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Abstract
A high molecular weight ‘cryogel’ was obtained as insoluble complexes by cold incubation at near-freezing temperatures from heparinized plasma of patients with rheumatoid arthritis. After the cryogel was solubilized at 37°C, 1:1 complex of fibrinogen and fibronectin was purified at room temperature by affinity chromatography on a gelatin-Sepharose 4B. Hydrodynamic properties of the complex were investigated as a function of temperature and NaCl concentration using a dynamic light scattering. The diffusion coefficients of the complex at 20°C decreased with increasing of NaCl concentration as free fibronectin. The complex appears to be a more compact form at low ionic concentration, which is associated with conformational changes of fibronectin. The diffusion coefficient of the complex at 20°C in 0.05 M Tris- HCl(pH7.4) containing 0.5 M NaCl was estimated as 8.5× 10−8 cm2s−1. The complex did not dissociate over the temperature range from 20 to 37°C. The diffusion coefficients of the complex decreased significantly at 12°C and 40°C. The thermal denaturation of fibrinogen molecule in the complex was observed at 40°C. The CONTIN analysis of the light scattering data showed that the complex associated to form higher aggregates at 15°C, but not at near- freezing temperature. The equilibrium between the complex and higher aggregates appeared reversible.