An understanding of how cells control their identity (cell fate specification), and how they can organize themselves into tissues (morphogenesis) will provide the normal blueprint for fundamental processes that become deregulated in cancer.
The Hadjantonakis laboratory uses high-resolution quantitative methods to investigate the mechanisms underlying stem cell specification, cellular differentiation, tissue patterning and growth, using the early mammalian embryo as a platform, and the mouse as a primary model system. They also exploit pluripotent stem cells, including embryonic stem cells, for their studies.
Anna-Katerina Hadjantonakis, PhD
Research FocusDevelopmental biologist Anna-Katerina Hadjantonakis studies pluripotency, cell lineage commitment, tissue patterning, and morphogenesis in the early mammalian embryo.
- PhD, Imperial College (London)
- Xenopoulos P, Kang M, Puliafito A, Di Talia S, Hadjantonakis AK. (2015) Heterogeneities in Nanog Expression Drive Stable Commitment to Pluripotency in the Mouse Blastocyst. Cell Rep. pii: S2211-1247(15)00138-2.
- Viotti M, Nowotschin S, Hadjantonakis AK. (2014) SOX17 links gut endoderm morphogenesis and germ layer segregation. Nat Cell Biol. 16(12):1146-56.
- Demonstration of a lineage relationship between the extra-embryonic endoderm and the somatic endoderm tissues of the embryo
- First single-cell resolution live imaging study of pluripotent epiblast versus extra-embryonic endoderm cell lineage commitment within the inner cell mass (ICM) of the mouse embryo
- Development of reporters for quantitative live cell imaging in mice