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Enzyme-free and DNA-based universal platform for the construction of various logic devices based on graphene oxide and G-quadruplex
Affiliation:1. School of Computer Science, Shaanxi Normal University, Xi’an, 710119, China;2. College of Life Sciences, Shaanxi Normal University, Xi’an, 710119, China;1. Key laboratory of High Confidence Software Technologies, Ministry of Education, Peking University, Beijing 100871, PR China;2. Equipment Academy of Air Force, Beijing 100085, PR China;1. Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Tianjin, 300071, China;2. Department of Chemistry, Tianjin University, Tianjin, 300072, China;3. Tianjin Key Laboratory of Biosensing and Molecular Recognition, College of Chemistry, Nankai University, Tianjin, 300071, China;1. Faculty of Resource Science and Technology, Universiti Malaysia Sarawak, 94300 Sarawak, Malaysia;2. School of Public Health, The University of Hong Kong, Sassoon Road, Pokfulam, Hong Kong;3. Department of Science and Environmental Studies, The Education University of Hong Kong, Tai Po Campus, NT, Hong Kong
Abstract:In the fields of biocomputing and biomolecular, DNA molecules are applicable to be regarded as data of logical computing platform that uses elaborate logic gates to perform a variety of tasks. Graphene oxide (GO) is a type of novel nanomaterial, which brings new research focus to materials science and biosensors due to its special selectivity and excellent quenching ability. G-quadruplex as a unique DNA structure stimulates the intelligent application of DNA assembly on the strength of its exceptional binding activity. In this paper, we report a universal logic device assisted with GO and G-quadruplex under an enzyme-free condition. Integrated with the quenching ability of GO to the TAMRA (fluorophore, Carboxytetramethylrhodamine) and the enhancement of fluorescence intensity produced by the peculiar binding of G-quadruplex to the NMM (N-methylmesoporphyrin IX), a series of basic binary logic gates (AND. OR. INHIBIT. XOR) have been designed and verified through biological experiments. Given the modularity and programmability of this strategy, two advanced logic gates (half adder and half subtractor) were realized on the basis of the same work platform. The fluorescence signals generated from different input combinations possessed satisfactory results, which provided proof of feasibility. We believe that the proposed universal logical platform that operates at the nanoscale is expected to be utilized for future applications in molecular computing as well as disease diagnosis.
Keywords:Graphene oxide  G-quadruplex  Basic molecular logic gate  Half adder  Half subtractor  Enzyme-free and universal platform
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