Electrochemically induced conformational changes in cytochrome c monitored by Fourier transform infrared difference spectroscopy: Influence of temperature, pH, and electrode surfaces

IR difference spectra between the oxidized and the reduced state of horse heart cytochrome c were obtained for different temperature and pH conditions at various surface-modified electrodes using an optically transparent thin-layer electrochemical cell. These difference spectra reflect changes in pr...

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Bibliographic Details
Published in:Biochemistry (Easton) 1993-02, Vol.32 (4), p.1118-1126
Main Authors: Schlereth, Daniela D, Maentele, Werner
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Cytochrome c Group - chemistry
Electrochemistry
Electrodes
Fourier Analysis
Fundamental and applied biological sciences. Psychology
Horses
Hydrogen-Ion Concentration
Molecular biophysics
Myocardium - enzymology
Oxidation-Reduction
Physical chemistry in biology
Protein Conformation
Temperature
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Summary:IR difference spectra between the oxidized and the reduced state of horse heart cytochrome c were obtained for different temperature and pH conditions at various surface-modified electrodes using an optically transparent thin-layer electrochemical cell. These difference spectra reflect changes in protein conformation, side-chain geometries, and protonation upon the redox transition. The IR difference spectra recorded in the 10-40 degrees C temperature range showed thermally induced changes mainly in the amide-I (1700-1600 cm-1) and in the amide-II (ca. 1550 cm-1) spectral regions. Although the position of most of the signals remains unshifted, large differences in their relative amplitude were observed, leading in some cases to the masking and/or the disappearance of some IR signals. In the range 6.8-9.8, increasing pH of the samples led to a decrease in the reduction rate and to spectral changes which closely resemble those obtained by increasing the temperature. Both the thermal and the pH dependence of the reduced-minus-oxidized IR difference spectra reflect the transition of ferricytochrome c from the native to the alkaline form. An analysis of the IR difference spectra shows that the redox transition at neutral pH involves mainly beta-turns and beta-sheet segments of the cytochrome c molecule. However, once the ferricytochrome c alkaline transition is performed, the redox process is coupled to conformational changes involving alpha-helical segments. The shifts in tyrosine vibrational modes observed in the difference spectra obtained at neutral and slightly alkaline pH at high temperatures suggest an intermediate state of the ferricytochrome c in which the heme crevice is more accessible to the solvent.
ISSN:0006-2960
1520-4995
DOI:10.1021/bi00055a018