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Authors Gräfe, D. ; Gaitzsch, J. ; Appelhans, D. ; Voit, B.
Title Cross-linked polymersomes as nanoreactors for controlled and stabilized single and cascade enzymatic reactions
Date 24.07.2014
Number 42524
Abstract Polymeric vesicles or polymersomes are one of the supramolecular entities at the leading edge of synthetic biology. These small compartments have shown to be feasible candidates as nanoreactors, especially for enzymatic reactions. Once cross-linked and equipped with pH sensitive material, the reaction can be switched off (pH 8) and on (pH 6) in accordance with the increased permeability of the polymersomes´ membranes under acidic conditions. Thus cross-linked and pH sensitive polymersomes provide a basis for pH controlled enzymatic reactions where no integrated transmembrane protein is needed for regulating the uptake and release of educts and products in polymersomes´ lumen. This pH-tunable working tool was further used to investigate their use in sequential enzymatic reactions (glucose oxidase and myoglobin) where enzymes are loaded in one common polymersome or in two different polymersomes. Crossing membranes and overcoming space distance between polymersomes was shown successfully, meaning that educts and products can be exchanged between enzyme´s compartments for successful enzymatic cascade reactions. Moreover the stabilizing effect of polymersomes is also observable by single enzymatic reactions as well as a sequence. This study is directed to establish robust and controllable polymersome nanoreactors for enzymatic reactions, describing a switch between an off (pH 8) and on (pH 6) state of polymersomes´ membrane permeability with no transmembrane protein needed for transmembrane exchange.
Publisher Nanoscale
Wikidata
Citation Nanoscale 6 (2014) 10752-10761
DOI https://doi.org/10.1039/C4NR02155J
Tags transfer radical polymerization responsive polymersomes membrane-permeability synthetic biology release system drug-delivery block length vesicles copolymer encapsulation

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