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Multiple Approaches to Visualizing Fibrin Clot Structure and Assembly

Published online by Cambridge University Press:  02 July 2020

John W. Weisel*
Affiliation:
Department of Cell and Developmental Biology, University of Pennsylvania School of Medicine, Philadephia, PA19104-6058
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Extract

Fibrin clot formation is necessary for maintaining the integrity of the vasculature via physiological processes of hemostasis and wound healing and is also involved in pathological processes, such as thrombosis and atherosclerosis. A variety of structural and biophysical approaches has been used to examine intermediates in the formation of clots and to visualize in vitro clots and ex vivo thrombi.

Structures at all stages of polymerization have been examined to learn about molecular mechanisms of assembly. Fibrinogen is a polyfunctional, multi-domain protein that is essential for platelet aggregation and for the formation of the three-dimensional network of fibrin fibers which is the structural basis of the clot. Distinctive functions for several of fibrinogen's domains in the fibrin assembly process have been elucidated. Enzymatic removal of the fibrinopeptides exposes binding sites in the central region which then interact with complementary sites at the ends of a neighboring molecule to yield fibrin oligomers.

Type
From Scanning Probe Microscopy to High Resolution Ultrasound: New Versions of the Vasculature
Copyright
Copyright © Microscopy Society of America 1997

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References

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I thank all of my colleagues and collaborators, especially Drs. Veklich, Nagaswami and Woodhead, and acknowledge the support of NIH grants HL30954 and RR2483 and of the University Research Foundation.Google Scholar