Publication date: Available online 1 March 2018 Source:Journal of Structural Biology
Author(s): Shu Y. Liao, Myungwoon Lee, Mei Hong
Many membrane proteins sense and induce membrane curvature for function, but structural information about how proteins modulate their structures to cause membrane curvature is sparse. We review our recent solid-state NMR studies of two virus membrane proteins whose conformational equilibrium is tightly coupled to membrane curvature. The influenza M2 proton channel has a drug-binding site in the transmembrane (TM) pore. Previous chemical shift data indicated that this pore-binding site is lost in an M2 construct that contains the TM domain and a curvature-inducing amphipathic helix. We have now obtained chemical shift perturbation, protein-drug proximity, and drug orientation data that indicate that the pore-binding site is restored when the full cytoplasmic domain is present. This finding indicates that the curvature-inducing amphipathic helix distorts the TM structure to interfere with drug binding, while the cytoplasmic tail attenuates this effect. In the second example, we review our studies of a parainfluenza virus fusion protein that merges the cell membrane and the virus envelope during virus entry. Chemical shifts of two hydrophobic domains of the protein indicate that both domains have membrane-dependent backbone conformations, with the ?-strand structure dominating in negative-curvature phosphatidylethanolamine (PE) membranes. 31P NMR spectra and 1H-31P correlation spectra indicate that the ?-strand-rich conformation induces saddle-splay curvature to PE membranes and dehydrates them, thus stabilizing the hemifusion state. These results highlight the indispensable role of solid-state NMR to simultaneously determine membrane protein structures and characterize the membrane curvature in which these protein structures exist.
[NMR paper] Investigation of the Curvature Induction and Membrane Localization of the Influenza Virus M2 Protein Using Static and Off-Magic-Angle Spinning Solid-State NMR of Oriented Bicelles.
Investigation of the Curvature Induction and Membrane Localization of the Influenza Virus M2 Protein Using Static and Off-Magic-Angle Spinning Solid-State NMR of Oriented Bicelles.
Investigation of the Curvature Induction and Membrane Localization of the Influenza Virus M2 Protein Using Static and Off-Magic-Angle Spinning Solid-State NMR of Oriented Bicelles.
Biochemistry. 2015 Mar 16;
Authors: Wang T, Hong M
Abstract
A wide variety of membrane proteins induce membrane curvature for function, thus it is important to develop...
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03-17-2015 05:12 PM
[NMR paper] Characterization of conformational dynamics of bistable RNA by equilibrium and non-equilibrium NMR.
Characterization of conformational dynamics of bistable RNA by equilibrium and non-equilibrium NMR.
Characterization of conformational dynamics of bistable RNA by equilibrium and non-equilibrium NMR.
Curr Protoc Nucleic Acid Chem. 2014;55:11.13.1-11.13.16
Authors: Fürtig B, Reining A, Sochor F, Oberhauser EM, Heckel A, Schwalbe H
Abstract
Unlike proteins, a given RNA sequence can adopt more than a single conformation. The two (or more) conformations are long-lived and have similar stabilities, but interconvert only slowly. Such...
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01-30-2015 12:15 PM
[NMR paper] Nanotube Array Method for Studying Lipid-Induced Conformational Changes of a Membrane Protein by Solid-State NMR.
Nanotube Array Method for Studying Lipid-Induced Conformational Changes of a Membrane Protein by Solid-State NMR.
Nanotube Array Method for Studying Lipid-Induced Conformational Changes of a Membrane Protein by Solid-State NMR.
Biophys J. 2015 Jan 6;108(1):5-9
Authors: Marek A, Tang W, Milikisiyants S, Nevzorov AA, Smirnov AI
Abstract
Anodic aluminum oxide substrates with macroscopically aligned homogeneous nanopores of 80*nm in diameter enable two-dimensional, solid-state nuclear magnetic resonance studies of lipid-induced...
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01-08-2015 01:29 PM
Nanotube Array Method for Studying Lipid-Induced Conformational Changes of a Membrane Protein by Solid-State NMR
Nanotube Array Method for Studying Lipid-Induced Conformational Changes of a Membrane Protein by Solid-State NMR
Publication date: 6 January 2015
Source:Biophysical Journal, Volume 108, Issue 1</br>
Author(s): Antonin Marek , Wenxing Tang , Sergey Milikisiyants , Alexander*A. Nevzorov , Alex*I. Smirnov</br>
Anodic aluminum oxide substrates with macroscopically aligned homogeneous nanopores of 80*nm in diameter enable two-dimensional, solid-state nuclear magnetic resonance studies of lipid-induced conformational changes of uniformly 15N-labeled Pf1 coat protein...
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01-07-2015 11:26 AM
Drug-Induced Conformational and Dynamical Changes of the S31N Mutant of the Influenza M2 Proton Channel Investigated by Solid-State NMR
Drug-Induced Conformational and Dynamical Changes of the S31N Mutant of the Influenza M2 Proton Channel Investigated by Solid-State NMR
Jonathan K. Williams, Daniel Tietze, Jun Wang, Yibing Wu, William F. DeGrado and Mei Hong
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja4041412/aop/images/medium/ja-2013-041412_0011.gif
Journal of the American Chemical Society
DOI: 10.1021/ja4041412
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/SJt4vbTURaE
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[NMR paper] Drug-Induced Conformational and Dynamical Changes of the S31N Mutant of the Influenza M2 Proton Channel Investigated by Solid-State NMR.
Drug-Induced Conformational and Dynamical Changes of the S31N Mutant of the Influenza M2 Proton Channel Investigated by Solid-State NMR.
Related Articles Drug-Induced Conformational and Dynamical Changes of the S31N Mutant of the Influenza M2 Proton Channel Investigated by Solid-State NMR.
J Am Chem Soc. 2013 Jun 11;
Authors: Williams JK, Tietze D, Wang J, Wu Y, Degrado WF, Hong M
Abstract
The M2 protein of influenza A viruses forms a tetrameric proton channel that is targeted by the amantadine class of antiviral drugs. A S31N mutation in...
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06-14-2013 07:31 PM
Conformational Disorder of Membrane Peptides Investigated from Solid-State NMR Linewidths and Lineshapes.
Conformational Disorder of Membrane Peptides Investigated from Solid-State NMR Linewidths and Lineshapes.
Conformational Disorder of Membrane Peptides Investigated from Solid-State NMR Linewidths and Lineshapes.
J Phys Chem B. 2011 Aug 1;
Authors: Su Y, Hong M
A challenge in the application of solid-state NMR spectroscopy to membrane proteins and peptides is the relatively broad linewidths compared to solution NMR spectra. To understand the linewidth contributions to membrane protein spectra, we have measured the inhomogeneous and homogeneous...