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Dynamics of hydraulic and contractile wave-mediated fluid transport during <i>Drosophila</i> oogenesis

Jasmin Imran Alsous, Nicolas Romeo, Jonathan A. Jackson, Frank M. Mason, Jörn Dunkel, Adam C. Martin

2021Proceedings of the National Academy of Sciences38 citationsDOIOpen Access PDF

Abstract

egg chambers. We discovered that during "nurse cell (NC) dumping" most cytoplasm is transported into the oocyte independently of changes in myosin-II contractility, with dynamics instead explained by an effective Young-Laplace law, suggesting hydraulic transport induced by baseline cell-surface tension. A minimal flow-network model inspired by the famous two-balloon experiment and motivated by genetic analysis of a myosin mutant correctly predicts the directionality, intercellular pattern, and time scale of transport. Long thought to trigger transport through "squeezing," changes in actomyosin contractility are required only once NC volume has become comparable to nuclear volume, in the form of surface contractile waves that drive NC dumping to completion. Our work thus demonstrates how biological and physical mechanisms cooperate to enable a critical developmental process that, until now, was thought to be mainly biochemically regulated.

Topics & Concepts

Drosophila (subgenus)OogenesisDynamics (music)Cell biologyBiologyPhysicsAcousticsOocyteGeneticsEmbryoGeneSpaceflight effects on biologyCellular Mechanics and InteractionsMarine Invertebrate Physiology and Ecology