Conformational analysis of some phenethylamine molecules

Abstract

A set of empirical potential functions (EPF), previously used in conformational energy calculations of polymers, was employed in the study of the conformational properties of a number of methyl-substituted phenethylmines, as well as phenylmethylamine, phenyl- n-propylamine, and 3,4,5-trimethoxyamphetamine. The conformational free energy was computed for each of these molecular species in four states: neutral charge-vacuo (I), neutral charge-aqueous solution (II), positive charge-vacuo (III), positive charge-aqueous solution (IV). The molecules generally adopt one of two stable conformations: a folded conformation with the amine chain perpendicular to the ring, and the amine group nearest to the ring; and an extended conformation with the amine chain perpendicular to the ring, and the amine group far from the ring. The folded conformation is usually preferred for states I, II and III, while the extended form is adopted for state IV. By using empirical potential functions it was also possible to calculate the conformational entropies associated with the minimum energy conformations, thereby allowing the Boltzmann probabilities to be determined. These probabilities are a measure of the population density of each of the various low energy regions. Some of the molecules studied have a steric “bulge” below the plane of the benzene ring. All of the compounds studied which possess this “bulge” are psychotropically inactive, and, in most cases, also pharmacologically inactive. All active compounds studied do not possess this “bulge”.