Abstract
Electron spin echo envelope modulation (ESEEM) spectroscopy was applied to oxy cobaltous soybean leghemoglobin (oxyCoLb) in D2O at various pH values to investigate electron nuclear superhyperfine coupling to N epsilon of the proximal histidyl imidazole and to exchangeable deuterons. Two spectroscopically distinct forms of oxyCoLb, acid and neutral, were identified. In the acid form, a 0.82-MHz hyperfine coupling to 2H was found, indicating the presence of a hydrogen bond to bound O2. No hyperfine-coupled 2H was found in the neutral form. Nuclear hyperfine and nuclear quadrupole couplings to the proximal histidyl N epsilon in the acid form are smaller than those in the neutral form: Aiso = 2.22 MHz and e2qQ = 1.98 MHz for the acid form; Aiso = 2.90 MHz and e2qQ = 2.22 MHz for the neutral form. The differences are believed to result from the presence of a hydrogen bond to bound O2 in the acid form. A discussion of the contribution of this hydrogen bond to the pH-dependent O2 affinity of leghemoglobin is presented.
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