Junlin Xing
Fourth Military Medical University
4 Papers
1 Citations
Junlin Xing is an academic researcher from Fourth Military Medical University. The author has contributed to research in topics: Oligodendrocyte & Remyelination. The author has an hindex of 2, co-authored 4 publications.
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Papers
Ten-eleven translocation 1 mediated-DNA hydroxymethylation is required for myelination and remyelination in the mouse brain
Ming Zhang,Jian Wang,Kaixiang Zhang,Guozhen Lu,Yuming Liu,Keke Ren,Wenting Wang,Dazhuan Xin,Lingli Xu,Honghui Mao,Junlin Xing,Xingchun Gao,Weilin Jin,Kalen P. Berry,Katsuhiko Mikoshiba,Katsuhiko Mikoshiba,Shengxi Wu,Q. Richard Lu,Xianghui Zhao +18 more
TL;DR: In this paper, the authors identify a genome-wide and locus-specific DNA hydroxymethylation landscape shift during differentiation of oligodendrocyte-progenitor cells (OPC).
TET1-DNA Hydroxymethylation Mediated Oligodendrocyte Homeostasis is Required for CNS Myelination and Remyelination
Ming Zhang,Jian Wang,Kaixiang Zhang,Guozhen Lu,Keke Ren,Wenting Wang,Junlin Xing,Xingchun Gao,Weilin Jin,Honghui Mao,Lingli Xu,Kalen P. Berry,Hehuang Xie,Katsuhiko Mikoshiba,Shengxi Wu,Q. Richard Lu,Xianghui Zhao +16 more
TL;DR: In this article, the authors detected a genome-wide and locus-specific DNA hydroxymethylation landscape shift during oligodendrocyte-progenitor (OPC) differentiation.
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Ten-eleven translocation 1 Mediated-DNA Hydroxymethylation is Required for Myelination and Remyelination in the Mouse Brain
Ming Zhang,Jian Wang,Kaixiang Zhang,Guozhen Lu,Yuming Liu,Keke Ren,Wenting Wang,Dazhuan Xin,Lingli Xu,Honghui Mao,Junlin Xing,Xingchun Gao,Weilin Jin,Kalen P. Berry,Katsuhiko Mikoshiba,Shengxi Wu,Q. Richard Lu,Xianghui Zhao +17 more
TL;DR: In this paper, the authors identify a genome-wide and locus-specific DNA hydroxymethylation landscape shift during differentiation of oligodendrocyte-progenitor cells (OPC).
TET1-mediated Oligodendrocyte Homeostasis Regulates Myelination and Synaptic Functions
Ming Zhang,Jue Wang,Kaixiang Zhang,Guozhen Lu,Lingli Xu,Keke Ren,Wenting Wang,Yuzhen Liu,Junlin Xing,X. Gao,Weilin Jin,Kalen P. Berry,Hehuang Xie,Shengxi Wu,Q. R. Lu,Xianghui Zhao +15 more
TL;DR: The results suggest that stage-specific TET1-mediated epigenetic programming of oligodendrocyte homeostasis is required for proper myelination and repair as well as neuronal physiology in cell-autonomous and non-cell-aut autonomous mechanisms, respectively.