Newest Articles

  • Thermodynamic cooperativity of cosubstrate binding and cation selectivity of <em>Salmonella typhimurium</em> MelB
    Energetics of cosubstrate binding to MelB

    The melibiose symporter MelB couples melibiose transport to that of cations such as Na+. Hariharan and Guan show that the binding of Na+ and melibiose is thermodynamically cooperative and that Na+ coupling is based on ion concentrations and competitive binding, but not ion selectivity.

    Parameswaran Hariharan ... Lan Guan
    Research Article | October 20, 2017
  • On the effect of hyperaldosteronism-inducing mutations in Na/K pumps
    Na/K pump mutations that induce hyperaldosteronism

    Mutated Na/K pumps in adrenal adenomas are thought to cause hyperaldosteronism via a gain-of-function effect involving a depolarizing inward current. The findings of Meyer et al. suggest instead that the common mechanism by which Na/K pump mutants lead to hyperaldosteronism is a loss-of-function.

    Dylan J. Meyer ... Pablo Artigas
    Research Article | October 13, 2017
  • The voltage sensor of excitation–contraction coupling in mammals: Inactivation and interaction with Ca<sup>2+</sup>
    Voltage sensing in mammalian EC coupling

    In excitation–contraction coupling, voltage-sensing modules (VSMs) of CaV1.1 Ca2+ channels simultaneously gate the associated pore and Ca2+ release channels in the sarcoplasmic reticulum. Ferreira Gregorio et al. find that VSMs adopt two inactivated states, and the degree of inactivation is dependent on external Ca2+ and the mouse strain used.

    Juan Ferreira Gregorio ... Gustavo Brum
    Research Article | October 11, 2017
  • Age-related pacemaker deterioration is due to impaired intracellular and membrane mechanisms: Insights from numerical modeling
    Age-associated pacemaker function deterioration

    Pacemaker function deteriorates in advanced age. Behar and Yaniv show that both intracellular and membrane mechanisms are responsible for age-associated pacemaker function deterioration and explain why the maximal beating rate is restored as a result of changes in sensitivity of HCN4 to cAMP and phospholamban to PKA.

    Joachim Behar ... Yael Yaniv
    Research Article | September 08, 2017
  • A coarse-grained computational model of the nuclear pore complex predicts Phe-Gly nucleoporin dynamics
    Coarse-grained simulations of Phe-Gly nucleoporins

    The phenylalanine-glycine–repeat nucleoporins are essential for transport through the nuclear pore complex. Pulupa et al. observe reptation of these nucleoporins on a physiological timescale in coarse-grained computational simulations.

    Joan Pulupa ... Sanford M. Simon
    Research Article | September 08, 2017
  • Slow fusion pore expansion creates a unique reaction chamber for co-packaged cargo
    Slow fusion pore creates a unique reaction chamber

    A lumenal secretory granule protein can slow fusion pore dilation and thus its own discharge. Bohannon et al. demonstrate another outcome: the creation of a nanoscale chemical reaction chamber for granule contents in which the pH is suddenly neutralized upon fusion.

    Kevin P. Bohannon ... Ronald W. Holz
    Research Article | September 07, 2017
  • Mechanisms of noncovalent β subunit regulation of Na<sub>V</sub> channel gating
    Mechanisms of Na+ channel regulation by β1 and β3

    Voltage-gated NaV channels are modulated by two different noncovalent accessory subunits: β1 and β3. Zhu et al. present data showing that β1 and β3 cause distinct effects on channel gating because they interact with NaV channels at different locations. β3 regulates the voltage sensor in domain III, whereas β1 regulates the one in domain IV.

    Wandi Zhu ... Jonathan R. Silva
    Research Article | July 18, 2017
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The Journal of General Physiology: 149 (10)

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October 2, 2017
Volume 149, No. 10

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