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Triadic Ca2+ changes in skeletal muscle
Diffusion inside dendritic spines
Transverse tubule structure in Huntington disease

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Article

| April 09 2021

Titin-N2A

Chiara Stronczek, Stephan Lange, Belinda Bullard, Sebastian Wolniak, Emma Börgeson, Olga Mayans, Jennifer R. Fleming

Stronczek et al. analyze the structure of the titin-N2A poly-Ig segment, a key signaling element in the sarcomere. They reveal a unique topography for the I81-I83 tandem, but they could not confirm the presence of Ca2+ binding sites in I81-I83 or the interaction of N2A with actin.

Article

| April 09 2021

Nav1.4 inhibition by cannabidiol

Mohammad-Reza Ghovanloo, Koushik Choudhury, Tagore S. Bandaru, Mohamed A. Fouda, Kaveh Rayani, Radda Rusinova, Tejas Phaterpekar, Karen Nelkenbrecher, Abeline R. Watkins, Damon Poburko, Jenifer Thewalt, Olaf S. Andersen, Lucie Delemotte, Samuel J. Goodchild, Peter C. Ruben

Ghovanloo et al. combined in silico and in vitro approaches to determine the mechanism by which CBD inhibits the skeletal muscle Na+ channel Nav1.4. Their findings suggest that CBD acts directly, by binding inside the Nav1.4 pore, as well as indirectly, by modulating membrane elasticity.

Communication

| April 05 2021

Intrinsic inward rectification of Kir4.1/Kir5.1 channels

Leticia G. Marmolejo-Murillo, Iván A. Aréchiga-Figueroa, Eloy G. Moreno-Galindo, Tania Ferrer, Rodrigo Zamora-Cárdenas, Ricardo A. Navarro-Polanco, José A. Sánchez-Chapula, Aldo A. Rodríguez-Menchaca

Inward rectification of Kir channels is attributed to a voltage-dependent block of the channel pore by intracellular cations. Marmolejo-Murillo et al. identify a new intrinsic gating mechanism powered by the K+-flux in Kir4.1/Kir5.1 channels, which induces voltage-dependent inward rectification.

Article

| March 29 2021

Structural control of K channel selectivity

Marcos Matamoros, Colin G. Nichols

Matamoros and Nichols show that mutations in a transmembrane domain outside of the selectivity filter of the KirBac1.1 K+ channel affect ion transport, suggesting that channel selectivity is determined by the physical interaction between different domains.

Communication

| March 23 2021

Determinants of miniature synaptic current shape

Chung-Wei Chiang, Wen-Chi Shu, Jun Wan, Beth A. Weaver, Meyer B. Jackson

Chiang et al. recorded spontaneous miniature excitatory postsynaptic currents in cocultures of neurons and HEK cells. They show that this system allows the resolution of the distinct contributions of vesicles, fusion pores, dendrites, and receptors to the dynamic control of synaptic transmission.

Communication

| March 19 2021

Tubulin acetylation regulates myocyte mechanics and mechanotransduction

Andrew K. Coleman, Humberto C. Joca, Guoli Shi, W. Jonathan Lederer, Christopher W. Ward

Posttranslational modifications in microtubules affect cytoskeletal mechanics and mechanotransduction. In this study, Coleman et al. show that acetylated α-tubulin affects cytoskeletal stiffness and viscoelastic resistance, thus revealing another regulator of striated muscle mechanotransduction.

Article

| March 18 2021

Calcium release sites and calcium release events

Bogdan I. Iaparov, Ivan Zahradnik, Alexander S. Moskvin, Alexandra Zahradníková

Iaparov et al. use in silico modeling to test the effect of changes in the geometric arrangement of RYR channels on calcium release in cardiac myocytes. Their simulations predict a coupling between RYR distribution at the calcium release site and dyad function.

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Reviews & Opinions

Viewpoint

| April 09 2021

Structure of Panx1

Carsten Mim, Guy Perkins, Gerhard Dahl

Mim et al. discuss discrepancies between the known functions of pannexin 1 as an ATP and chloride channel and recently published cryo-EM structural data, which so far appear consistent only with the chloride channel function.

Commentary

| April 01 2021

FGF14-mediated long-term inactivation of Nav1.3 channels

Emilio Carbone

Using Nav1.3 and FGF14 KO mice, Martinez-Espinosa et al. provide new findings on how intracellular FGF14 proteins interfere with the endogenous fast inactivation gating and regulate the “long-term inactivation” of Nav1.3 channels that sets Nav channel availability and spike adaptation during sustained stimulation in adrenal chromaffin cells.

Review

| March 19 2021

Control of cardiac thin filament activation and sarcomere regulatory systems

Christopher Solís, R. John Solaro

This review focuses on thin filament regulatory mechanisms with emphasis on cardiac-specific mechanisms in the three-state model of sarcomere activation and on signaling cascades at the barbed and pointed ends.

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Special Collections

Ion Channel Structure and Function

A special collection of reviews curated from recent issues of JGP

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Triadic Ca2+ changes in skeletal muscle

Diffusion inside dendritic spines

Transverse tubule structure in Huntington disease

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