13C NMR and 1H-1H NOEs of Coenzyme-A: Conformation of the Pantoic Acid Moiety

## Abstract The ^1^H and ^13^C NMR spectra of carminic acid were completely assigned, thus confirming its structure and the conformation of the glucose residue.

## Abstract The ^1^H‐ and ^13^C‐NMR. spectra of cyclo‐tetraglycyl show that the four peptide groups are magnetically equivalent, and different from either a standard __trans__ or a standard __cis__ peptide group. It is suggested that the observed NMR. features correspond to a non‐planar form of the

The 'H and the noise-decoupled =C NMR spectra of isochromane and 13 of its methyl-substituted derivatives were recorded and analysed. The collected data were used to assign the configurations and to determine the position of the conformational equilibria based on the vicinal ' I 3 coupling constants

In aqueous solutions, 13C-and 'H-nmr studies show that the percentage of trans conformation of proline oligomers +H\*N Pro-(Pro),-CO; increases substantially from n = 1 (65% trans) t o n = 2 (90% trans). The relatively low percentage of trans structure for the dimer ( n = 1) very likely is caused by

In addition to 1D NMR methods and 2D shift-correlated NMR techniques (COSY and HETCOR), spin-spin simulation and MMX calculations, to obtain the minimum energy conformation structure, were used for the complete 1 H and 13 C NMR assignments of stephalic acid.

## Abstract Extensive application of 1D and 2D NMR methodology, combined with molecular modeling, allowed the complete ^1^H and ^13^C NMR assignments of eremophilanolides from __Senecio toluccanus__. Comparison of the experimental ^1^H, ^1^H coupling constant values with those generated employing a