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个人简介
As a biomacromolecule assembled from proteins and nucleic acids, phage can be genetically engineered to display foreign peptides site-specifically on the surface, enabling us to tune its surface chemistries to control its self-assembly behavior, recognition against mammalian cells, and interaction with synthetic or biological molecules/materials. My research integrates phage bioengineering, phage display, and nanotechnology to develop biomaterials, nanobiotechnology, nanomedicine, and regenerative medicine. Specifically, my research group is actively employing genetically engineered phages to develop novel nanobiomaterials, understand bio-nano interactions, deliver drugs for cancer therapy, direct stem cell fate, and induce tissue formation. For example, in the context of neurobiology, my research is focused on the use of nanotechnology in directing the fate of neural stem cells and regenerating nerve tissues.
研究兴趣
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Matter (2024)
Qichao Cheng, Yan He, Lantian Ma,Leihao Lu,Jiangfeng Cai,Zongpu Xu,Yajun Shuai,Quan Wan,Jie Wang,Chuanbin Mao,Mingying Yang
International journal of biological macromoleculesno. Pt 2 (2024): 130373-130373
CANCER LETTERS (2024): 216481-216481
Zhihui Liang,Hang Bao,Zhiying Yao,Min Li,Chen Chen,Lei Zhang, Huiyang Wang,Yiyang Guo,Yubin Ma,Xuecheng Yang,Ge Yu, Jiancheng Zhang,
Biomaterials (2024): 122569-122569
ACS APPLIED MATERIALS & INTERFACES (2024)
AGGREGATE (2024)
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