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Wei Xie
{'en': 'Tel: +86-10-62771496 (Lab)\\nE-mail: xiewei121 AT tsinghua.edu.cn', 'zh': '电话: +86-10-62771496 (实验室)\\n电子邮件: xiewei121 AT tsinghua.edu.cn', 'de': 'Tel: +86-10-62771496 (Labor)\\nE-Mail: xiewei121 AT tsinghua.edu.cn'}
English, Chinese
Beijing
Tsinghua University
Life Sciences
  • 1999-2003 Bachelor of Biological Sciences: Peking University
  • 2003-2008 PhD in Molecular Biology: University of California, Los Angeles
  • 2006-2008 Master of Statistics: University of California, Los Angeles
  • 2008-2009 Postdoctoral Researcher: University of California, Los Angeles
  • 2009-2013 Postdoctoral Researcher: Ludwig Cancer Research, University of California, San Diego
  • 2013- Present Assistant Professor, Associate Professor, Professor: Tsinghua University
Epigenetics, Genomics, Developmental Biology
  • Multifaceted SOX2-chromatin interaction underpins pluripotency progression in early embryos, Wei Xie et al., 2023
  • NR5A2 connects zygotic genome activation to the first lineage segregation in totipotent embryos, Wei Xie et al., 2023
  • OBOX regulates mouse zygotic genome activation and early development, Wei Xie et al., 2023
  • Translatome and transcriptome co-profiling reveals a role of TPRXs in human zygotic genome activation, Wei Xie et al., 2022
  • Ultrasensitive Ribo-seq reveals translational landscapes during mammalian oocyte-to-embryo transition and pre-implantation development, Wei Xie et al., 2022
  • Evolutionary epigenomic analyses in mammalian early embryos reveal species-specific innovations and conserved principles of imprinting, Wei Xie et al., 2021
  • The landscape of RNA Pol II binding reveals a step-wise transition during ZGA, Wei Xie et al., 2020
  • Imprecise DNMT1 activity coupled with neighbor-guided correction enables robust yet flexible epigenetic inheritance, Wei Xie et al., 2020
  • Epigenomic analysis of gastrulation identifies a unique chromatin state for primed pluripotency, Wei Xie et al., 2019
  • Resetting histone modifications during human parental-to-zygotic transition, Wei Xie et al., 2019
  • SETD2 regulates the maternal epigenome and embryonic development, Wei Xie et al., 2019
  • Chromatin analysis in human early development reveals epigenetic transition during ZGA, Wei Xie et al., 2018
  • Allelic reprogramming of 3D chromatin architecture during early mammalian development, Wei Xie et al., 2017
  • Allelic reprogramming of the histone modification H3K4me3 in early mammalian development, Wei Xie et al., 2016
  • The landscape of accessible chromatin in mammalian preimplantation embryos, Wei Xie et al., 2016
Epigenetics Genomics Developmental Biology Molecular Biology Computational Biology Stem Cell Differentiation Human Disease Gene Regulation Chromatin Transcription

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