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Novel, versatile, and tightly regulated expression system for escherichia coli strains

 
 
Affiliation:
National Research Council Canada (NRC-CNRC); NRC Biotechnology Research Institute
Language:
English
Type:
Article
Published in:
Applied and Environmental Microbiology
Date:
2010
Pages :
5058-5066
NRCC #:
52739
NPArC #:
16225324
Keywords:
Analysis; Arginine; Bacteria; Bio; Biotechnology; Candida; Candida albicans; Cells; Cloning; Cumate gene-switch; Cytoplasm; Dna; Escherichia coli; Fermentation; Flow Cytometry; Gene Expression; Gene Therapy; Genes; Genomics; Heat; Heat-Shock Proteins; Human; I; In Vitro; Inclusion Bodies; Kinetics; Lactobacillus casei; Lipase; Metabolism; Methods; Microbiology; Microorganisms; Mutation; Operon; Oxygen; Peptides; Phenotype; Plasmids; Protein; Protein production; Proteins; Proteome; Recombinant protein; Recombinant protein production; Recombinant Proteins; Rna; Schistosoma mansoni; Substrate Specificity; Tags; Temperature; Therapy; Transgenic; Tumor Necrosis Factor; Vitro; Water
Program(s):
Bioprocess Sector; Secteur des Bioprocédés
Group(s):
Bioprocess Center; Centre Bioprocédés
Abstract:
A novel tightly regulated gene expression system was developed for Escherichia coli by applying the regulatory elements of the Pseudomonas pulida F1 cym and cmt operons to control target gene expression at the transcriptional level by using p-isopropylbenzoate (cumate) as an inducer. This novel expression system, referred to as the cumate gene switch, includes a specific expression vector, pNEW, that contains a partial T5 phage promoter combined with the Pseudomonas-based synthetic operator and the cymR repressor protein-encoding gene designed to express constitutively in the host strain. The induction of transcription relies on the addition of the exogenous inducer (cumate), which is nontoxic to the culture, water soluble, and inexpensive. The characteristics and potential of the expression system were determined. Using flow cytometry and fed-batch fermentations, we have shown that, with the newly developed cumate-regulated system, (i) higher recombinant product yields can be obtained than with the pET (isopropyl-+¦-D-thiogalactopyranoside [IPTG])-induced expression system, (ii) expression is tightly regulated, (iii) addition of cumate quickly results in a fully induced and homogenous protein-expressing population in contrast to the bimodal expression profile of an IPTGinduced population, (iv) expression can be modulated by varying the cumate concentration, and (v) the cumate-induced population remains induced and fully expressing even at 8 h following induction, resulting In high yields of the target protein Furthermore, the cumate gene switch described in this article is applicable to a wide range of E. coli strains.
 
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