Fluid flow as a driver of embryonic morphogenesis
Margo Daems, Hanna M. Peacock, Elizabeth A. V. Jones
Abstract
Fluid flow is a powerful morphogenic force during embryonic development. The physical forces created by flowing fluids can either create morphogen gradients or be translated by mechanosensitive cells into biological changes in gene expression. In this Primer, we describe how fluid flow is created in different systems and highlight the important mechanosensitive signalling pathways involved for sensing and transducing flow during embryogenesis. Specifically, we describe how fluid flow helps establish left-right asymmetry in the early embryo and discuss the role of flow of blood, lymph and cerebrospinal fluid in sculpting the embryonic cardiovascular and nervous system.
Topics & Concepts
BiologyMorphogenesisEmbryonic stem cellCell biologyEmbryogenesisEmbryoGeneticsGeneHippo pathway signaling and YAP/TAZDevelopmental Biology and Gene RegulationPluripotent Stem Cells Research