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Research Article 3: On the Stoichiometry and Kinetics of ω Complementation of E. coli β-galactosidase

Agnes Ullmann, Jacques Monod

Abstract


We have reported elsewhere on observations which demonstrate that certain complementary fragments of the normally single polypeptide chain which forms the protomer of E. coli β-galactosidase, may reassemble both in vivo and in vitro into an enzymatically active structure [For references and map positions of the mutants see Ullmann and Perrin, this volume.] The remarkably high and specific affinity exhibited by these polypeptide fragments, and their capacity to reconstruct a structure presumably close to the native one, albeit via a very different pathway, poses some interesting questions concerning the mechanism of formation of tertiary and quaternary structures. In the present paper we report some, as yet in-complete, experiments aimed at analyzing this mechanism. These experiments concern the kinetics and Stoichiometry of the so called "ω complementation". Let us recall that the ω peptide, formed by certain mutants of β-galactosidase corresponds to the last (operator distal) quarter, approximately, of the normal polypeptide. A complementary fragment or "ω acceptor" may be furnished by any mutant (including deletions and nonsense mutations) within the ω segment. Most of the experiments reported here were done using crude extracts of mutants containing respectively, the ω peptide and the ω acceptor peptide. The relative amounts of each of the two peptides, in crude extracts can be estimated by titration against an excess of its complement under standardized conditions.

The ω peptide has been purified and its molecular weight determined as 39,000. The ω acceptor has not, as yet, been purified in a state where it is still...


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DOI: http://dx.doi.org/10.1101/0.265-272