The role of a protein inside a cell is determined by both its location and its conformational state. Although fluorescence techniques are widely used to determine the cellular localization of proteins in vivo, these approaches cannot provide detailed information about a protein's three-dimensional state. This gap, however, can be filled by NMR spectroscopy, which can be used to investigate both the conformation as well as the dynamics of proteins inside living cells. In this chapter we describe technical aspects of these "in-cell NMR" experiments. In particular, we show that in the case of (15)N-labeling schemes the background caused by labeling all cellular components is negligible, while (13)C-based experiments suffer from high background levels and require selective labeling schemes. A correlation between the signal-to-noise ratio of in-cell NMR experiments with the overexpression level of the protein shows that the current detection limit is 150-200 muM (intracellular concentration). We also discuss experiments that demonstrate that the intracellular viscosity is not a limiting factor since the intracellular rotational correlation time is only approximately two times longer than the correlation time in water. Furthermore, we describe applications of the technique and discuss its limitations.
Anin situelectrochemical cell for Q- and W-band EPR spectroscopy
Anin situelectrochemical cell for Q- and W-band EPR spectroscopy
Publication year: 2011
Source: Journal of Magnetic Resonance, Available online 22 September 2011</br>
Paul R.*Murray, David*Collison, Simon*Daff, Nicola*Austin, Ruth*Edge, ...</br>
A simple design for anin situ, three-electrode spectroelectrochemical cell is reported that can be used in commercial Q- and W-band (ca. 34 and 94 GHz, respectively) electron paramagnetic resonance (EPR) spectrometers, using standard sample tubing (1.0 and 0.5 mm inner diameter, respectively) and within variable temperature cryostat systems....
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09-24-2011 06:04 AM
Protein Interactions in the Escherichia coli Cytosol: An Impediment to In-Cell NMR Spectroscopy.
Protein Interactions in the Escherichia coli Cytosol: An Impediment to In-Cell NMR Spectroscopy.
Protein Interactions in the Escherichia coli Cytosol: An Impediment to In-Cell NMR Spectroscopy.
Chembiochem. 2011 Mar 29;
Authors: Crowley PB, Chow E, Papkovskaia T
Protein science is shifting towards experiments performed under native or native-like conditions. In-cell NMR spectroscopy for instance has the potential to reveal protein structure and dynamics inside cells. However, not all proteins can be studied by this technique. (15) N-labelled...
In-Cell NMR Spectroscopy
In-Cell NMR Spectroscopy
Publication year: 2010
Source: Progress in Nuclear Magnetic Resonance Spectroscopy, In Press, Accepted Manuscript, Available online 17 November 2010</br>
Andres Y., Maldonado , David S., Burz , Alexander, Shekhtman</br>
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11-18-2010 06:16 PM
Plant Cell-Wall Cross-Links by REDOR NMR Spectroscopy.
Plant Cell-Wall Cross-Links by REDOR NMR Spectroscopy.
Related Articles Plant Cell-Wall Cross-Links by REDOR NMR Spectroscopy.
J Am Chem Soc. 2010 Oct 21;
Authors: Cegelski L, O'Connor RD, Stueber D, Singh M, Poliks B, Schaefer J
We present a new method that integrates selective biosynthetic labeling and solid-state NMR detection to identify in situ important protein cross-links in plant cell walls. We have labeled soybean cells by growth in media containing l-tyrosine and l-tyrosine, compared whole-cell and cell-wall (13)C CPMAS spectra, and...
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10-23-2010 05:48 PM
Plant Cell-Wall Cross-Links by REDOR NMR Spectroscopy
Plant Cell-Wall Cross-Links by REDOR NMR Spectroscopy
Lynette Cegelski, Robert D. O’Connor, Dirk Stueber, Manmilan Singh, Barbara Poliks and Jacob Schaefer
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja104827k/aop/images/medium/ja-2010-04827k_0006.gif
Journal of the American Chemical Society
DOI: 10.1021/ja104827k
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/1kI0vIFK7eU
Mapping structural interactions using in-cell NMR spectroscopy (STINT-NMR)
Mapping structural interactions using in-cell NMR spectroscopy (STINT-NMR)
David S Burz, Kaushik Dutta, David Cowburn & Alexander Shekhtman
We describe a high-throughput in-cell nuclear magnetic resonance (NMR)-based method for mapping the structural changes that accompany protein-protein interactions (STINT-NMR). The method entails sequentially expressing two (or more) proteins within a single bacterial cell in a time-controlled manner and monitoring the protein interactions using in-cell NMR spectroscopy. The resulting spectra provide a complete titration of the interaction and define...