西亚试剂：Measurements of DNA-loop formation via Cre-mediated recombi

Measurements of DNA-loop formation via Cre-mediated recombination

Massa J. Shoura1, Alexandre A. Vetcher1, Stefan M. Giovan1, Farah Bardai1, Anusha Bharadwaj1, Matthew R. Kessinger1 and Stephen D. Levene1,2,3,*

The Cre-recombination system has become an important tool for genetic manipulation of higher organisms and a model for site-specific DNA-recombination mechanisms employed by the λ-Int superfamily of recombinases. We report a novel quantitative approach for characterizing the probability of DNA-loop formation in solution using time-dependent ensemble Förster resonance energy transfer measurements of intra- and inter-molecular Cre-recombination kinetics. Our method uses an innovative technique for incorporating multiple covalent modifications at specific sites in covalently closed DNA. Because the mechanism of Cre recombinase does not conform to a simple kinetic scheme, we employ numerical methods to extract rate constants for fundamental steps that pertain to Cre-mediated loop closure. Cre recombination does not require accessory proteins, DNA supercoiling or particular metal-ion cofactors and is thus a highly flexible system for quantitatively analyzing DNA-loop formation in vitro and in vivo.

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