For the protozoan species Tetrahymena a series of airplane experiments are reported, which varied gravity as an active laboratory parameter and tested for corresponding changes in geotaxic orientation of single cells. The airplane achieved alternating periods of low (0.01 g) and high (1.8 g; g = 980 cm/s) gravity by flying repeated Keplerian parabolas. The experimental design was undertaken to clearly distinguish gravity from competing aerodynamic and chemical gradients. In this way, each culture served as its own control, with gravity level alone determining the orientational changes. On average, 6.3% of the Tetrahymena oriented vertically in low gravity, while 27% oriented vertically in high-gravity phases. Simplified physical models are ...
A cell culture of Paramecium with a pronounced negative gravitaxis was exposed for 6 minutes to a 10...
Protonemata of the moss Ceratodon are tip-growing cells that grow up in the dark. This cell type is ...
In addition to shoots and roots, the gravity (g)-vector orients the growth of specialized cells such...
For the protozoan species Tetrahymena a series of airplane experiments are reported, which varied gr...
The mechanism of gravity-dependent spatial orientation (gravitaxis) of unicellular pelagic protozoa ...
On earth, micro-organisms are in the grip of gravitational and viscous forces. These forces, in comb...
Many of the free-swimming protozoa, such as Paramecium and Euglena, are known to swim preferentially...
Vertical migration by diatoms is a well-known phenomenon, occurring in intertidal and subtidal benth...
This paper presents evidence that the negative geotactic behavior of Paramecium caudatum takes place...
The gravity-dependent behavior of Paramecium biaurelia and Euglena gracilis have previously been stu...
Motile microorganisms such as flagellates and ciliates use the gravity vector of the Earth to adjust...
Gravitaxis of Paramecium was investigated by observing and analyzing the behavior of the cells in a ...
The swimming behaviour of Paramecium was analyzed under natural and experimental hypergravity condit...
We investigate the gravitactic ciliates Paramecium and Loxodes under different gravity conditions to...
The structure and mechanisms involved in gravity perception and reaction are generally not known in ...
A cell culture of Paramecium with a pronounced negative gravitaxis was exposed for 6 minutes to a 10...
Protonemata of the moss Ceratodon are tip-growing cells that grow up in the dark. This cell type is ...
In addition to shoots and roots, the gravity (g)-vector orients the growth of specialized cells such...
For the protozoan species Tetrahymena a series of airplane experiments are reported, which varied gr...
The mechanism of gravity-dependent spatial orientation (gravitaxis) of unicellular pelagic protozoa ...
On earth, micro-organisms are in the grip of gravitational and viscous forces. These forces, in comb...
Many of the free-swimming protozoa, such as Paramecium and Euglena, are known to swim preferentially...
Vertical migration by diatoms is a well-known phenomenon, occurring in intertidal and subtidal benth...
This paper presents evidence that the negative geotactic behavior of Paramecium caudatum takes place...
The gravity-dependent behavior of Paramecium biaurelia and Euglena gracilis have previously been stu...
Motile microorganisms such as flagellates and ciliates use the gravity vector of the Earth to adjust...
Gravitaxis of Paramecium was investigated by observing and analyzing the behavior of the cells in a ...
The swimming behaviour of Paramecium was analyzed under natural and experimental hypergravity condit...
We investigate the gravitactic ciliates Paramecium and Loxodes under different gravity conditions to...
The structure and mechanisms involved in gravity perception and reaction are generally not known in ...
A cell culture of Paramecium with a pronounced negative gravitaxis was exposed for 6 minutes to a 10...
Protonemata of the moss Ceratodon are tip-growing cells that grow up in the dark. This cell type is ...
In addition to shoots and roots, the gravity (g)-vector orients the growth of specialized cells such...