Article ID Journal Published Year Pages File Type
5406840 Journal of Magnetic Resonance 2009 9 Pages PDF
Abstract
NMR experiments devised to aid in analyses of tissues include magnetization transfer (MT), which can highlight the signals of biological macromolecules through cross-relaxation and/or chemical exchange processes with the bulk 1H water resonance, and high-resolution magic-angle-spinning (HRMAS) methods, akin to those used in solid-state NMR to introduce additional spectral resolution via the averaging of spin anisotropies. This paper explores the result of combining these methodologies, and reports on MT “z-spectroscopy” between water and cell components in excised tissues under a variety of HRMAS conditions. Main features arising from the resulting 1H “MTMAS” experiments include strong spinning sideband manifolds centered at the liquid water shift, high-resolution isotropic features coinciding with aliphatic and amide proton resonances, and a second sideband manifold arising as spinning speeds are increased. Interpretations are given for the origin of these various features, including simulations shedding further light onto the nature of MT NMR signals observed for tissue samples. Concurrently, histological examinations are reported validating the limits of HRMAS NMR procedures to the analysis of tissue samples preserved in a number of different ways.
Related Topics
Physical Sciences and Engineering Chemistry Physical and Theoretical Chemistry
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