Abstract
1H NMR double resonance studies of valinomycin in (CD 3) 2SO were conducted at 90 MHz (FT-mode) and 250 MHz (correlation mode) to determine the mechanism of intramolecular nuclear Overhauser effects (NOE). These studies set specific constraints on any model for the conformation of valinomycin in (CD 3) 2SO and illustrate that NOE experiments of this type hold considerable promise for conformational studies of peptides, proteins and other biomolecules. The NOE's are positive at the lower frequency and negative at the higher frequency. Consideration of the theoretical dependence of the NOE on the proton-proton internuclear correlation time and on the resonance frequency indicates that these results are explained by a predominantly dipolar relaxation mechanism.
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