Sin-Cih Sun scite author profile

To date, the COVID-19 pandemic has claimed over 1 million human lives, infected another 50 million individuals and wreaked havoc on the global economy. The crisis has spurred the ongoing development of drugs targeting its etiological agent, the SARS-CoV-2. Targeting relevant protein-protein interaction interfaces (PPIIs) is a viable paradigm for the design of antiviral drugs and enriches the targetable chemical space by providing alternative targets for drug discovery. In this review, we will provide a comprehensive overview of the theory, methods and applications of PPII-targeted drug development towards COVID-19 based on recent literature. We will also highlight novel developments, such as the successful use of non-native protein-protein interactions as targets for antiviral drug screening. We hope that this review may serve as an entry point for those interested in applying PPIIs towards COVID-19 drug discovery and speed up drug development against the pandemic.

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Biosensors with Built-In Biomolecular Logic Gates for Practical Applications

Lai

Sun

Chuang

2014

Biosensors

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Molecular logic gates, designs constructed with biological and chemical molecules, have emerged as an alternative computing approach to silicon-based logic operations. These molecular computers are capable of receiving and integrating multiple stimuli of biochemical significance to generate a definitive output, opening a new research avenue to advanced diagnostics and therapeutics which demand handling of complex factors and precise control. In molecularly gated devices, Boolean logic computations can be activated by specific inputs and accurately processed via bio-recognition, bio-catalysis, and selective chemical reactions. In this review, we survey recent advances of the molecular logic approaches to practical applications of biosensors, including designs constructed with proteins, enzymes, nucleic acids, nanomaterials, and organic compounds, as well as the research avenues for future development of digitally operating “sense and act” schemes that logically process biochemical signals through networked circuits to implement intelligent control systems.

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Electropolymerised-hemin-catalysed reduction and analysis of tartrazine and sunset yellow

Sun

Hsieh

Chuang

2019

Electrochimica Acta

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A mutation-resistant deoxyribozyme OR gate for highly selective detection of viral nucleic acids

et al. 2017

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Highly selective probes hybridize only to fully complementary DNA or RNA sequences and, therefore, often fail to recognize mutated viral genomes. Here we designed a probe that possesses two seemingly incompatible properties: it tolerates some point mutations in genome, while it remains selective towards others. An OR deoxyribozyme logic gate was designed to fluorescently report the sequences of enterovirus 71 (EV71) covering ~90% of all known EV71 strains. Importantly, sequences of closely related coxsackieviruses that differed by single nucleotides were reliably differentiated in 7 out of 8 cases.

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Multi-labeled electrochemical sensor for cost-efficient detection of single nucleotide substitutions in folded nucleic acids

Sun

Dou

Chuang

et al. 2019

Sensors and Actuators B: Chemical

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Sin-Cih Sun

Targeting protein-protein interaction interfaces in COVID-19 drug discovery

Biosensors with Built-In Biomolecular Logic Gates for Practical Applications

Electropolymerised-hemin-catalysed reduction and analysis of tartrazine and sunset yellow

A mutation-resistant deoxyribozyme OR gate for highly selective detection of viral nucleic acids

Multi-labeled electrochemical sensor for cost-efficient detection of single nucleotide substitutions in folded nucleic acids

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