Newest Articles

  • Molecular determination of claudin-15 organization and channel selectivity
    Structure and function of claudin-15 channel

    Members of the claudin family form tight junctions between adjacent epithelial and endothelial cells. Samanta et al. build an atomic model of claudin-15 using molecular dynamics simulations and conclude that four claudin-15 molecules each contribute an aspartic acid residue to form a selectivity filter.

    Priyanka Samanta ... Fatemeh Khalili-Araghi
    Research Article | June 18, 2018
  • External K<sup>+</sup> dependence of strong inward rectifier K<sup>+</sup> channel conductance is caused not by K<sup>+</sup> but by competitive pore blockade by external Na<sup>+</sup>
    Na+ blockade evokes external K+ dependence of Kir2.1

    The conductance of the strong inward rectifier K+ channel depends on the “square root” of the extracellular K+ concentration. The present study shows that this physiologically important phenomenon is caused by a channel blockade by extracellular Na+, which is competitive with extracellular K+.

    Keiko Ishihara
    Research Article | June 15, 2018
  • Tracking the sarcoplasmic reticulum membrane voltage in muscle with a FRET biosensor
    Electrical activity of the reticulum membrane

    The sarcoplasmic reticulum membrane contains ion channels, but it is unknown whether it experiences voltage changes during cellular activity. By expressing voltage-sensitive fluorescence biosensors in this membrane, Sanchez et al. suggest that it remains electrically silent during muscle activation.

    Colline Sanchez ... Vincent Jacquemond
    Research Article | June 13, 2018
  • Electrical recordings of the mitochondrial calcium uniporter in <em>Xenopus</em> oocytes
    Recording the mitochondrial calcium uniporter

    The mitochondrial calcium uniporter is a Ca2+ channel that has been hard to characterize electrophysiologically. Tsai and Tsai establish a method that permits efficient electrophysiological recordings of the human uniporter in Xenopus oocytes and demonstrate characteristic uniporter behaviour.

    Chen-Wei Tsai ... Ming-Feng Tsai
    Methods and Approaches | June 11, 2018
  • Deglycosylation of Shaker K<sub>V</sub> channels affects voltage sensing and the open–closed transition
    Functional consequences of deglycosylation assessed in the same population of KV channels

    Voltage-gated ion channels are subject to posttranslational modification, including glycosylation. Lopez-Rodriguez and Holmgren show that, in Shaker KV channels, deglycosylation influences voltage sensing and open–closed transitions but not binding of ligands to the protein.

    Angelica Lopez-Rodriguez ... Miguel Holmgren
    Communication | June 07, 2018
  • Replacing voltage sensor arginines with citrulline provides mechanistic insight into charge versus shape
    Isosteric charge ablation in a voltage sensor

    Activation of voltage-gated channels results from the outward movement of arginine residues on the S4 segments. Infield et al. use in vivo nonsense suppression to replace Shaker's S4 arginine residues with citrulline and reveal that a positive charge is required on R4 for voltage-dependent deactivation.

    Daniel T. Infield ... Christopher A. Ahern
    Communication | June 04, 2018
  • Intracellular and extracellular loops of LRRC8 are essential for volume-regulated anion channel function
    LRRC8 protein regions essential for VRAC function

    Volume-regulated anion channels (VRACs) comprise the essential LRRC8A subunit plus one or more LRRC8 paralogs. By engineering chimeras that form homomeric channels, Yamada and Strange show that the intracellular and first extracellular loops of LRRC8 are essential for VRAC structure and function.

    Toshiki Yamada ... Kevin Strange
    Communication | May 31, 2018
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The Journal of General Physiology: 150 (6)

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June 4, 2018
Volume 150, No. 6

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