Nonspherical Coacervate Shapes in an Enzyme-Driven Active System
TLDR
This work presents and characterize a system of enzymatically active coacervates containing spermine, RNA, free nucleotides, and the template independent RNA (de)polymerase PNPase, and finds that these RNA coACervates display transient nonspherical shapes, and systematically study how P NPase concentration, UDP concentration, and temperature affect coacervation morphology.Abstract:
Coacervates are polymer-rich droplets that form through liquid-liquid phase separation in polymer solutions. Liquid-liquid phase separation and coacervation have recently been shown to play an important role in the organization of biological systems. Such systems are highly dynamic and under continuous influence of enzymatic and chemical processes. However, it is still unclear how enzymatic and chemical reactions affect the coacervation process. Here, we present and characterize a system of enzymatically active coacervates containing spermine, RNA, free nucleotides, and the template independent RNA (de)polymerase PNPase. We find that these RNA coacervates display transient nonspherical shapes, and we systematically study how PNPase concentration, UDP concentration, and temperature affect coacervate morphology. Furthermore, we show that PNPase localizes predominantly into the coacervate phase and that its depolymerization activity in high-phosphate buffer causes coacervate degradation. Our observations of nonspherical coacervate shapes may have broader implications for the relationship between (bio)chemical activity and coacervate biology.read more
Citations
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Coacervates as models of membraneless organelles
TL;DR: Five aspects – physical and chemical properties, hierarchical organization, uptake selectivity, formation dynamics, and maturation – that are of particular interest are reviewed and how useful coacervates are are are discussed to better understand these aspects of MLOs.
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Enzymatic degradation of liquid droplets of DNA is modulated near the phase boundary.
TL;DR: It is found that enzymes are able to penetrate the droplets when the liquid is poised near the phase boundary, enhancing the degradation rate and, in certain cases, causing internal bubbling, pointing to a complex interplay of phase stability and solute transport in liquid–liquid phase-separating macromolecular systems.
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Can coacervation unify disparate hypotheses in the origin of cellular life
TL;DR: Evidence that coacervation could have played a unique role during the origin of life based on its ability to form from a range of different prebiotically relevant molecules and partition solutes and maintain the solute’s partition coefficient during enzymatic reactions is provided.
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Designer condensates: a toolkit for the biomolecular architect.
TL;DR: In this article, the authors present FASE as the synthesis of the existing sticker-spacer framework, which explains the physical driving forces underlying phase separation, with quintessential principles of Scandinavian design and serves both as a designer condensates catalogue and construction manual for the aspiring biomolecular architect.
Journal ArticleDOI
Living material assembly of bacteriogenic protocells
Hiroshi Kitagawa,Zoltán Griger +1 more
TL;DR: In this article , a living material assembly process based on the capture and on-site processing of spatially segregated bacterial colonies within individual coacervate microdroplets was developed for the endogenous construction of membrane-bounded, molecularly crowded, and compositionally, structurally and morphologically complex synthetic cells.
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