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Graviresponses of certain ciliates and flagellates

R. HEMMERSBACH^*,1 and D.-P. HÄDER

^* Institute of Aerospace Medicine, German Aerospace Research Establishment, 51170 Köln; and
Institute for Botany and Pharmaceutical Biology, University of Erlangen, Germany

¹Correspondence: Institute of Aerospace Medicine, DLR (German Aerospace Research Establishment), 51140 Köln, Under Höhe, Germany. E-mail: Ruth.Hemmersbach{at}DLR.DE

Protozoa are eukaryotic cells and represent suitable model systems to study the mechanisms of gravity perception and signal transduction due to their clear gravity-induced responses (gravitaxis and gravikinesis). Among protists, parallel evolution for graviperception mechanisms have been identified: either sensing by distinct stato-organelles (e.g., the Müller vesicles of the ciliate Loxodes) or by sensing the density difference between the whole cytoplasm and the extracellular medium (as proposed for Paramecium and Euglena). These two models are supported by experiments in density-adjusted media, as the gravitaxis of Loxodes was not affected, whereas the orientation of Paramecium and Euglena was completely disturbed. Both models include the involvement of ion channels in the cell membrane. Diverse experiments gave new information on the mechanism of graviperception in unicellular systems, such as threshold values in the range of 10% of gravity, relaxation of the responses after removal of the stimulus, and no visible adaptation phenomena during exposure to hypergravity or microgravity conditions for up to 12 days.—Hemmersbach, R., Häder, D.-P. Graviresponses of certain ciliates and flagellates.

Key Words: gravitaxis • gravikinesis • gravity sensing • microgravity • protists

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