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Literature DB >> 36069777

Fuzzy supertertiary interactions within PSD-95 enable ligand binding.

George L Hamilton¹, Nabanita Saikia¹, Sujit Basak², Franceine S Welcome², Fang Wu², Jakub Kubiak³, Changcheng Zhang², Yan Hao², Claus A M Seidel³, Feng Ding¹, Hugo Sanabria¹, Mark E Bowen².

Abstract

The scaffold protein PSD-95 links postsynaptic receptors to sites of presynaptic neurotransmitter release. Flexible linkers between folded domains in PSD-95 enable a dynamic supertertiary structure. Interdomain interactions within the PSG supramodule, formed by PDZ3, SH3, and Guanylate Kinase domains, regulate PSD-95 activity. Here we combined discrete molecular dynamics and single molecule Förster resonance energy transfer (FRET) to characterize the PSG supramodule, with time resolution spanning picoseconds to seconds. We used a FRET network to measure distances in full-length PSD-95 and model the conformational ensemble. We found that PDZ3 samples two conformational basins, which we confirmed with disulfide mapping. To understand effects on activity, we measured binding of the synaptic adhesion protein neuroligin. We found that PSD-95 bound neuroligin well at physiological pH while truncated PDZ3 bound poorly. Our hybrid structural models reveal how the supertertiary context of PDZ3 enables recognition of this critical synaptic ligand.

Entities: Chemical

Keywords: E. coli; FRET; discrete molecular dynamics simulations; molecular biophysics; neuroscience; postsynaptic density; protein dynamics; single molecule fluorescence; structural biology

Mesh：

Substances：

Year: 2022 PMID： 36069777 PMCID： PMC9581536 DOI： 10.7554/eLife.77242

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.713

48 in total

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8. Reconstitution of multivalent PDZ domain binding to the scaffold protein PSD-95 reveals ternary-complex specificity of combinatorial inhibition.

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