Structure of the zinc-binding site in the crystal structure of a zinc endoprotease from Streptomyces caespitosus at 1 angstrom resolution

摘要

A zinc endoprotease produced by Streptomyces caespitosus (ScNP) contains a H(83)E(84)TGH(87)VLG(90)LPD(93)-Met(103) sequence. Except for D93, this amino acid sequence is the same as a characteristic consensus HEXXHXXGXXH-M motif found in one class of zinc endoprotease called 'metzincins'. We analyzed the structural and functional role of the consensus sequence located around a catalytically essential zinc ion based on the crystal structure of ScNP. The structure was determined at the highest level on resolution (1 Angstrom resolution) and accuracy among crystal structures of zinc endoproteases ever determined. The zinc ion of ScNP is tetrahedrally coordinated by three amino acid side-chains (H83, H87 and D93) and a water molecule. The distances between the zinc ion and the coordinating atoms are 2.01, 2.01 and 1.95 Angstrom for H83N epsilon, H87N epsilon and D93O delta, respectively. These distances agree very well with those normally found in crystal structures of zinc-containing small molecules in the Cambridge Structural Database. On the other hand, the distance between the zinc ion and the coordinating water molecule (1.93 Angstrom) is slightly shorter than the typical value (2.01 Angstrom) found in the database. In addition, E84O epsilon makes a short hydrogen bond to this water molecule with the distance of 2.54 Angstrom. Two hydrogen bonds (H83N delta -L102O, H87N delta -L91O) and van der Waals interactions between the side-chain of M103 and the two imidazole rings of H83 and H87 are also observed. These interactions are probably important for the imidazole rings to construct the tetrahedral coordination arrangement toward the zinc ion. (C) 2000 Elsevier Science B.V. All rights reserved. [References: 25]