The elastic modulus of fibrin clots and fibrinogen gels: the effect of fibronectin and dithiothreitol
R Procyk, RG King - Biopolymers: Original Research on …, 1990 - Wiley Online Library
R Procyk, RG King
Biopolymers: Original Research on Biomolecules, 1990•Wiley Online LibraryThe elastic modulus (G′) of factor XIIIa induced fibrinogen gels was found to be
substantially lower than the G′ of fibrin gels that were formed by clotting fibrinogen with
thrombin. The addition of fibronectin and/or the reducing reagent dithiothreitol (DTT) to the
factor XIIIa coagulation mixture led to the formation of a weaker gel structure, while the
rigidity of thrombin induced clots was not appreciably affected by the inclusion of the DTT but
increased somewhat in the presence of fibronectin. The reasons for the differing clot …
substantially lower than the G′ of fibrin gels that were formed by clotting fibrinogen with
thrombin. The addition of fibronectin and/or the reducing reagent dithiothreitol (DTT) to the
factor XIIIa coagulation mixture led to the formation of a weaker gel structure, while the
rigidity of thrombin induced clots was not appreciably affected by the inclusion of the DTT but
increased somewhat in the presence of fibronectin. The reasons for the differing clot …
Abstract
The elastic modulus (G′) of factor XIIIa induced fibrinogen gels was found to be substantially lower than the G′ of fibrin gels that were formed by clotting fibrinogen with thrombin. The addition of fibronectin and/or the reducing reagent dithiothreitol (DTT) to the factor XIIIa coagulation mixture led to the formation of a weaker gel structure, while the rigidity of thrombin induced clots was not appreciably affected by the inclusion of the DTT but increased somewhat in the presence of fibronectin. The reasons for the differing clot rigidities are discussed in terms of biochemical mechanisms.
Wiley Online Library