Newest Articles
Structural dynamics of slow inactivation in NaV channelsVoltage-gated sodium channels undergo slow inactivation during prolonged depolarization by means of a mechanism that is poorly understood. Chatterjee et al. study this process spectroscopically and reveal conformational flexibility of the pore region in the slow-inactivated state.
Rapid constriction of the selectivity filter underlies C-type inactivation in KcsA potassium channelC-type inactivation in K+ channels is thought to be a result of constriction of the selectivity filter. By using MD simulations, Li et al. show that rapid constriction occurs within 1–2 s when the intracellular activation gate is fully open, but not when the gate is closed or partially open.
Transient K+ current in microvillar photoreceptorsThe transient K+ current carried by Shaker channels is thought to play a role in low-frequency signal amplification in Drosophila melanogaster photoreceptors. By combining patch-clamp recordings with a physiological variability analysis, Frolov reveals its role in high-frequency signal transmission.
1O2 abolishes spHCN voltage-dependent inactivationSinglet oxygen modifies several different proteins within cells. Idikuda et al. show that, in the case of the sea urchin hyperpolarization-activated cyclic nucleotide–gated channel, a histidine residue in S6 is essential for the abolition of voltage-dependent inactivation by singlet oxygen.
Residue-specific propofol binding to NaChBacGeneral anesthetics inhibit voltage-gated sodium channels by unknown molecular mechanisms. Using computation-guided NMR and electrophysiology analyses, Wang et al. show that propofol binds to the prokaryotic sodium channel NaChBac at multiple distinct sites.
Mechanisms of propofol modulation in prokaryotic NavsDespite extensive use in clinical practice, the mechanisms of propofol action on sodium channels are not fully understood. Yang et al. incorporate complementary biophysical approaches (electrophysiology and molecular dynamics simulations) to demonstrate that propofol inhibits two prokaryotic voltage-gated sodium channels, NaChBac and NavMs, by modulating both activation and inactivation gating.
TMEM16A mediates fast block in Xenopus laevis eggsIn their preceding paper, Wozniak et al. show that fertilization increases intracellular Ca2+ in Xenopus laevis eggs by activating an IP3 signaling cascade. Here, they reveal that Ca2+ subsequently opens the Cl− channel TMEM16A to allow Cl− efflux, cell depolarization, and fast block to polyspermy.
Current Issue
August 6, 2018
Volume 150, No. 8
Submit your Research
Reviews & Opinions
- Mechanistic complexity of contractile dysfunction in hypertrophic cardiomyopathy
Reflections on recent work providing mechanistic insight into the pathological effects of a cardiac troponin T mutation.
- Structure, function, and allosteric modulation of NMDA receptors
Hansen et al. review recent structural data that have provided insight into the function and allosteric modulation of NMDA receptors.
Most Read
Advertisement
Jaffe underscores new research that identifies key roles for IP3 and TMEM16a in the fast block to polyspermy.