1H- and natural abundance 15N-nmr studies of a derivative of a rabies glycoprotein fragment

The 1H/15N HMBC experiment at 15N natural abundance using pulsed Ðeld gradients is a useful tool for chemical shift assignment and structure elucidation. This experiment assisted in the identiÐcation of regioisomers that could not be distinguished with conventional 1H/1H nuclear Overhauser or 1H/13C

## Abstract The development of new NMR probe technologies has been an active area of research effort for the past decade. Recently, cryogenically cooled NMR probes have been the subject of considerable interest in the light of the large gains in sensitivity and hence savings in spectrometer time th

A method is described for unequivocally establishing the site of N-oxidation which relies on the relatively large downÐeld shift of aliphatic nitrogen resonances following oxidation. The technique described is based on 15N at natural abundance and does not require labelling. 15N chemical shifts are

The tetrazole-azide tautomerization of some halogen-substituted tetrazolo [1,5-a]pyridines was examined by IR spectroscopy at ambient temperature and by 1 H, 13 C and 15 N NMR spectroscopy at various temperatures. The tetrazolopyridines can exhibit equilibrium between the azide and the tetrazole for

There has been burgeoning interest in the utilization of 15 N as a structural probe. A growing body of reports have appeared using gradient long-range 1 H-15 N heteronuclear shift correlation experiments at natural abundance. The majority of studies have reported data acquired using conventional 5 m