Abstract
The temperature inducible expression system, based on the pL and/or pR phage lambda promoters regulated by the thermolabile cI857 repressor has been widely use to produce recombinant proteins in prokariotic cells. In this expression system, induction of heterologous protein is achieved by increasing the culture temperature, generally above 37°C. Concomitant to the overexpression of heterologous protein, the increase in temperature also causes a variety of complex stress responses. Many studies have reported the use of such temperature inducible expression system, however only few discuss the simultaneous stress effects caused by recombinant protein production and the up-shift in temperature. Understanding the integral effect of such responses should be useful to develop improved strategies for high yield protein production and recovery. Here, we describe the current status of the heat inducible expression system based on the pL and/or pR λ phage promoters, focusing on recent developments on expression vehicles, the stress responses at the molecular and physiological level that occur after heat induction, and bioprocessing factors that affect protein overexpression, including culture operation variables and induction strategies.
Highlights
The temperature inducible expression system, based on the pL and/or pR phage lambda promoters regulated by the thermolabile cI857 repressor has been widely use to produce recombinant proteins in prokariotic cells
Many reports exist of recombinant protein production under the heat-inducible system, and many other separate studies exist of the heatshock response (HSR)
This review focuses on the regulation of the inducible expression lpL/pR-cI857 system, describing the molecular and physiological changes on the host cells caused by temperature associated stresses during thermoinduction, and the relation of such effects with the productivity and quality of the recombinant proteins
Summary
Hungry bacteria - definition and properties of a nutritional state. Timms AR, Muriel W, Bridges BA: A UmuD, C-dependent pathway for spontaneous G:C to C:G transversions in stationary phase Escherichia coli. Jana S, Deb JK: Strategies for efficient production of heterologous proteins in Escherichia coli.
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