By Carole Gan, ϲϿ Davis Health
Studying the microbes in the International Space Station is very much like studying a building or a house, according to research published in 2017.
“Since the ISS is completely enclosed, the microbes inside the station come from the people on the ISS and the supplies sent to them,” said David Coil, a microbiologist in the Department of Medical Microbiology and Immunology at ϲϿ Davis School of Medicine.
The work was part of , a collaboration between ϲϿ Davis and other organizations including , a group of current and former professional cheerleaders pursuing careers in science and math.
, the Project MERCCURI team sent 48 bacterial collected on Earth to the ISS to see which (if any) grew better in space. Additionally, astronauts swabbed 15 on the space station and sent the samples back to Earth to be analyzed. The researchers compared the found on the ISS to published data including the “Wildlife of Our Homes” study and surveys of human body sites from the .
The ISS can act as a model system for studying microbes in buildings, said Jonathan Eisen, professor in medical microbiology and immunology, evolution and ecology and at the ϲϿ Davis Genome Center.
“The key reason it is a good model is that the inputs of microbes into it are very restricted. Thus we can learn about what role inputs (e.g., , water, people, dogs) have in developing the built environment microbiome by comparing to the ISS,” Eisen said.
The microbiology of buildings is a big interest in Eisen’s lab, a part of the network. Selecting the ISS as part of Project MERCCURI was also a great way to drive public interest in the project, he added.
Project MERCCURI was coordinated by Science Cheerleader, SciStarter and ϲϿ Davis, in conjunction with the Argonne National Laboratory. The project was supported by funds provided by Space Florida, NanoRacks, and the Alfred P. Sloan Foundation.
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