X-ray crystal structure of the blue oxidase ascorbate oxidase from zucchini. Analysis of the polypeptide fold and a model of the copper sites and ligands.

Two crystal forms of the multi-copper protein ascorbate oxidase from Zucchini have been analysed at 2.5 A (1 A = 0.1 nm) resolution and a model of the polypeptide chain and the copper ions and their ligands has been built. Crystal forms M2 and M1 contain a dimer of 140,000 Mr and a tetramer of 280,000 Mr, respectively, in the asymmetric unit. The crystallographic analysis proceeded by multiple isomorphous replacement in M2 followed by solvent flattening and averaging about the local dyad axis. M1 was solved by Patterson search techniques using the M2 electron density. M1 was fourfold averaged. M1 and M2 were combined and the process of averaging repeated in cycles. An atomic model was built into the resulting electron density map and refinement initiated. The current R values of M2 and M1 are 24.5% and 32.6%, respectively. Excellent stereo chemistry was maintained, with root-mean-square deviations of bond lengths and bond angles from average values of 0.02 A and 3.1 degrees, respectively. Each subunit of about 550 amino acid residues has a globular shape with dimensions of 49 A x 53 A x 65 A. It is built up by three domains arranged sequentially on the polypeptide chain and tightly associated in space. The folding of all three domains is of a similar beta-barrel type. It is distantly related to plastocyanin. Each subunit has four copper atoms bound as mononuclear and trinuclear species. The mononuclear copper has two histidine, a cysteine, and a methionine ligand and represents the type-1 copper. It is located in the third domain. The trinuclear cluster has eight histidine ligands. It may be subdivided into a pair of copper atoms with six histidine ligands arranged trigonal prismatic. The pair probably represents the type-3 copper. The remaining copper has two histidine ligands. Its third site of co-ordination is formed by the pair of copper atoms. The fourth ligand may be OH- represented by a small protrusion of electron density. This copper probably is the type-2 copper. The symmetry of the trinuclear cluster is C2 and the ligands are supplied symmetrically by domains 1 and 3. However, domain 1 does not contain a type-1 copper and lacks the characteristic ligands. The unprecedented trinuclear cluster probably represents the oxygen binding and electron storage site.