Natural-abundance 13C NMR measurement of hepatic glycogen in the living rabbit

In vivo NMR has focused on using "P and 'H to study metabolism in humans. Comparable "C NMR studies have not been undertaken, presumably, because of its insensitivity. We report herein that the natural abundance I3C signal from CI glycogen is observable. The ability to observe the signal opens new

## Abstract The integrated ^13^C NMR intensity of the glycogen Cl resonance was measured in skeletal muscle (biceps femoris region) of nine rabbits under __in vivo__ conditions. Concurrent chemical determinations of glycogen content showed that the __in vivo__ signal was 1.02 ± 0.06 the intensity o

## Abstract The natural abundance ^13^C NMR intensity of the glycogen C1 resonance was measured in the surgically exposed liver of rabbits __in vivo__ (__n__ = 17) by __integration__ from 98 to 104 ppm and compared double blindedly to the subsequent biochemical measurement. Coil loading was measure

## Abstract Typically encountered proton‐decoupled spectra of [U‐^13^C]‐labeled molecules or proton‐coupled spectra of natural abundance or singly labeled molecules contain many nuclei which satisfy the weak coupling approximation. The spectra of such nuclei are frequently highly asymmetric and oft