Your search keyword '"Ion Mechanosensitive Mechanobiology"' showing total 2 results

1. Electrophysiological Recordings on a Sounding Rocket: Report of a First Attempt Using Xenopus laevis Oocytes

Author

Wüest, Simon (Autor/in), Plüss, Tobias (Autor/in), Hardegger, Christoph (Autor/in), Felder, Mario (Autor/in), Kunz, Aaron (Autor/in), Fleischli, Benno (Autor/in), Komotar, Carlos (Autor/in), Rüdlinger, Lukas (Autor/in), Albisser, Andreas (Autor/in), Gisler, Thomas (Autor/in), Frauchiger, Daniela (Autor/in), Egli, Marcel (Autor/in), Wüest, Simon (Autor/in), Plüss, Tobias (Autor/in), Hardegger, Christoph (Autor/in), Felder, Mario (Autor/in), Kunz, Aaron (Autor/in), Fleischli, Benno (Autor/in), Komotar, Carlos (Autor/in), Rüdlinger, Lukas (Autor/in), Albisser, Andreas (Autor/in), Gisler, Thomas (Autor/in), Frauchiger, Daniela (Autor/in), and Egli, Marcel (Autor/in)

Abstract

It is not fully understood how cells detect external mechanical forces, but mechanosensitive ion channels play important roles in detecting and translating physical forces into biological responses (mechanotrans-duction). With the “OoClamp” device, we developed a tool to study electrophysiological processes, including the gating properties of ion channels under various gravity conditions. The “OoClamp” device uses an adapted patch clamp technique and is operational during parabolic flight and centrifugation up to 20 g. In the framework of the REXUS/BEXUS program, we have further developed the “OoClamp” device with the goal of conducting electrophysiological experiments aboard a flying sounding rocket., + ID der Publikation: hslu_51260 + Art des Beitrages: Wissenschaftliche Medien + Sprache: Englisch + Letzte Aktualisierung: 2018-02-09 11:08:15

Published

2017

2. Electrophysiological Recordings on a Sounding Rocket: Report of a First Attempt Using Xenopus laevis Oocytes

Author

Simon L. Wuest, Daniela Angelika Frauchiger, Mario Felder, Marcel Egli, Carlos Komotar, Thomas Gisler, Aaron Kunz, Christoph Hardegger, Tobias Plüss, Benno Fleischli, Lukas Rüdlinger, and Andreas Albisser

Subjects

0303 health sciences, Ion Mechanosensitive Mechanobiology, Sounding rocket, Chemistry, 01 natural sciences, 010305 fluids & plasmas, Electrophysiology, 03 medical and health sciences, Sounding Rocket, Xenopus laevis Oocytes, 0103 physical sciences, Channels, 570 Life sciences, biology, Microgravity, 610 Medicine & health, 030304 developmental biology, Remote sensing

Abstract

It is not fully understood how cells detect external mechanical forces, but mechanosensitive ion channels play important roles in detecting and translating physical forces into biological responses (mechanotrans-duction). With the “OoClamp” device, we developed a tool to study electrophysiological processes, including the gating properties of ion channels under various gravity conditions. The “OoClamp” device uses an adapted patch clamp technique and is operational during parabolic flight and centrifugation up to 20 g. In the framework of the REXUS/BEXUS program, we have further developed the “OoClamp” device with the goal of conducting electrophysiological experiments aboard a flying sounding rocket., + ID der Publikation: hslu_51260 + Art des Beitrages: Wissenschaftliche Medien + Sprache: Englisch + Letzte Aktualisierung: 2018-02-09 11:08:15

Published

2017