Peptide bond conformation in peptides and proteins probed by dipolar coupling-chemical shift tensor correlation solid-state NMR
Publication date: December 2018
Source: Journal of Magnetic Resonance, Volume 297
Author(s): Dwaipayan Mukhopadhyay, Chitrak Gupta, Theint Theint, Christopher P. Jaroniec
Abstract
Multidimensional magic-angle spinning solid-state NMR experiments are described that permit
cis and
trans peptide bonds in uniformly 13C,15N-labeled peptides and proteins to be unambiguously distinguished in residue-specific manner by determining the relative orientations of the amide 13C? CSA and 1H-15N dipolar coupling tensors. The experiments are demonstrated for model peptides glycylglycine and 2,5-diketopiperazine containing
trans and
cis peptide bonds, respectively. Subsequently, the measurements are extended to two representative proteins that contain exclusively
trans peptide bonds, microcrystalline B3 immunoglobulin domain of protein G and Y145Stop human prion protein amyloid fibrils, to illustrate their applicability to a wide range of protein systems.
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