ABSTRACT: DNA looping and aggregation induced by restriction endonuclease BspMI are studied by atomic force microscopy (AFM) and magnetic tweezers (MT). With Ca(2+) substituted for the normal enzyme cofactor Mg(2+) and enzyme concentration below the critical concentration of 6 units/mL, AFM images of DNA-BspMI complex show that the number of binding and looping events increases with enzyme concentration. At the critical concentration 6 of units/mL, all the BspMI binding sites are saturated. It is worth noting that nonspecific BspMI binding to DNA at saturation concentration represents more than 8% of the total BspMI-DNA complexes directly observed in AFM images. Furthermore, we used MT to prove that additional loops can form when enzyme concentration is higher than its saturation valueand the complex is incubated for a long time (>2 hrs). We ascribe this phenomenon to the aggregation of enzymes. The force spectroscopy of the BspMI-DNA complex shows that the pulling force required to open the loop of the complex at less than saturation concentration has a peak at about 3 pN, which is lower than the force required to open additional loops due to enzyme aggregation at higher than saturation concentration (>6 pN).