The effect of solvent interactions and hydrogen bonding on 15N chemical shifts and 15NH coupling constants

## Abstract An indirect method is employed for determining the ^15^N parameters at the natural abundance level in a series of simple acyclic and cyclic amides. The one bond coupling constant, ^1^__J__(^15^N^1^H), and the ^15^N chemical shift are measured as a function of the carbonyl substituent gr

The two-bond "N,H coupling constant in 3,5dimethylpyridine was determined in 30 solvents and shown to vary between -11 and -3 Hz. An increasing ability of the solvent to form hydrogen bonds causes a steady decrease in I \*J("N,H) I , which is also observed with some selected pyridine derivatives wit

## Abstract The dipeptide alanylproline has been prepared with the proline residue both ^13^C (15%) and ^15^N (95%) enriched. ^15^N NMR spectra of alanylproline reveal signals for both possible conformations—__cis__ and __trans__—of the dipeptide backbone in solution. Different p__K__ values for bo

Predictive quantum chemical methods based upon coupled cluster theory of spin-spin coupling constants offer a direct tool to explore a variety of questions concerning the relationship between coupling constants and intermolecular distances, molecular orientation, changes in hybridization and related