The conformational analysis of methyl β-xylobioside: effect of choice of potential functions

## ABSTRACX A recently developed semiempirical model of saccharide optical activity is used to calculate the Nan rotation of methyl @-xylobioside in solution as a function of its conformation. Combining the results with published conformational-energy calculations leads to a picture in which folde

The behavior of methyl beta-xylobioside has been analysed by 1H-n.m.r. spectroscopy for solutions in water and methanol in the range - 15 degrees to 85 degrees. Experimental n.O.e. values did not change with temperature and solvent in contrast to the inter-glycosidic 3JC,H values. Experimental n.O.e

## Abstract The ^13^C NMR spectra of β‐methyl‐β‐nitrostyrene and its nine mono‐ and dimethoxy‐derivatives have been determined. Chemical shift data are presented and analysed in a self‐consistent manner which allows most of the signals to be unambiguously assigned. Trends in the data can be interpr

## Abstract In the first paper of this series we showed that the total electronic energy, computed __ab initio__ in the Hartree‐Fock approximation for both independent and coupled rotations of the five torsional angles in the sugar–phosphate–sugar complex C~10~H~18~O~8~P, can be reproduced with rea

## Abstract The conformational analysis of adenosine triphosphate was conducted by using classical potential energy calculations. All rotatable bonds were examined, i.e., no dihedral angles were fixed at predetermined conformations except for the ribofuranose ring, which was held in the C(3′)‐__end