Relations between enzymatic and association reactions in the development of bovine fibrin clot structure

Development of fibrin clot structure was examined at pH 7.0, Γ/2 0.15, and 29 °C as a function of thrombin and fibrinogen concentrations. Parameters for the release of Apeptides, to give $\text{?}{}_{\mathrm{<mtext>A</mtext>}}$ were evaluated. Characteristics of time dependencies of development of turbidity, 90 ° light scattering, network, and compactible network were established. Mean mass/length ratios of fibrin in developing and mature networks were determined. Relationships between results combined with an inferred dependence of lateral interaction on release of B-peptides are used to disclose a model in which a protofibril network is formed first and the intrinsic length of this network (i.e., length exclusive of overlap or loose ends) determines network length, thus mean mass/length ratio, at maturity. Statements regarding initial protofibril network are: (i) A dominant group of $\text{?}{}_{\mathrm{<mtext>A</mtext>}}$-protofibrils appears first. With decreasing rate of production of $\text{?}{}_{\mathrm{<mtext>A</mtext>}}$ their average length increases and number decreases. (ii) Slower release of B-peptides produces $\text{?}{}_{\mathrm{<mtext>AB</mtext>}}$ whose fraction $\text{θ}{}_{\mathrm{<mtext>AB</mtext>}}\text{=}\text{?}{}_{\mathrm{<mtext>AB</mtext>}}\text{(?}{}_{\mathrm{A}}\text{+?}{}_{\mathrm{AB}}$) determines the occurrence of protofibril regions capable of contributing to a lateral interaction sufficiently stable for the formation of network. (iii) When dominant protofibrils attain a minimum combination of average length, number concentration, and frequency of occurrence of capable regions, an initial protofibril network is rapidly generated. (iv) Capable regions near protofibril ends are preferentially involved in initial network formation. (v) The initial network mesh size is large compared to average concomitant free protofibril length. (vi) With B-peptide release dependent on prior A-peptide release, protofibrils in the initial network have the highest capable region frequency, and this is maintained as lateral interaction progresses. Then, fibrin which is free at initial network formation and fibrin which is produced subsequently interact mainly to increase the mean mass/length ratio of initial network elements.