A study of roles of evolutionarily invariant proline 30 and glycine 34 of cytochrome c.

The previous studies (Juillerat, M. A., and Taniuchi, H. (1986) J. Biol. Chem. 261, 2697-2711), using a three-fragment complex (1-25)H X (28-38) X (39-104) of horse cytochrome c, have shown that invariant leucine 32 and partially invariant leucine 35, both buried in the interior, exhibit a striking difference in perturbation of binding fragment (28-38) by substitution with isoleucine. Then the idea has been proposed that the energy states of leucine 32, the Met-80-S-heme-Fe bond and other distant residues such as tryptophan 59 would be coupled to generate extra force while leucine 35 would be less important for such coupling if it were involved. In the present studies we synthesized three (28-38) analogs substituting invariant proline 30 with glycine or invariant glycine 34 with alanine or serine. Thermodynamic and kinetic studies and UV CD and biological activity measurements were carried out on binding of the analogs to complex (1-25)H X (39-104). The results with the ferric form show that perturbations of delta G, delta H, and delta S associated with formation of the intermediate complex and with the ensuing process by the Gly34----Ala or Ser substitution result in weakening the Met-80-S-heme-Fe bond formed in the latter process; in contrast, perturbation by the Pro30----Gly substitution is small. However, the biological activity is more perturbed by the Pro30----Gly substitution than by the Gly34----Ala or Ser; and in the Gly34----Ala or Ser substitution the complex appears to be more readily activated for both formation and disruption of the Met-80-S-heme-Fe bond at 20 degrees C and below than without substitution. In all cases reduction of the heme strengthens the binding of fragment (28-38). However, striking are the increases in perturbation (less negative) of both delta H and delta S for binding of fragment (28-38) to form the ground state on reduction of the heme in the Pro30----Gly, Gly34----Ala or Ser (the present studies), and Leu32----norvaline (the previous studies) substitutions. It is known that fluctuation of the atomic positions of most residues of tuna ferrocytochrome c including Pro30, Leu32, and Gly34 increases on oxidation of the heme and that these three residues are among those showing the least fluctuating atomic positions (Takano, T., and Dickerson, R.E. (1982) in Electron Transport and Oxygen Utilization (Ho, C., ed) pp. 17-26, Elsevier/North-Holland Biomedical Press, New York).(ABSTRACT TRUNCATED AT 400 WORDS)