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Information about solid-state NMR (ssNMR), a powerful technique for characterizing the structure, symmetry, dynamics, and interactions of molecules and complexes in solid materials. The document highlights the advantages of ssNMR over other methods like X-ray crystallography and nuclear magnetic resonance (NMR) for small proteins. It also introduces Creative Biostructure, a company that offers high-quality ssNMR services for pharmaceutical molecules, polymers, glasses, and biosolids. the various ssNMR experiments that can be performed at Creative Biostructure, including MAS, 1D NMR, and 2D experiments.
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X-ray crystallography, nuclear magnetic resonance (NMR) and Cryo-
electron microscopy (Cryo-EM) are three of the most predominant
techniques in structure biology. They are powerful tools that help
structural biologists get an insight into the bioprocess mechanism. NMR
is a non-destructive method which providess information on chemical
structure and dynamics with atomic resolution. Unlike solution-state
NMR, which is good at resolving small protein structure and obtaining
dynamic information of soluble materials, solid-state NMR (ssNMR) is a
powerful technique for the characterization of solid materials. With
solid-state NMR methods, information about structure symmetry,
dynamics, and interactions of molecules and complexes can be
obtained.
With superior expertise on NMR spectroscopy, Creative Biostructure
provides high quality solid-state NMR services for analysis of
pharmaceutical molecules, polymers, glasses, and biosolids. Our featured
one-stop service covers every step from sample preparation to data
collection and analysis.
At Creative Biostructure, the following solid-state NMR experiments can
be performed:
Experiments using magic-angle spinning (MAS) with a suitable rotor and
NMR probe.
1D NMR experiments with C-13, F-19, P-31 and many more nuclei.
2D experiments such as MQMAS, REDOR, TRAPDOR.
Reference:
Jean-Philippe Demers, Pascal Fricke et. al. Structure Determination of
Supra-Molecular Assemblies by Solid-State NMR: Practical
Considerations. Prog Nucl Magn Reson Spectrosc , 2018;109:51-78.
Related Sections
Membrane Protein Structure Determination by Solid-state NMR