Junyang Zhong scite author profile

Junyang Zhong

5Publications

29Citation Statements Received

131Citation Statements Given

How they've been cited

How they cite others

222

131

Affiliations

State Key Laboratory of Respiratory Disease, Guangzhou Medical University, Second Affiliated Hospital of Guangzhou Medical University

Publications

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Optical Microfiber with a Gold Nanorods–Black Phosphorous Nanointerface: An Ultrasensitive Biosensor and Nanotherapy Platform

Zhou

Chen

et al. 2022

Anal. Chem.

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The detection and therapy of cancers in the early stage significantly alleviate the associated dangers. Optical devices offer new opportunities for these early measures. However, the clinical translation of the existing methods is severely hindered by their relatively low sensitivity or unclear physiological metabolism. Here, an optical microfiber sensor with a drug loading gold nanorod–black phosphorous nanointerface, as an ultrasensitive biosensor and nanotherapy platform, is developed to meet the early-stage requirement. With interface sensitization and functionalization of the hybrid nanointerface, the microfiber sensor presents an ultrahigh sensing performance, achieving the selective detection of the HER2 biomarker with limits of detection of 0.66 aM in buffer solution and 0.77 aM in 10% serum. It can also distinguish breast cancer cells from other cells in the early stage. Additionally, enabled by the interface, the optical microfiber is able to realize cellular nanotherapy, including photothermal/chemotherapy with pump laser coupling after diagnosis, and evaluate therapy results in real time. The immobilization of the interface on the optical microfiber surface prevents the damage to normal cells induced by nanomaterial enrichment, making the device more efficient and intelligent. This study opens up a new avenue for the development of smart optical platforms for sensitive biosensing and precision therapy.

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Nanoformulations mediated metastasis brake in cancer therapy via photodynamic-enhanced ferroptosis and regional inflammation management

Huang

Wang²,

Zhou³

et al. 2023

Chemical Engineering Journal

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Guanidinylated Cyclic Synthetic Polypeptides Can Effectively Deliver siRNA by Mimicking the Biofunctions of Both Cell-Penetrating Peptides and Nuclear Localization Signal Peptides

Jiang

Zhong

et al. 2021

ACS Macro Lett.

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Preventing endosomal entrapment of gene/vector nanocomplexes (NCs) remains a challenge for highly effective siRNA delivery. To address this problem, guanidinylated cyclic synthetic polypeptides (GCSPs) were synthesized using an efficient and easy method. GCSPs can condense siRNAs into NCs with an encapsulation efficiency of approximately 90%, over twice the effectiveness of Lipofectamine2000 (Lipo2000). The NCs can also mediate luciferase knockdown in HeLa cells with a silencing efficiency of 80%, nearly 2- and 1.1-fold that of Lipo2000 and PEI, respectively. More importantly, the NCs can enter cells by mimicking the bioactivity of cell-penetrating peptides (CPPs). NCs can also exert a nuclear localized function similar to nuclear localization signal peptides (NLSPs). Both biofunctions are helpful for preventing the common endosomal entrapment of NCs and greatly enhance the efficiency of siRNA delivery.

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Synthesis of AIE polyethylene glycol-block-polypeptide bioconjugates and cell uptake assessments of their self-assembled nanoparticles

Zhong

Quan

et al. 2019

Dyes and Pigments

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Coassembling functionalized glycopolypeptides to prepare pH-responsive self-indicating nanocomplexes to manipulate self-assembly/drug delivery and visualize intracellular drug release

Zhong

Quan

Zhao

et al. 2022

Biomaterials Advances

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Junyang Zhong

Optical Microfiber with a Gold Nanorods–Black Phosphorous Nanointerface: An Ultrasensitive Biosensor and Nanotherapy Platform

Nanoformulations mediated metastasis brake in cancer therapy via photodynamic-enhanced ferroptosis and regional inflammation management

Guanidinylated Cyclic Synthetic Polypeptides Can Effectively Deliver siRNA by Mimicking the Biofunctions of Both Cell-Penetrating Peptides and Nuclear Localization Signal Peptides

Synthesis of AIE polyethylene glycol-block-polypeptide bioconjugates and cell uptake assessments of their self-assembled nanoparticles

Coassembling functionalized glycopolypeptides to prepare pH-responsive self-indicating nanocomplexes to manipulate self-assembly/drug delivery and visualize intracellular drug release

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