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Newest Articles
Article
| August 05 2020
Featured Figure
Ca 2+ entry compensates for CASQ1 deficiency
Antonio Michelucci, Simona Boncompagni, Laura Pietrangelo, Takahiro Takano, Feliciano Protasi, Robert T. Dirksen, Robert T. Dirksen
Mice lacking calsequestrin-1 have reduced levels of releasable Ca2+ in the sarcoplasmic reticulum of their skeletal muscles. Michelucci et al. reveal that this is compensated by constitutive assembly of STIM1 and Orai1 into Ca2+ entry units, promoting both constitutive and store-operated Ca2+ entry.
Article
| July 23 2020
Featured Figure
Mechanism of calcium potentiation of the α7 nicotinic acetylcholine receptor
Kathiresan Natarajan, Nuriya Mukhtasimova, Jeremías Corradi, Matías Lasala, Cecilia Bouzat, Steven M. Sine
The α7 nicotinic acetylcholine receptor (nAChR) is highly abundant in the brain but is frequently located at extra-synaptic regions where the concentration of ACh is low. Natarajan et al. reveal that at low ACh concentrations, calcium potentiates α7 channel opening by binding to a novel structural motif.
Article
| July 07 2020
Featured Figure
A rational mutation to investigate HCN channels in vivo
Alessandro Porro, Anna Binda, Matteo Pisoni, Chiara Donadoni, Ilaria Rivolta, Andrea Saponaro
The gating of neuronal HCN channels is modulated by the competitive binding of cAMP and TRIP8b, a brain-specific protein that also controls channel trafficking. Porro et al. identify a rational mutation in HCN channels that affects binding of TRIP8b, without altering cAMP affinity or TRIP8b-dependent trafficking. The mutation represents a valuable tool to investigate HCN channels in vivo.
Article
| June 26 2020
Featured Figure
Functional heterogeneity in STIM1-Orai1 puncta
Joseph L. Dynes, Andriy V. Yeromin, Michael D. Cahalan
The authors use a fluorescent genetically encoded Ca2+ indicator, GCaMP6f, fused to Orai1 to visualize Ca2+ influx through store-operated Orai1 channels. Combined with whole-cell recording of transfected human cells, this reporter reveals heterogeneity of channel activation and kinetics in STIM1-Orai1 puncta within the same cell.
Article
| June 24 2020
Featured Figure
Cholesterol organization of Piezo1 channel clusters
Pietro Ridone, Elvis Pandzic, Massimo Vassalli, Charles D. Cox, Alexander Macmillan, Philip A. Gottlieb, Boris Martinac
The essential mammalian mechanosensitive channel PIEZO1 organizes in the plasma membrane into nanometric clusters that depend on the integrity of cholesterol domains to rapidly detect applied force and especially inactivate synchronously, the most commonly altered feature of PIEZO1 in pathology.
Article
| June 22 2020
Featured Figure
The E1784K mutant in Nav1.5 disrupts inactivation through two mechanisms
Colin H. Peters, Abeline R. Watkins, Olivia L. Poirier, Peter C. Ruben
Inheritable and de novo variants of voltage-gated sodium channels that lead to sudden cardiac death can affect several different aspects of channel function, making pharmaceutical treatment difficult. Peters et al. show that the E1784K mutant in Nav1.5 alters channel function through two distinct and separable mechanisms.
Article
| June 19 2020
Featured Figure
Complex Zn 2+ effects on Ca v 2.3 channel function
Felix Neumaier, Serdar Alpdogan, Jürgen Hescheler, Toni Schneider
Neumaier et al. reveal that Zn2+ effects on Cav2.3 channels are complex, can be either inhibitory or stimulatory, and may persist for several minutes after cessation of the Zn2+ signal. A Markov model is developed that can account for Cav2.3 channel currents in the absence and presence of physiological Zn2+ concentrations.

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Current Issue
Volume 152,
Issue 8,
August 3, 2020
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Reviews & Opinions
Viewpoint
| July 28 2020
Featured Figure
SNAP25, exocytosis, fusion pore, dynamic acceptor complex
Ronald W. Holz, Mary A. Bittner
The domain in SNAP25 that links its two SNARE motifs plays important roles in fusion pore formation, secretion kinetics, and the formation of a dynamic plasma membrane SNAP25/syntaxin “acceptor” complex for the v-SNARE synaptobrevin.
Research News
| July 15 2020
Featured Figure
Cholesterol helps PIEZO1 use the force
Ben Short
JGP study shows that disruption of membrane cholesterol alters the organization and activity of mechanosensitive PIEZO1 channels.
Commentary
| June 24 2020
Featured Figure
An ion channel in the company of a transporter
Eric Accili
In the current issue of JGP, Lamothe and Kurata explore the functional relationship between the Kv1.2 potassium channel, with Kvβ1.2 bound to the interior aspect of the channel, and Slc7a5, a component of the neutral amino acid transporter LAT1.
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Most Read

Disruption of membrane cholesterol organization impairs the activity of PIEZO1 channel clusters
Roles of K149, G352, and H401 in the Channel Functions of ClC-0: Testing the Predictions from Theoretical Calculations
Mechanism of calcium potentiation of the α7 nicotinic acetylcholine receptor
Rational design of a mutation to investigate the role of the brain protein TRIP8b in limiting the cAMP response of HCN channels in neurons
E1784K, the most common Brugada syndrome and long-QT syndrome type 3 mutant, disrupts sodium channel inactivation through two separate mechanisms

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