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Article Abstract
Intrinsically disordered regions (IDRs) are conserved elements that enable cellular adaptability by mediating rapid responses to environmental cues. Their biophysical properties-disorder-to-order transitions, phase separation, and interaction versatility-are vital for protein localization, signaling, and disease mechanisms. In protein tyrosine phosphatases (PTPs), and notably dual-specificity phosphatases (DUSPs), IDRs serve functional roles beyond passive linkers. Atypical DUSPs (ADUSPs) utilize IDRs instead of rigid domains for substrate recruitment, autoinhibition, and spatiotemporal regulation of MAPK pathways, granting them functional plasticity to integrate diverse signals via post-translational modifications (PTMs) and environmental sensing. Critical questions remain: (1) how PTMs modulate DUSP IDR conformation and activity; (2) the potential for therapeutics targeting IDR-mediated interactions in diseases like cancer and neurodegeneration; (3) whether DUSP IDRs form phase-separated signaling complexes during stress. Addressing these issues require multidisciplinary approaches-Cryo-EM, NMR, SAXS, smFRET, computational modeling, CD, SEC-MALS, HDX-MS, and LiP-MS-to elucidate transient conformations, dynamics, and interactions. Insights into IDR-mediated regulation in atypical DUSPs could revolutionize therapeutic strategies, shifting from active-site targeting to exploiting the conformational plasticity of these dynamic, regulatory regions.
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| http://dx.doi.org/10.1016/j.ijbiomac.2025.147230 | DOI Listing |
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