Boosting the resolution of low-field 15N relaxation experiments on intrinsically disordered proteins with triple-resonance NMR

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Authors

JASEŇÁKOVÁ Zuzana ZAPLETAL Vojtěch PADRTA Petr ZACHRDLA Milan BOLIK-COULON N. MARQUARDSEN T. TYBURN J.M. ŽÍDEK Lukáš FERRAGE F. KADEŘÁVEK Pavel

Year of publication 2020
Type Article in Periodical
Magazine / Source Journal of biomolecular NMR
MU Faculty or unit

Central European Institute of Technology

Citation
Web https://link.springer.com/article/10.1007%2Fs10858-019-00298-6
Doi http://dx.doi.org/10.1007/s10858-019-00298-6
Keywords Nuclear magnetic resonance; Relaxation; Dynamics; Intrinsically disordered proteins; High-resolution relaxometry; Non-uniform sampling
Description Improving our understanding of nanosecond motions in disordered proteins requires the enhanced sampling of the spectral density function obtained from relaxation at low magnetic fields. High-resolution relaxometry and two-field NMR measurements of relaxation have, so far, only been based on the recording of one- or two-dimensional spectra, which provide insufficient resolution for challenging disordered proteins. Here, we introduce a 3D-HNCO-based two-field NMR experiment for measurements of protein backbone 15Namide longitudinal relaxation rates. The experiment provides accurate longitudinal relaxation rates at low field (0.33 T in our case) preserving the resolution and sensitivity typical for high-field NMR spectroscopy. Radiofrequency pulses applied on six different radiofrequency channels are used to manipulate the spin system at both fields. The experiment was demonstrated on the C-terminal domain of delta subunit of RNA polymerase from Bacillus subtilis, a protein with highly repetitive amino-acid sequence and very low dispersion of backbone chemical shifts.
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