PMID- 8679619
OWN - NLM
STAT- MEDLINE
DCOM- 19960822
LR  - 20131121
IS  - 0006-2960 (Print)
IS  - 0006-2960 (Linking)
VI  - 35
IP  - 26
DP  - 1996 Jul 2
TI  - Resonance Raman/absorption characterization of the oxo intermediates of 
      cytochrome c oxidase generated in its reaction with hydrogen peroxide: pH and 
      H2O2 concentration dependence.
PG  - 8580-6
AB  - Effects of pH and H2O2 concentration on the reaction of cytochrome c oxidase 
      (CcO) with H2O2 were studied with the high-performance Raman/absorption 
      simultaneous determination technique reported previously (Proshlyakov et al., 
      1996). This reaction generates two intermediates called 607- and 580-nm forms, 
      and we found that they show the same oxygen-isotope-sensitive RR bands as those 
      of the intermediates in O2 reduction by CcO. In transient absorption spectra 
      obtained under single turnover conditions, the 607-nm form appeared as the 
      primary intermediate and subsequently the 580-nm and resting forms, suggesting 
      that H2O2 serves as an oxidant for the resting enzyme but as a reductant for both 
      the 607- and 580-nm forms in the peroxide cycle. The rise rate of absorption at 
      607 nm was insensitive to the H2O/D2O exchange, but the decay was significantly 
      slower in D2O than in H2O. With the microcirculating system, each intermediate 
      was maintained at a constant level under steady-state conditions by supplying 
      H2O2 continuously. In the pH range between 7.4 and 10.0, the population of the 
      607-nm form decreased at higher pH and at higher concentrations of H2O2. The Fe=O 
      stretching (VFe=O) frequencies of the oxo heme of the 607-nm form, observed at 
      804/769 cm-1 for their H2(16)O2/H2(18)O2 derivatives, were unaltered in this pH 
      range and exhibited a D2O/H2O shift even at pH 10.0. This indicates that the 
      iron-bound oxygen is hydrogen-bonded to a distal residue in this pH range. When 
      the 580-nm form is dominant under the nonsaturating level of H2O2, two other 
      oxygen-isotope-sensitive Raman bands have been observed at 785/750 cm-1 and 
      355/340 cm-1 at neutral pH, but the former disappeared above pH 8.5 and the 
      latter above pH 9.0 without significant changes of absorption spectra, suggesting 
      the presence of two separate species in the name of the 580-nm form. However, 
      under the saturating concentration of H2O2, these Raman bands were unaltered 
      between pH 7.4 and 10.0. In contrast, in the absence of excess peroxide, no 
      oxygen-isotope-sensitive RR bands were observed despite dominance of the 580-nm 
      form. The disappearance of these Raman bands demonstrates the occurrence of 
      oxygen exchange between the oxo heme and bulk water, whose rate surpasses the 
      formation rate of the 580-nm form at alkaline pH and/or at low H2O2 
      concentration. Such an oxygen exchange did not take place in the 607-nm form. 
      Under the identical experimental conditions for generating a particular steady 
      state, the exchange of H2O with D2O caused significant depopulation of the 580-nm 
      form and concomitant increase of the 607-nm form. This was satisfactorily 
      interpreted in terms of the difference in the decay rate of the 607-nm form 
      between H2O and D2O. Thus, the reduction of the 607-nm form to the 580-nm form is 
      likely to be a key step of the redox-linked proton pumping in the O2 reduction.
FAU - Proshlyakov, D A
AU  - Proshlyakov DA
AD  - Graduate University for Advanced Studies, Okazaki National Research Institutes, 
      Japan.
FAU - Ogura, T
AU  - Ogura T
FAU - Shinzawa-Itoh, K
AU  - Shinzawa-Itoh K
FAU - Yoshikawa, S
AU  - Yoshikawa S
FAU - Kitagawa, T
AU  - Kitagawa T
LA  - eng
PT  - Journal Article
PL  - United States
TA  - Biochemistry
JT  - Biochemistry
JID - 0370623
RN  - BBX060AN9V (Hydrogen Peroxide)
RN  - EC 1.9.3.1 (Electron Transport Complex IV)
SB  - IM
MH  - Animals
MH  - Cattle
MH  - Electron Transport Complex IV/*chemistry
MH  - Hydrogen Peroxide/*chemistry
MH  - Hydrogen-Ion Concentration
MH  - Kinetics
MH  - Myocardium/enzymology
MH  - Spectrum Analysis, Raman
EDAT- 1996/07/02 00:00
MHDA- 1996/07/02 00:01
CRDT- 1996/07/02 00:00
PHST- 1996/07/02 00:00 [pubmed]
PHST- 1996/07/02 00:01 [medline]
PHST- 1996/07/02 00:00 [entrez]
AID - bi952096t [pii]
AID - 10.1021/bi952096t [doi]
PST - ppublish
SO  - Biochemistry. 1996 Jul 2;35(26):8580-6. doi: 10.1021/bi952096t.