Protein crystallography at sub-zero temperatures: Lysozyme-substrate complexes in cooled mixed solvents

Abstract

To determine the feasibility of direct X-ray crystallographic structure determination of productive enzyme-substrate complexes and to ascertain the best conditions for such studies, the hydrolysis of bacterial cell walls and oligosaccharides by human leukaemic lysozyme was investigated in mixed aqueous/organic solvents and high salt solutions. Although high salt solutions modify the enzymic reaction, hydrolysis in mixed solvents appears to proceed by the same mechanism as in aqueous solution. At low temperatures the reaction is slowed progressively, and at −25 °C the enzyme-substrate complex in mixed solvents is stable indefinitely. The conformation of the enzyme is not significantly altered in these solvents, and the enzyme-substrate complex can be formed by direct addition of substrate to the enzyme at sub-zero temperatures, as required for crystallographic studies. The pH profile of the reaction in mixed solvents allows conditions of optimal binding to be selected. These studies in solution demonstrate that low-temperature protein crystallography may indeed permit the direct determination of the three-dimensional structure of enzyme-substrate complexes. They also delineate the precise conditions of pH, temperature and solvent to use in the crystallographic experiments.