A species of bacteria survived on the outside of the International Space Station for a full year

international space station iss nasa
The International Space Station.
  • A species of bacterium, Deinococcus radiodurans, survived for a year on the outside of the International Space Station. 
  • It endured microgravity, harsh ultraviolet radiation, and temperatures near absolute zero.
  • Scientists found that the bacteria developed more small bumps than its counterparts on Earth.
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A year in space is no walk in the park. Just ask Scott Kelly, the American astronaut who spent a year on the International Space Station (ISS) in 2015.

His long-term stay in space changed his DNA, telomeres, and gut microbiome. He lost bone density, and he still had sore feet three months later.

But it's a whole other thing to survive in the naked space outside the protection of the ISS, where ultraviolet radiation, a vacuum, huge temperature fluctuations, and microgravity are all imminent threats.

So it's quite a feat that a species of bacterium first found in a can of meat, Deinococcus radioduranswas still alive and kicking after a year spent living on a specially designed platform outside the pressurized module of the ISS.

Researchers have been investigating these mighty microbes for a while; back in 2015, an international team set up the Tanpopo mission on the outside of the Japanese Experimental Module Kibo, to put hardy bacterial species to the test.

Now, D. radiodurans has passed with flying colors.

bacterium.deinococcus
Deinococcus radiodurans after a year of exposure to low-Earth orbit outside the International Space Station.

The bacterial cells were dehydrated, shipped to the ISS, and placed in the Exposed Facility, a platform continuously exposed to the space environment; in this case, the cells were behind a glass window that blocked out UV light at wavelengths lower than 190 nanometers.

"Results presented in this study may increase awareness regarding planetary protection concerns on, for instance, the Martian atmosphere which absorbs UV radiation below 190-200 nm," the team from Austria, Japan, and Germany wrote in their new paper.

"To mimic this condition, our experimental setup on the ISS included a silicon dioxide glass window."

This isn't the longest time D. radiodurans has been kept in these conditions – a sample of the bacterium was left up there for three whole years.

But the team weren't trying for a world record, instead they were trying to uncover what makes D. radiodurans just so good at surviving in these extreme conditions.

iss international space station nasa
The International Space Station.

So, after a year of radiation, freezing and boiling temperatures, and no gravity, the researchers got the spacefaring bacteria back down to Earth, then rehydrated both a control that had spent the year on Earth and the low-Earth Orbit (LEO) sample, and compared their results.

The survival rate was a lot lower for the LEO bacteria compared to the control version, but the bacteria that did survive seemed to be doing okay, even if they had turned a little different from their Earth-bound brethren.

The team found that the LEO bacteria were covered with small bumps or vesicles on the surface, a number of repair mechanisms had been triggered, and some proteins and mRNAs had become more abundant.

bacterium space station
D. radiodurans control (left), and after low-Earth orbit exposure (right).

The team isn't exactly sure why the vesicles (which you can see in the picture above) formed, but they do have a couple of ideas.

"Intensified vesiculation after recovery from LEO exposure can serve as a quick stress response, which augments cell survival by withdrawing stress products," the team wrote.

"Additionally, outer membrane vesicles may contain proteins important for nutrient acquisition, DNA transfer, transport of toxins and quorum sensing molecules, eliciting the activation of resistance mechanisms after space exposure."

This kind of study helps us understand whether bacteria could survive other worlds, and maybe even the journey between them, which will become more and more important as humans and the germs we bring with us begin to travel farther than our moon into the solar system, and one day maybe even beyond.

"These investigations help us to understand the mechanisms and processes through which life can exist beyond Earth, expanding our knowledge on how to survive and adapt in the hostile environment of outer space," said University of Vienna biochemist Tetyana Milojevic.

"The results suggest that survival of D. radiodurans in LEO for a longer period is possible due to its efficient molecular response system and indicate that even longer, farther journeys are achievable for organisms with such capabilities."

The research was published in Microbiome.

Read the original article on Business Insider


Contributer : Business Insider https://ift.tt/2UoD7sA
A species of bacteria survived on the outside of the International Space Station for a full year A species of bacteria survived on the outside of the International Space Station for a full year Reviewed by mimisabreena on Friday, November 13, 2020 Rating: 5

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