Ziting Chen
ShanghaiTech University
8 Papers
10 Citations
Ziting Chen is an academic researcher from ShanghaiTech University. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 1, co-authored 1 publications. Previous affiliations of Ziting Chen include Chinese Academy of Sciences.
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Papers
Remediate black-odorous sediment by slow-release calcium nitrate: Migration, transformation and microbial succession
TL;DR: In this paper , a method of tube-dosing distribution points was proposed by explored the migration and transformation laws of N-S-Fe in the vertical and horizontal directions of the sediment and the changes in the microbial community structure after the fixed-point dosing of calcium nitrate in this study.
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Proximal Single-Stranded RNA Destabilizes Human Telomerase RNA G-Quadruplex and Induces Its Distinct Conformers.
Shasha Ye,Shasha Ye,Ziting Chen,Ziting Chen,Xia Zhang,Fangfang Li,Lijuan Guo,Lijuan Guo,Xi-Miao Hou,Wen-Qiang Wu,Jian Wang,Cong Liu,Ke Zheng,Bo Sun +13 more
TL;DR: In this paper, the stability and conformation of an RG4-forming sequence identified near the end of human telomerase RNA was examined and it was found that a proximal single-stranded (ss) RNA significantly impairs RG4 stability at physiological K+ concentrations, resulting in a reduced RG4 rupture force of ∼ 24.4 pN and easier accessibility of the G-rich sequence.
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Endometrial glycogen metabolism during early pregnancy in mice
TL;DR: Glycogen levels decreased in the uterine epithelium before implantation, indicating that it could be used to support preimplantation embryos, and decidualization resulted in a dramatic increase in stromal glycogen levels, suggesting it may have an important, but yet undefined, role in pregnancy.
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Discrete RNA–DNA hybrid cleavage by the EXD2 exonuclease pinpoints two rate‐limiting steps
Xinshuo Jia,Yanan Li,Teng Wang,Lulu Bi,Lijuan Guo,Ziting Chen,Xia Zhang,Shasha Ye,Jia Chen,Bei Yang,Bo Sun +10 more
TL;DR: In this paper , a single-molecule fluorescence resonance energy transfer (smFRET) approach was used to investigate the similarities and discrepancies between exoribonuclease and exodeoxyribonuclease activities.
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