Author: Chen, Yuan; Sundah, Noah R.; Ho, Nicholas R. Y.; Natalia, Auginia; Liu, Yu; Miow, Qing Hao; Wang, Yu; Beh, Darius L. L.; Chew, Ka Lip; Chan, Douglas; Tambyah, Paul A.; Ong, Catherine W. M.; Shao, Huilin
Title: Collaborative Equilibrium Coupling of Catalytic DNA Nanostructures Enables Programmable Detection of SARSâ€CoVâ€2 Cord-id: ah4lx24k Document date: 2021_7_18
ID: ah4lx24k
Snippet: Accessible and adaptable nucleic acid diagnostics remains a critical challenge in managing the evolving COVIDâ€19 pandemic. Here, an integrated molecular nanotechnology that enables direct and programmable detection of SARSâ€CoVâ€2 RNA targets in native patient specimens is reported. Termed synergistic coupling of responsive equilibrium in enzymatic network (SCREEN), the technology leverages tunable, catalytic molecular nanostructures to establish an interconnected, collaborative architecture
Document: Accessible and adaptable nucleic acid diagnostics remains a critical challenge in managing the evolving COVIDâ€19 pandemic. Here, an integrated molecular nanotechnology that enables direct and programmable detection of SARSâ€CoVâ€2 RNA targets in native patient specimens is reported. Termed synergistic coupling of responsive equilibrium in enzymatic network (SCREEN), the technology leverages tunable, catalytic molecular nanostructures to establish an interconnected, collaborative architecture. SCREEN mimics the extraordinary organization and functionality of cellular signaling cascades. Through programmable enzyme–DNA nanostructures, SCREEN activates upon interaction with different RNA targets to initiate multiâ€enzyme catalysis; through systemâ€wide favorable equilibrium shifting, SCREEN directly transduces a single target binding into an amplified electrical signal. To establish collaborative equilibrium coupling in the architecture, a computational model that simulates all reactions to predict overall performance and optimize assay configuration is developed. The developed platform achieves direct and sensitive RNA detection (approaching singleâ€copy detection), fast response (assay reaction is completed within 30 min at room temperature), and robust programmability (across different genetic loci of SARSâ€CoVâ€2). When clinically evaluated, the technology demonstrates robust and direct detection in clinical swab lysates to accurately diagnose COVIDâ€19 patients.
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