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Functional Biomaterials Derived from Protein Liquid–Liquid Phase Separation and Liquid‐to‐Solid Transition

Tianchen Li, Dea Prianka Ayu Ilhamsyah, Benedict Tai, Yi Shen

2025Advanced Materials19 citationsDOIOpen Access PDF

Abstract

Protein phase transitions play a vital role in both cellular functions and pathogenesis. Dispersed proteins can undergo liquid-liquid phase separation to form condensates, a process that is reversible and highly regulated within cells. The formation and physicochemical properties of these condensates, such as composition, viscosity, and multiphase miscibility, are precisely modulated to fulfill specific biological functions. However, protein condensates can undergo a further liquid-to-solid state, forming β-sheet-rich aggregates that may disrupt cellular function and lead to diseases. While this phenomenon is crucial for biological processes and has significant implications for neurodegenerative diseases, the phase behavior of naturally derived or engineered proteins and polypeptides also presents opportunities for developing high-performance, multifunctional materials at various scales. Additionally, the unique molecular recruitment capabilities of condensates inspire innovative advancements in biomaterial design for applications in drug discovery, delivery, and biosynthesis. This work highlights recent progress in understanding the mechanisms underlying protein phase behavior, particularly how it responds to internal molecular changes and external physical stimuli. Furthermore, the fabrication of multifunctional materials derived from diverse protein sources through controlled phase transitions is demonstrated.

Topics & Concepts

Materials scienceMiscibilityBiomaterialNanotechnologyLiquid phaseLiquid liquidPhase (matter)Drug deliveryFunction (biology)ChemistryChromatographyOrganic chemistryPolymerBiologyEvolutionary biologyPhysicsComposite materialThermodynamicsRNA Research and SplicingConnective tissue disorders researchRNA modifications and cancer