One recognition sequence, seven restriction enzymes, five reaction mechanisms

The diversity of reaction mechanisms employed by Type II restriction enzymes was investigated by ana-lysing the reactions of seven endonucleases at the same DNA sequence. NarI, KasI, Mly113I, SfoI, EgeI, EheI and BbeI cleave DNA at several different posi-tions in the sequence 50-GGCGCC-30. Their reactions on plasmids with one or two copies of this sequence revealed five distinct mechanisms. These differ in terms of the number of sites the enzyme binds, and the number of phosphodiester bonds cleaved per turnover. NarI binds two sites, but cleaves only one bond per DNA-binding event. KasI also cuts only one bond per turnover but acts at individual sites, prefer-ring intact tonicked sites. Mly113Icuts both strands of its recognition sites, but shows full activity only when bound to two sites, which are then cleaved concert-edly. SfoI, EgeI and EheI cut both strands at individual sites, in the manner historically considered as normal for Type II enzymes. Finally, BbeI displays an absolute requirement for two sites in close physical proximity, which are cleaved concertedly. The range of reaction mechanisms for restriction enzymes is thus larger than commonly imagined, as is the number of enzymes needing two recognition sites