J. Biochem, 1986, Vol. 99, No. 5 1501-1511
© 1986 Japanese Biochemical Society
research-article |
Unfolding and Refolding of the Constant Fragment of the Immunoglobulin Light Chain Containing an Intramolecular Mercury Bridge
Department of Biology, Faculty of Science Osaka University Toyonaka, Osaka 560
The conformation of the constant fragment of the immunoglobulin light chain in which the intrachain disulfide bond is replaced by the bond S-Hg-S (CL-Hg fragment), was as compact as that of the intact CL fragment, but its stability to guani dine hydrochloride was lower than that of the intact CL fragment [Goto, Y. & Hamaguchi, K. (1986) Biochemistry in press]. The kinetics of reversible unfolding and refolding of the CL-Hg fragment by guanidine hydrochloride were studied and compared with those for the intact CL and reduced CL fragments [Goto Y. & Hamaguchi, K. (1982) J. Mol. Biol. 156, 891–910, 911–926]. The unfolding kinetics were explained on the basis of a three-species mechanism, U1
U2F, where U1 and U2 are respectively slow-folding and fast-folding species of unfolded protein, and F is folded protein. However, an additional isomerization, though its contri bution to the overall reaction process is small, had to be taken into account to explain the refolding kinetics. The kinetic properties of interconversion between U1 and U2 were similar to those for the intact CL and reduced CL fragments. This suggested that the same prolyl residue is involved in the isomerization reactions in the unfolded states of the intact CL, reduced CL, and CL-Hg fragments. The rate constant for the unfolding process, F to U was about 20 times greater than those for the intact CL and reduced CL fragments, while the rate constant for the refolding process, U2 to F, lay between the values for the intact CL and the reduced CL frag ment. The free energy profiles of unfolding and refolding of the intact CL, reduced CL, and CL-Hg fragments were compared.