Hemmersbach R, Voormanns R, Bromeis B, Schmidt N, Rabien H, Ivanova K
DLR (German Aerospace Research Establishment), Institute of Aerospace Medicine, Section Biology, Koln, Germany.
Adv Space Res. 1998;21(8-9):1285-9. doi: 10.1016/s0273-1177(97)00400-6.
Gravitactic protozoa offer advantages in studying how the gravity stimulus is perceived on the cellular level. By means of a slow rotating centrifuge microscope in space the acceleration thresholds for gravitaxis of Loxodes striatus and Paramecium biaurelia were determined: < or = 0.15 x g for Loxodes and 0.3 x g for Paramecium, indicating different sensitivities of these species. Neutral-buoyant densities of immobilized cells were determined using media of different densities, revealing densities of 1.03 to 1.035 g/cm3 for Loxodes and 1.04 g/cm3 to 1.045 g/cm3 for Paramecium. Behavioral studies revealed that gravitaxis of Loxodes persisted independent of the density of the medium. In contrast, negative gravitaxis of Paramecium was no longer measurable if the density of the medium approached the density of the cell. The results suggest that in the case of Loxodes gravity is perceived by an intracellular receptor and, in the case of Paramecium by its own mass via the pressure on the lower cell membrane.
趋重力原生动物在研究细胞水平上如何感知重力刺激方面具有优势。借助太空中的慢速旋转离心机显微镜,确定了条纹斜管虫和双小核草履虫趋重力的加速度阈值:条纹斜管虫为≤0.15×g,双小核草履虫为0.3×g,表明这两个物种的敏感性不同。使用不同密度的培养基测定固定细胞的中性浮力密度,结果显示条纹斜管虫的密度为1.03至1.035 g/cm³,双小核草履虫的密度为1.04 g/cm³至1.045 g/cm³。行为研究表明,条纹斜管虫的趋重力行为不受培养基密度的影响。相比之下,如果培养基的密度接近细胞的密度,双小核草履虫的负趋重力行为就不再可测。结果表明,对于条纹斜管虫,重力是通过细胞内受体感知的;而对于双小核草履虫,重力是通过其自身质量对细胞膜下部产生的压力来感知的。