Kinetic intermediates in the formation of ordered complexes from cytochrome c fragments. Evidence that methionine ligation is a late event in the folding process.

The reactions of ferric heme-containing fragments with apofragments to form ordered complexes resembling native horse heart cytochrome c have been studied under conditions which resolve the overall process into consecutive second order and first order kinetic steps. In the initial, second order step the two fragments combine to form an intermediate complex which exhibits tryptophan 59 fluorescence quenching similar to native cytochrome c, but which has not yet achieved the native ligation state of the heme iron. The existence of first order processes following the second order step is demonstrated by absorbance changes in the Soret region. the entire absorbance change at 695 nm, relating to ligation of the sulfur atom of methionine 80 to the heme iron, is also associated with these first order processes. Thus, ligation of methionine is a late event in this self ordering of the polypeptide chains. Since the conformational energy is assumed to distinctly decrease in this late process of folding (Parr, G.R., and Taniuchi, H. (1980) J. Biol. Chem. 255, 2616-2623), it would follow that small spatial rearrangements of the polypeptide chains in the late stage of folding (as manifested by the ligation of methionine) are associated with a specific decrease in energy.