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Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems

Shuai Jiang, Lucas Caire da Silva, Tsvetomir Ivanov, Milagro Mottola, Katharina Landfester

2021Angewandte Chemie19 citationsDOIOpen Access PDF

Abstract

Abstract In eukaryotic cells, enzymes are compartmentalized into specific organelles so that different reactions and processes can be performed efficiently and with a high degree of control. In this work, we show that these features can be artificially emulated in robust synthetic organelles constructed using an enzyme co‐compartmentalization strategy. We describe an in situ encapsulation approach that allows enzymes to be loaded into silica nanoreactors in well‐defined compositions. The nanoreactors can be combined into integrated systems to produce a desired reaction outcome. We used the selective enzyme co‐compartmentalization and nanoreactor integration to regulate competitive cascade reactions and to modulate the kinetics of sequential reactions involving multiple nanoreactors. Furthermore, we show that the nanoreactors can be efficiently loaded into giant polymer vesicles, resulting in multi‐compartmentalized microreactors.

Topics & Concepts

NanoreactorCompartmentalization (fire protection)Artificial cellMicroreactorCascade reactionPolymersomeChemistryArtificial enzymeNanotechnologyOrganelleCascadeKineticsPolymerEnzymeBiophysicsNanoparticleMaterials scienceCatalysisMembraneBiochemistryBiologyChromatographyOrganic chemistryCopolymerQuantum mechanicsAmphiphilePhysicsPhotosynthetic Processes and MechanismsOrigins and Evolution of LifePhotoreceptor and optogenetics research
Synthetic Silica Nano‐Organelles for Regulation of Cascade Reactions in Multi‐Compartmentalized Systems | Litcius