa can exert powerful effects on the growth and viability of organisms. Here I describe the effects of elevated pressure in this range on mesophilic (atmospheric pressure adapted) and piezophilic (high-pressure adapted) microorganisms. Examination of pressure effects on...

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Bibliographic Details
Published in:Biochimica et Biophysica Acta (BBA)/Protein Structure and Molecular Enzymology 2002-03, Vol.1595 (1), p.367-381
Main Author: Bartlett, D.H.
Format: Article
Language:English
Subjects:
Archaea - genetics
Archaea - isolation & purification
Archaea - metabolism
Archaea - physiology
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Bacterial Physiological Phenomena
Cell Division
Cell Membrane - metabolism
Cell Membrane - physiology
Deep sea
DNA, Archaeal - chemistry
DNA, Archaeal - physiology
DNA, Bacterial - chemistry
DNA, Bacterial - physiology
Enzymes - physiology
Extrinsic factor
Gene Expression Regulation, Archaeal
Gene Expression Regulation, Bacterial
High pressure adaptation
Membrane Proteins
Piezophile
Pressure
Pressure regulated gene
Pressure-altered mutant
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Summary:Pressures between 10 and 100 MPa can exert powerful effects on the growth and viability of organisms. Here I describe the effects of elevated pressure in this range on mesophilic (atmospheric pressure adapted) and piezophilic (high-pressure adapted) microorganisms. Examination of pressure effects on mesophiles makes use of this unique physical parameter to aid in the characterization of fundamental cellular processes, while in the case of piezophiles it provides information on the essence of the adaptation of life to high-pressure environments, which comprise the bulk of our biosphere. Research is presented on the isolation of pressure-resistant mutants, high-pressure regulation of gene expression, the role of membrane lipids and proteins in determining growth ability at high pressure, pressure effects on DNA replication and topology as well as on cell division, and the role of extrinsic factors in modulating enzyme activity at high pressure.
ISSN:0167-4838
0006-3002
1879-2588
DOI:10.1016/S0167-4838(01)00357-0