Newest Articles
- Different agonists evoke distinct structural changes
Different agonists activate the muscle AChR with different efficacies. Mukhtasimova and Sine show that oxidative cross-linking of proximal residues alters the ability of some agonists but not others to open the AChR channel. The findings show that, in opening the channel, agonists with differing efficacy elicit distinct structural changes.
- Membrane force drives ATP synthase dimers to form rows
Rows of ATP synthase dimers define the cristae morphology of the inner mitochondrial membrane. Anselmi et al. use molecular simulations to show that the formation of these rows is spontaneous and driven by an attractive force induced by the membrane, not direct protein–protein interactions.
- Altered fast and slow gating elicited by Cx26G12R
Mutations in connexin 26 hemichannels that cause syndromic deafness have a gain-of-function phenotype that is poorly understood. García et al. show that one such mutation impairs fast and slow gating in these hemichannels because of an interaction between the N terminus and intracellular loop.
- Tuning of a potassium-channel modulator
Dehydroabietic acid was recently shown to open voltage-gated potassium channels. Silverå Ejneby et al. show that its effect peaks when the carboxyl-group charge and hydrophobic anchor are separated by three atoms and use this rule to design molecules that open the human Kv7.2/7.3 potassium channel.
- Intrinsic ligand regulates KCNH channels
KCNH potassium channels possess an intrinsic ligand in their cyclic nucleotide-binding homology domain, located at the N- and C-terminal domain interface. Dai et al. show that this intrinsic ligand regulates voltage-dependent potentiation via a rearrangement between the ligand and its binding site.
- Endocytosis restores release at ribbon synapses
In addition to recycling vesicles, synaptic endocytosis restores release site competence after exocytosis. Wen et al. show that endocytosis is essential for subsequent fusion but not docking of vesicles at photoreceptor ribbon synapses and for maintaining release at modest frequencies.
- Effects of retinoid cycle inhibition on cone vision
RPE65 is a retinoid isomerase essential for rod function, but its contribution to cone vision is enigmatic. Using selective RPE65 inhibitors, Kiser et al. demonstrate that cone function depends only partially on continuous RPE65 activity, providing support for cone-specific regeneration mechanisms.
Yaffe et al. review structure-guided studies that have provided insight into the mechanism of proton-monoamine antiport by VMATs.