Professor | Wen Chen | Asia Growth Partners

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Name	Wen Chen
Contact Information	chenwen1102@163.com
Language ability	Chinese, English
Province	Shanghai

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Name

Wen Chen

Contact Information

chenwen1102@163.com

Language ability

Chinese, English

Province

Shanghai

University/Lab Affiliation and Title	Tongji University
Faculty	Life Sciences
Academic Background & Achievements	2010 - PhD: Chinese Academy of Sciences (State Key Laboratory of Stem Cell and Reproductive Biology) 2011 - Recognized as Outstanding Young Talent at Tongji University 2015 - Selected for the Young Teacher Talent Training Program at Tongji University
Work Experience	2017 - Present: Tongji University, School of Life Sciences and Technology, Associate Professor / Master's Supervisor

University/Lab Affiliation and Title

Tongji University

Faculty

Life Sciences

Academic Background & Achievements

2010 - PhD: Chinese Academy of Sciences (State Key Laboratory of Stem Cell and Reproductive Biology)
2011 - Recognized as Outstanding Young Talent at Tongji University
2015 - Selected for the Young Teacher Talent Training Program at Tongji University

Work Experience

2017 - Present: Tongji University, School of Life Sciences and Technology, Associate Professor / Master's Supervisor

Areas of Focus	Stem cells and fetal-origin neurological diseases
Publications	Fetal growth restriction impairs hippocampal neurogenesis and cognition via Tet1 in offspring, Chen W, Liu N, Shen S, Zhu W, Qiao J, Chang S, Dong J, Bai M, Ma L, Wang S, Jia W, Guo X, Li A, Xi J, Jiang C, Kang J, 2021 Sirt6 promotes DNA End Joining in iPSCs derived from old mice, Chen W, Liu N, Zhang H, Zhang H, Qiao J, Jia W, Zhu S, Mao Z, Kang J, 2017 NRG1 knockdown rescues PV interneuron GABAergic maturation deficits and schizophrenia behaviors in fetal growth restriction mice, Dong J, Chen W, Liu N, Chang S, Zhu W, Kang J, 2022 Sirt7-p21 signaling pathway mediates glucocorticoid induced inhibition of mouse neural stem cell proliferation, Alnoud MAH, Chen W, Liu N, Zhu W, Qiao J, Chang S, Wu Y, Wang S, Yang Y, Sun Q, Kang J, 2021 MicroRNA-153 improves the neurogenesis of neural stem cells and enhances the cognitive ability of aged mice through the notch signaling pathway, Qiao J, Zhao J, Chang S, Sun Q, Liu N, Dong J, Chen Y, Yang D, Ye D, Liu X, Yu Y, Chen W, Zhu S, Wang G, Jia W, Xi J, Kang J, 2020 N6-Methyladenosine modification of lincRNA 1281 is critically required for mESC differentiation potential, Yang D, Qiao J, Wang G, Lan Y, Li G, Guo X, Xi J, Ye D, Zhu S, Chen W, Jia W, Leng Y, Wan X, Kang J, 2018 An HDAC2-TET1 switch at distinct chromatin regions significantly promotes the maturation of pre-iPS to iPS cells, Wei T, Chen W, Wang X, Zhang M, Chen J, Zhu S, Chen L, Yang D, Wang G, Jia W, Yu Y, Duan T, Wu M, Liu H, Gao S, Kang J, 2015

Areas of Focus

Stem cells and fetal-origin neurological diseases

Publications

Fetal growth restriction impairs hippocampal neurogenesis and cognition via Tet1 in offspring, Chen W, Liu N, Shen S, Zhu W, Qiao J, Chang S, Dong J, Bai M, Ma L, Wang S, Jia W, Guo X, Li A, Xi J, Jiang C, Kang J, 2021
Sirt6 promotes DNA End Joining in iPSCs derived from old mice, Chen W, Liu N, Zhang H, Zhang H, Qiao J, Jia W, Zhu S, Mao Z, Kang J, 2017
NRG1 knockdown rescues PV interneuron GABAergic maturation deficits and schizophrenia behaviors in fetal growth restriction mice, Dong J, Chen W, Liu N, Chang S, Zhu W, Kang J, 2022
Sirt7-p21 signaling pathway mediates glucocorticoid induced inhibition of mouse neural stem cell proliferation, Alnoud MAH, Chen W, Liu N, Zhu W, Qiao J, Chang S, Wu Y, Wang S, Yang Y, Sun Q, Kang J, 2021
MicroRNA-153 improves the neurogenesis of neural stem cells and enhances the cognitive ability of aged mice through the notch signaling pathway, Qiao J, Zhao J, Chang S, Sun Q, Liu N, Dong J, Chen Y, Yang D, Ye D, Liu X, Yu Y, Chen W, Zhu S, Wang G, Jia W, Xi J, Kang J, 2020
N6-Methyladenosine modification of lincRNA 1281 is critically required for mESC differentiation potential, Yang D, Qiao J, Wang G, Lan Y, Li G, Guo X, Xi J, Ye D, Zhu S, Chen W, Jia W, Leng Y, Wan X, Kang J, 2018
An HDAC2-TET1 switch at distinct chromatin regions significantly promotes the maturation of pre-iPS to iPS cells, Wei T, Chen W, Wang X, Zhang M, Chen J, Zhu S, Chen L, Yang D, Wang G, Jia W, Yu Y, Duan T, Wu M, Liu H, Gao S, Kang J, 2015

Stem Cells Neurology Fetal Development Epigenetic Regulation Neurogenesis Cognition Dna Repair Gene Expression Cell Differentiation Neural Stem Cells

Guiying Wang - Tongji University

Mian Wang - Tongji University

Ma Ji - East China Normal University

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