Abstract
Dynamic allosterism allows the propagation of signal throughout a protein. The PDZ (PSD-95/Dlg1/ZO-1) family has been named as a classic example of dynamic allostery in small modular domains. While the PDZ family consists of more than 200 domains, previous efforts have primarily focused on a few well-studied PDZ domains, including PTP-BL PDZ2, PSD-95 PDZ3, and Par6 PDZ. Taken together, experimental and computational studies have identified regions of these domains that are dynamically coupled to ligand binding. These regions include the αA helix, the αB lower-loop, and the αC helix. In this review, we summarize the specific residues on the αA helix, the αB lower-loop, and the αC helix of PTP-BL PDZ2, PSD-95 PDZ3, and Par6 PDZ that have been identified as participants in dynamic allostery by either experimental or computational approaches. This review can serve as an index for researchers to look back on the previously identified allostery in the PDZ family. Interestingly, our summary of previous work reveals clear consistencies between the domains. While the PDZ family has a low sequence identity, we show that some of the most consistently identified allosteric residues within PTP-BL PDZ2 and PSD-95 PDZ3 domains are evolutionarily conserved. These residues include A46/A347, V61/V362, and L66/L367 on PTP-BL PDZ2 and PSD-95 PDZ3, respectively. Finally, we expose a need for future work to explore dynamic allostery within (1) PDZ domains with multiple binding partners and (2) multidomain constructs containing a PDZ domain.
Highlights
Allosterism is a phenomenon where communication exists within a biological macromolecule between the ligand-binding site and a distal region
As the first PDZ domain to have its structure characterized by x-ray crystallography [10,17], PSD-95 PDZ3 is arguably the most well-studied domain in the PDZ family
While exploring the αC helix, Zhang et al show that phosphorylation at αC induced significant chemical shifts at αA [37], supporting αA allostery induced by perturbations at αC but failing to confirm αA allostery due to ligand binding
Summary
Allosterism is a phenomenon where communication exists within a biological macromolecule between the ligand-binding site and a distal region. While many proteins use dynamic allosterism to regulate cellular processes, the PDZ family is a classic example of dynamic allostery in small modular domains. (b) Proposed regions of dynamic allostery on the PDZ domain, including the αA helix (red), the αB lower-loop (blue), and the αC helix (green). Understanding the origin, the the destination, and the pathway thepathway signal could greatly aid our understanding of how the cell uses allosterism signal could greatly aid our understanding of how the cell uses allosterism in cellular in cellula ulation This understanding a domain with biological such a broad regulation. We will review three proposed regions of the PDZ with dynamic allostery, including the αA helix, αB lower-loop, and the αC helix (PSD-95 PDZ3). By providing specific key residues consistently noted in each study This summary can be used as an index for future researchers looking to trace previously identified dynamic allosterism in the PDZ family
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