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Calcium dependent current recordings in Xenopus laevis oocytes in microgravity

Wüest, Simon (Autor/in); Rösch, Christian (Autor/in); Ille, Fabian (Autor/in); Egli, Marcel (Autor/in)

Mechanical unloading by microgravity (or weightlessness) conditions triggers profound adaptation processes at the cellular and organ levels. Among other mechanisms, mechanosensitive ion channels are thought to play a key role in allowing cells to transduce mechanical forces. Previous experiments performed under microgravity have shown that gravity affects the gating properties of ion channels. Here, a method is described to record a calcium-dependent current in native Xenopus laevis oocytes under microgravity conditions during a parabolic flight. A 3-voltage-step protocol was applied to provoke a calcium-dependent current. This current increased with extracellular calcium concentration and could be reduced by applying extracellular gadolinium. The custom-made “OoClamp” hardware was validated by comparing the results of the 3-voltage-step protocol to results obtained with a well-established two-electrode voltage clamp (TEVC). In the context of the 2nd Swiss Parabolic Flight Campaign, we tested the OoClamp and the method. The setup and experiment protocol worked well in parabolic flight. A tendency that the calcium-dependent current was smaller under microgravity than under 1 g condition could be observed. However, a conclusive statement was not possible due to the small size of the data base that could be gathered

+ ID der Publikation: hslu_49893 + Art des Beitrages: Wissenschaftliche Medien + Jahrgang: 141 + Sprache: Englisch + Letzte Aktualisierung: 2018-02-28 12:59:09
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