Pan Li scite author profile

Pan Li

4Publications

31Citation Statements Received

512Citation Statements Given

How they've been cited

How they cite others

340

501

Affiliations

City University of Hong Kong

Publications

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Nucleic Acids and Their Analogues for Biomedical Applications

Wang

Chu

et al. 2022

Biosensors

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Nucleic acids are emerging as powerful and functional biomaterials due to their molecular recognition ability, programmability, and ease of synthesis and chemical modification. Various types of nucleic acids have been used as gene regulation tools or therapeutic agents for the treatment of human diseases with genetic disorders. Nucleic acids can also be used to develop sensing platforms for detecting ions, small molecules, proteins, and cells. Their performance can be improved through integration with other organic or inorganic nanomaterials. To further enhance their biological properties, various chemically modified nucleic acid analogues can be generated by modifying their phosphodiester backbone, sugar moiety, nucleobase, or combined sites. Alternatively, using nucleic acids as building blocks for self-assembly of highly ordered nanostructures would enhance their biological stability and cellular uptake efficiency. In this review, we will focus on the development and biomedical applications of structural and functional natural nucleic acids, as well as the chemically modified nucleic acid analogues over the past ten years. The recent progress in the development of functional nanomaterials based on self-assembled DNA-based platforms for gene regulation, biosensing, drug delivery, and therapy will also be presented. We will then summarize with a discussion on the advanced development of nucleic acid research, highlight some of the challenges faced and propose suggestions for further improvement.

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Biologically stable threose nucleic acid-based probes for real-time microRNA detection and imaging in living cells

Wang

Liu

et al. 2022

Molecular Therapy - Nucleic Acids

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We successfully fabricated threose nucleic acid (TNA)-based probes for real-time monitoring of target miRNA levels in cells. Our TNA probe is comprised of a fluorophore-labeled TNA reporter strand by partially hybridizing to a quencher-labeled TNA that is designed to be antisense to a target RNA transcript; this results in effective quenching of its fluorescence. In the presence of RNA targets, the antisense capture sequence of the TNA binds to targeted transcripts to form longer, thermodynamic stable duplexes. This binding event displaces the reporter strand from the quencher resulting in a discrete “turning-on” of the fluorescence. Our TNA probe is highly specific and selective toward target miRNA and is able to distinguish one to two base mismatches in the target RNA. Compared with DNA probes, our TNA probes exhibited favorable nuclease stability, thermal stability, and exceptional storage ability for long-term cellular studies. Our TNA probes are efficiently taken up by cells with negligible cytotoxicity for dynamic detection of target miRNAs and can also differentiate the distinct target miRNA expression levels in different cell lines. This work illuminates for using TNA as a building component to construct a biocompatible probe for miRNA detection that offers alternative molecular reagents for miRNA-related diagnostics.

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Cellular uptake, tissue penetration, biodistribution, and biosafety of threose nucleic acids: Assessing in vitro and in vivo delivery

Wang

Liu

et al. 2022

Materials Today Bio

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Specific and Sensitive in Vitro and in Vivo Nucleic Acid Detection and Imaging Using Graphene Oxide-Based Biosensors Composed of Unnatural Synthetic Threose Nucleic Acid as Capture Probes

Zhu

Liu

et al. 2023

Preprint

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Pan Li

Nucleic Acids and Their Analogues for Biomedical Applications

Biologically stable threose nucleic acid-based probes for real-time microRNA detection and imaging in living cells

Cellular uptake, tissue penetration, biodistribution, and biosafety of threose nucleic acids: Assessing in vitro and in vivo delivery

Specific and Sensitive in Vitro and in Vivo Nucleic Acid Detection and Imaging Using Graphene Oxide-Based Biosensors Composed of Unnatural Synthetic Threose Nucleic Acid as Capture Probes

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