Researchers discover how electrical signals promote cell proliferation, an essential feature to successfully repair organs.
Nagaraja Chappidi joins the MPI-CBG to explore how cells regulate DNA replication and repair.
A new study reveals how embryos harness a physical instability in the cytoskeleton, together with precise cell-cycle timing, to reliably self-organize…
Dresden researchers develop novel methods to create acinar cells, which are involved in the formation of pancreatic cancer.
Researchers found that the shape of the fluid-filled cavities in the developing pancreas is controlled by pressure and the rate cells divide.
Scientists from the Brugués group at PoL have discovered a new mechanism for how early embryos with large yolks undergo cell division, altering our…
Researchers lay the foundations for mechanical instabilities on curved surfaces.
Dresden research team develops human modular “LEGO-like” model that lays foundation for a new era in liver research.
MPI-CBG researcher receives award from the 3Rs Collaborative (3RsC) for reducing the number of animals in research.
New research group for “Mechanisms of translational control during embryogenesis” established.
