Proton-detection in biological MAS solid-state NMR spectroscopy

Bernd Reif

doi:10.1007/978-3-319-28388-3_69

Proton-detection in biological MAS solid-state NMR spectroscopy

Bernd Reif

Associate Professorship of Solid-State NMR spectroscopy

Helmholtz Zentrum München German Research Center for Environmental Health

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

1 Scopus citations

Abstract

In the last years, proton-detected experiments became more and more routine in MAS solid-state NMR. High-resolution proton spectra are obtained in MAS solid-state NMR in case samples are prepared using perdeuterated protein and D ₂ O in the recrystallization buffer. Deuteration reduces drastically ¹ H, ¹ H dipolar interactions and allows to obtain amide proton line widths on the order of 20 Hz. Similarly, high-resolution proton spectra of aliphatic groups can be obtained if specifically labeled precursors for biosynthesis of methyl containing side chains are used, or if limited amounts of H ₂ O in the bacterial growth medium is employed. This review summarizes recent spectroscopic developments to access structure and dynamics of biomacromolecules in the solid-state and shows a number of applications to amyloid fibrils, membrane proteins, and soluble protein complexes.

Original language	English
Title of host publication	Modern Magnetic Resonance
Publisher	Springer International Publishing
Pages	879-910
Number of pages	32
ISBN (Electronic)	9783319283883
ISBN (Print)	9783319283876
DOIs	https://doi.org/10.1007/978-3-319-28388-3_69
State	Published - 13 Jun 2018

Keywords

H labeling
Magic angle spinning (MAS) solid-state NMR
Microcrystalline proteins
N relaxation
Order parameters
Perdeuteration
Protein dynamics

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10.1007/978-3-319-28388-3_69

Cite this

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title = "Proton-detection in biological MAS solid-state NMR spectroscopy",

abstract = " In the last years, proton-detected experiments became more and more routine in MAS solid-state NMR. High-resolution proton spectra are obtained in MAS solid-state NMR in case samples are prepared using perdeuterated protein and D 2 O in the recrystallization buffer. Deuteration reduces drastically 1 H, 1 H dipolar interactions and allows to obtain amide proton line widths on the order of 20 Hz. Similarly, high-resolution proton spectra of aliphatic groups can be obtained if specifically labeled precursors for biosynthesis of methyl containing side chains are used, or if limited amounts of H 2 O in the bacterial growth medium is employed. This review summarizes recent spectroscopic developments to access structure and dynamics of biomacromolecules in the solid-state and shows a number of applications to amyloid fibrils, membrane proteins, and soluble protein complexes.",

keywords = "H labeling, Magic angle spinning (MAS) solid-state NMR, Microcrystalline proteins, N relaxation, Order parameters, Perdeuteration, Protein dynamics",

author = "Bernd Reif",

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N2 - In the last years, proton-detected experiments became more and more routine in MAS solid-state NMR. High-resolution proton spectra are obtained in MAS solid-state NMR in case samples are prepared using perdeuterated protein and D 2 O in the recrystallization buffer. Deuteration reduces drastically 1 H, 1 H dipolar interactions and allows to obtain amide proton line widths on the order of 20 Hz. Similarly, high-resolution proton spectra of aliphatic groups can be obtained if specifically labeled precursors for biosynthesis of methyl containing side chains are used, or if limited amounts of H 2 O in the bacterial growth medium is employed. This review summarizes recent spectroscopic developments to access structure and dynamics of biomacromolecules in the solid-state and shows a number of applications to amyloid fibrils, membrane proteins, and soluble protein complexes.

AB - In the last years, proton-detected experiments became more and more routine in MAS solid-state NMR. High-resolution proton spectra are obtained in MAS solid-state NMR in case samples are prepared using perdeuterated protein and D 2 O in the recrystallization buffer. Deuteration reduces drastically 1 H, 1 H dipolar interactions and allows to obtain amide proton line widths on the order of 20 Hz. Similarly, high-resolution proton spectra of aliphatic groups can be obtained if specifically labeled precursors for biosynthesis of methyl containing side chains are used, or if limited amounts of H 2 O in the bacterial growth medium is employed. This review summarizes recent spectroscopic developments to access structure and dynamics of biomacromolecules in the solid-state and shows a number of applications to amyloid fibrils, membrane proteins, and soluble protein complexes.

KW - H labeling

KW - Magic angle spinning (MAS) solid-state NMR

KW - Microcrystalline proteins

KW - N relaxation

KW - Order parameters

KW - Perdeuteration

KW - Protein dynamics

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Proton-detection in biological MAS solid-state NMR spectroscopy

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