Carbon-13 magnetic resonance spectroscopy of drugs II: Antihistamines

## Abstract Carbon‐13 chemical shift assignments have been obtained for the naturally occurring __Cephalotaxus__ alkaloids, cephalotaxine, acetylcephalotaxine, harringtonine, isoharringtonine, drupacine and cephalotaxinone.

## Abstract The ^13^C NMR spectra of several conjugated polyyne‐aldehydes and ketones are compared with those of the corresponding alcohols. All data show considerable effects similar to those observed in conjugated polyenes.

## Abstract Carbon‐13 chemical shifts of sixteen monosubstituted ethylenes were obtained. In order to explain the chemical shifts, σ and π electron densities of these compounds are calculated by the σ‐included ω‐HMO method.See Ref. 8. A linear relationship exists between carbon‐13 chemical shifts

Gels are elastic, solid-like coherent systems of continuous structure and composed of at least two components'. Polysaccharides form several different types of gel with water. Most commonly, long-chain polysaccharides produce hydrogels through complex junction-zones, thermoreversible helical regions

## Abstract Torsional angles in some mono‐substituted conjugated benzenes were determined from the chemical shift of the __para__ carbons. Similar results were obtained from ketones and imines, and the torsional angles increase, as expected, with steric hindrance. It is possible to assign a __syn__