Q(H)(center dot-) ubisemiquinone radical in the bo(3)-type ubiquinol oxidase studied by pulsed electron paramagnetic resonance and hyperfine sublevelcorrelation spectroscopy
S. Grimaldi et al., Q(H)(center dot-) ubisemiquinone radical in the bo(3)-type ubiquinol oxidase studied by pulsed electron paramagnetic resonance and hyperfine sublevelcorrelation spectroscopy, BIOCHEM, 40(4), 2001, pp. 1037-1043
The high-affinity Q(H) ubiquinone-binding site in the bo(3) ubiquinol oxida
se from Escherichia coli has been characterized by an investigation of the
native ubiquinone radical anion Q(H)(.-) by pulsed electron paramagnetic re
sonance (EPR) spectroscopy. One- and two-dimensional electron spin-echo env
elope modulation (ESEEM) spectra reveal strong interactions of the unpaired
electron of Q(H)(.-) with a nitrogen nucleus from the surrounding protein
matrix. From analysis of the experimental data, the N-14 nuclear quadrupola
r parameters have been determined: kappa = e(2)qQ/4h = 0.93 MHz and eta = 0
.50. This assignment is confirmed by hyperfine sublevel correlation (HYSCOR
E) spectroscopy. On the basis of a comparison of these data with those obta
ined previously for other membrane-protein bound semiquinone radicals and m
odel systems, this nucleus is assigned tu a protein backbone nitrogen. This
result is discussed with regard to the location and potential function of
Q(H) in the enzyme.