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Conformational transitions and allosteric modulation in a heteromeric glycine receptor
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Conformational transitions and allosteric modulation in a heteromeric glycine receptor
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Conformational transitions and allosteric modulation in a heteromeric glycine receptor
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Journal Article
Conformational transitions and allosteric modulation in a heteromeric glycine receptor
2023
Overview
Glycine Receptors (GlyRs) provide inhibitory neuronal input in the spinal cord and brainstem, which is critical for muscle coordination and sensory perception. Synaptic GlyRs are a heteromeric assembly of α and β subunits. Here we present cryo-EM structures of full-length zebrafish α1β
B
GlyR in the presence of an antagonist (strychnine), agonist (glycine), or agonist with a positive allosteric modulator (glycine/ivermectin). Each structure shows a distinct pore conformation with varying degrees of asymmetry. Molecular dynamic simulations found the structures were in a closed (strychnine) and desensitized states (glycine and glycine/ivermectin). Ivermectin binds at all five interfaces, but in a distinct binding pose at the β-α interface. Subunit-specific features were sufficient to solve structures without a fiduciary marker and to confirm the 4α:1β stoichiometry recently observed. We also report features of the extracellular and intracellular domains. Together, our results show distinct compositional and conformational properties of α
1
βGlyR and provide a framework for further study of this physiologically important channel.
Glycine receptors (GlyR) are a critical postsynaptic component of spinal neurons. Here, the auhtors present cryo-EM structures of a heteromeric GlyR in the presence of an antagonist, agonist and agonist with a positive allosteric modulator.
