Abstract
EcoRII is a member of the expanding group of type IIe restriction endonucleases that share the distinguishing feature of requiring cooperativity between two recognition sites in their substrate DNA. To determine the stoichiometry of the active DNA-enzyme complex and the mode of cooperative interaction, we have investigated the dependence of EcoRII cleavage on the concentration of EcoRII dimers. Maximal restriction was observed at dimer/site ratios of 0.25 and 0. 5. The molecular weight of the DNA-enzyme complex eluted from a gel filtration column also corresponds to a dimeric enzyme structure bound to two substrate sites. We conclude that one EcoRII dimer is sufficient to interact cooperatively with two DNA recognition sites. A Lac repressor "barrier" bound between two normally reactive EcoRII sites did not inhibit restriction endonuclease activity, indicating that cooperativity between EcoRII sites is achieved by bending or looping of the intervening DNA stretch. Comparative cleavage of linear substrates with differently spaced interacting sites revealed an inverse correlation between cleavage rate and site distance. At the optimal distance of one helical turn, EcoRII cleavage is independent of the orientation of the recognition sequence in the DNA double strand.
Highlights
Concerning their substrate requirements, certain restriction endonucleases (ENases)1 that interact at a distance with at least two DNA recognition sites resemble proteins involved in processes like transcription control, DNA recombination, and replication in both prokaryotes and eukaryotes [1,2,3,4,5,6]
We investigated the dependence of EcoRII cleavage on the concentration of EcoRII dimers to calculate the composition of the active complex under optimal cleavage conditions
To discriminate between DNA translocation and looping as modes of cooperative site interaction, we examined the consequences of binding the Lac repressor as a molecular barrier between two normally reactive EcoRII sites on EcoRII cleavage activity
Summary
Concerning their substrate requirements, certain restriction endonucleases (ENases)1 that interact at a distance with at least two DNA recognition sites resemble proteins involved in processes like transcription control, DNA recombination, and replication in both prokaryotes and eukaryotes [1,2,3,4,5,6]. To investigate the influence of bound Lac repressor on the cleavage efficiency, 0.05 pmol of EcoRII was added to parallel samples and run on a 5% polyacrylamide gel with 0.1% SDS to dissociate enzyme-DNA complexes.
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