Litcius/Paper detail

Regulating Nucleic Acid Catalysis Using Active Droplets

Anna-Lena Holtmannspötter, Corbin Machatzke, Christian Begemann, Elia Salibi, Carsten Donau, Fabian Späth, Job Boekhoven, Hannes Mutschler

2024Angewandte Chemie International Edition20 citationsDOIOpen Access PDF

Abstract

Cells use transient membraneless organelles to regulate biological reaction networks. For example, stress granules selectively store mRNA to downregulate protein expression in response to heat or oxidative stress. Models mimicking this active behavior should be established to better understand in vivo regulation involving compartmentalization. Here we use active, complex coacervate droplets as a model for membraneless organelles to spatiotemporally control the activity of a catalytic DNA (DNAzyme). Upon partitioning into these peptide-RNA droplets, the DNAzyme unfolds and loses its ability to catalyze the cleavage of a nucleic acid strand. We can transiently pause the DNAzyme activity upon inducing droplet formation with fuel. After fuel consumption, the DNAzyme activity autonomously restarts. We envision this system could be used to up and downregulate multiple reactions in a network, helping understand the complexity of a cell's pathways. By creating a network where the DNAzyme could reciprocally regulate the droplet properties, we would have a powerful tool for engineering synthetic cells.

Topics & Concepts

DeoxyribozymeChemistryNucleic acidCompartmentalization (fire protection)RibozymeCoacervateOrganelleBiophysicsDownregulation and upregulationNanotechnologyCell biologyRNADNABiochemistryBiologyGeneMaterials scienceEnzymeAdvanced biosensing and bioanalysis techniquesModular Robots and Swarm IntelligenceFuel Cells and Related Materials