Intermediate filaments (IF) from baby hamster kidney (BHK-21) cells can be disassembled at low ionic strength and reassembled upon addition of salt. Turbidimetric analyses show that reassembled IF exhibit the light scattering properties of long rods under physiological conditions (5 mM Na+/K+ phosphate, pH 7.2/170 mM NaCl at 21 degrees C). IF weight concentration, determined by centrifugation, is directly proportional to the optical density at 3000 nm. Thus, turbidity can be used as a quantitative assay for IF assembly. Turbidimetric and centrifugation analyses both indicate that IF assembly exhibits a critical protein concentration of 0.05-0.15 mg/ml. Above the critical concentration, IF weight concentration at steady-state is a linear function of the total protein concentration. Negative stain observations at early stages of the assembly process suggest lateral association of protofilaments to form short IF. This lateral association is accompanied by a rapid turbidity increase which is then followed by IF elongation and a slower turbidity increase to plateau. Further purification of IF by low/high-NaCl-induced cycles of disassembly/reassembly results in retention of 54- and 55-kilodalton (decamin) polypeptides. These results constitute a quantitative description of in vitro reassembly of IF from homogeneous cultures of nonkeratinizing cells and establish conditions for further studies on the regulation of IF assembly.