Bacterial genome evolution within a clonal population: from in vitro investigations to in vivo observations | Zendy

Marie Beaume | Zendy; Nadezda Monina | Zendy; Jacques Schrenzel | Zendy; Patrice François | Zendy

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Bacterial genome evolution within a clonal population: from in vitro investigations to in vivo observations

Author(s) -

Marie Beaume,

Nadezda Monina,

Jacques Schrenzel,

Patrice François

Publication year - 2013

Publication title -

future microbiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.797

H-Index - 82

eISSN - 1746-0921

pISSN - 1746-0913

DOI - 10.2217/fmb.13.28

Subject(s) - biology , virulence , genome , bacteria , adaptation (eye) , bacterial genome size , evolutionary biology , genetics , in vivo , population , computational biology , gene , neuroscience , demography , sociology

Bacteria are faced with a diversity of environmental stresses that include high salt concentrations, heavy metals and pH fluctuations. Adaptation to resist such stresses is a complex phenomenon that involves global pathways and simultaneous acquisition of multiple unrelated properties. During the last 3 years, the development of new technologies in the field of molecular biology has led to numerous fundamental and quantitative in vitro and in vivo evolutionary studies that have improved our understanding of the principles underlying bacterial adaptations, and helped us develop strategies to cope with the health burden of bacterial virulence. In this review, the authors discuss the evolution of bacteria in the laboratory and in human patients.

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