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Strategies for survival on Mars revealed

A study led by an Indian-origin researcher from the University of Maryland School of Medicine have found key features in proteins needed for life to function on Mars and other extreme environments.

Updated on: Mar 13, 2013 02:47 PM IST
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A study led by an Indian-origin researcher from the University of Maryland School of Medicine have found key features in proteins needed for life to function on Mars and other extreme environments.

HT Image
HT Image

The researchers, funded by NASA, studied organisms that survive in the extreme environment of Antarctica.

They found subtle but significant differences between the core proteins in ordinary organisms and Haloarchaea, organisms that can tolerate severe conditions such as high salinity, desiccation, and extreme temperatures.

The research gives scientists a window into how life could possibly adapt to exist on Mars.

The study was led by Shiladitya Das Sarma, Ph.D., Professor in the Department of Microbiology and Immunology at the University of Maryland School of Medicine and a research scientist at the Institute of Marine and Environmental Technology.

Researchers found that Haloarchaeal microbes contain proteins that are acidic, with their surface covered with negatively charged residues.

Most ordinary organisms contain proteins that are neutral on average.

In the current study, the scientists identified additional subtle changes in the proteins of one Haloarchaeal species named Halorubrum lacusprofundi.

These microbes were isolated from Deep Lake, a very salty lake in Antarctica.

The changes found in proteins from these organisms allow them to work in both cold and salty conditions, when temperatures may be well below the freezing point of pure water.

Water stays in the liquid state under these conditions much like snow and ice melt on roads that have been salted in winter.

“In such cold temperatures, the packing of atoms in proteins must be loosened slightly, allowing them to be more flexible and functional when ordinary proteins would be locked into inactive conformations” Dr. DasSarma said.

The surface of these proteins also have modifications that loosen the binding of the surrounding water molecules.

“These kinds of adaptations are likely to allow microorganisms like Halorubrum lacusprofundi to survive not only in Antarctica, but elsewhere in the universe,” the researcher added.

The study is published online in the journal PLoS One.

 
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