Empirical relationship between structure and molecular optical rotation in six-membered cyclic compounds

“…They are the sugar ring, chemically bonded to the phosphate group that forms a continuous polymeric and helical backbone, while the chemical bases attached to each helical backbone strand interact via hydrogen bonds in the interior of the DNA molecule. However, in most artificial helix studies, only the backbone part of the structure is relevant and taken into consideration [5][6][7].…”

Artificial multiple helices: polarization and EM properties

“…They are the sugar ring, chemically bonded to the phosphate group that forms a continuous polymeric and helical backbone, while the chemical bases attached to each helical backbone strand interact via hydrogen bonds in the interior of the DNA molecule. However, in most artificial helix studies, only the backbone part of the structure is relevant and taken into consideration [5][6][7].…”

Artificial multiple helices: polarization and EM properties

“…This model has subsequently been used to develop 30 a general set of parameters M i from the observed rotations in a series of molecules and then these parameters were used for the prediction of optical rotations of related molecules. For convenience in discussion, this model was referred 31 to as the dihedral sin sum (DSS) model.…”

Optical rotation: Recent advances in determining the absolute configuration