Influence of the GroE molecular chaperone machine on the in vitro refolding of Escherichia coli beta-galactosidase

Abstract

We have studied the effect of the components of the GroE molecular chaperone machine on the refolding of the Escherichia coli enzyme beta-galactosidase, a tetrameric protein whose 116-kDa promoters should not completely fit within the central cavity of the GroEL toroid. In the absence of other additives, GroEL formed a weak complex with chemically denatured beta-galactosidase, reduced its propensity to aggregate, and increased the recovery yields of active enzyme twofold without altering its folding pathway. When present together with the chaperonin, ATP--and to a lesser extent AMP-PNP--reduced the recovery yields and led to the resumption of aggregation. The use of the complete chaperonin system (GroEL, GroES, and ATP) eliminated the GroEL-mediated increase in recovery and folding proceeded less efficiently than in buffer alone. This unusual behavior can be explained in terms of a chaperonin "buffering" effect and the different affinities of GroE complexes for denatured beta-galactosidase.