An Asymmetric Conformational Change in LacY

Galactoside/H+ symport by the lactose permease of Escherichia coli (LacY) involves reciprocal opening and closing of periplasmic and cytoplasmic cavities so that sugar- and H+-binding sites become alternatively accessible to either side of the membrane. After reconstitution into proteoliposomes, LacY with the periplasmic cavity sealed by cross-linking paired-Cys residues does not bind sugar from the periplasmic side. However, reduction of the S–S bond restores opening of the periplasmic cavity and galactoside binding. Furthermore, nanobodies that stabilize the double-Cys mutant in a periplasmic-open conformation and allow free access of galactoside to the binding site do so only after reduction of the S–S bond. In contrast, when cross-linked LacY is solubilized in detergent, galactoside binding is observed, indicating that the cytoplasmic cavity is patent. Sugar binding from the cytoplasmic side exhibits nonlinear stopped-flow kinetics, and analysis reveals a two-step process in which a conformational cha...