ZHOU LI QUAN   

研究员(自然科学)
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates
Gender:Male Status:Employed Department:Family Planning Research Institute Education Level:Postgraduate (Doctoral) Degree:Doctoral Degree in Science Discipline:Gynecology

Honors and Titles:

2012    NIH Nancy Nossal Fellowship Award

MORE> Recommended Ph.D.Supervisor Recommended MA Supervisor
Language: 中文

Profile

Dr. Liquan Zhou is a Professor at Tongji Medical College, currently supported by 100 Talent Program. His research focus on epigenetic regulation in reproductive biology and chromatin reprogramming, by using mouse and stem cell models, clinical samples, and high-throughput techniques. He has published as first/corresponding author in journals including Dev Cell, Blood, Trends Cell Biol, etc.

Educational Experience

  • 2006.9-2010.7  

    Peking Union Medical College (PUMC)       Biochemistry and Molecular Biology       Postgraduate (Doctoral)       Doctoral Degree in Philosophy

  • 2003.9-2006.7  

    Xi'an Jiaotong University       Biochemistry and Molecular Biology       Postgraduate (Master's Degree)       3

  • 1999.9-2003.7  

    Xi'an Jiaotong University       Biomedical Engineering       Undergraduate (Bachelor’s degree)       Bachelor's Degree

Work Experience

  • 2017.5-Now

    Huazhong University of Science and Technology (HUST)      Tongji Medical College (TJMC)      Professor

  • 2010.11-2016.11

    National Institutes of Health (NIH)      NIDDK      Postdoctoral Fellow

Research Group

Name of Research Group:

Epigenetic research group on reproduction and stem cell biology

Description of Research Group:

Our group is dedicated to investigations on epigenetic mechanisms in mammalian reproduction and stem cell biology.

Selected Publication (# co-corresponding author, * co-first author)
[1] Zhou, L.Q.#, Canagarajah, B., Zhao, Y.G., Baibakov, B., Maric, D., Dean, J.# (2017) BTBD18 licenses piRNA-generating loci through transcription elongation in mice. Dev Cell. 40, 453-466.
[2] Zhou, L.Q.#, Baibakov, B., Canagarajah, B., Xiong, B., and Dean, J.# (2017) Genetic mosaics and time-lapse imaging identify functions of H3.3 residues in oocyte-to-embryo transition. Development. 144, 519-528.
[3] Zhou, L.Q., Dean, J. (2015) Reprogramming the genome to totipotency in mouse embryos. Trends Cell Biol. 25, 82-91.
[4] Wu, J.*, Zhou, L.Q.*, Yu, W.*, Zhao, Z.G., Xie, X.M., Wang, W.T., Xiong, J., Li, M., Xue, Z., Wang, X., Zhang, P., Mao, BB., Hao, D.L., Lv, X., Liu, D.P. (2014). PML4 facilitates erythroid differentiation by enhancing the transcriptional activity of GATA-1. Blood. 123, 261-270.
[5] Zhou, L.Q.*, Wu, J.*, Wang, W.T., Yu, W., Zhao, G.N., Zhang, P., Xiong, J., Li, M., Xue, Z., Wang, X., Xie, X.M., Guo, Z.C., Lv, X., and Liu, D.P. (2012). The AT-rich DNA binding protein SATB2 promotes expression and physical association of human Ggamma- and Agamma-Globin genes. J Biol Chem. 287, 30641-30652.
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