Improved sensitivity and resolution in two-dimensional homonuclear J-resolved NMR spectroscopy of macromolecules

Two-dimensional shift-correlated (COSY) and J-resolved NMR spectroscopy was used to identify and assign resonance in the aliphatic region (0.8 to 4.5 ppm) of the 1H spectrum of acid extracts and tissue of rat brain. The chemical shift and spin-spin coupling constants of several resonances, which cou

## Abstract Two‐dimensional ^1^H NMR experiments that achieve band‐selective, homonuclear decoupling in both the indirectly detected F1 and directly detected F2 dimensions were used to assign the highly overlapped ^1^H NMR spectrum of the peptide Ac‐SRGKARVRAKVKDQTK‐NH~2~, both free in solution and

## Abstract Intracerebral glucose resonance was directly detected and resolved __in vivo__ by two‐dimensional shift‐correlated (COSY) ^1^H NMR spectroscopy in anesthetized rats (__n__ = 4). The relative changes in brain glucose concentration were measured by volume integration of the α‐D‐glucose cr

## Abstract The potential of two‐dimensional (2D)‐J NMR for __in vivo__ proton MRS is examined. Single voxel measurements on the rat brain were performed at 4.7 T using point‐resolved spectrocopy localization with a voxel size of 64 μl and total measuring times of 10‐15 min. It is shown that a seri