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  • Title: Proton interactions in the resting form of cytochrome oxidase.
    Author: Papadopoulos PG, Walter SA, Li JW, Baker GM.
    Journal: Biochemistry; 1991 Jan 22; 30(3):840-50. PubMed ID: 1846306.
    Abstract:
    The effect of pH on the near-UV absorption spectrum of cytochrome oxidase has been examined. Several lines of evidence implicate a proton binding site that can modulate the optical properties of cytochrome alpha 3 in the resting enzyme. Changing the pH within the range 6.5-10.5 was found to reversibly shift the position of the Soret band over an 11-nm range. The lower pH values caused a progressive blue shift in the Soret band, whereas the high-pH range promoted a gradual red shift. Limiting band positions were approximately 416 and 427 nm. The incubation time required to reach a stable band position varied somewhat as did the actual extent of the shift. In most cases, the shift was associated with an isosbestic point. A pH titration profile for the apparent equilibrium position of the Soret band was obtained. Nonlinear least-squares fitting to a scatter plot, assuming a single acid/base group, showed an apparent pKa of 7.8. Magnetic circular dichroism (MCD) spectra of the low-pH form at 416 nm, the high-pH form at 427 nm, and the cyanide derivative at 428 nm were compared. No evidence of a high-pH-dependent low-spin transition or a change in the redox state of cytochrome a3 was found, confirming earlier work [Baker, G. M., Noguchi, M., & Palmer, G. (1987) J. Biol. Chem. 262, 595-604]. Subtraction of ferricytochrome a [spectrum taken from Vanneste, W. H. (1966) Biochemistry 5, 838-848] from a series of blue-shifting spectra showed a band at 414 nm that progressively gained amplitude and a band at 430 nm that correspondingly lost amplitude. A series of red-shifting spectra showed the opposite behavior with a clear isosbestic point being evident in both cases. The difference extinction change at 414 and 430 nm depended linearly on the position of the Soret band, both showing a reversible dependence on pH. The 430-nm band is noted to be unusually red-shifted for high-spin ferric heme a. An additional, pH-insensitive band was observed at 408-410 nm which was eliminated by treatment with cyanide. The kinetics of the pH-induced blue shift and red shift were obtained at 416 nm by using dual-wavelength method and found to be biphasic, despite the occurrence of an isosbestic point.(ABSTRACT TRUNCATED AT 400 WORDS)
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