15N-15N Coupling Constants and Rotational Barriers of Nitrosamines

## Abstract The ^15^N^13^C coupling constants in ^15^N labelled azaadamantane have been measured and interpreted in terms of their conformational dependence as compared with ^15^N‐quinuclidine.

Rotational barriers about the CÈN bonds of several N-acyl-N-methyl-a-amino acids and their esters R3COÈ N(R4)ÈCR1R2ÈCOOR5, and also N-Boc-protected dipeptides, were determined and the steric e †ects caused by the substituents R1-R5 are discussed by comparing them with the results of MM3 calculations

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

## 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

## Abstract The ^13^C,^15^N coupling constants in three 1,2,4‐triazine‐4‐^15^N derivatives and in a substituted pyrimidine‐1‐^15^N have been determined and are compared with those in pyridine and quinoline. Of special interest are the data of the 5‐(2‐dimethylamino‐1‐propenyl)‐3,6‐dimethyl‐1,2,4‐tr