R. Pascal scite author profile

Sperm require a sense of direction to locate the egg for fertilization. They follow gradients of chemical and physical cues provided by the egg or the oviduct. However, the principles underlying three-dimensional (3D) navigation in chemical landscapes are unknown. Here using holographic microscopy and optochemical techniques, we track sea urchin sperm navigating in 3D chemoattractant gradients. Sperm sense gradients on two timescales, which produces two different steering responses. A periodic component, resulting from the helical swimming, gradually aligns the helix towards the gradient. When incremental path corrections fail and sperm get off course, a sharp turning manoeuvre puts sperm back on track. Turning results from an ‘off' Ca2+ response signifying a chemoattractant stimulation decrease and, thereby, a drop in cyclic GMP concentration and membrane voltage. These findings highlight the computational sophistication by which sperm sample gradients for deterministic klinotaxis. We provide a conceptual and technical framework for studying microswimmers in 3D chemical landscapes.

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Prediction of bias-voltage-dependent corrugation reversal for STM images of bcc (110) surfaces: W(110), Ta(110), and Fe(110)

Heinze

Blügel

Pascal

et al. 1998

Phys. Rev. B

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The rate of change in Ca2+ concentration controls sperm chemotaxis

Álvarez

Dai

Friedrich

et al. 2012

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A K+-selective CNG channel orchestrates Ca2+ signalling in zebrafish sperm

Fechner

Álvarez

Bönigk

et al. 2015

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Calcium in the flagellum controls sperm navigation. In sperm of marine invertebrates and mammals, Ca2+ signalling has been intensely studied, whereas for fish little is known. In sea urchin sperm, a cyclic nucleotide-gated K+ channel (CNGK) mediates a cGMP-induced hyperpolarization that evokes Ca2+ influx. Here, we identify in sperm of the freshwater fish Danio rerio a novel CNGK family member featuring non-canonical properties. It is located in the sperm head rather than the flagellum and is controlled by intracellular pH, but not cyclic nucleotides. Alkalization hyperpolarizes sperm and produces Ca2+ entry. Ca2+ induces spinning-like swimming, different from swimming of sperm from other species. The “spinning” mode probably guides sperm into the micropyle, a narrow entrance on the surface of fish eggs. A picture is emerging of sperm channel orthologues that employ different activation mechanisms and serve different functions. The channel inventories probably reflect adaptations to species-specific challenges during fertilization.DOI: http://dx.doi.org/10.7554/eLife.07624.001

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STM study of carbon-induced reconstructions on W(110): strong evidence for a surface lattice deformation

1995

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R. Pascal

Sperm navigation along helical paths in 3D chemoattractant landscapes

Prediction of bias-voltage-dependent corrugation reversal for STM images of bcc (110) surfaces: W(110), Ta(110), and Fe(110)

The rate of change in Ca2+ concentration controls sperm chemotaxis

A K+-selective CNG channel orchestrates Ca2+ signalling in zebrafish sperm

STM study of carbon-induced reconstructions on W(110): strong evidence for a surface lattice deformation

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