Forces directing germ-band extension in Drosophila embryos
Optogenetic inhibition of actomyosin reveals mechanical bistability of the mesoderm epithelium during Drosophila mesoderm invagination
publications
Frontiers The Lateral Epidermis Actively Counteracts Pulling by the Amnioserosa During Dorsal Closure
PDF) Forces directing germ-band extension in Drosophila embryos
Radially-patterned cell behaviours during tube budding from an epithelium - preLights
Leaders in collective migration: are front cells
Src42A is required for E-cadherin dynamics at cell junctions during Drosophila axis elongation, Development
Frontiers Virtual spherical-shaped multicellular platform for simulating the morphogenetic processes of spider-like body axis formation
Publications - DFG SPP 1782
Forces directing germ-band extension in Drosophila embryos - ScienceDirect
A corset function of exoskeletal ECM promotes body elongation in Drosophila
Cell Sheet Morphogenesis: Dorsal Closure in Drosophila melanogaster as a Model System
Two contractile pools of actomyosin distinctly load and tune E-cadherin levels during morphogenesis - preLights
Myosin II is not required for Drosophila tracheal branch elongation and cell intercalation, Development