In vivo13c nuclear magnetic resonance investigations of choline metabolism in rabbit brain

Glucose metabolism of human red blood cells was investigated using carbon-13 nuclear magnetic resonance spectroscopy under both oxygenated and nonoxygenated conditions. These results show that under oxygenated conditions reversal of 3-phosphoglyceraldehyde to glucose is in competition with its catab

This paper describes an experimental protocol designed to optimize 13C NMR spectra from the liver of the living anesthetized rat at 1.9 T. The protocol involves the use of a Helmholtz NMR coil which is positioned around the liver after surgical exposure. 1H decoupling is facilitated by double tuning

## Abstract Dynamic nuclear polarization can be used to increase the sensitivity of solution state ^13^C magnetic resonance spectroscopy by four orders of magnitude. We show here that [1‐^13^C]glutamate can be polarized to 28%, representing a 35,000‐fold increase in its sensitivity to detection at

A noninvasive, in situ, in vivo, and anomer-specific method for studying membrane transport of sugars in bacteria is presented. High-resolution \({ }^{13} \mathrm{C}\) NMR was used to measure the distribution of \(\alpha\) - and \(\beta\)-xylose, maltose, Mes buffer, and ethanol in the extracellular

## Abstract The neurological consequences of diabetes mellitus have recently been receiving greater attention in both clinical and experimental settings. The deleterious effect of hyperglycemia and altered oxidative substrate availability on the diabetic brain is the subject of many studies. The ai