Abstract
The glycine receptor (GlyR) is by far the best-characterized pentameric ligand-gated ion channel, with several high-resolution structures from X-ray crystallography, cryoelectron microscopy (cryo-EM), and modeling. Nonetheless, the significance of the currently available open-pore conformations is debated due to their diversity in the pore geometry. Here, we discuss the physiological significance of existing models of the GlyR active state based on conductance and selectivity measurements by computational electrophysiology. The results support the conclusion that the original cryo-EM reconstruction of the active state obtained in detergents as well as its subsequent refinement by molecular dynamics simulations are likely to be non-physiological as they feature artificially dilated ion pores. In addition, the calculations indicate that a physiologically relevant open pore should be constricted within a radius of 2.5 and 2.8Å, which is consistent with previous modeling, electrophysiology measurements, and the most recent cryo-EM structures obtained in a native lipid membrane environment.
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