Tryptic core protein of lactose repressor binds operator DNA.

The core protein produced by mild proteolytic digestion of lactose repressor protein has been purified from native repressor by chromatography on phosphocellulose. The core protein isolated in this manner binds to operator DNA with an apparent dissociation constant of 10(-7) M, and the observed binding is decreased by the presence of inducer. Competition studies with nonspecific DNA indicate that the binding species in the core protein preparations is neither intact lactose repressor nor mixed tetramers containing varying numbers of intact NH2-terminal regions. This conclusion is supported by experiments designed to measure the rate of dissociation of the core protein from the operator DNA. Calculations based on the assumption that the isolated core protein binds similarly to the corresponding region in intact repressor protein indicate that the core region contributes approximately 40 to 50% of the energy of binding to operator DNA. Furthermore, the change in operator affinity upon inducer binding to core accounts for a minimum of 60% of the free energy change in binding to operator observed for the native protein. The demonstration that core protein binds to operator DNA requires a re-evaluation of the various models for repressor binding to DNA. A possible model based on the available information is presented.