Crystal structure of a recombinant αEC domain from human fibrinogen-420

Abstract

The crystal structure of a recombinant αEC domain from human fibrinogen-420 has been determined at a resolution of 2.1 Å. The protein, which corresponds to the carboxyl domain of the αEchain, was expressed in and purified fromPichia pastoriscells. Felicitously, during crystallization an amino-terminal segment was removed, apparently by a contaminating protease, allowing the 201-residue remaining parent body to crystallize. An x-ray structure was determined by molecular replacement. The electron density was clearly defined, partly as a result of averaging made possible by there being eight molecules in the asymmetric unit related by noncrystallographic symmetry (P1 space group). Virtually all of an asparagine-linked sugar cluster is present. Comparison with structures of the β- and γ-chain carboxyl domains of human fibrinogen revealed that the binding cleft is essentially neutral and should not bind Gly-Pro-Arg or Gly-His-Arg peptides of the sort bound by those other domains. Nonetheless, the cleft is clearly evident, and the possibility of binding a carbohydrate ligand like sialic acid has been considered.