Fei Zeng
13 Papers
Fei Zeng is an academic researcher. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 5, co-authored 7 publications.
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Papers
Activation of the cGAS-STING pathway combined with CRISPR-Cas9 gene editing triggering long-term immunotherapy.
Qin Lu,Rui Chen,Shiyu Du,Chao Chen,Yongchun Pan,Xiaowei Luan,Jingjing Yang,Fei Zeng,Bangshun He,Xin Han,Yujun Song +10 more
TL;DR: In this paper , a nanoplatform (HMnMPH) was used for dual activation of cGAS-STING pathway in combination with CRISPR-Cas9 gene editing to silence programmed death ligand 1 (PD-L1) to trigger long-term immunotherapy.
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Hollow covalent organic framework-sheltering CRISPR/Cas12a as an in-vivo nanosensor for ATP imaging.
Yongchun Pan,Xiaowei Luan,Fei Zeng,Qin Xu,Zekun Li,Yanfeng Gao,Xinli Liu,Xueqing Li,Xin Han,Jia Wei Shen,Yujun Song +10 more
TL;DR: In this paper , a hollow covalent organic framework (COF)-sheltering CRISPR/aptamer-based sensor (h-CCS) was introduced for ATP imaging in living animals.
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Nanocatalysis meets microfluidics: A powerful platform for sensitive bioanalysis
Yanfeng Gao,Yanping Wang,Yuzhen Wang,Pascale Magaud,Yu-Ting Liu,Fei Zeng,Jingjing Yang,Lucien Baldas,Yujun Song +8 more
TL;DR: In this paper , the authors summarize the recent developments in nanocatalysis-assisted bioanalytical microfluidic devices involving extensively studied catalytically active nanomaterials, widely used micro fluididic approaches, commonly adopted detection techniques, and their analytical applications for various biological targets, including small molecules, proteins, nucleic acids, cells, and bacteria.
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Microfluidic Synthesis of CuH Nanoparticles for Antitumor Therapy through Hydrogen-Enhanced Apoptosis and Cuproptosis.
Guanzhong He,Yongchun Pan,Fei Zeng,Shurong Qin,Xiaowei Luan,Qianglan Lu,Chen Xie,Pengfei Hu,Yanfeng Gao,Jingjing Yang,Bangshun He,Yujun Song +11 more
TL;DR: Microfluidic synthesis of CuH nanoparticles for antitumor therapy through hydrogen-enhanced apoptosis and Cuproptosis generates Cu+ and H2 simultaneously, inducing apoptosis and cuproptosis for tumor cell killing and inhibition of lung metastases.
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In-Tumor Biosynthetic Construction of Upconversion Nanomachines for Precise Near-Infrared Phototherapy.
Yongchun Pan,Xiaowei Luan,Yanfeng Gao,Fei Zeng,Xuyuan Wang,Dongtao Zhou,Wanqi Li,Yuzhen Wang,Bangshun He,Yujun Song +9 more
TL;DR: In this paper , a cancer-motivated upconversion nanomachine (UCNM) based on porous up-conversion nanoparticles (p-UCNPs) was designed for precise phototherapy.
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