Highly Efficient Trityl-nitroxide Biradicals for Biomolecular High-field Dynamic Nuclear Polarization
Publication date
2021-09-06
Authors
Cai, Xinyi
Lucini Paioni, Alessandra
Adler, Agnes
Yao, Ru
Zhang, Wenxiao
Beriashvili, David
Safeer, Adil A.
Gurinov, Andrei
Rockenbauer, Antal
Song, Yuguang
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Supervisors
Document Type
Article
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taverne
Abstract
Dynamic nuclear polarization (DNP) is a powerful method to enhance the sensitivity of solid-state magnetic nuclear resonance (ssNMR) spectroscopy. However, its biomolecular applications at high magnetic fields (preferably > 14 T) have so far been limited by the intrinsically low efficiency of polarizing agents and sample preparation aspects. Herein, we report a new class of trityl-nitroxide biradicals, dubbed SNAPols that combine high DNP efficiency with greatly enhanced hydrophilicity. SNAPol-1, the best compound in the series, shows DNP enhancement factors at 18.8 T of more than 100 in small molecules and globular proteins and also exhibits strong DNP enhancements in membrane proteins and cellular preparations. By integrating optimal sensitivity and high resolution, we expect widespread applications of this new polarizing agent in high-field DNP/ssNMR spectroscopy, especially for complex biomolecules.
Keywords
biradicals, dynamic nuclear polarization, electron paramagnetic resonance, polarizing agents, solid-state NMR spectroscopy, Taverne, Catalysis, Organic Chemistry
Citation
Cai, X, Paioni, A L, Adler, A, Yao, R, Zhang, W, Beriashvili, D, Safeer, A, Gurinov, A, Rockenbauer, A, Song, Y, Baldus, M & Liu, Y 2021, 'Highly Efficient Trityl-nitroxide Biradicals for Biomolecular High-field Dynamic Nuclear Polarization', Chemistry-A European Journal, vol. 27, no. 50, pp. 12758-12762. https://doi.org/10.1002/chem.202102253