DNA displays toughness, survives trip on the exterior of a rocket

Posted: November 28, 2014 at 7:44 pm

DNA molecules smeared onto the exterior of a suborbital test rocket are capable of surviving a 13-minute trip into space and a scorching re-entry, European researchers say.

The scientists finding, published Wednesday in the journal PLOS One, suggests that genetic material is hardier than previously thought and may have the potential to stow away on robotic landers bound for other worlds or within meteors, the report said.

It is conceivable that life exists independently from our planet even under the very hostile conditions prevailing on our neighbors like Mars, wrote senior study author Oliver Ullrich, a molecular biologist at the University of Zurich, and his colleagues.

Already on Earth we are able to identify some extreme life-forms which can survive physically and/or geochemically harsh conditions, such as very high or low temperatures, intense radiation, pressure, vacuum, desiccation, salinity and pH. Many of these parameters also prevail in space and therefore the question is whether terrestrial organisms are able to survive a voyage through space.

The experiment was conducted on the TEXUS-49 rocket mission that blasted off from Sweden in March 2011. The launch was part of a rocket program in which instruments and experiments are launched into suborbital space for brief periods.

Researchers engineered plasmid DNA, or small ringlike strings of genetic material, that would confer special qualities to transfected cells, such as making bacteria resistant to certain antibiotics or making mouse-tissue cells glow under ultraviolet light.

By engineering the plasmid DNA in this way, they would be able to see whether it was still functional when the rocket returned to Earth.

The researchers applied the DNA to various locations on the exterior of the rocket, including a number of screw heads. During the experimental flight, the material was lofted 166 miles high and subjected to 6.3 Gs of thrust, six minutes of microgravity and temperatures higher than 1,832 degrees, the researchers said.

When the rocket payload was recovered, scientists collected some DNA from all of the application sites and found that as much as 35 percent had retained its full biological function, they said.

The authors said they were surprised by the results.

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DNA displays toughness, survives trip on the exterior of a rocket

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