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Applied Biochemistry and Biotechnology, Vol.66, No.3, 197-238, 1997
Molecular Chaperones, Folding Catalysts, and the Recovery of Active Recombinant Proteins from Escherichia-Coli - To Fold or to Refold
The high-level expression of recombinant gene products in the gramnegative bacterium Escherichia coli often results in the misfolding of the protein of interest and its subsequent degradation by cellular proteases or its deposition into biologically inactive aggregates known as inclusion bodies. It has recently become clear that in vivo protein folding is an energy-dependent process mediated by two classes of folding modulators. Molecular chaperones, such as the DnaK-DnaJ-GrpE and GroEL-GroES systems, suppress off-pathway aggregation reactions and facilitate proper folding through ATP-coordinated cycles of binding and release of folding intermediates. On the other hand, folding catalysts (foldases) accelerate rate-limiting steps along the protein folding pathway such as the cis/trans isomerization of peptidyl-prolyl bonds and the formation and reshuffling of disulfide bridges. Manipulating the cytoplasmic folding environment by increasing the intracellular concentration of all or specific folding modulators, or by inactivating genes encoding these proteins, holds great promise in facilitating the production and purification of heterologous proteins. Purified folding modulators and artificial systems that mimic their mode of action have also proven useful in improving the in vitro refolding yields of chemically denatured polypeptides. This review examines the usefulness and limitations of molecular chaperones and folding catalysts in both in vivo and in vitro folding processes.
Keywords:HEAT-SHOCK PROTEINS;DISULFIDE BOND FORMATION;DODECAMERIC GLUTAMINE-SYNTHETASE;INCLUSION-BODY FORMATION;RIBULOSE BISPHOSPHATE CARBOXYLASE;PANCREATIC TRYPSIN-INHIBITOR;HIGH-LEVEL EXPRESSION;ESCHERICHIA-COLI;IN-VIVO;BETA-LACTAMASE