Oocyte-Specific Homeobox 1, Obox1, Facilitates Reprogramming by Promoting Mesenchymal-to-Epithelial Transition and Mitigating Cell Hyperproliferation
Li Wu(Chinese Academy of Sciences), Shaorong Gao(Shanghai First Maternity and Infant Hospital), Lan Kang(Tongji University), Mingyue Guo(University of Electronic Science and Technology of China), Yan Bi(Nanjing Drum Tower Hospital), Yanhong Zhao(Chinese Academy of Sciences), Rongrong Le(Shanghai First Maternity and Infant Hospital), You Wu(Zhejiang Chinese Medical University), Xiaochen Kou(Shanghai First Maternity and Infant Hospital), Hong Wang(Shandong University), Yixuan Wang(Shanghai First Maternity and Infant Hospital), Kang Chen(Nanyang Technological University), Han Li(Shanghai First Maternity and Infant Hospital), Yu Dong(Shanghai First Maternity and Infant Hospital), Xia Chen(Shanghai First Maternity and Infant Hospital), Bing Peng(Central South University), Zhenzhen Hou(Shanghai First Maternity and Infant Hospital)
Cited by 16
Related Papers
Nuclear m6A reader YTHDC1 regulates the scaffold function of LINE1 RNA in mouse ESCs and early embryos
|Protein & Cell|2021|169
Oxidative stress, the blood–brain barrier and neurodegenerative diseases: The critical beneficial role of dietary antioxidants
|Acta Pharmaceutica Sinica B|2023|147
Precise temporal regulation of Dux is important for embryo development
|Cell Research|2019|126
Facile synthesis of Fe3O4@Cu(OH)2 composites and their arsenic adsorption application
|Chemical Engineering Journal|2016|123
Mammalian target of rapamycin (mTOR) is involved in the neuronal differentiation of neural progenitors induced by insulin
|Molecular and Cellular Neuroscience|2008|106