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Title: Hydrogen bonding to the bound dioxygen in oxy cobaltous myoglobin reduces the superhyperfine coupling to the proximal histidine. Author: Lee HC, Ikeda-Saito M, Yonetani T, Magliozzo RS, Peisach J. Journal: Biochemistry; 1992 Aug 18; 31(32):7274-81. PubMed ID: 1324709. Abstract: Electron spin echo envelope modulation (ESEEM) spectroscopy was used to study the electron-nuclear coupling in two oxygenated cobalt-substituted hemoproteins, myoglobin (oxyCoMb) and a monomeric hemoglobin from Glycera dibranchiata (oxyCoHbgly). The modulation frequency components in ESEEM spectra of both proteins arose from the coupling to the N epsilon of the proximal histidyl imidazole. The hyperfine and quadrupole coupling parameters for these two nitrogens, calculated by computer spectral simulation, are Aiso = 2.46 MHz, e2qQ = 2.15 MHz, and eta = 0.4 for oxyCoMb and Aiso = 3.70 MHz, e2qQ = 2.70 MHz, and eta = 0.5 for oxyCoHbgly. A hyperfine coupling of 0.6 MHz, found for oxyCoMb in D2O but not for oxyCoHbgly in D2O, was assigned to the coupling to a deuteron that is hydrogen-bonded to the O2 ligand in oxyCoMb. This hydrogen bonding is believed to be responsible for the reduction in hyperfine and nuclear quadrupole coupling to the proximal histidyl imidazole N epsilon in oxyCoMb. A molecular orbital model for O2 adducts of cobaltous compounds [Tovrog et al. (1976) J. Am. Chem. Soc. 98, 5144] was used to understand the hydrogen bond-induced reduction in 14N superhyperfine coupling in oxyCoMb.[Abstract] [Full Text] [Related] [New Search]