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  • High precision, localized proton gradients and fluxes generated by a microelectrode device induce differential growth behaviors of pollen tubes.

High precision, localized proton gradients and fluxes generated by a microelectrode device induce differential growth behaviors of pollen tubes.

Lab on a chip (2017-01-18)
Chengzhi Hu, Hannes Vogler, Marianne Aellen, Naveen Shamsudhin, Bumjin Jang, Jan T Burri, Nino Läubli, Ueli Grossniklaus, Salvador Pané, Bradley J Nelson
ABSTRACT

Pollen tubes are tip-growing plant cells that deliver the sperm cells to the ovules for double fertilization of the egg cell and the endosperm. Various directional cues can trigger the reorientation of pollen tube growth direction on their passage through the female tissues. Among the external stimuli, protons serve an important, regulatory role in the control of pollen tube growth. The generation of local guidance cues has been challenging when investigating the mechanisms of perception and processing of such directional triggers in pollen tubes. Here, we developed and characterized a microelectrode device to generate a local proton gradient and proton flux through water electrolysis. We confirmed that the cytoplasmic pH of pollen tubes varied with environmental pH change. Depending on the position of the pollen tube tip relative to the proton gradient, we observed alterations in the growth behavior, such as bursting at the tip, change in growth direction, or complete growth arrest. Bursting and growth arrest support the hypothesis that changes in the extracellular H

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Sigma-Aldrich
2′,7′-Bis(2-carboxyethyl)-5(6)-carboxyfluorescein acetoxymethyl ester, 1 mg/mL in DMSO