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Communication and Cross‐Regulation between Chemically Fueled Sender and Receiver Reaction Networks**

Mo Sun, Jie Deng, Andreas Walther

2022Angewandte Chemie International Edition25 citationsDOIOpen Access PDF

Abstract

Nature connects multiple fuel-driven chemical/enzymatic reaction networks (CRNs/ERNs) via cross-regulation to hierarchically control biofunctions for a tailored adaption in complex sensory landscapes. Herein, we introduce a facile example of communication and cross-regulation among two fuel-driven DNA-based ERNs regulated by a concatenated RNA transcription regulator. ERN1 ("sender") is designed for the fuel-driven promoter formation for T7 RNA polymerase, which activates RNA transcription. The produced RNA can deactivate or activate DNA in ERN2 ("receiver") by toehold-mediated strand displacement, leading to a communication between two ERNs. The RNA from ERN1 can repress or promote the fuel-driven state of ERN2; ERN2 in turn feedbacks to regulate the lifetime of ERN1. Furthermore, the incorporation of RNase H allows for RNA degradation and enables the autonomous recovery of ERN2. We believe that concatenation of multiple CRNs/ERNs provides a basis for the design of more elaborate autonomous regulatory mechanisms in systems chemistry and synthetic biology.

Topics & Concepts

Synthetic biologyCommunication sourceRNATranscription (linguistics)ChemistryDNARNase PRegulatorComputational biologyCell biologyComputer scienceBiologyBiochemistryTelecommunicationsGeneLinguisticsPhilosophyRNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyDNA and Nucleic Acid Chemistry
Communication and Cross‐Regulation between Chemically Fueled Sender and Receiver Reaction Networks** | Litcius