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Proposed structural models of human factor Va and prothrombinase
Author(s) -
LEE C. J.,
LIN P.,
CHANDRASEKARAN V.,
DUKE R. E.,
EVERSE S. J.,
PERERA L.,
PEDERSEN L. G.
Publication year - 2008
Publication title -
journal of thrombosis and haemostasis
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.947
H-Index - 178
eISSN - 1538-7836
pISSN - 1538-7933
DOI - 10.1111/j.1538-7836.2007.02821.x
Subject(s) - prothrombinase , docking (animal) , chemistry , homology modeling , molecular dynamics , molecular model , factor v , biophysics , stereochemistry , thrombin , computational chemistry , biochemistry , biology , medicine , surgery , thrombosis , immunology , enzyme , platelet , nursing
Summary. Background: The prothrombinase complex consists of factor Xa, FVa, calcium ions, and phospholipid membrane. The prothrombinase complex plays a key role in the blood coagulation process. Objective: To derive solvent‐equilibrated models of human FVa and the prothrombinase complex. Methods: Several modeling techniques have been employed, including homology modeling, protein–protein docking, and molecular dynamics simulation methods, to build the structural models. Results and conclusions: We found, upon simulation, a possibly significant shift towards planarity of the five FVa domains. To estimate a prothrombinase structure, we docked an FXa model to the equilibrated FVa model using experimental data as docking filters. We found that simulation of the docked complex led to some changes in the protein–protein contacts, but not buried surface area, as compared to the initial docking model. Possible locations of prothrombin binding to prothrombinase are indicated.