Biophysical Journal 61: 1550-1556 (1992)
© 1992 the Biophysical Society

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Solid-state ¹³C NMR spectroscopy of a ¹³C carbonyl-labeled polypeptide

Department of Chemistry and the Institute of Molecular Biophysics, Florida State University, Tallahassee, Florida 32306-3006

ABSTRACT

High resolution structural elucidation of macromolecular structure by solid-state nuclear magnetic resonance requires the preparation of uniformly aligned samples that are isotopically labeled. In addition, to use the chemical shift interaction as a high resolution constraint requires an in situ tensor characterization for each site of interest. For ¹³C in the peptide backbone, this characterization is complicated by the presence of dipolar coupled ¹⁴N from the peptide bond. Here the ¹³C₁-Gly₂ site in gramicidin A is studied both as a dry powder and in a fully hydrated lipid bilayer environment. Linewidths reported for the oriented samples are a factor of five narrower than those reported elsewhere, and previous misinterpretations of the linewidths are corrected. The observed frequency from oriented samples is shown to be consistent with the recently determined structure for this site in the gramicidin backbone. It is also shown that, whereas a dipolar coupling between ¹³C and ¹⁴N is apparent in dry preparations of the polypeptide, in a hydrated bilayer the dipolar coupling is absent, presumably due to a `self-decoupling' mechanism.