Accommodation of CO in the di-heme active site of cytochrome bd terminal oxidase from Escherichia coli.

Catalytic mechanisms of reduction of O(2) to 2H(2)O by respiratory terminal oxidases have been extensively investigated. Tri-heme (b(558), b(595), d) cytochrome bd oxidases presumably utilize a dihemic site composed of high-spin hemes d and b(595). We performed a CO photolysis/recombination study of the purified fully reduced cytochrome bd from Escherichia coli. Spectrum of CO photolysis suggests photodissociation of the ligand from heme d and from part of heme b(595). This is the first clear evidence of interaction of heme b(595) with CO at room temperature. The amount of the heme d-CO species is higher after recombination than before photolysis. In the enzyme population with heme b(595) bound to CO, heme d remains unliganded, hence the dihemic O(2)-reducing pocket in cytochrome bd can bind one rather than two diatomic molecules. Occupancy of the site by one ligand molecule probably blocks access of a second molecule. Thus cytochrome bd exhibits strong negative cooperativity in ligand binding. Immediately after photolysis/recombination CO occupies 100% of the heme d sites, whereas after equilibration, the ligand gets located at heme d in 90-95% and at heme b(595) in 5-10% of the cytochrome. The equilibration process is possibly associated with an exchange of heme d endogenous ligand. Copyright © 2012 Elsevier Inc. All rights reserved.

Citation

Vitaliy B Borisov, Michael I Verkhovsky. Accommodation of CO in the di-heme active site of cytochrome bd terminal oxidase from Escherichia coli. Journal of inorganic biochemistry. 2013 Jan;118:65-7

Mesh Tags

Substances

PMID: 23123340

search → result