The conformational analysis of adenosine triphosphate by classical potential energy calculations

## Abstract Potential energy calculations were employed to examine the effect of ribose 2′‐__O__‐methylation on the conformation of GpC. Minimum energy conformations and allowed conformational regions were calculated for 2′MeGpC and Gp2′MeC. The two lowest energy conformations of 2′MeGpC and Gp2′Me

A novel hierarchical approach to protein folding has been applied to compute the unknown structures of seven target proteins provided by CASP3. The approach is based exclusively on the global optimization of a potential energy function for a united-residue model by conformational space annealing, fo

## Abstract Classical potential energy calculations have been made for the ribodinucleoside monophosphates ApA, CpC, GpG, and UpU. Van der Waal's, electrostatic, and torsional contributions to the energy were calculated, and the energy was minimized with the seven backbone conformational angles as

## Abstract We present a method that can reduce conformational energy calculations for an arbitrary peptide consisting of __n__ residues (__n__‐peptide) to the complexity of a computation for (Gly)~__n__~. This reduction, and the concomitant savings in computer time, is accomplished by replacing al

A computer program SHIFT for evaluating NMR shielding variations on the basis of classical equations describing anisotropy, linear and square electric effects and also sterically induced charge separations is presented. Application of the program is illustrated with the conformational analysis of th