The aggregation of laminin-1 in a physiological solution was observed using time-resolved static light scattering. In a Solution containing 150 mM of NaCl and 1 mM of CaCl2, with a pH of 7.2 buffered by 50 mM Tris, and maintained at 25 degrees C, the weight-averaged mass (molecular weight) M,, and radius of gyration R., of the aggregate were measured at 10s intervals. The aggregation kinetics changed from reaction-limited Cluster aggregation (RLCA) to diffusion-limited cluster aggregation (DLCA) over time. The fractal dimension estimated in the DLCA regime was 1.71 from the M(w)similar to R-g(df) relationship, which is consistent with the d(f) of 1.75 obtained from an R(g)similar to t(1/df), plot. Direct calculation of d(f) using the scattering intensity and scattering vector revealed that df gradually increased over time in the DLCA regime, suggesting that spontaneous restructuring of the aggregate had Occurred. This restructuring would have been caused by hydrophobic contact in the aggregate. The form factor of the aggregate was well fitted by a linear random coil model and not by a simple spherical model. (c) 2005 Elsevier B.V. All rights reserved.