| scholarly article | Q13442814 |
| P50 | author | Lucie Delemotte | Q42413518 |
| P2093 | author name string | Erik Lindahl | |
| Marina A Kasimova | |||
| P2860 | cites work | Mapping the human membrane proteome: a majority of the human membrane proteins can be classified according to function and evolutionary origin | Q21093241 |
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| Mapping of residues forming the voltage sensor of the voltage-dependent anion-selective channel | Q24562735 | ||
| Structure of the human M2 muscarinic acetylcholine receptor bound to an antagonist | Q24628686 | ||
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| Atomic structure of a voltage-dependent K+ channel in a lipid membrane-like environment | Q27649044 | ||
| The crystal structure of mouse VDAC1 at 2.3 A resolution reveals mechanistic insights into metabolite gating | Q27652797 | ||
| Mutations of connexin 26 at position 75 and dominant deafness: essential role of arginine for the generation of functional gap-junctional channels. | Q50645346 | ||
| Electrogenic uptake of nucleosides and nucleoside-derived drugs by the human nucleoside transporter 1 (hCNT1) expressed in Xenopus laevis oocytes. | Q50723371 | ||
| Voltage dependence of Na translocation by the Na/K pump. | Q53885716 | ||
| On the voltage dependence of the mitochondrial permeability transition pore. A critical appraisal. | Q53969386 | ||
| Contribution of the S4 segment to gating charge in the Shaker K+ channel. | Q53987108 | ||
| The gate of mitochondrial porin channel is controlled by a number of negative and positive charges. | Q54108336 | ||
| Structure of the CLC-1 chloride channel from Homo sapiens. | Q55412891 | ||
| Voltage-Gated Ion Channels | Q56483999 | ||
| The Role of the N and C Termini of RecombinantNeurosporaMitochondrial Porin in Channel Formation and Voltage-dependent Gating | Q57793100 | ||
| Regulation of the permeability transition pore, a voltage-dependent mitochondrial channel inhibited by cyclosporin A | Q58454400 | ||
| Crystal structure of a Na+-bound Na+,K+-ATPase preceding the E1P state | Q59060684 | ||
| The isolated complex of the translocase of the outer membrane of mitochondria. Characterization of the cation-selective and voltage-gated preprotein-conducting pore | Q63005427 | ||
| Replacing voltage sensor arginines with citrulline provides mechanistic insight into charge versus shape. | Q64968438 | ||
| Effect of potassium ions and membrane potential on the Na-Ca-K exchanger in isolated intact bovine rod outer segments | Q68179594 | ||
| Electroosmotic interactions accompanying mitosis initation in sarcoma cells in vitro | Q70982660 | ||
| Membrane potential regulates sea urchin sperm adenylylcyclase | Q71127746 | ||
| Unified theory on the basic mechanism of normal mitotic control and oncogenesis | Q71784501 | ||
| Voltage-sensitive adenylyl cyclase activity in cultured neurons. A calcium-independent phenomenon | Q72315740 | ||
| CHARMM-GUI: a web-based graphical user interface for CHARMM | Q80900573 | ||
| Voltage-coupled conformational dynamics of mitochondrial protein-import channel | Q47866731 | ||
| Molecular simulations and free-energy calculations suggest conformation-dependent anion binding to a cytoplasmic site as a mechanism for Na+/K+-ATPase ion selectivity | Q48060122 | ||
| Regulation of adenylyl cyclase by membrane potential. | Q48379522 | ||
| Conformational changes in the M2 muscarinic receptor induced by membrane voltage and agonist binding | Q48682233 | ||
| Kinetics of a human glutamate transporter. | Q49053825 | ||
| Gating of the voltage-dependent chloride channel CIC-0 by the permeant anion | Q49065550 | ||
| Opposite voltage gating polarities of two closely related connexins | Q49110748 | ||
| Voltage dependence of facilitated arginine flux mediated by the system y+ basic amino acid transporter | Q49142029 | ||
| Ion Channel Sensing: Are Fluctuations the Crux of the Matter? | Q50033673 | ||
| Mechanism of the defect in gap-junctional communication by expression of a connexin 26 mutant associated with dominant deafness. | Q50471957 | ||
| Movement of 'gating charge' is coupled to ligand binding in a G-protein-coupled receptor. | Q50643404 | ||
| Structure of the connexin 26 gap junction channel at 3.5 A resolution | Q27654539 | ||
| A Gating Charge Transfer Center in Voltage Sensors | Q27660396 | ||
| The crystal structure of a voltage-gated sodium channel | Q27670752 | ||
| Structure of the TRPV1 ion channel determined by electron cryo-microscopy | Q27680759 | ||
| TRPV1 structures in distinct conformations reveal activation mechanisms | Q27680762 | ||
| Crystal structures of a pentameric ligand-gated ion channel provide a mechanism for activation | Q27681074 | ||
| Prestin is the motor protein of cochlear outer hair cells | Q28144919 | ||
| Currents related to movement of the gating particles of the sodium channels | Q28244673 | ||
| Crystal structure of a mammalian voltage-dependent Shaker family K+ channel | Q28260421 | ||
| A novel system A isoform mediating Na+/neutral amino acid cotransport | Q28570693 | ||
| Structure and function of ATA3, a new subtype of amino acid transport system A, primarily expressed in the liver and skeletal muscle | Q28577556 | ||
| Extending the treatment of backbone energetics in protein force fields: limitations of gas-phase quantum mechanics in reproducing protein conformational distributions in molecular dynamics simulations | Q29547631 | ||
| Acidification asymmetrically affects voltage-dependent anion channel implicating the involvement of salt bridges. | Q30153379 | ||
| Functional properties and cellular distribution of the system A glutamine transporter SNAT1 support specialized roles in central neurons. | Q30913408 | ||
| Identification of a novel voltage-driven organic anion transporter present at apical membrane of renal proximal tubule. | Q33186948 | ||
| Sequential formation of ion pairs during activation of a sodium channel voltage sensor | Q33564069 | ||
| Moving gating charges through the gating pore in a Kv channel voltage sensor | Q33627407 | ||
| Voltage-regulated water flux through aquaporin channels in silico | Q33771242 | ||
| Calculation of the gating charge for the Kv1.2 voltage-activated potassium channel | Q33858393 | ||
| Three distinct and sequential steps in the release of sodium ions by the Na+/K+-ATPase | Q33892547 | ||
| State-dependent electrostatic interactions of S4 arginines with E1 in S2 during Kv7.1 activation | Q33922794 | ||
| Large scale rearrangement of protein domains is associated with voltage gating of the VDAC channel | Q34089099 | ||
| The sensor regions of VDAC are translocated from within the membrane to the surface during the gating processes | Q34168082 | ||
| Imaging alpha-hemolysin with molecular dynamics: ionic conductance, osmotic permeability, and the electrostatic potential map | Q34190556 | ||
| Intermediate states of the Kv1.2 voltage sensor from atomistic molecular dynamics simulations | Q34794503 | ||
| Molecular dynamics simulations of the Cx26 hemichannel: evaluation of structural models with Brownian dynamics | Q35503280 | ||
| Molecular dynamics simulations of the Cx26 hemichannel: insights into voltage-dependent loop-gating | Q35843823 | ||
| The Molecular Basis of Polyunsaturated Fatty Acid Interactions with the Shaker Voltage-Gated Potassium Channel | Q35890108 | ||
| On the mechanism of gating charge movement of ClC-5, a human Cl(-)/H(+) antiporter | Q35926176 | ||
| Tracking a complete voltage-sensor cycle with metal-ion bridges | Q36001443 | ||
| Voltage-dependent conformational changes in connexin channels | Q36007904 | ||
| Gating of TRP channels: a voltage connection? | Q36119232 | ||
| Gating the glutamate gate of CLC-2 chloride channel by pore occupancy. | Q36407985 | ||
| Characterization of the Functional Domains of a Mammalian Voltage-Sensitive Phosphatase | Q36426477 | ||
| [Na] and [K] dependence of the Na/K pump current-voltage relationship in guinea pig ventricular myocytes | Q36434429 | ||
| Effective gating charges per channel in voltage-dependent K+ and Ca2+ channels | Q36435717 | ||
| An emerging consensus on voltage-dependent gating from computational modeling and molecular dynamics simulations | Q36446413 | ||
| Voltage regulates adrenergic receptor function | Q36567891 | ||
| A Non-canonical Voltage-Sensing Mechanism Controls Gating in K2P K(+) Channels. | Q36632832 | ||
| Mitochondrial nitric oxide synthase, a voltage-dependent enzyme, is responsible for nitric oxide diffusion to cytosol | Q36664555 | ||
| Voltage-dependent processes in the electroneutral amino acid exchanger ASCT2 | Q36877990 | ||
| The membrane potential and its representation by a constant electric field in computer simulations | Q36938659 | ||
| Structural Mechanisms of Voltage Sensing in G Protein-Coupled Receptors | Q37000273 | ||
| Sensing voltage across lipid membranes | Q37069037 | ||
| How membrane proteins sense voltage | Q37114573 | ||
| Initial response of the potassium channel voltage sensor to a transmembrane potential | Q37156485 | ||
| Apical voltage-driven urate efflux transporter NPT4 in renal proximal tubule. | Q37963496 | ||
| Membrane potential and cancer progression | Q38123808 | ||
| Structure and function of voltage-sensitive ion channels | Q38193558 | ||
| Voltage gating in the mitochondrial channel, VDAC. | Q38211460 | ||
| Oxidative stress, thiol reagents, and membrane potential modulate the mitochondrial permeability transition by affecting nucleotide binding to the adenine nucleotide translocase | Q38559578 | ||
| Gating Charge Calculations by Computational Electrophysiology Simulations. | Q38840403 | ||
| Voltage dependence of the Na-K pump | Q39644432 | ||
| Voltage-dependent charge movement associated with activation of the CLC-5 2Cl-/1H+ exchanger. | Q39700488 | ||
| A prokaryotic proton-gated ion channel from the nicotinic acetylcholine receptor family | Q40196783 | ||
| Properties of voltage-gated chloride channels of the ClC gene family | Q40513983 | ||
| Glutamate modifies ion conduction and voltage-dependent gating of excitatory amino acid transporter-associated anion channels | Q40631940 | ||
| Role of the Na(+)-translocating NADH:quinone oxidoreductase in voltage generation and Na(+) extrusion in Vibrio cholerae | Q40848694 | ||
| Voltage Dependence of Conformational Dynamics and Subconducting States of VDAC-1. | Q41165132 | ||
| Conserved residues within the putative S4-S5 region serve distinct functions among thermosensitive vanilloid transient receptor potential (TRPV) channels. | Q41466392 | ||
| Nonequilibrium gating and voltage dependence of the ClC-0 Cl- channel | Q41937820 | ||
| The C-terminal domain of the neutral amino acid transporter SNAT2 regulates transport activity through voltage-dependent processes | Q42036504 | ||
| ATP synthesis by F-type ATP synthase is obligatorily dependent on the transmembrane voltage | Q42050595 | ||
| The complete structure of an activated open sodium channel | Q42320720 | ||
| Charged Residues at the First Transmembrane Region Contribute to the Voltage Dependence of the Slow Gate of Connexins. | Q42408378 | ||
| The M2 muscarinic G-protein-coupled receptor is voltage-sensitive | Q42439480 | ||
| Mechanism of voltage gating in potassium channels | Q42644041 | ||
| Voltage-generated torque drives the motor of the ATP synthase | Q42656727 | ||
| Multiple discrete transitions underlie voltage-dependent activation in CLC Cl(-)/H(+) antiporters | Q42904606 | ||
| The voltage dependence of NADPH oxidase reveals why phagocytes need proton channels | Q44389079 | ||
| Conservation of chloride channel structure revealed by an inhibitor binding site in ClC-1. | Q44400880 | ||
| Structural changes in the mitochondrial Tim23 channel are coupled to the proton-motive force | Q44570568 | ||
| Plasma urate level is directly regulated by a voltage-driven urate efflux transporter URATv1 (SLC2A9) in humans | Q44717516 | ||
| Modulation of the mitochondrial cyclosporin A-sensitive permeability transition pore by the proton electrochemical gradient. Evidence that the pore can be opened by membrane depolarization | Q45332012 | ||
| Electrogenic properties of the cloned Na+/glucose cotransporter: II. A transport model under nonrapid equilibrium conditions. | Q46023336 | ||
| P433 | issue | 10 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | membrane protein | Q423042 |
| P304 | page(s) | 1444-1458 | |
| P577 | publication date | 2018-10-01 | |
| P1433 | published in | The Journal of General Physiology | Q1092259 |
| P1476 | title | Determining the molecular basis of voltage sensitivity in membrane proteins | |
| P478 | volume | 150 |
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