Environmental Regulation of Yersinia Pathophysiology
Copyright policy )Environmental Regulation of Yersinia Pathophysiology
Hallmarks of Yersinia pathogenesis include the ability to form biofilms on surfaces, the ability to establish close contact with eukaryotic target cells and the ability to hijack eukaryotic cell signaling and take over control of strategic cellular processes. Many of these virulence traits are already well-described. However, of equal importance is knowledge of both confined and global regulatory networks that collaborate together to dictate spatial and temporal control of virulence gene expression. This review has the purpose to incorporate historical observations with new discoveries to provide molecular insight into how some of these regulatory mechanisms respond rapidly to environmental flux to govern tight control of virulence gene expression by pathogenic Yersinia.
- Umeå University Sweden
- Chinese Academy of Sciences (中国科学院) China (People's Republic of)
- Chinese Academy of Science China (People's Republic of)
- University of Mary United States
- Chinese Academy of Science (中国科学院) China (People's Republic of)
Yersinia Infections, Iron, RovA, Microbiology, transition metals, RovA regulator, Stress, Physiological, cAMP, Humans, extracytoplasmic stress, Amino Acids, acidity, Temperature, temperature, Quorum Sensing, Biological Transport, c-di-GMP, Transition metals, Gene Expression Regulation, Bacterial, Hydrogen-Ion Concentration, Adaptation, Physiological, QR1-502, Yersinia, Mikrobiologi, RNA, Bacterial, Metabolism, Biofilms, Carbohydrate Metabolism, RNA, Small Untranslated, metabolism, Signal Transduction
Yersinia Infections, Iron, RovA, Microbiology, transition metals, RovA regulator, Stress, Physiological, cAMP, Humans, extracytoplasmic stress, Amino Acids, acidity, Temperature, temperature, Quorum Sensing, Biological Transport, c-di-GMP, Transition metals, Gene Expression Regulation, Bacterial, Hydrogen-Ion Concentration, Adaptation, Physiological, QR1-502, Yersinia, Mikrobiologi, RNA, Bacterial, Metabolism, Biofilms, Carbohydrate Metabolism, RNA, Small Untranslated, metabolism, Signal Transduction
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