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Proton gradients from light-harvesting E coli control DNA assemblies for synthetic cells

Nat Commun. 2021-06; 
Kevin Jahnke, Noah Ritzmann, Julius Fichtler, Anna Nitschke, Yannik Dreher, Tobias Abele, Götz Hofhaus, Ilia Platzman, Rasmus R Schröder, Daniel J Müller, Joachim P Spatz, Kerstin Göpfrich
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Codon Optimization a codon-optimized NsXeR gene based on the amino-acid sequence25 with a 5ʹ NdeI and a 3ʹ BamHI restriction site was synthesized by GenScript (https://www.genscript.com) Get A Quote

摘要

Bottom-up and top-down approaches to synthetic biology each employ distinct methodologies with the common aim to harness living systems. Here, we realize a strategic merger of both approaches to convert light into proton gradients for the actuation of synthetic cellular systems. We genetically engineer E. coli to overexpress the light-driven inward-directed proton pump xenorhodopsin and encapsulate them in artificial cell-sized compartments. Exposing the compartments to light-dark cycles, we reversibly switch the pH by almost one pH unit and employ these pH gradients to trigger the attachment of DNA structures to the compartment periphery. For this purpose, a DNA triplex motif serves as a nanomechanical switch ... More

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