Fourier transform infrared (FTIR) and step-scan time-resolved FTIR spectroscopies reveal a unique active site in cytochrome caa3 oxidase from Thermus thermophilus

Fourier transform infrared (FTIR) and step-scan time-resolved FTIR difference spectra are reported for the carbonmonoxy]cytochrome caa(3) from Thermus thermophilus. A major C-O mode of heme a(3) at 1958 cm(-1) and two minor modes at 1967 and 1975 cm(-1) (7:1:1) have been identified at room temperature and remained unchanged in H(2)O/D(2)O exchange. The observed C-O frequencies are 10 cm(-1) higher than those obtained previously at 21 K (Einarsdóttir, O., Killough, P. M., Fee, J. A., and Woodruff, W. H. (1989) J. Biol. Chem. 264, 2405-2408). The time-resolved FTIR data indicate that the transient Cu(B)(1+)-CO complex is formed at room temperature as revealed by the CO stretching mode at 2062 cm(-1). Therefore, the caa(3) enzyme is the only documented member of the heme-copper superfamily whose binuclear center consists of an a(3)-type heme of a beta-form and a Cu(B) atom of an alpha-form. These results illustrate that the properties of the binuclear center in other oxidases resulting in the alpha-form are not required for enzymatic activity. Dissociation of the transient Cu(B)(1+)-CO complex is biphasic. The rate of decay is 2.3 x 10(4) s(-1) (fast phase, 35%) and 36.3 s(-1) (slow phase, 65%). The observed rate of rebinding to heme a(3) is 34.1 s(-1). The implications of these results with respect to the molecular motions that are general to the photodynamics of the binuclear center in heme-copper oxidases are discussed.