Crystallographic characterization of recombinant human CuZn superoxide dismutase

Abstract

Recombinant human CuZn superoxide dismutase as expressed in yeast has been crystallized in three different crystal forms. Hexagonal plates grow from 2.4 M ammonium sulfate, pH 7.5, and belong to the space group P6(3)22, with cell dimensions a = b = 113.5(3), c = 151.5(5) A, and Vm = 2.21 A3/dalton for two dimers per asymmetric unit. At 2.0 M ammonium sulfate, pH 7.5, chunky wedges grow in space group C222(1), a = 205.2(6), b = 166.5(4), c = 145.4(4) A with a Vm of 2.43 A3/dalton for eight dimers per asymmetric unit. With polyethylene glycol 8000, pH 7.5-8.0, hexagonal prisms are obtained with cell dimensions a = b = 197.4(6), c = 43.1(2) A, space group P6, and Vm = 2.53 A3/dalton for three dimers per asymmetric unit. All of these forms diffract to high resolution, are stable to x-rays, and appear suitable for determination of the atomic structure. Crystals of the doubly mutated enzyme (Cys6----Ala, Cys111----Ser) grown from both micro- and macroseeds of the wild type protein demonstrate the feasibility of isomorphous crystallization of site-directed mutants of the cloned parent enzyme for comparative structure-function studies.