Magnetic-circular-dichroism (m.c.d.) spectra over the wavelength range 300-2000 nm at room temperature and at 4.2K of horse heart cytochrome c are reported at a series of pH values between 7.8 and 11.0, encompassing the alkaline transition. The effect of glassing agents on the e.p.r. spectrum at various pH values is also reported. Comparison of these results with spectra obtained for the n-butylamine adduct of soybean leghaemoglobin support the hypothesis that lysine is the sixth ligand in the alkaline form of horse heart cytochrome c. The m.c.d. and e.p.r. spectra of horse heart cytochrome c in the presence of 1-methylimidazole have also been examined. These studies strongly suggest that histidine-18, the proximal ligand of the haem, is the ionizing group that triggers the alkaline transition. Low-temperature m.c.d. and e.p.r. spectra are also reported for Pseudomonas aeruginosa cytochrome c551. It is shown that no ligand exchange takes place at the haem in this species over the pH range 6.0-11.3.
The effect of sulphide on resting oxidized cytochrome c oxidase was studied by both e.p.r. and optical-absorption spectroscopy. Excess sulphide causes some reduction of cytochrome a, CuA and CuB, and the formation of the cytochrome a3-SH complex after about 1 min. After several hours in the presence of excess sulphide only the e.p.r. signals due to low-spin ferricytochrome a3-SH persist, giving a partially reduced species. Re-oxidation of this partially reduced sulphide-bound enzyme by ferricyanide makes all of the metal centres except CuB detectable by e.p.r. We conclude that sulphide has reduced and binds to CuB as well as to ferricytochrome a3. Sulphide binding to cuprous CuB may raise its mid-point potential and make re-oxidation difficult. Addition of reductant (ascorbate + NNN'N'-tetramethyl-p-phenylenediamine) and sulphide together to the oxidized resting enzyme produces a species in which cytochrome a and CuA are nearly completely reduced and cytochrome a3 is e.p.r.-detectable as approx. 80% of one haem in the low-spin sulphide-bound complex. The g = 12 signal of this partially reduced derivative is almost unchanged in magnitude relative to that of the resting enzyme; this suggests that the g = 12 signal may arise from less than 20% of the enzyme and that it may be relatively unreactive to both ligation and reduction. Such a reactivity pattern of the g = 12 form of the oxidase is also demonstrated with the ligands F- and NO, which are thought to bind to cytochrome a3 and CuB respectively.
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