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  • Title: DNA cleavage by the EcoRV restriction endonuclease: roles of divalent metal ions in specificity and catalysis.
    Author: Baldwin GS, Sessions RB, Erskine SG, Halford SE.
    Journal: J Mol Biol; 1999 Apr 23; 288(1):87-103. PubMed ID: 10329128.
    Abstract:
    The roles of divalent metal ions in DNA cleavage by the EcoRV endonuclease were studied by using Co2+ or Mn2+ as substitutes for the natural cofactor Mg2+. In steady-state experiments with a 12 bp oligonucleotide substrate, Co2+ yielded a similar turnover rate to that with Mg2+, but Mn2+ gave a slower rate. Single turnovers of EcoRV on this substrate were analysed by stopped-flow and quench-flow methods, to determine the rates for the formation of the ternary enzyme-DNA-metal complex, the hydrolysis of the phosphodiester bonds and the dissociation of the cleaved DNA. With Co2+, all three steps had similar rates to those with Mg2+. In contrast, Mn2+ gave a faster rate for phosphodiester hydrolysis than either Mg2+ or Co2+, but a slower rate for product dissociation, thus accounting for its low turnover rate. Single turnovers on plasmids also yielded faster rates for substrate hydrolysis with Mn2+ compared to Mg2+ and Co2+. Since Mn2+ gave the most rapid rates for the hydrolytic step, despite being less electronegative than Co2+, the function of the metal ion at the active site of EcoRV cannot be just the polarisation of the scissile phosphate. Moreover, the minimal scheme for the Co2+-catalysed reaction requires two metal ions for DNA cleavage. The metal ions seem to be involved in the precise positioning of both the substrate and the water that acts as the attacking nucleophile and in activating that water molecule. A model is presented to account for how two metal ions might fulfil these functions.
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