Regulation of the heat shock response in Escherichia coli: History and perspectives

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Abstract

The heat shock response mediated by transcription factor σ32 is a major stress response to cope with heat and other stresses in Escherichia coli. Although much attention has been paid to the role of highly conserved heat shock proteins such as chaperones and proteases in sustaining cellular protein homeostasis under stress, relatively little is known about the dynamic nature of underlying regulatory mechanisms. When cells are suddenly exposed to high temperature, synthesis of σ32 is rapidly induced by activated translation of rpoH mRNA, which encodes σ32, through disruption of mRNA secondary structure. The increased synthesis of σ32 is accompanied by stabilization of σ32, which is normally very unstable and rapidly degraded by the membrane-localized FtsH protease. It was recently found that σ32 must be localized to the inner membrane by the SRP-dependent pathway to work properly for regulation, but the roles played by membrane and other components of the cell remained unknown. Random transposon mutagenesis of the strongly deregulated I54N-σ32 mutant has now started to unravel the complex regulatory circuit, involving membrane protein(s), other cellular components or σ32-interfering polypeptides, for dynamic fine-tuning of σ32 activity that could be of vital importance for cell survival.

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APA

Yura, T. (2019). Regulation of the heat shock response in Escherichia coli: History and perspectives. Genes and Genetic Systems, 94(3), 103–108. https://doi.org/10.1266/ggs.19-00005

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