The intrinsic energy of the gating isomerization of a neuromuscular acetylcholine receptor channel (original) (raw)

Related papers

Sources of energy for gating by neurotransmitters in acetylcholine receptor channels

Anthony Auerbach

Proceedings of the National Academy of Sciences, 2012

View PDFchevron_right

Unliganded gating of acetylcholine receptor channels

Anthony Auerbach

Proceedings of the National Academy of Sciences, 2009

View PDFchevron_right

The gating isomerization of neuromuscular acetylcholine receptors

Anthony Auerbach

The Journal of Physiology, 2010

View PDFchevron_right

Gating at the Mouth of the Acetylcholine Receptor Channel: Energetic Consequences of Mutations in the αM2-Cap

Huibert D. Mansvelder

PLoS ONE, 2008

View PDFchevron_right

The energetic consequences of loop 9 gating motions in acetylcholine receptor-channels

Anthony Auerbach

The Journal of Physiology, 2011

View PDFchevron_right

Energy and Structure of the M2 Helix in Acetylcholine Receptor-Channel Gating

Archana Jha

Biophysical Journal, 2009

View PDFchevron_right

Kinetic, Mechanistic, and Structural Aspects of Unliganded Gating of Acetylcholine Receptor Channels: A Single-channel Study of Second Transmembrane Segment 12' Mutants

Anthony Auerbach

The Journal of General Physiology, 2000

View PDFchevron_right

Dynamics of the acetylcholine receptor pore at the gating transition state

Ananya Mitra

Proceedings of the National Academy of Sciences, 2005

View PDFchevron_right

Energetics of gating at the apo-acetylcholine receptor transmitter binding site

Anthony Auerbach

The Journal of General Physiology, 2010

View PDFchevron_right

Gating of acetylcholine receptor channels: Brownian motion across a broad transition state

Anthony Auerbach

Proceedings of the National Academy of Sciences, 2005

View PDFchevron_right

Loop C and the mechanism of acetylcholine receptor-channel gating

Anthony Auerbach

The Journal of General Physiology, 2013

View PDFchevron_right

Subunit Symmetry at the Extracellular Domain-Transmembrane Domain Interface in Acetylcholine Receptor Channel Gating

Anthony Auerbach

Journal of Biological Chemistry, 2010

View PDFchevron_right

Energetic Contributions to Channel Gating of Residues in the Muscle Nicotinic Receptor β1 Subunit

Joshua Rodríguez Lo

PLoS ONE, 2013

View PDFchevron_right

Structure of the Transition State of Gating in the Acetylcholine Receptor Channel Pore: A Φ-Value Analysis †

Anthony Auerbach

Biochemistry, 2002

View PDFchevron_right

Plasticity of Acetylcholine Receptor Gating Motions via Rate-Energy Relationships

Anthony Auerbach

Biophysical Journal, 2005

View PDFchevron_right

A stepwise mechanism for acetylcholine receptor channel gating

Anthony Auerbach

Nature, 2007

View PDFchevron_right

Energetic Contributions to Channel Gating of Residues in the Muscle Nicotinic Receptor β1 Subunit

Joe Steinbach

PLoS ONE, 2013

View PDFchevron_right

Energy for Wild-Type Acetylcholine Receptor Channel Gating from Different Choline Derivatives

Anthony Auerbach

Biophysical Journal, 2013

View PDFchevron_right

Identification of a Determinant of Acetylcholine Receptor Gating Kinetics in the Extracellular Portion of the γ Subunit

Anna Mileo

European Journal of Neuroscience, 1996

View PDFchevron_right

Free-Energy Landscapes of Ion-Channel Gating Are Malleable: Changes in the Number of Bound Ligands Are Accompanied by Changes in the Location of the Transition State in Acetylcholine-Receptor Channels †

Claudio Grosman

Biochemistry, 2003

View PDFchevron_right

Voltage dependence of mouse acetylcholine receptor gating: different charge movements in di-, mono- and unliganded receptors

Anthony Auerbach

The Journal of Physiology, 1996

View PDFchevron_right

Asymmetric and Independent Contribution of the Second Transmembrane Segment 12' Residues to Diliganded Gating of Acetylcholine Receptor Channels: A Single-Channel Study with Choline as the Agonist

Anthony Auerbach

The Journal of General Physiology, 2000

View PDFchevron_right

The Role of Loop 5 in Acetylcholine Receptor Channel Gating

Anthony Auerbach

The Journal of General Physiology, 2003

View PDFchevron_right

The dissociation of acetylcholine from open nicotinic receptor channels

Anthony Auerbach

Proceedings of the National Academy of Sciences, 2001

View PDFchevron_right

Gating Dynamics of the Acetylcholine Receptor Extracellular Domain

Anthony Auerbach

The Journal of General Physiology, 2004

View PDFchevron_right

Catch-and-Hold Activation of Muscle Acetylcholine Receptors Having Transmitter Binding Site Mutations

Anthony Auerbach

Biophysical Journal, 2014

View PDFchevron_right

Thinking in cycles: MWC is a good model for acetylcholine receptor-channels

Anthony Auerbach

The Journal of Physiology, 2011

View PDFchevron_right

Pore-opening mechanism of the nicotinic acetylcholine receptor evinced by proton transfer

Claudio Grosman

Nature Structural & Molecular Biology, 2008

View PDFchevron_right

The Extracellular Linker of Muscle Acetylcholine Receptor Channels Is a Gating Control Element

Frank Salamone

The Journal of General Physiology, 2000

View PDFchevron_right

Glycine Hinges with Opposing Roles at the Acetylcholine Receptor-Channel Transmitter Binding Site

Anthony Auerbach

Biophysical Journal, 2011

View PDFchevron_right

An Intersubunit Trigger of Channel Gating in the Muscle Nicotinic Receptor

Steven m. M Sine

Journal of Neuroscience, 2007

View PDFchevron_right

Functional differences between neurotransmitter binding sites of muscle acetylcholine receptors

Shaweta Gupta

Proceedings of the National Academy of Sciences, 2014

View PDFchevron_right

Unmasking coupling between channel gating and ion permeation in the muscle nicotinic receptor

Steven m. M Sine

eLife, 2021

View PDFchevron_right

The Intrinsic Electrostatic Potential and the Intermediate Ring of Charge in the Acetylcholine Receptor Channel

Arthur KARLIN

The Journal of General Physiology, 2000

View PDFchevron_right

Initial Coupling of Binding to Gating Mediated by Conserved Residues in the Muscle Nicotinic Receptor

Steven m. M Sine

The Journal of General Physiology, 2005

View PDFchevron_right