Newest Articles

  • Extracellular protons accelerate hERG channel deactivation by destabilizing voltage sensor relaxation
    Destabilization of relaxation in hERG channels

    The human ether-à-go-go–related gene (hERG) encodes a delayed rectifier K+ channel with slow deactivation gating. Shi et al. find that acidic residues on S3 contribute to slow deactivation kinetics by stabilizing the relaxed state of the voltage sensor, which can be mitigated by extracellular protons.

    Yu Patrick Shi ... Tom W. Claydon
    Research Article | December 07, 2018
  • The connexin26 human mutation N14K disrupts cytosolic intersubunit interactions and promotes channel opening
    Control of Cx26 gating by cytosolic domains

    The N14K mutation in the N-terminal domain of connexin26 produces gain-of-function hemichannels. Valdez Capuccino et al. reveal that the mutation disrupts intersubunit interactions between the N terminus and the second transmembrane domain–cytoplasmic loop transition.

    Juan M. Valdez Capuccino ... Jorge E. Contreras
    Research Article | December 07, 2018
  • Sarcomere length–dependent effects on Ca<sup>2+</sup>-troponin regulation in myocardium expressing compliant titin
    Titin compliance reduces length-dependent troponin regulation

    Increases in sarcomere length cause enhanced force generation in cardiomyocytes by an unknown mechanism. Li et al. reveal that titin-based passive tension contributes to length-dependent activation of myofilaments and that tightly bound myosin–actin cross-bridges are associated with this effect.

    King-Lun Li ... Wen-Ji Dong
    Research Article | December 06, 2018
  • Regulatory light chain phosphorylation augments length-dependent contraction in PTU-treated rats
    RLC phosphorylation and β-myosin heavy chain function

    Contraction of cardiac muscle is regulated by sarcomere length and proteins that comprise the sarcomeric filaments. Breithaupt et al. find that phosphorylation of myosin regulatory light chain augments length-dependent activation of contraction when β-cardiac myosin heavy chain predominates.

    Jason J. Breithaupt ... Bertrand C.W. Tanner
    Research Article | December 06, 2018
  • Inotropic interventions do not change the resting state of myosin motors during cardiac diastole
    The structure of the cardiac thick filament in diastole

    Thick filament mechanosensing has been proposed as the mechanism by which myosin motors in cardiac muscle become available to bind actin. Accordingly, Caremani et al., using x-ray diffraction from intact rat trabeculae, show that myosin motors fully return to their OFF state during diastole independently of inotropic interventions.

    Marco Caremani ... Gabriella Piazzesi
    Research Article | December 03, 2018
  • Molecular dissection of multiphase inactivation of the bacterial sodium channel Na<sub>V</sub>Ab
    Molecular dissection of sodium channel inactivation

    Voltage-gated sodium channels have a conserved multiphase slow-inactivation process. Gamal El-Din et al. show that the early phase involves conformational changes at a critical threonine in the S6 segment, which are followed by a late phase mediated by the intracellular C-terminal domain.

    Tamer M. Gamal El-Din ... William A. Catterall
    Research Article | December 03, 2018
  • Chromogranin A, the major lumenal protein in chromaffin granules, controls fusion pore expansion
    Chromogranin A controls fusion pore expansion

    The lumenal protein tPA modulates fusion pore expansion as chromaffin granules undergo exocytosis. Abbineni et al. show that other lumenal proteins, including chromogranin A, also regulate the lifetime of fusion pores and that protein overexpression downregulates endogenous lumenal proteins.

    Prabhodh S. Abbineni ... Ronald W. Holz
    Research Article | November 30, 2018
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The Journal of General Physiology: 150 (12)

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December 3, 2018
Volume 150, No. 12

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