Very Low-Frequency Broadband Electron Paramagnetic Resonance Spectroscopy of Metalloproteins
datasetposted on 13.04.2021, 17:36 by Wilfred R. Hagen
A previously developed spectrometer for broadband electron paramagnetic resonance (EPR) spectroscopy of dilute randomly oriented systems has been considerably modified to extend the frequency reach down to the hundred MHz range and to boost concentration sensitivity by 1 to 2 orders of magnitude. The instrument is now suitable for the study of biological systems in particular metalloproteins. As a proof of concept, examples from the class of low-spin ferric hemoproteins are studied in terms of frequency-dependent changes in their EPR spectra. Mono-heme cytochrome c EPR is determined by g-strain over a wide frequency range, whereas a combination of unresolved ligand hyperfine interaction and concentration-dependent intermolecular dipolar interaction becomes dominant at very low frequencies. In the four heme containing cytochrome c3, g-strain combines with intramolecular dipolar interaction over the full-studied frequency range of 0.23–12.0 GHz. It is concluded that the point-dipole approach is inappropriate to describe magnetic interactions between low-spin ferric heme systems and that a body of literature on redox interactions in multi-heme proteins will be affected by this conclusion.
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frequency rangeMHz rangeLow-Frequency Broadband Electron Pa...low-spin ferric hemoproteinsMono-heme cytochrome c EPRintramolecular dipolar interactionlow-spin ferric heme systemsbroadband electron2 ordersfrequency-dependent changesEPR spectrapoint-dipole approachg-straincytochrome c 3dipolar interactionconcentration sensitivityfull-studied frequency rangemulti-heme proteinsredox interactions