Pyridine solvent shifts in the nmr analysis of erythromycin aglycones

Recently new indications for the existence of preferred, distinct orientations of the carbonyl group in 3-12-membered cycloalkanones was found by the present author'. The orientation of the carbonyl group seemed to change in an irregular vay within the series, indicating a preferred orientation ror

## Abstract The proton chemical shift values for the methyl groups in the nine monomethylquinolizidines are determined in deuterochloroform and benzene solutions. This solvent change results in the shielding of all the methyl groups except those in 1(a)‐and 3(a)‐methylquinolizidine which become des

## Abstract The ^1^H chemical shifts of 124 compounds containing a variety of functional groups have been recorded in CDCl~3~ and DMSO‐__d__~6~ (henceforth DMSO) solvents. The ^1^H solvent shift Δδ = δ(DMSO) − δ(CDCl~3~) varies from −0.3 to +4.6 ppm. This solvent shift can be accurately predicted (

Solvent shift criteria can be used for the cis-trans structural assignment in glycidic esters. Protons of substituents which are trans to the alkoxycarbonylgroup are shifted towards higher field in benzene than in carbon tetrachloride. Definitive proof of the structures were obtained by Nuclear Over

## Replacement of chloroform by benzene as an NMR solvent for a series of (thio)phosphonothioamides results in an exceptionally wide range of shifts for the N-CH proton signals, from an upfield shift of approximately 1 ppm to a downfield shift of about 0.1 ppm, depending on the phosphonate esterif