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Title: Orientation of the valine-1 side chain of the gramicidin transmembrane channel and implications for channel functioning. A 2H NMR study. Author: Killian JA, Taylor MJ, Koeppe RE. Journal: Biochemistry; 1992 Nov 24; 31(46):11283-90. PubMed ID: 1280159. Abstract: The orientation of the valine-1 side chain of gramicidin was determined by solid-state 2H NMR using valine-1-deuterated (d8) gramicidin. The peptide was incorporated into DMPC bilayers that were oriented between glass plates. When the plates were oriented with their normal perpendicular to the magnetic field, four quadrupolar splittings were observed of 106, 68, 9.7, and 2.0 kHz. These resonances were assigned to C alpha D, C beta D, and the deuterons of each of the C gamma D3 methyl groups, respectively. The average orientation of the various C-D bonds was calculated with respect to the helix axis. The angle obtained for the C alpha-D resonance was consistent with a single-stranded beta 6.3-helical model for the backbone but not with double-helical models. The angles of the side chain were then fitted to a model for the right-handed beta 6.3-helix. Rotation of the valine-1 side chain yielded a set of torsion angles that matched the angles as determined from the 2H NMR measurements. The corresponding orientation of the valine-1 side chain (chi 1 = -5 degrees) was found to be quite unusual, but it explains well the importance of a branched side chain at position 1 for channel formation and stability. A van der Waals interaction between valine-1 of one monomer and alanine-5 of the other helps to stabilize the gramicidin dimer.[Abstract] [Full Text] [Related] [New Search]