Robinson Abbey O, Lee Jessica, Cameron Anders, Keating Christine D, Adamala Katarzyna P
Department of Genetics, Cell Biology and Development, University of Minnesota, 420 SE Washington Ave., Minneapolis, Minnesota 55455, United States.
Department of Chemistry, The Pennsylvania State University, 104 Chemistry Building, University Park, Pennsylvania 16802, United States.
ACS Biomater Sci Eng. 2024 Feb 12;10(2):773-781. doi: 10.1021/acsbiomaterials.3c01052. Epub 2024 Jan 16.
Compartments within living cells create specialized microenvironments, allowing multiple reactions to be carried out simultaneously and efficiently. While some organelles are bound by a lipid bilayer, others are formed by liquid-liquid phase separation such as P-granules and nucleoli. Synthetic minimal cells are widely used to study many natural processes, including organelle formation. In this work, synthetic cells expressing artificial membrane-less organelles that inhibit translation are described. RGG-GFP-RGG, a phase-separating protein derived from P-granules, is expressed by cell-free transcription and translation, forming artificial membraneless organelles that can sequester RNA and reduce protein expression in synthetic cells. The introduction of artificial membrane-less organelles creates complex microenvironments within the synthetic cell cytoplasm and functions as a tool to inhibit protein expression in synthetic cells. The engineering of compartments within synthetic cells furthers the understanding of the evolution and function of natural organelles and facilitates the creation of more complex and multifaceted synthetic lifelike systems.
活细胞内的区室创造了特殊的微环境,使多种反应能够同时高效进行。虽然一些细胞器由脂质双分子层包裹,但其他细胞器则通过液-液相分离形成,如P颗粒和核仁。合成最小细胞被广泛用于研究包括细胞器形成在内的许多自然过程。在这项工作中,描述了表达抑制翻译的人工无膜细胞器的合成细胞。RGG-GFP-RGG是一种源自P颗粒的相分离蛋白,通过无细胞转录和翻译表达,形成能够隔离RNA并降低合成细胞中蛋白质表达的人工无膜细胞器。人工无膜细胞器的引入在合成细胞质内创造了复杂的微环境,并作为一种抑制合成细胞中蛋白质表达的工具发挥作用。合成细胞内区室的工程设计进一步加深了对天然细胞器进化和功能的理解,并促进了更复杂、多面的合成类生命系统的创建。
