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Accurate Determination of Motional Amplitudes in Biomolecules by Solid-State NMR

Veniamin Chevelkov, Sascha Lange, Henry Sawczyc, Adam Lange

2023ACS Physical Chemistry Au20 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Protein dynamics are an intrinsically important factor when considering a protein’s biological function. Understanding these motions is often limited through the use of static structure determination methods, namely, X-ray crystallography and cryo-EM. Molecular simulations have allowed for the prediction of global and local motions of proteins from these static structures. Nevertheless, determining local dynamics at residue-specific resolution through direct measurement remains crucial. Solid-state nuclear magnetic resonance (NMR) is a powerful tool for studying dynamics in rigid or membrane-bound biomolecules without prior structural knowledge with the help of relaxation parameters such as T 1 and T 1ρ . However, these provide only a combined result of amplitude and correlation times in the nanosecond–millisecond frequency range. Thus, direct and independent determination of the amplitude of motions might considerably improve the accuracy of dynamics studies. In an ideal situation, the use of cross-polarization would be the optimal method for measuring the dipolar couplings between chemically bound heterologous nuclei. This would unambiguously provide the amplitude of motion per residue. In practice, however, the inhomogeneity of the applied radio-frequency fields across the sample leads to significant errors. Here, we present a novel method to eliminate this issue through including the radio-frequency distribution map in the analysis. This allows for direct and accurate measurement of residue-specific amplitudes of motion. Our approach has been applied to the cytoskeletal protein BacA in filamentous form, as well as to the intramembrane protease GlpG in lipid bilayers.

Topics & Concepts

BiomoleculeAmplitudeSolid-state nuclear magnetic resonanceSolid-stateNuclear magnetic resonanceAnalytical Chemistry (journal)PhysicsMaterials scienceChemical physicsChemistryNanotechnologyPhysical chemistryOpticsChromatographyAdvanced NMR Techniques and ApplicationsNMR spectroscopy and applicationsSolid-state spectroscopy and crystallography
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