Juan Jin
Tsinghua University
8 Papers
17 Citations
Juan Jin is an academic researcher from Tsinghua University. The author has contributed to research in topics: Dendrimer & DNA origami. The author has an hindex of 6, co-authored 8 publications. Previous affiliations of Juan Jin include Chinese Academy of Sciences & University of Oxford.
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Papers
Rapid formation of a supramolecular polypeptide-DNA Hydrogel for in situ three-dimensional multilayer bioprinting
Chuang Li,Alan Faulkner-Jones,Alison R. Dun,Juan Jin,Ping Chen,Yongzheng Xing,Zhongqiang Yang,Zhibo Li,Wenmiao Shu,Dongsheng Liu,Rory R. Duncan +10 more
TL;DR: 3D cell printing was demonstrated to fabricate live-cell-containing structures with normal cellular functions and the hydrogel becomes an ideal biomaterial for 3D bioprinting to produce designable 3D constructs for applications in tissue engineering.
A triggered DNA hydrogel cover to envelop and release single cells.
Juan Jin,Juan Jin,Yongzheng Xing,Yanli Xi,Xueli Liu,Tao Zhou,Xinxin Ma,Zhongqiang Yang,Shutao Wang,Dongsheng Liu +9 more
TL;DR: An enzyme-triggered permeable DNA hydrogel cover to envelop and release single cells in microwells provides a general method to culture, monitor, and manipulate single cells, and has potential applications in cell patterning and studying cell communication.
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Study of pH-induced folding and unfolding kinetics of the DNA i-motif by stopped-flow circular dichroism.
Chun Chen,Ming Li,Yongzheng Xing,Yingmei Li,Carl-Christian Joedecke,Juan Jin,Zhongqiang Yang,Dongsheng Liu +7 more
TL;DR: Using the stopped-flow circular dichroism (SFCD) technique, the kinetics of the pH-induced folding and unfolding process of the DNA i-motif is investigated and it is found that the molecule can fold or unfold on a time scale of 100 ms when the solution pH is changed.
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Functionalization of DNA-dendron supramolecular fibers and application in regulation of Escherichia coli association.
Fen Wu,Juan Jin,Liying Wang,Pengfei Sun,Huanxiang Yuan,Zhongqiang Yang,Guosong Chen,Qing-Hua Fan,Dongsheng Liu +8 more
TL;DR: Results not only demonstrate the ability of DNA-dendron fibers in reversibly associating E. coli but also illustrate their potential to be an easily modified multivalent supramolecular platform.
13
Patent
Polypeptide-DNA hydrogel and preparation method
Dongsheng Liu,Zhibo Li,Chuang Li,Ping Chen,Zhongqiang Yang,Juan Jin,Yongzheng Xing +6 more
- 09 Jul 2014
TL;DR: In this paper, a polypeptide-DNA hydrogel is presented, where a single-chain DNA molecule enables covalent binding on the polyprotein, and a double chain DNA molecule has two cohesive ends.
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