Restraints on backbone conformations in solid state NMR studies of uniformly labeled proteins from quantitative amide 15N-15N and carbonyl 13C-13C dipolar recoupling data
Restraints on backbone conformations in solid state NMR studies of uniformly labeled proteins from quantitative amide 15N-15N and carbonyl 13C-13C dipolar recoupling data
Publication year: 2012 Source:Journal of Magnetic Resonance
Kan-Nian Hu, Wei Qiang, Guillermo A. Bermejo, Charles D. Schwieters, Robert Tycko
Recent structural studies of uniformly 15N,13C-labeled proteins by solid state nuclear magnetic resonance (NMR) rely principally on two sources of structural restraints: (i) restraints on backbone conformation from isotropic 15N and 13C chemical shifts, based on empirical correlations between chemical shifts and backbone torsion angles; (ii) restraints on inter-residue proximities from qualitative measurements of internuclear dipole-dipole couplings, detected as the presence or absence of inter-residue crosspeaks in multidimensional spectra. We show that site-specific dipole-dipole couplings among 15N-labeled backbone amide sites and among 13C-labeled backbone carbonyl sites can be measured quantitatively in uniformly-labeled proteins, using dipolar recoupling techniques that we call 15N-BARE and 13C-BARE (BAckbone REcoupling), and that the resulting data represent a new source of restraints on backbone conformation. 15N-BARE and 13C-BARE data can be incorporated into structural modeling calculations as potential energy surfaces, which are derived from comparisons between experimental 15N and 13C signal decay curves, extracted from crosspeak intensities in series of two-dimensional spectra, with numerical simulations of the 15N-BARE and 13C-BARE measurements. We demonstrate this approach through experiments on microcrystalline, uniformly 15N,13C-labeled protein GB1. Results for GB1 show that 15N-BARE and 13C-BARE restraints are complementary to restraints from chemical shifts and inter-residue crosspeaks, improving both the precision and the accuracy of calculated structures. Graphical Abstract
Graphical abstract Highlights
? 15N and 13C backbone recoupling (BARE) yields accurate dipolar dephasing curves. ? Torsion angle restraints detected through 2D NCACX, NCOCX, or COCA crosspeaks. ? 15N- and 13C-BARE restraints incorporated as 3D potential surfaces in Xplor-NIH. ? 15N-BARE and 13C-BARE restraints improve structural precision and accuracy.
Multidimensional oriented solid-state NMR experiments enable the sequential assignment of uniformly 15N labeled integral membrane proteins in magnetically aligned lipid bilayers
Multidimensional oriented solid-state NMR experiments enable the sequential assignment of uniformly 15N labeled integral membrane proteins in magnetically aligned lipid bilayers
Abstract Oriented solid-state NMR is the most direct methodology to obtain the orientation of membrane proteins with respect to the lipid bilayer. The method consists of measuring 1H-15N dipolar couplings (DC) and 15N anisotropic chemical shifts (CSA) for membrane proteins that are uniformly aligned with respect to the membrane bilayer. A significant advantage of this approach is that tilt and azimuthal...
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Structure Calculation from Unambiguous Long-Range Amide and Methyl (1)H-(1)H Distance Restraints for a Microcrystalline Protein with MAS Solid-State NMR Spectroscopy.
Structure Calculation from Unambiguous Long-Range Amide and Methyl (1)H-(1)H Distance Restraints for a Microcrystalline Protein with MAS Solid-State NMR Spectroscopy.
Structure Calculation from Unambiguous Long-Range Amide and Methyl (1)H-(1)H Distance Restraints for a Microcrystalline Protein with MAS Solid-State NMR Spectroscopy.
J Am Chem Soc. 2011 Mar 24;
Authors: Linser R, Bardiaux B, Higman V, Fink U, Reif B
Magic-angle spinning (MAS) solid-state NMR becomes an increasingly important tool for the determination of structures of membrane...
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Structure Calculation from Unambiguous Long-Range Amide and Methyl 1H-1H Distance Restraints for a Microcrystalline Protein with MAS Solid-State NMR Spectroscopy
Structure Calculation from Unambiguous Long-Range Amide and Methyl 1H-1H Distance Restraints for a Microcrystalline Protein with MAS Solid-State NMR Spectroscopy
Rasmus Linser, Benjamin Bardiaux, Victoria Higman, Uwe Fink and Bernd Reif
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja110222h/aop/images/medium/ja-2010-10222h_0004.gif
Journal of the American Chemical Society
DOI: 10.1021/ja110222h
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[NMR paper] High-resolution solid-state NMR studies on uniformly [13C,15N]-labeled ubiquitin.
High-resolution solid-state NMR studies on uniformly -labeled ubiquitin.
Related Articles High-resolution solid-state NMR studies on uniformly -labeled ubiquitin.
Chembiochem. 2005 Sep;6(9):1638-47
Authors: Seidel K, Etzkorn M, Heise H, Becker S, Baldus M
Understanding of the effects of intermolecular interactions, molecular dynamics, and sample preparation on high-resolution magic-angle spinning NMR data is currently limited. Using the example of a uniformly -labeled sample of ubiquitin, we discuss solid-state NMR methods tailored to the...
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12-01-2010 06:56 PM
[NMR paper] Temperature dependence of protein backbone motion from carbonyl 13C and amide 15N NMR
Temperature dependence of protein backbone motion from carbonyl 13C and amide 15N NMR relaxation.
Related Articles Temperature dependence of protein backbone motion from carbonyl 13C and amide 15N NMR relaxation.
J Magn Reson. 2005 May;174(1):43-53
Authors: Chang SL, Tjandra N
The NMR spin-lattice relaxation rate (R1) and the rotating-frame spin-lattice relaxation rate (R1rho) of amide 15N and carbonyl 13C (13C') of the uniformly 13C- and 15N-labeled ubiquitin were measured at different temperatures and field strengths to investigate the...
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[NMR paper] Towards high-resolution solid-state NMR on large uniformly 15N- and [13C,15N]-labeled
Towards high-resolution solid-state NMR on large uniformly 15N- and -labeled membrane proteins in oriented lipid bilayers.
Related Articles Towards high-resolution solid-state NMR on large uniformly 15N- and -labeled membrane proteins in oriented lipid bilayers.
J Biomol NMR. 2002 Mar;22(3):225-47
Authors: Vosegaard T, Nielsen NC
Based on exact numerical simulations, taking into account isotropic and conformation-dependent anisotropic nuclear spin interactions, we systematically analyse the prospects for high-resolution solid-state NMR on...
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[NMR paper] Complete resolution of the solid-state NMR spectrum of a uniformly 15N-labeled membra
Complete resolution of the solid-state NMR spectrum of a uniformly 15N-labeled membrane protein in phospholipid bilayers.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--highwire.stanford.edu-icons-externalservices-pubmed-custom-pnas_full_free.gif http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www.pubmedcentral.nih.gov-corehtml-pmc-pmcgifs-pubmed-pmc.gif Related Articles Complete resolution of the solid-state NMR spectrum of a uniformly 15N-labeled membrane protein in phospholipid bilayers.
Proc Natl Acad Sci U S A. 1997 Aug 5;94(16):8551-6
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Comparison of fast backbone dynamics at amide nitrogen and carbonyl sites in dematin
Abstract We perform a detailed comparison of fast backbone dynamics probed at amide nitrogen versus carbonyl carbon sites for dematin headpiece C-terminal domain (DHP) and its S74E mutant (DHPS74E). Carbonyl dynamics is probed via auto-correlated longitudinal rates and transverse Câ?²/Câ?²-Cα CSA/dipolar and Câ?²/Câ?²â??N CSA/dipolar cross-correlated rates, while 15N data are taken from a previous study. Resulting values of effective order parameters and internal correlation times support the conclusion that Câ?² relaxation reports on a different subset of fast motions compared to those...
Restraints on backbone conformations in solid state NMR studies of uniformly labeled proteins from quantitative amide 15N-15N and carbonyl 13C-13C dipolar recoupling data
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