Mechanics regulate human embryonic stem cell self-organization to specify mesoderm
Selected by
Claire Simon & Sophie Morgani
Stem-cell niche self-restricts the signaling range via receptor-ligand degradation
Selected by
Nadia Edelsztein
Early neurulation recapitulated in assemblies of embryonic and extraembryonic cells
Selected by
Monica Tambalo
Mouse embryonic stem cells self-organize into trunk-like structures with neural tube and somites
Selected by
Martin Estermann
Aberrant astrocyte protein secretion contributes to altered neuronal development in diverse disorders
Selected by
NYUPeerReview
Trophectoderm Potency is Retained Exclusively in Human Naïve Cells
Selected by
Sergio Menchero
Hedgehog signaling is required for endomesodermal patterning and germ cell development in Nematostella vectensis
Selected by
Paul Gerald L. Sanchez and Stefano Vianello
ROS production by localized SCHENGEN receptor module drives lignification at subcellular precision
Selected by
Marc Somssich
Self-organised symmetry breaking in zebrafish reveals feedback from morphogenesis to pattern formation
Selected by
Sundar Naganathan
N-cadherin stabilises neural identity by dampening anti-neural signals
Selected by
Claire Simon & Sophie Morgani, Claire Simon & Sophie Morgani
Hair-bearing human skin generated entirely from pluripotent stem cells
Selected by
Debbie Ho
A conserved regulatory program drives emergence of the lateral plate mesoderm
Selected by
Meng Zhu