- News>
- Space
Chinese scientists in a first develop mammal embryos in space
The SJ-10 research probe, launched on April 6, carried over 6,000 mouse embryos in a self-sufficient chamber the size of a microwave oven, Duan Enkui, a researcher with the Chinese Academy of Sciences (CAS) said.
Beijing: Chinese scientists today said they have successfully developed early-stage mouse embryos in space for the first time on a retrievable microgravity satellite set to return to Earth sometime next week.
The SJ-10 research probe, launched on April 6, carried over 6,000 mouse embryos in a self-sufficient chamber the size of a microwave oven, Duan Enkui, a researcher with the Chinese Academy of Sciences (CAS) said.
Among them, 600 embryos were put under a high-resolution camera, which took pictures every four hours for four days and sent them back to Earth, state-run Xinhua news agency reported.
The pictures showed the embryos developed from the 2-cell stage, an early-on embryonic cleavage stage, to blastocyst, the stage where noticeable cell differentiation occurs, around 72 hours after SJ-10's launch, Duan said.
The timing was largely in line with embryonic development on the Earth, he added.
The rest of the embryos loaded on the satellite were injected with fixatives at 72 hours after the launch for studies on the effects of space environment on embryonic development, according to Duan.
This is the first reported successful development in mammalian embryos in space in human history, the report said.
Scientists will compare the retrieved embryos with samples on Earth and perform further analyses on the profiles of early embryo development in space, once SJ-10 returns home.
SJ-10 is expected to land in a designated spot in Siziwang Banner in Inner Mongolia sometime next week.
Earlier reports said the probe as a whole had a designed life of just 15 days.
The bullet-shaped probe is said to be housing a total of 19 experiments involving microgravity fluid physics, microgravity combustion, space material, space radiation effects, microgravity biological effects and space bio-technology.
These include one studying how space radiation affects the genetic stability of fruit flies and rat cells, and a combustion experiment which will test how materials used in spacecraft burn in space to find ways of making safer capsules for future manned missions.
An experiment being run in partnership between the National Space Science Center under the CAS and the European Space Agency will investigate the behavior of crude oil under high pressure, and also on board is equipment to test coal combustion and pollutant formation under microgravity.
The former experiment is aimed at improving scientists' understanding of oil reservoirs buried deep underground, while the latter is expected to help enhance energy efficiency and cut emissions on Earth.