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Literature DB >> 16002619

A self-organized vortex array of hydrodynamically entrained sperm cells.

Ingmar H Riedel¹, Karsten Kruse, Jonathon Howard.

Abstract

Many patterns in biological systems depend on the exchange of chemical signals between cells. We report a spatiotemporal pattern mediated by hydrodynamic interactions. At planar surfaces, spermatozoa self-organized into dynamic vortices resembling quantized rotating waves. These vortices formed an array with local hexagonal order. Introducing an order parameter that quantifies cooperativity, we found that the array appeared only above a critical sperm density. Using a model, we estimated the hydrodynamic interaction force between spermatozoa to be approximately 0.03 piconewtons. Thus, large-scale coordination of cells can be regulated hydrodynamically, and chemical signals are not required.

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Year: 2005 PMID： 16002619 DOI： 10.1126/science.1110329

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

80 in total

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3. Hydrodynamics of sperm cells near surfaces.

Authors: Jens Elgeti; U Benjamin Kaupp; Gerhard Gompper
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4. Species-dependent hydrodynamics of flagellum-tethered bacteria in early biofilm development.

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5. Spontaneous creation of macroscopic flow and metachronal waves in an array of cilia.

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6. Seminal proteins but not sperm induce morphological changes in the Drosophila melanogaster female reproductive tract during sperm storage.

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A self-organized vortex array of hydrodynamically entrained sperm cells.

1. Large-scale vortex lattice emerging from collectively moving microtubules.

2. Polar patterns of driven filaments.

3. Hydrodynamics of sperm cells near surfaces.

4. Species-dependent hydrodynamics of flagellum-tethered bacteria in early biofilm development.

5. Spontaneous creation of macroscopic flow and metachronal waves in an array of cilia.

6. Seminal proteins but not sperm induce morphological changes in the Drosophila melanogaster female reproductive tract during sperm storage.

7. Dynamics and mechanics of motor-filament systems.

8. Bacterial aggregation and biofilm formation in a vortical flow.

9. Suspension biomechanics of swimming microbes.

10. Gait synchronization in Caenorhabditis elegans.