Your search keyword '"Katja Faelber"' showing total 4 results

1. Differential Line Broadening in MAS Solid-State NMR due to Dynamic Interference

Author

Kristina Rehbein, Veniamin Chevelkov, Anna K. Schrey, and Anne Diehl, Katja Faelber, and Bernd Reif

Subjects

Models, Molecular, Nitrogen Isotopes, Chemistry, Carbon-13 NMR satellite, Proteins, Spectrin, General Chemistry, Fluorine-19 NMR, Nuclear magnetic resonance spectroscopy, Carbon-13 NMR, Crystallography, X-Ray, Deuterium, Biochemistry, Catalysis, src Homology Domains, Colloid and Surface Chemistry, Nuclear magnetic resonance, Solid-state nuclear magnetic resonance, Magic angle spinning, Animals, Transverse relaxation-optimized spectroscopy, Chickens, Nuclear Magnetic Resonance, Biomolecular, Multiplet

Abstract

Many MAS (magic angle spinning) solid-state NMR investigations of biologically relevant protein samples are hampered by poor resolution, particularly in the 15N chemical shift dimension. We show that dynamics in the nanosecond-microsecond time scale in solid-state samples can induce significant line broadening of 15N resonances in solid-state NMR experiments. Averaging of 15NH(alpha/beta) multiplet components due to 1H decoupling induces effective relaxation of the 15N coherence in case the N-H spin pair undergoes significant motion. High resolution solid-state NMR spectra can then only be recorded by application of TROSY (Transverse Relaxation Optimized Spectroscopy) type techniques which select the narrow component of the multiplet pattern. We speculate that this effect has been the major obstacle to the NMR spectroscopic characterization of many membrane proteins and fibrillar aggregates so far. Only in very favorable cases, where dynamics are either absent or very fast (picosecond), high-resolution spectra were obtained. We expect that this approach which requires intense deuteration will have a significant impact on the quality and the rate at which solid-state NMR spectroscopic investigations will emerge in the future.

Published

2007

2. Identification of hydroxyl protons, determination of their exchange dynamics, and characterization of hydrogen bonding in a microcrystallin protein

Author

Vipin Agarwal, Katja Faelber, Uwe Fink, Rasmus Linser, and Bernd Reif

Subjects

Magnetic Resonance Spectroscopy, Proton, chemistry.chemical_element, Biochemistry, Catalysis, law.invention, Magnetization, Magnetics, Colloid and Surface Chemistry, law, Organic chemistry, Crystallization, Chemistry, Hydrogen bond, Hydroxyl Radical, Chemical shift, Proteins, Hydrogen Bonding, General Chemistry, Reference Standards, Acceptor, Crystallography, Heteronuclear molecule, Thermodynamics, Protons, Carbon

Abstract

Heteronuclear correlation experiments employing perdeuterated proteins enable the observation of all hydroxyl protons in a microcrystalline protein by MAS solid-state NMR. Dipolar-based sequences allow magnetization transfers that are >50 times faster compared to scalar-coupling-based sequences, which significantly facilitates their assignment. Hydroxyl exchange rates were measured using EXSY-type experiments. We find a biexponential decay behavior for those hydroxyl groups that are involved in side chain-side chain C-O-H...O horizontal lineC hydrogen bonds. The quantification of the distances between the hydroxyl proton and the carbon atoms in the hydrogen-bonding donor as well as acceptor group is achieved via a REDOR experiment. In combination with X-ray data and isotropic proton chemical shifts, availability of (1)H,(13)C distance information can aid in the quantitative description of the geometry of these hydrogen bonds. Similarly, correlations between backbone amide proton and carbonyl atoms are observed, which will be useful in the analysis of the registry of beta-strand arrangement in amyloid fibrils.

Published

2010

3. High-resolution double-quantum deuterium magic angle spinning solid-state NMR spectroscopy of perdeuterated proteins

Author

Vipin Agarwal, Peter Schmieder, Bernd Reif, and Katja Faelber

Subjects

Deuterium NMR, Carbon Isotopes, Chemistry, Resolution (electron density), Analytical chemistry, Spectrin, General Chemistry, Dipeptides, Deuterium, Biochemistry, Catalysis, Spectral line, src Homology Domains, Colloid and Surface Chemistry, Solid-state nuclear magnetic resonance, Magic angle spinning, Animals, Quantum Theory, Spectroscopy, Chickens, Nuclear Magnetic Resonance, Biomolecular, Line (formation)

Abstract

We show in this manuscript that (2)H,(13)C correlation spectra in uniformly (2)H,(13)C isotopically enriched peptides and proteins can be recorded in MAS solid-state NMR with site specific resolution. A resolved deuterium dimension is obtained by evolving (2)H double-quantum coherences. Experimental (2)H line widths are obtained that are as small as 16 Hz (0.17 ppm at 600 MHz) in the double-quantum dimension. The unprecedented resolution in the deuterium dimension obtained for proteins opens new perspectives for correlation experiments and, in particular, for the characterization of dynamics of proteins in the solid-state.

Published

2008

4. Characterization of dynamics of perdeuterated proteins by MAS solid-state NMR

Author

Maggy Hologne, and Anne Diehl, Bernd Reif, and Katja Faelber

Subjects

Coupling constant, Deuterium NMR, Proton, Chemistry, Protein Conformation, Spin–lattice relaxation, Analytical chemistry, Membrane Proteins, Spectrin, General Chemistry, Nuclear magnetic resonance spectroscopy, Deuterium, Biochemistry, Catalysis, src Homology Domains, Molecular dynamics, Colloid and Surface Chemistry, Solid-state nuclear magnetic resonance, Animals, Physics::Atomic Physics, Nuclear Experiment, Crystallization, Nuclear Magnetic Resonance, Biomolecular

Abstract

We show in this communication that dynamic information for uniformly 2H,13C,15N isotopically enriched, crystalline proteins can be obtained by MAS solid-state NMR spectroscopy. The experiments make use of the deuterium quadrupolar tensor, which is the dominant interaction mechanism. Dynamic properties are accessed by measurement of the size of the quadrupolar coupling constant, Cq, and the value of the asymmetry parameter, eta, via evolution of the deuterium chemical shift, as well as by measurement of deuterium T1 relaxation times. Three-dimensional experiments are performed in order to obtain site-specific resolution. Due to proton dilution, no proton decoupling is required in the carbon evolution periods at MAS rotation frequencies of 10 kHz.

Published

2005