M. Bernardo scite author profile

Cytochrome P450cam (CP450cam) was studied by pulsed ENDOR and two-and four-pulse ESEEM spectroscopies. Spectra were recorded and simulated at the three principal g-values of the rhombic EPR spectrum. The four-pulse ESEEM experiment gave a direct measure of the anisotropic hyperfine interaction for the protons. Using the point dipole approximation this gives a Fe-H distance of 2.6 Å. The measured anisotropic hyperfine interaction reduced the number of hyperfine interaction parameters required to simulate the ENDOR line shapes. Both the four-pulse ESEEM frequencies and the ENDOR spectra at all three principal g-values could be satisfactorily simulated using two magnetically equivalent protons and a water orientation similar to that obtained in our previous 17 O ESEEM study. Thus, the pulsed ENDOR and four-pulse ESEEM results are self-consistent with the 17 O ESEEM data and indicate that the axial ligand is a water molecule rather than an OH -ligand. The isotropic hyperfine value derived from the numerical simulations is in agreement with previous values derived from proton NMR relaxation studies.

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M. Bernardo

Characterization of Iron in Zeolites by X-band and Q-Band ESR, Pulsed ESR, and UV-Visible Spectroscopies

Pulsed and continuous wave electron nuclear double resonance patterns of aquo protons coordinated in frozen solution to high spin MN2+

Evidence for Water Binding to the Fe Center in Cytochrome P450cam Obtained by 17O Electron Spin-Echo Envelope Modulation Spectroscopy

Study of Water Binding to Low-Spin Fe(III) in Cytochrome P450 by Pulsed ENDOR and Four-Pulse ESEEM Spectroscopies

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