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Scalable Logic Circuits with Multiple Outputs and an Automatic Reset Function Based on DNAzyme-Mediated Branch Migration

Gu Shi, Chong Yan, Junhua Chen

2021Analytical Chemistry25 citationsDOI

Abstract

as the three inputs and three different fluorescent signals as the outputs. DNAzyme-guided cyclic cleavage reactions and DNA toehold-mediated strand branch migration were utilized to organize and connect nucleic acid probes for building the high-level logic architecture. The sequence communications between each circuit enable the logic network to work as a keypad lock, which is an information protection model at the molecular level. The multi-output mode was used to monitor the gradual unlocking process of the security system, from which one can determine which password is correct or not immediately. The autocatalytic cleavage of DNAzyme makes the biocomputing circuit feasible to realize the reset function automatically without external stimuli. Importantly, the logic platform is robust and can work effectively even in complex environmental samples.

Topics & Concepts

DeoxyribozymeLogic gateScalabilityElectronic circuitChemistrySequential logicReset (finance)Computer hardwareComputer scienceDNAAlgorithmElectrical engineeringEngineeringBiochemistryDatabaseFinancial economicsEconomicsAdvanced biosensing and bioanalysis techniquesBiosensors and Analytical DetectionDNA and Nucleic Acid Chemistry
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