Mg2+ confers DNA binding specificity to the EcoRV restriction endonuclease.

1992 
The EcoRV mutant D90A which carries an amino acid substitution in its active center does not cleave DNA. Therefore, it is possible to perform DNA binding experiments with the EcoRV-D90A mutant both in the absence and in the presence of Mg2+. Like wild-type EcoRV [Taylor et al. (1991) Biochemistry 30, 8743-8753], it does not show a pronounced specificity for binding to its recognition site in the absence of Mg2+ as judged by the appearance of multiple shifted bands in an electrophoretic mobility shift assay with a 377-bp DNA fragment carrying a single EcoRV recognition sequence. In the presence of Mg2+, however, only one band corresponding to a 1:1 complex appears even with a high excess of protein over DNA. This complex most likely is the specific one, because its formation is suppressed much more effectively by a 13-bp oligodeoxynucleotide with an EcoRV site than by a corresponding oligodeoxynucleotide without an EcoRV site. The preferential interaction of the EcoRV-D90A mutant with specific DNA in the presence of Mg2+ was also demonstrated directly: a 20-bp oligodeoxynucleotide with an EcoRV site is bound with KAss = 4 x 10(8) M-1, while a corresponding oligodeoxynucleotide without an EcoRV site is bound with KAss less than or equal to 1 x 10(5) M-1. From these data it appears that Mg2+ confers DNA binding specificity to this mutant by lowering the affinity to nonspecific sites and raising the affinity to specific sites as compared to binding in the absence of Mg2+. It is concluded that this is also true for wild-type EcoRV.
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