Bacterial bd-type quinol oxidases, such as cytochrome bd from Escherichia coli, contain three hemes, but no copper. In contrast to heme-copper oxidases and similarly to globins, single electron-reduced cytochrome bd forms stable complexes with 02, NO and CO at ferrous heme d. Kinetics of ligand dissociation from heme d(2+) in the single electron- and fully-reduced cytochrome bd from E coli has been investigated by rapid mixing spectrophotometry at 20 degrees C. Data show that (i) O-2 dissociates at 78 s(-1), (ii) NO and CO dissociation is fast as compared to heme-copper oxidases and (iii) dissociation in the single electron-reduced state is hindered as compared to the fully-reduced enzyme. Presumably, rapid ligand dissociation requires reduced heme b(595). As NO, an inhibitor of respiratory oxidases, is involved in the immune response against microbial infection, the rapid dissociation of NO from cytochrome bd may have important bearings on the patho-physiology of enterobacteria. (c) 2007 Elsevier Inc. All rights reserved.
Redox control of fast ligand dissociation from Escherichia coli cytochrome bd / Vitaliy B., Borisov; Forte, Elena; Sarti, Paolo; Brunori, Maurizio; Alexander A., Konstantinov; Giuffre', Alessandro. - In: BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS. - ISSN 0006-291X. - 355:1(2007), pp. 97-102. [10.1016/j.bbrc.2007.01.118]
Redox control of fast ligand dissociation from Escherichia coli cytochrome bd
FORTE, Elena;SARTI, Paolo;BRUNORI, Maurizio;GIUFFRE', ALESSANDRO
2007
Abstract
Bacterial bd-type quinol oxidases, such as cytochrome bd from Escherichia coli, contain three hemes, but no copper. In contrast to heme-copper oxidases and similarly to globins, single electron-reduced cytochrome bd forms stable complexes with 02, NO and CO at ferrous heme d. Kinetics of ligand dissociation from heme d(2+) in the single electron- and fully-reduced cytochrome bd from E coli has been investigated by rapid mixing spectrophotometry at 20 degrees C. Data show that (i) O-2 dissociates at 78 s(-1), (ii) NO and CO dissociation is fast as compared to heme-copper oxidases and (iii) dissociation in the single electron-reduced state is hindered as compared to the fully-reduced enzyme. Presumably, rapid ligand dissociation requires reduced heme b(595). As NO, an inhibitor of respiratory oxidases, is involved in the immune response against microbial infection, the rapid dissociation of NO from cytochrome bd may have important bearings on the patho-physiology of enterobacteria. (c) 2007 Elsevier Inc. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
