
Chengqi Yi
@yichengqi
Professor at Peking University.
Yi lab is interested in RNA modifications, Epitranscriptomics and Genome Editing.
Welcome to communicate with us!
ID: 1379814593589960710
http://yilab.org.cn 07-04-2021 15:13:44
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272 Followers
80 Following


I’m super excited to start my new journey as Gene Regulation Observatory Fellow Broad Institute and a Junior Fellow of the Society of Fellows Harvard University. I will lead an independent group to study the principles and mechanisms of genome organization underlying development, disease, and evolution.

Absolute quantification of single-base m⁶A methylation in the mammalian transcriptome using GLORI - Peking University go.nature.com/3zmJj9p




Always double check your work. Huanan Herman Zhao discusses extensive off-target editing in the nuclear genome induced by a mitochondrial base editor. nature Chengqi Yi Peking University #JRNLclub jrnlclub.org/research-films…

Always double check your work. Huanan Herman Zhao discusses extensive off-target editing in the nuclear genome induced by a mitochondrial base editor. nature Chengqi Yi #JRNLclub jrnlclub.org/research-films…

Congratulations to Chuan He, 2023 Wolf Prize laureate in Chemistry! UChicago Chemistry The University of Chicago


🚨 New #NRMCBReview Alert! 🚨 "Regulation and functions of non-m6A mRNA modifications" by Hanxiao Sun, Kai Li, Cong Liu and Chengqi Yi This Review discusses the emerging functional mechanisms and roles of various non-m6A mRNA modifications. 🔗go.nature.com/3pLzvUU





Honored that our RNA base editor "RESTART" has been selected as the best technology of Molecular Cell 2023. Huge thanks to my mentor Prof. Yi (Chengqi Yi). …bestof2023.elsevierdigitaledition.com/main/119/index…



SIMPLE-seq Nature Biotechnology developed by Dr. Dongsheng Bai Dongsheng Bai et al. that simultaneously detects 5mC and 5hmC at the single-cell and single-molecule level! Jointly published by Prof. Chenxu Zhu Chenxu Zhu from Cornell University and us. nature.com/articles/s4158…


Near-cognate tRNAs increase the efficiency and precision of pseudouridine-mediated readthrough of premature termination codons - Peking University go.nature.com/3ToILdE

