Vitamin E models. Shortened sidechain models of α, β, γ and δ tocopherol and tocotrienol—a density functional study

Model compounds of α-, β-, γ-, and δ-tocopherol and Tocotrienol, as well as their sulphur and selenium congeners, were subjected to density functional analysis. The mono methyl substitution either stabilized or destabilized the ring structures to a small extent as assessed in terms of isodesmic reactions. In general, multiple methyl substitutions destabilized the ring. Dimethyl para-substitution results in electronic stabilization and steric repulsion being nearly additive. This was not the case for ortho-dimethyl derivatives, whereby steric repulsions dominate; the meta-substituted models reflect the same trend to a lesser degree. Structurally, the phenolic hydroxyl orientation was approximately planar, with the hydroxyl proton oriented away from the adjacent Me group whenever the structure permitted such an orientation.