Newest Articles
KtrB’s channel profileKtrAB is a bacterial ion channel with a noncanonical selectivity filter. Consequently, it was assumed to be rather unselective for monovalent cations. Mikušević et al. show that in the presence of Na+, KtrAB very selectively translocates K+, which results from a high binding affinity and facilitated K+ gating.
Nramp M2+:H+ cotransport and uniport mechanismsAn Nramp transition metal transporter performs metal uniport, proton uniport, and proton–metal cotransport. Transmembrane voltage and pH gradients govern the rates of these processes, largely through a conserved salt-bridge network in the transmembrane scaffold of the transporter’s LeuT fold.
![Quantitative determination of cellular [Na<sup>+</sup>] by fluorescence lifetime imaging with CoroNaGreen](http://jgp.rupress.org/sites/default/files/styles/article_style_80x80/public/externals/4b67e57842071b56e57efdd17697d9fd.gif?itok=FQA43WUL)
Determination of Na+ using FLIM with CoroNaGreenMeyer et al. establish the suitability of the sodium-sensitive indicator dye CoroNaGreen for fluorescence lifetime imaging inside cells. This approach represents a valuable tool for quantitative and dynamic determination of intracellular sodium concentrations independent of dye concentration.
Voltage-clamp responses of mouse conesThis paper describes the first extensive study of voltage-clamp recordings from WT and mutant mouse cone photoreceptors made from dark-adapted retinas without fluorescent markers. Cones can continue to adapt rapidly in bright light, even without known mechanisms of transduction modulation.
FGF14 and NaVβ4 effects on Purkinje Na currentsPurkinje neurons express voltage-gated Na channels and auxiliary proteins that facilitate rapid firing. White et al. find that Na current in isolated Purkinje cells is unaffected by loss of NaVβ4 subunits, but transient current is briefer and resurgent current is reduced without the FGF14 protein.
Temperature controls mammalian myosin activationThe active force of mammalian skeletal muscle is reduced at low temperatures. Caremani et al. reveal that this is due to the rise of a population of myosin motors captured in a refractory state insensitive to muscle activation.
Recruiting MeT channels for touchThrough experiment and simulation, Katta et al. reveal that pushing faster and deeper recruits more and more distant mechano-electrical transduction channels during touch. The net result is a dynamic receptive field whose size and shape depends on tissue mechanics, stimulus parameters, and channel distribution within sensory neurons.
Current Issue
October 7, 2019
Volume 151, No. 10
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Reviews & Opinions
- Structural and functional insights into transmembrane AMPA receptor regulatory protein complexes
Twomey et al. examine recent structural and functional data that have provided insight into AMPA receptor modulation by TARPs.
- The mechanism of thin filament regulation: Models in conflict?
Evidence on two- and three-state models of the calcium regulation models of muscle contractions remain in favor of three-state models.
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JGP study reveals that low temperatures reduce force production in mammalian skeletal muscle by trapping myosin motors in a refractory state unable to bind actin.