Carbon-13 Spin–Lattice Relaxation Times for Selected Steroids

Abstract

The spin–lattice relaxation time (T₁) data for a number of androstane and cholestane derivatives is presented. The NT₁ value of carbon-3 in several of the compounds is found to be shorter than the average NT₁ value for the other ring carbons which is interpreted in terms of anisotropic motion with the long steroid axis being the preferred axis of rotation. As this effect is only observed for carbon-3, an effective molecular correlation time can be calculated from the average NT₁ value for all other CH and CH₂ carbons. The correlation time (τ_i) for internal rotation of a methyl group is shown to depend on the number of 1,3 diaxial methyl group – hydrogen interactions. Thus τ_i(C-19) is shorter than τ_i(C-18) for androstane, τ_i(C-19) is shorter for trans-cholestanol than for either cis-cholestanol or cholesterol. The effects of substituents and conformational changes on τ_i as well as the effect of solvent on T₁ are discussed.