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Bacterial Acclimation and Adaptation to the Space Environment Conditions-A (BASE-A)
03.22.12

Overview | Description | Applications | Operations | Results | Publications | Images

Experiment/Payload Overview

Information provided courtesy of the Erasmus Experiment Archive.
Brief Summary

The BASE-A investigation will study the effect of microgravity on bacteria and how bacteria adapts to the microgravity environment on ISS. The data provided by this investigation will give scientists valuable insight into how basic organisms adapt to new environments. This information could prove valuable when planning future long duration expeditions to the Moon and Mars.

Principal Investigator

  • Max Mergeay, D.Sc., Belgium Nuclear Research Center, Mol, , Belgium

    • Co-Investigator(s)/Collaborator(s)

  • Martina A. Heer, Ph.D., University of Bonn, Bonn, , Germany
  • Natalie Leys, M.D., Belgium Nuclear Research Center, Mol, , Belgium
  • P. Cornelis, M.D., Vrije Universiteit Brussel, Brussels, , Belgium
  • R. Wattiez, , University of Mons-Hainaut, Mons, , Belgium

    • Payload Developer

    Belgian Nuclear Research Centre, Mol, , Belgium

    Sponsoring Space Agency

    European Space Agency (ESA)

    Sponsoring Organization:

    Information Pending

    ISS Expedition Duration:

    September 2006 - April 2007



    Expeditions Assigned

    14

    Previous ISS Missions

    Information Pending

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    Experiment/Payload Description

    Research Summary

    • The BASE-A investigation will provide confirmation and analysis of previous observations on short duration mission in microgravity.


    • The BASE-A investigation will allow the comparison of response of multiple bacteria under similar culturing conditions in space.

    Description

    In the BASE-A (Bacterial Adaptation to Space Environments-A) experiment, the science team will study how bacteria cope and adapt to the different space flight environmental parameters (e.g. weightlessness, cosmic radiation, space electromagnetism, space vibrations). Based on these results, scientists will try to assess how such adaptations might influence their potential to contaminate and biodeteriorate the space habitat, their potential to endanger crew health, or their function in waste recycling or food production systems. In the BASE project, scientists will also study the physiology, gene expression, gene rearrangement and gene transfer of cultures of several model bacteria grown under microgravity and other space flight conditions.

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    Applications

    Space Applications

    Information Pending

    Earth Applications

    Information Pending

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    Operations

    Operational Requirements

    Information Pending

    Operational Protocols

    Information Pending

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    Results/More Information

    Information Pending

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    Related Web Sites
  • The information on this page is provided courtesy of the ESA Erasmus Experiment Archive.
  • The information provided is courtesy of the ESA Astrolab Mission web page.

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    Publications

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    Ground Based Results Publications

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    ISS Patent Publications

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    Related Publications

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    Images

    imageExample of Kubik incubator with centrifuge configuration loaded with experiment containers. Image courtesy of ESA.


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    Information provided by the investigation team to the ISS Program Scientist's Office.
    If updates are needed to the summary please contact JSC-ISS-Program-Science-Group. For other general questions regarding space station research and technology, please feel free to call our help line at 281-244-6187 or e-mail at JSC-ISS-Payloads-Helpline.
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