화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.116, No.26, 11944-11949, 1994
Solid-State C-13 NMR Evidence for a Large Deviation from Linearity of the Fe-C-O Unit in the Co Complex with Myoglobin
The application of high-resolution solid-state C-13 NMR spectroscopy to investigate the bending between carbon monoxide and myoglobin is explored. Selective pulse sequences (non-quaternary suppression and SELDOM) significantly reduce the problem of (CO)-C-13 peaks overlapping with those arising from the natural C-13 abundance myoglobin molecule. This enables the (CO)-C-13 spinning sideband manifold to be measured and, hence, the principal components of the (CO)-C-13 chemical shift tenser to be obtained. Results were obtained on two samples of myoglobin : one a dry powder and the other carefully prepared needle-like crystals containing water of crystallization. The spectra show that there is a large increase in the asymmetry of the C-13 Shielding tenser in (CO)-C-13-myoglobin compared to heme model compounds containing close to linear Fe-C-O moieties. FTIR measurements of both myoglobin samples show that the major nu(co) stretching frequency is due to the A(3) conformer. It can be concluded that in this particular CO-myoglobin substate there must be substantial deviation from linearity of the Fe-C-O unit, probably due to a significant polar interaction with the distal histidine.