Advances in engineering and applications of synthetic phase-separated membraneless organelles in biotechnology
Manman Sun, Alex Xiong Gao, Bin Ye, Yimeng Zhao, Rodrigo Ledesma-Amaro, Jin Gao, Peng Wang

TL;DR
This review discusses how synthetic membraneless organelles, formed through liquid-liquid phase separation, are being engineered and applied in biotechnology for various purposes like enzyme regulation and protein production.
Contribution
The paper systematically summarizes design strategies, characterization techniques, and applications of synthetic membraneless organelles in biotechnology.
Findings
Synthetic MLOs can regulate enzyme activity and optimize metabolic pathways.
Characterization techniques reveal phase behavior and material properties of MLOs.
Applications include recombinant protein production and functional biomaterial development.
Abstract
Membraneless organelles (MLOs) formed through liquid-liquid phase separation (LLPS) constitute crucial dynamic microenvironments within cells, capable of selectively concentrating specific molecules and regulating biochemical reactions. Based on the working mechanisms of natural MLOs, researchers have designed and constructed various synthetic MLOs. These MLOs have been applied in regulating enzyme activity, optimizing metabolic pathways, regulating gene expression, producing recombinant proteins, and developing functional biomaterials. Here, we systematically summarized the design strategies, characterization techniques, and client protein recruitment methods for synthetic MLOs, and categorically reviewed their application progress in the biotechnology field. We also discussed current challenges faced in the practical applications of synthetic MLOs and future research directions. This…
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Taxonomy
TopicsRNA Research and Splicing · Lipid Membrane Structure and Behavior · RNA and protein synthesis mechanisms
