TY - JOUR
T1 - Immobilization of soluble protein complexes in MAS solid-state NMR
T2 - Sedimentation versus viscosity
AU - Sarkar, Riddhiman
AU - Mainz, Andi
AU - Busi, Baptiste
AU - Barbet-Massin, Emeline
AU - Kranz, Maximilian
AU - Hofmann, Thomas
AU - Reif, Bernd
N1 - Publisher Copyright:
© 2016 Elsevier Inc. All rights reserved.
PY - 2016/6/1
Y1 - 2016/6/1
N2 - In recent years, MAS solid-state NMR has emerged as a technique for the investigation of soluble protein complexes. It was found that high molecular weight complexes do not need to be crystallized in order to obtain an immobilized sample for solid-state NMR investigations. Sedimentation induced by sample rotation impairs rotational diffusion of proteins and enables efficient dipolar coupling based cross polarization transfers. In addition, viscosity contributes to the immobilization of the molecules in the sample. Natural Deep Eutectic Solvents (NADES) have very high viscosities, and can replace water in living organisms. We observe a considerable amount of cross polarization transfers for NADES solvents, even though their molecular weight is too low to yield significant sedimentation. We discuss how viscosity and sedimentation both affect the quality of the obtained experimental spectra. The FROSTY/sedNMR approach holds the potential to study large protein complexes, which are otherwise not amenable for a structural characterization using NMR. We show that using this method, backbone assignments of the symmetric proteasome activator complex (1.1 MDa), and high quality correlation spectra of non-symmetric protein complexes such as the prokaryotic ribosome 50S large subunit binding to trigger factor (1.4 MDa) are obtained.
AB - In recent years, MAS solid-state NMR has emerged as a technique for the investigation of soluble protein complexes. It was found that high molecular weight complexes do not need to be crystallized in order to obtain an immobilized sample for solid-state NMR investigations. Sedimentation induced by sample rotation impairs rotational diffusion of proteins and enables efficient dipolar coupling based cross polarization transfers. In addition, viscosity contributes to the immobilization of the molecules in the sample. Natural Deep Eutectic Solvents (NADES) have very high viscosities, and can replace water in living organisms. We observe a considerable amount of cross polarization transfers for NADES solvents, even though their molecular weight is too low to yield significant sedimentation. We discuss how viscosity and sedimentation both affect the quality of the obtained experimental spectra. The FROSTY/sedNMR approach holds the potential to study large protein complexes, which are otherwise not amenable for a structural characterization using NMR. We show that using this method, backbone assignments of the symmetric proteasome activator complex (1.1 MDa), and high quality correlation spectra of non-symmetric protein complexes such as the prokaryotic ribosome 50S large subunit binding to trigger factor (1.4 MDa) are obtained.
KW - Magic angle spinning
KW - Perdeuteration
KW - Sedimentation
KW - Soluble protein complexes
KW - Viscosity
UR - http://www.scopus.com/inward/record.url?scp=84961659658&partnerID=8YFLogxK
U2 - 10.1016/j.ssnmr.2016.03.005
DO - 10.1016/j.ssnmr.2016.03.005
M3 - Review article
C2 - 27017576
AN - SCOPUS:84961659658
SN - 0926-2040
VL - 76-77
SP - 7
EP - 14
JO - Solid State Nuclear Magnetic Resonance
JF - Solid State Nuclear Magnetic Resonance
ER -