Probing the dynamics of restriction endonuclease NgoMIV‐DNA interaction by single‐molecule FRET

Many type II restriction endonucleases require two copies of their recognition sequence for optimal activity. Concomitant binding of two DNA sites by such an enzyme produces a DNA loop. Here we exploit single‐molecule Förster resonance energy transfer (smFRET) of surface‐immobilized DNA fragments to study the dynamics of DNA looping induced by tetrameric endonuclease NgoMIV. We have employed a DNA fragment with two NgoMIV recognition sites and a FRET dye pair such that upon protein‐induced DNA looping the dyes are brought to close proximity resulting in a FRET signal. The dynamics of DNA ‐ NgoMIV interactions proved to be heterogeneous, with individual smFRET trajectories exhibiting broadly different average looped state durations. Distinct types of the dynamics were attributed to different types of DNA ‐ protein complexes, mediated either by one NgoMIV tetramer simultaneously bound to two specific sites (“slow” trajectories) or by semi‐specific interactions of two DNA‐bound NgoMIV tetramers (“fast” trajectories), as well as to conformational heterogeneity of individual NgoMIV molecules.