A Predicted Tertiary Structure of a Thrombin Inhibitor-Trypsin Complex Explains the Mechanisms of the Selective Inhibition of Thrombin, Factor Xa, Plasmin, and Trypsin1

Abstract

The tertiary structure of a thrombin inhibitor-trypsin complex has been predicted by a molecular modelling considering the van der Waals interactions between the inhibitor and the enzyme. The selective inhibition of trypsin, thrombin, factor Xa, and plasmin exhibited by arginine and lysine derivatives has been clearly explained based on the predicted structure and the homology in the amino acid sequences of these enzymes. The differences in the amino acid sequences at the positions corresponding to Ile63, Leu99, and Serl90 of trypsin give each enzyme different binding affinities toward inhibitors and result in the selective inhibition. The X-ray analysis of the inhibitor-trypsin complex is in progress to prove the predicted structure.