Abstract
The functioning of cytochrome c oxidases involves orchestration of long-range electron transfer (ET) events among the four redox active metal centers. We report the temperature dependence of electron transfer from the CuAr site to the low-spin heme-(a)bo site, i.e., CuAr + heme-a(b)o → CuAo + heme-a(b)r in three structurally characterized enzymes: A-type aa3 from Paracoccus denitrificans (PDB code 3HB3) and bovine heart tissue (PDB code 2ZXW), and the B-type ba3 from T. thermophilus (PDB codes 1EHK and 1XME). k,T data sets were obtained with the use of pulse radiolysis as described previously. Semiclassical Marcus theory revealed that λ varies from 0.74 to 1.1 eV, Hab, varies from ∼2 × 10-5 eV (0.16 cm-1) to ∼24 × 10-5 eV (1.9 cm-1), and βD varies from 9.3 to 13.9. These parameters are consistent with diabatic electron tunneling. The II-Asp111Asn CuA mutation in cytochrome ba3 had no effect on the rate of this reaction whereas the II-Met160Leu CuA-mutation was slower by an amount corresponding to a decreased driving force of ∼0.06 eV. The structures support the presence of a common, electron-conducting "wire" between CuA and heme-a(b). The transfer of an electron from the low-spin heme to the high-spin heme, i.e., heme-a(b)r + heme-a3o → heme-a(b)o + heme-a3r, was not observed with the A-type enzymes in our experiments but was observed with the Thermus ba3; its Marcus parameters are λ = 1.5 eV, Hab = 26.6 × 10-5 eV (2.14 cm-1), and βD = 9.35, consistent also with diabatic electron tunneling between the two hemes. The II-Glu15Ala mutation of the K-channel structure, ∼ 24 Å between its CA and Fe-a3, was found to completely block heme-br to heme-a3o electron transfer. A structural mechanism is suggested to explain these observations.
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