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Sperm chemotaxis in marine species is optimal at physiological flow rates according theory of filament surfing

Steffen Lange, Benjamin M. Friedrich

2021PLoS Computational Biology15 citationsDOIOpen Access PDF

Abstract

Sperm of marine invertebrates have to find eggs cells in the ocean. Turbulent flows mix sperm and egg cells up to the millimeter scale; below this, active swimming and chemotaxis become important. Previous work addressed either turbulent mixing or chemotaxis in still water. Here, we present a general theory of sperm chemotaxis inside the smallest eddies of turbulent flow, where signaling molecules released by egg cells are spread into thin concentration filaments. Sperm cells 'surf' along these filaments towards the egg. External flows make filaments longer, but also thinner. These opposing effects set an optimal flow strength. The optimum predicted by our theory matches flow measurements in shallow coastal waters. Our theory quantitatively agrees with two previous fertilization experiments in Taylor-Couette chambers and provides a mechanistic understanding of these early experiments. 'Surfing along concentration filaments' could be a paradigm for navigation in complex environments in the presence of turbulent flow.

Topics & Concepts

ChemotaxisSpermTurbulenceEddyMarine invertebratesProtein filamentBiologyFlow (mathematics)EcologyCell biologyOceanographyPhysicsMechanicsGeologyReceptorGeneticsMicro and Nano RoboticsOrbital Angular Momentum in OpticsDiffusion and Search Dynamics
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