Litcius/Paper detail

Slow dynamics of solid proteins – Nuclear magnetic resonance relaxometry versus dielectric spectroscopy

Danuta Kruk, Elżbieta Masiewicz, M. Wojciechowski, M. Florek-Wojciechowska, Lionel Broche, David J. Lurie

2020Journal of Magnetic Resonance25 citationsDOIOpen Access PDF

Abstract

1H Nuclear Magnetic Resonance (NMR) relaxometry and Dielectric Spectroscopy (DS) have been exploited to investigate the dynamics of solid proteins. The experiments have been carried out in the frequency range of about 10 kHz-40 MHz for NMR relaxometry and 10−2Hz-20 MHz for DS. The data sets have been analyzed in terms of theoretical models allowing for a comparison of the correlation times revealed by NMR relaxometry and DS. The 1H spin–lattice relaxation profiles have been decomposed into relaxation contributions associated with 1H–1H and 1H-14N dipole – dipole interactions. The 1H–1H relaxation contribution has been interpreted in terms of three dynamical processes of time scales of 10−6s, 10−7s and 10−8s. It has turned out that the correlation times do not differ much among proteins and they are only weakly dependent on temperature. The analysis of DS relaxation spectra has also revealed three motional processes characterized by correlation times that considerably depend on temperature in contrast to those obtained from the 1H relaxation. This finding suggest that for solid proteins there is a contribution to the 1H spin–lattice relaxation associated with a kind of motion that is not probed in DS as it does not lead to a reorientation of the electric dipole moment.

Topics & Concepts

RelaxometryRelaxation (psychology)Nuclear magnetic resonanceChemistryDipoleNuclear magnetic resonance spectroscopySpin–lattice relaxationSpin–spin relaxationSpectroscopyProton NMRSecond moment of areaDielectricSpin echoAnalytical Chemistry (journal)Materials scienceMagnetic resonance imagingPhysicsThermodynamicsNuclear quadrupole resonanceChromatographyQuantum mechanicsPsychologySocial psychologyMedicineRadiologyOptoelectronicsOrganic chemistryNMR spectroscopy and applicationsAdvanced NMR Techniques and ApplicationsSpectroscopy and Quantum Chemical Studies
Slow dynamics of solid proteins – Nuclear magnetic resonance relaxometry versus dielectric spectroscopy | Litcius