Sedimentation Yields Long-Term Stable Protein Samples as Shown by Solid-State NMR

Today, the sedimentation of proteins into a magic-angle spinning (MAS) rotor gives access to fast and reliable sample preparation for solid-state Nuclear Magnetic Resonance (NMR), and this has allowed for the investigation of a variety of non-crystalline protein samples. High protein concentrations...

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Bibliographic Details
Published in:Frontiers in molecular biosciences 2020-02, Vol.7, p.17-17
Main Authors: Wiegand, Thomas, Lacabanne, Denis, Torosyan, Anahit, Boudet, Julien, Cadalbert, Riccardo, Allain, Frédéric H-T, Meier, Beat H, Böckmann, Anja
Format: Article
Language:English
Subjects:
Biochemistry, Molecular Biology
Biophysics
Life Sciences
Molecular Biosciences
nucleotides
proteins
sedimentation
solid-state NMR
stability
Structural Biology
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Summary:Today, the sedimentation of proteins into a magic-angle spinning (MAS) rotor gives access to fast and reliable sample preparation for solid-state Nuclear Magnetic Resonance (NMR), and this has allowed for the investigation of a variety of non-crystalline protein samples. High protein concentrations on the order of 400 mg/mL can be achieved, meaning that around 50-60% of the NMR rotor content is protein; the rest is a buffer solution, which includes counter ions to compensate for the charge of the protein. We have demonstrated herein the long-term stability of four sedimented proteins and complexes thereof with nucleotides, comprising a bacterial DnaB helicase, an ABC transporter, an archaeal primase, and an RNA polymerase subunit. Solid-state NMR spectra recorded directly after sample filling and up to 5 years later indicated no spectral differences and no loss in signal intensity, allowing us to conclude that protein sediments in the rotor can be stable over many years. We have illustrated, using an example of an ABC transporter, that not only the structure is maintained, but that the protein is still functional after long-term storage in the sedimented state.
ISSN:2296-889X
2296-889X
DOI:10.3389/fmolb.2020.00017