Add to ORKGThe aim of this work is to evaluate the development of X.l. in modified gravity conditions. The simulation of hyper and microgravity was performed utilizing: an hyperfuge, a Clinostat and later on a Random Positioning Machine (RPM, 3d Clinostat). The effect of hypergravity on embryos is significantly higher than that of microgravity; the exposure of embryos to 3xg for 3 days before and after hatch causes an activation of HSP-60 and HSP-70. Embryos exposed to 3xg during the first 3 days of development are very sensitive and show a retard of development, with a lower content of DNA, neutral glycolipids and gangliosides compared to controls
All life on earth has developed and evolved in a 1 G environment. Therefore, any deviation below or ...
Sustaining life beyond Earth either on space stations or on other planets will require a clear under...
Among the biological problems that arise in long duration space- flights weightlessness and ionizing...
Every living organism on earth has developed and evolved in a 1G environment. It is likely that any ...
All life on earth has developed and evolved in a 1G environment. Therefore, any deviation below or a...
This study investigates how rearing under conditions of hypergravity affects amphibian development, ...
Caenorhabditis elegans have been used to help understand health concerns associated with humans. Stu...
Murine embryonic stem cells (ESCs) were exposed to simulated microgravity using the principle of a f...
Although many examples of simulated and real microgravity demonstrating their profound effect on bio...
Exposure to space-flight environment, notably microgravity and radiations, can induce changes in liv...
Early amphibian development is sensitive to both reduced and elevated gravitational force. But later...
Background/Aims: Embryonic developmental studies under microgravity conditions in space are very lim...
Amphibian eggs from Xenopus laevis were employed as a model system. Xenopus embryos were demonstrate...
We tested whether microgravity affects mouse development during a period when gravity cues chick and...
To test the effects of space radiation on livng organisms we participated (23 June 2002) to the "BI....
All life on earth has developed and evolved in a 1 G environment. Therefore, any deviation below or ...
Sustaining life beyond Earth either on space stations or on other planets will require a clear under...
Among the biological problems that arise in long duration space- flights weightlessness and ionizing...
Every living organism on earth has developed and evolved in a 1G environment. It is likely that any ...
All life on earth has developed and evolved in a 1G environment. Therefore, any deviation below or a...
This study investigates how rearing under conditions of hypergravity affects amphibian development, ...
Caenorhabditis elegans have been used to help understand health concerns associated with humans. Stu...
Murine embryonic stem cells (ESCs) were exposed to simulated microgravity using the principle of a f...
Although many examples of simulated and real microgravity demonstrating their profound effect on bio...
Exposure to space-flight environment, notably microgravity and radiations, can induce changes in liv...
Early amphibian development is sensitive to both reduced and elevated gravitational force. But later...
Background/Aims: Embryonic developmental studies under microgravity conditions in space are very lim...
Amphibian eggs from Xenopus laevis were employed as a model system. Xenopus embryos were demonstrate...
We tested whether microgravity affects mouse development during a period when gravity cues chick and...
To test the effects of space radiation on livng organisms we participated (23 June 2002) to the "BI....
All life on earth has developed and evolved in a 1 G environment. Therefore, any deviation below or ...
Sustaining life beyond Earth either on space stations or on other planets will require a clear under...
Among the biological problems that arise in long duration space- flights weightlessness and ionizing...
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