[NMR paper] Efficient Segmental Isotope Labeling of Integral Membrane Proteins for High-Resolution NMR Studies
Efficient Segmental Isotope Labeling of Integral Membrane Proteins for High-Resolution NMR Studies
High-resolution structural NMR analyses of membrane proteins are challenging due to their large size, resulting in broad resonances and strong signal overlap. Among the isotope labeling methods that can remedy this situation, segmental isotope labeling is a suitable strategy to simplify NMR spectra and retain high-resolution structural information. However, protein ligation within integral membrane proteins is complicated since the hydrophobic protein fragments are insoluble, and the removal...
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05-25-2024 04:52 AM
[NMR paper] The advanced properties of circularized MSP nanodiscs facilitate high-resolution NMR studies of membrane proteins
The advanced properties of circularized MSP nanodiscs facilitate high-resolution NMR studies of membrane proteins
Membrane mimetics are essential for structural and functional studies of membrane proteins. A promising lipid-based system are phospholipid nanodiscs, where two copies of a so-called membrane scaffold protein (MSP) wrap around a patch of lipid bilayer. Consequently, the size of a nanodisc is determined by the length of the MSP. Furthermore, covalent MSP circularization was reported to improve nanodisc stability. However, a more detailed comparative analysis of the biophysical...
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10-26-2022 07:20 AM
[NMR paper] Lipid Nanodiscs for High-Resolution NMR Studies of Membrane Proteins
Lipid Nanodiscs for High-Resolution NMR Studies of Membrane Proteins
Membrane proteins (MPs) play essential roles in numerous cellular processes. Because around 70% of the currently marketed drugs target MPs, a detailed understanding of their structure, binding properties, and functional dynamics in a physiologically relevant environment is crucial for a more detailed understanding of this important protein class. We here summarize the benefits of using lipid nanodiscs for NMR structural investigations and provide a detailed overview of the currently used lipid...
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10-20-2021 06:28 AM
Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature
From The DNP-NMR Blog:
Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature
Solid-state DNP-NMR are typically performed at cryogenic temperatures and samples, especially bio-macromolecules often require cryo-protection. This is a recent review about sample preparation and cryo-protecting samples to preserve the spectral resolution.
Lee, M. and M. Hong, Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature. J Biomol NMR, 2014....
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08-27-2014 02:29 PM
[NMR paper] Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature.
Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature.
Related Articles Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature.
J Biomol NMR. 2014 Jul 12;
Authors: Lee M, Hong M
Abstract
Solid-state NMR spectra of membrane proteins often show significant line broadening at cryogenic temperatures. Here we investigate the effects of several cryoprotectants to preserve the...
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07-13-2014 06:48 PM
Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature
Cryoprotection of lipid membranes for high-resolution solid-state NMR studies of membrane peptides and proteins at low temperature
Abstract
Solid-state NMR spectra of membrane proteins often show significant line broadening at cryogenic temperatures. Here we investigate the effects of several cryoprotectants to preserve the spectral resolution of lipid membranes and membrane peptides at temperatures down to ~200Â*K. Trehalose, glycerol, dimethylsulfoxide (DMSO), dimethylformamide (DMF), and polyethylene glycol (PEG), were chosen. These compounds are...
Lipid Nanodiscs for High-Resolution NMR Studies of Membrane Proteins - ACS Publications
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