A natural abundance 15N NMR investigation of bilirubin IX-α

## Abstract ^15^N chemical shifts of twenty‐four substituted indoles have been determined in natural abundance (in organic solvents) using Fourier transform NMR. The overall chemical shift range is 27 ppm, with groups in the 2‐, 3‐ and 5‐ring positions showing the largest substituent effects. Subst

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

Early e †orts to utilize 15N NMR spectroscopy in structure elucidation studies were often frustrated by the low gyromagnetic ratio and the low natural abundance (0.37%) of the nuclide. The advent of 1H and (c N ) inverse-detected 2D NMR methods has eliminated many of the difficulties inherent to the

## Abstract Two series of small generation dendrimers built with phosphorus atoms at each branching point and various types of nitrogen atoms at natural abundance of ^15^N within the branches are characterized by a gradient enhanced GHNMQC (gradient hydrogen–nitrogen multiple quantum coherence) ^1^

N NMR chemical shift data are presented for 14 azolopyridines, together with the results of INDO/S-SOS calculations of nitrogen shieldings. Previous ' " N NMR results for some of these compounds are reinterpreted. The ' " N data and their assignments are shown to be reliable for the indolizine nitro