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Laboratory for Early Embryogenesis
Guojun SHENG
Team Leader
Guojun SHENG (Ph.D.)
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Research Areas

We study molecular and cellular mechanisms of embryonic patterning and cell fate specification. The laboratory is specifically interested in understanding how signaling molecules can affect cellular behavior (morphology, migration and cell-cell interaction) during initial germ layer patterning, and how they can act together with local molecular cues in specifying cell fates. The research focuses on two aspects of early vertebrate development:
(1) the initial patterning of neural ectoderm and mesoderm territories by signals from the organizer and the primitive streak, and the influence of these signals on precursor cell behavior;
(2) the differentiation of posterior mesodermal precursors into hematopoietic and angiogenic cell lineages.
The laboratory combines classic embryology, molecular manipulation and advanced imaging techniques with chick as its main model organism, complemented by genetic analysis using mouse models.

Research Subject

  1. Influence of signaling molecules on cell behavior during mesoderm and neural ectoderm patterning
  2. Differentiation of early hematopoietic and angiogenic lineages from posterior mesoderm precursors
  3. Biochemical nature of diverse functions of FGF signaling pathway in early embryogenesis

Related links

  1. RIKEN Center for Developmental Biology Website_Laboratories PageNew Window

RIKEN RESEARCH

October 24, 2008
Cutting loose
New research clarifies how cells rearrange from two-dimensional sheets into three-dimensional structures during embryonic developmentNew Window

List of Selected Publications

  1. Nakazawa F, Alev C, Jakt LM, Sheng G.:
    "Yolk sac endoderm is the major source of serum proteins and lipids and is involved in the regulation of vascular integrity in early chick development."
    Dev Dyn.(8):2002-10 (2011)
  2. Shin M, Alev C, Wu Y, Nagai H, Sheng G.:
    "Activin/TGF-beta signaling regulates Nanog expression in the epiblast during gastrulation."
    Mech Dev.28(5-6):268-78 (2011)
  3. Nagai H, Lin MC, Sheng G.:
    "A modifed cornish pasty method for ex ovo culture of the chick embryo."
    Genesis.49(1):46-52 (2011)
  4. Nagai H, Mak SS, Weng W, Nakaya Y, Ladher R, Sheng G.:
    "Embryonic development of the emu, Dromaius novaehollandiae."
    Dev Dyn.240(1):162-75 (2011)
  5. Nakaya Y, Sukowati EW, Alev C, Nakazawa F, Sheng G.:
    "Involvement of dystroglycan in epithelial-mesenchymal transition during chick gastrulation."
    Cells Tissues Organs.193(1-2):64-73 (2011)
  6. Alev C, Wu Y, Kasukawa T, Jakt LM, Ueda HR, Sheng G.:
    "Transcriptomic landscape of the primitive streak."
    Development.137(17):2863-74 (2010)
  7. Sheng G.:
    "Primitive and definitive erythropoiesis in the yolk sac: a bird's eye view."
    Int J Dev Biol.54(6-7):1033-43 (2010)
  8. Alev C, McIntyre BA, Ota K, Sheng G.:
    "Dynamic expression of Endoglin, a TGF-beta co-receptor, during pre-circulation vascular development in chick."
    Int J Dev Biol.54(4):737-42 (2010)
  9. Shin M, Nagai H, Sheng G.:
    "Notch mediates Wnt and BMP signals in the early separation of smooth muscle progenitors and blood/endothelial common progenitors."
    Development.136(4):595-603 (2009)
  10. Nakaya Y, Sheng G.:
    "Epithelial to mesenchymal transition during gastrulation: an embryological view."
    Dev Growth Differ50(9):755-66 (2008)

Members

Principal Investigator

Guojun George SHENG
Team Leader

Members

Yukiko NAKAYA
Research Scientist
Wei WENG
Research Scientist
Hiroki NAGAI
Technical Staff I
YuPing WU
Technical Staff I
Erike Widyasari SUKOWATI
Technical Staff I
Kanako OTA
Technical Staff II
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