A speed limit for conformational change of an allosteric membrane protein. - Wikidata - awgldk - TriplyDB

A speed limit for conformational change of an allosteric membrane protein.

A speed limit for conformational change of an allosteric membrane protein.

http://www.wikidata.org/entity/Q33715701

about

Quantitative description of ion transport via plasma membrane of yeast and small cells The catecholaminergic polymorphic ventricular tachycardia mutation R33Q disrupts the N-terminal structural motif that regulates reversible calsequestrin polymerization Atomic-level characterization of the structural dynamics of proteins Energy and structure of the M2 helix in acetylcholine receptor-channel gating.Dynamics of the acetylcholine receptor pore at the gating transition state.A linkage analysis toolkit for studying allosteric networks in ion channels.Gating of acetylcholine receptor channels: brownian motion across a broad transition state.Achieving maximal speed of solution exchange for patch clamp experiments.Acetylcholine receptor channels activated by a single agonist molecule.Relationships between structural dynamics and functional kinetics in oligomeric membrane receptors Linking the acetylcholine receptor-channel agonist-binding sites with the gate Heme reactivity is uncoupled from quaternary structure in gel-encapsulated hemoglobin: a resonance Raman spectroscopic study.Molecular tuning of fast gating in pentameric ligand-gated ion channels.Discovering electrophysiology in photobiology: A brief overview of several photobiological processes with an emphasis on electrophysiology Plasticity of acetylcholine receptor gating motions via rate-energy relationships.Phi-value analysis of a linear, sequential reaction mechanism: theory and application to ion channel gating Nicotinic acetylcholine receptor and the structural basis of neuromuscular transmission: insights from Torpedo postsynaptic membranes Subunit symmetry at the extracellular domain-transmembrane domain interface in acetylcholine receptor channel gating.Temperature dependence of acetylcholine receptor channels activated by different agonists Linking of Glycine Receptor Transmembrane Segments Three and Four Allows Assignment of Intrasubunit-Facing Residues.Structural answers and persistent questions about how nicotinic receptors work.The mechanical properties of E. coli type 1 pili measured by atomic force microscopy techniques.Energy landscape of the reactions governing the Na+ deeply occluded state of the Na+/K+-ATPase in the giant axon of the Humboldt squid Identification of a novel post-hydrolytic state in CFTR gating.Nanosecond-timescale conformational dynamics of the human alpha7 nicotinic acetylcholine receptor.Thermodynamics of CFTR channel gating: a spreading conformational change initiates an irreversible gating cycle.Acetylcholine receptor gating at extracellular transmembrane domain interface: the cys-loop and M2-M3 linker.Agonist-activated ion channels.Nicotinic receptor interloop proline anchors beta1-beta2 and Cys loops in coupling agonist binding to channel gating.Gating of nicotinic ACh receptors; new insights into structural transitions triggered by agonist binding that induce channel opening.Application of rate-equilibrium free energy relationship analysis to nonequilibrium ion channel gating mechanisms A mechanism for acetylcholine receptor gating based on structure, coupling, phi, and flip.Gating of nicotinic ACh receptors: latest insights into ligand binding and function.The gating isomerization of neuromuscular acetylcholine receptors.Seeking structural specificity: direct modulation of pentameric ligand-gated ion channels by alcohols and general anesthetics.Alcohol-binding sites in distinct brain proteins: the quest for atomic level resolution.The energy and work of a ligand-gated ion channel.Modeling ion channels: past, present, and future Salinity tolerance in plants. Quantitative approach to ion transport starting from halophytes and stepping to genetic and protein engineering for manipulating ion fluxes.The energetic consequences of loop 9 gating motions in acetylcholine receptor-channels.

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P2860

A speed limit for conformational change of an allosteric membrane protein.

http://www.wikidata.org/entity/Q33715701

description

2004 nî lūn-bûn

@nan

2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2004 թվականի դեկտեմբերին հրատարակված գիտական հոդված

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2004年の論文

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2004年論文

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2004年論文

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2004年論文

@zh-hk

2004年論文

@zh-mo

2004年論文

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2004年论文

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name

A speed limit for conformational change of an allosteric membrane protein.

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A speed limit for conformational change of an allosteric membrane protein.

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type

label

A speed limit for conformational change of an allosteric membrane protein.

@ast

A speed limit for conformational change of an allosteric membrane protein.

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prefLabel

A speed limit for conformational change of an allosteric membrane protein.

@ast

A speed limit for conformational change of an allosteric membrane protein.

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PNAS.0406777102

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Proceedings of the National Academy of Sciences of the United States of America

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A speed limit for conformational change of an allosteric membrane protein.

@en

P2093

Anthony Auerbach

http://www.w3.org/2001/XMLSchema#string

Sudha Chakrapani

http://www.w3.org/2001/XMLSchema#string

P2860

Reaction-rate theory: fifty years after Kramers

The Croonian Lecture 2000. Nicotinic acetylcholine receptor and the structural basis of fast synaptic transmission

Crystal structure of an ACh-binding protein reveals the ligand-binding domain of nicotinic receptors

A primer for the Bema Hapothle. An empirical approach to the characterization of changing transition-state structures

Extremely rapid protein folding in the absence of intermediates.

Fast kinetics and mechanisms in protein folding.

The complete folding pathway of a protein from nanoseconds to microseconds.

The role of solvent viscosity in the dynamics of protein conformational changes.

Speed of intersubunit communication in proteins.

The dissociation of acetylcholine from open nicotinic receptor channels

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87-92

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scholarly article

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10.1073/PNAS.0406777102

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1

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