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Abstract
Two-pulse and four-pulse electron spin−echo envelope modulation spectroscopy (ESEEMS) at two operational frequencies and two-dimensional hyperfine sublevel correlation spectroscopy (HYSCORES), have been used to probe the MoV coordination environment of sulfite oxidase in H2O and D2O solutions, buffered at pH 9.5 and 7.0 with ∼100 mM Tris-type buffers. At pH 9.5 the ESEEM and HYSCORE results definitively reveal the presence of one solvent-exchangeable D(H) near the MoV center, probably in the form of a Mo−OH(D) moiety. The orientation of this group is not fixed (although it is substantially restricted) and thus gives rise to a distribution of hyperfine interaction (hfi) parameters. The resulting loss of amplitude makes direct observation of a proton-related line using ESEEM impossible. However, such a line is observable in ESEEM spectra of the comparable deuterated enzyme because the narrower distribution of hfi parameters leads to less line broadening of the ESEEM spectra. ESEEM and HYSCORE spectra of sul...
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