Life on Mars `Pregnancy Test’

KEY components of a new approach to discover life on Mars were successfully launched into space as part of a 12-day, low-Earth orbit experiment to assess their survivability in the space radiation environment – a prelude future journeys to Mars.

The new approach is based on technology similar to that used in pregnancy test kits. The so-called immunoassays are embodied in the "Life Marker Chip" (LMC) experiment, which has the potential to detect trace levels of biomarkers in the Martian environment. Biomarkers are molecular fingerprints that indicate if life currently is, or ever was, present on Mars.

The LMC experiment has been proposed for the European Space Agency’s ExoMars rover mission, which is planned for launch in 2013. The LMC experiment is in the development phase and is led by an international consortium with researchers including Andrew Steele, a staff member of Carnegie’s Geophysical Laboratory in the United States, and scientists from the United Kingdom, The Netherlands, and Germany.

For the current mission, the consortium developed a tiny component, measuring only 1.5 inches x 1.6 inches x .5 inch (3.8 cm x 4.1 cm x 1.3 cm) and housing over 2000 samples, to test that the key molecular components to be used in the LMC technology can survive the rigors of space.

The experiment was launched from Baikonur Cosmodrome in Kazakhstan as part of the European Space Agency’s BIOPAN-6 experiment platform. The LMC components will experience both weightlessness and the harsh space radiation environment while orbiting the Earth 180 times at an altitude of up to 190 miles (308 km) during the 11.8 day mission.

The BIOPAN-6 platform is mounted on the outside of an un-manned Russian FOTON spacecraft. Once in space the BIOPAN-6 platform will open to expose its contents directly to the space environment, testing both their resistance to space radiation and the space vacuum, before closing and returning to Earth on September 25th. The LMC components will then be taken back to laboratories in the United Kingdom and the United States to analyse the effect of the space flight.

Dr. Andrew Steele from the Carnegie Institution of Washington (USA) and one of the initial experiment proposers said, "in the USA we are currently flying related technology and components within the protected environment of the International Space Station (ISS) but this will be the first time that these types of materials will have flown unprotected in space in a manner similar to a flight to Mars."

A number of other people, organisations and companies have contributed to the experiment and these include Haptogen Ltd. (Aberdeen, UK), Oklahoma State University (USA), LioniX BV (Enschede, NL), Technische Universitat Munchen (Germany) and Dr Jan Toporski, formally of Christian-Albrechts-Universitat zu Kiel (Germany).

(c) 2007 Sunday Mail; Kuala Lumpur. Provided by ProQuest Information and Learning. All rights Reserved.