No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction

Microorganisms perform countless tasks on Earth and they are expected to be essential for human space exploration. Despite the interest in the responses of bacteria to space conditions, the findings on the effects of microgravity have been contradictory, while the effects of Martian gravity are near...

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Autores principales: Santomartino, Rosa, Waajen, Annemiek C., de Wit, Wessel, Nicholson, Natasha, Parmitano, Luca, Loudon, Claire-Marie, Moeller, Ralf, Rettberg, Petra, Fuchs, Felix M., Van Houdt, Rob, Finster, Kai, Coninx, Ilse, Krause, Jutta, Koehler, Andrea, Caplin, Nicol, Zuijderduijn, Lobke, Zolesi, Valfredo, Balsamo, Michele, Mariani, Alessandro, Pellari, Stefano S., Carubia, Fabrizio, Luciani, Giacomo, Leys, Natalie, Doswald-Winkler, Jeannine, Herová, Magdalena, Wadsworth, Jennifer, Everroad, R. Craig, Rattenbacher, Bernd, Demets, René, Cockell, Charles S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2020
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7591705/
https://www.ncbi.nlm.nih.gov/pubmed/33154740
http://dx.doi.org/10.3389/fmicb.2020.579156
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author Santomartino, Rosa
Waajen, Annemiek C.
de Wit, Wessel
Nicholson, Natasha
Parmitano, Luca
Loudon, Claire-Marie
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Finster, Kai
Coninx, Ilse
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Zolesi, Valfredo
Balsamo, Michele
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Leys, Natalie
Doswald-Winkler, Jeannine
Herová, Magdalena
Wadsworth, Jennifer
Everroad, R. Craig
Rattenbacher, Bernd
Demets, René
Cockell, Charles S.
author_facet Santomartino, Rosa
Waajen, Annemiek C.
de Wit, Wessel
Nicholson, Natasha
Parmitano, Luca
Loudon, Claire-Marie
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Finster, Kai
Coninx, Ilse
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Zolesi, Valfredo
Balsamo, Michele
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Leys, Natalie
Doswald-Winkler, Jeannine
Herová, Magdalena
Wadsworth, Jennifer
Everroad, R. Craig
Rattenbacher, Bernd
Demets, René
Cockell, Charles S.
author_sort Santomartino, Rosa
collection PubMed
description Microorganisms perform countless tasks on Earth and they are expected to be essential for human space exploration. Despite the interest in the responses of bacteria to space conditions, the findings on the effects of microgravity have been contradictory, while the effects of Martian gravity are nearly unknown. We performed the ESA BioRock experiment on the International Space Station to study microbe-mineral interactions in microgravity, simulated Mars gravity and simulated Earth gravity, as well as in ground gravity controls, with three bacterial species: Sphingomonas desiccabilis, Bacillus subtilis, and Cupriavidus metallidurans. To our knowledge, this was the first experiment to study simulated Martian gravity on bacteria using a space platform. Here, we tested the hypothesis that different gravity regimens can influence the final cell concentrations achieved after a multi-week period in space. Despite the different sedimentation rates predicted, we found no significant differences in final cell counts and optical densities between the three gravity regimens on the ISS. This suggests that possible gravity-related effects on bacterial growth were overcome by the end of the experiment. The results indicate that microbial-supported bioproduction and life support systems can be effectively performed in space (e.g., Mars), as on Earth.
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spelling pubmed-75917052020-11-04 No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction Santomartino, Rosa Waajen, Annemiek C. de Wit, Wessel Nicholson, Natasha Parmitano, Luca Loudon, Claire-Marie Moeller, Ralf Rettberg, Petra Fuchs, Felix M. Van Houdt, Rob Finster, Kai Coninx, Ilse Krause, Jutta Koehler, Andrea Caplin, Nicol Zuijderduijn, Lobke Zolesi, Valfredo Balsamo, Michele Mariani, Alessandro Pellari, Stefano S. Carubia, Fabrizio Luciani, Giacomo Leys, Natalie Doswald-Winkler, Jeannine Herová, Magdalena Wadsworth, Jennifer Everroad, R. Craig Rattenbacher, Bernd Demets, René Cockell, Charles S. Front Microbiol Microbiology Microorganisms perform countless tasks on Earth and they are expected to be essential for human space exploration. Despite the interest in the responses of bacteria to space conditions, the findings on the effects of microgravity have been contradictory, while the effects of Martian gravity are nearly unknown. We performed the ESA BioRock experiment on the International Space Station to study microbe-mineral interactions in microgravity, simulated Mars gravity and simulated Earth gravity, as well as in ground gravity controls, with three bacterial species: Sphingomonas desiccabilis, Bacillus subtilis, and Cupriavidus metallidurans. To our knowledge, this was the first experiment to study simulated Martian gravity on bacteria using a space platform. Here, we tested the hypothesis that different gravity regimens can influence the final cell concentrations achieved after a multi-week period in space. Despite the different sedimentation rates predicted, we found no significant differences in final cell counts and optical densities between the three gravity regimens on the ISS. This suggests that possible gravity-related effects on bacterial growth were overcome by the end of the experiment. The results indicate that microbial-supported bioproduction and life support systems can be effectively performed in space (e.g., Mars), as on Earth. Frontiers Media S.A. 2020-10-14 /pmc/articles/PMC7591705/ /pubmed/33154740 http://dx.doi.org/10.3389/fmicb.2020.579156 Text en Copyright © 2020 Santomartino, Waajen, de Wit, Nicholson, Parmitano, Loudon, Moeller, Rettberg, Fuchs, Van Houdt, Finster, Coninx, Krause, Koehler, Caplin, Zuijderduijn, Zolesi, Balsamo, Mariani, Pellari, Carubia, Luciani, Leys, Doswald-Winkler, Herová, Wadsworth, Everroad, Rattenbacher, Demets and Cockell. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Santomartino, Rosa
Waajen, Annemiek C.
de Wit, Wessel
Nicholson, Natasha
Parmitano, Luca
Loudon, Claire-Marie
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Finster, Kai
Coninx, Ilse
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Zolesi, Valfredo
Balsamo, Michele
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Leys, Natalie
Doswald-Winkler, Jeannine
Herová, Magdalena
Wadsworth, Jennifer
Everroad, R. Craig
Rattenbacher, Bernd
Demets, René
Cockell, Charles S.
No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title_full No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title_fullStr No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title_full_unstemmed No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title_short No Effect of Microgravity and Simulated Mars Gravity on Final Bacterial Cell Concentrations on the International Space Station: Applications to Space Bioproduction
title_sort no effect of microgravity and simulated mars gravity on final bacterial cell concentrations on the international space station: applications to space bioproduction
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7591705/
https://www.ncbi.nlm.nih.gov/pubmed/33154740
http://dx.doi.org/10.3389/fmicb.2020.579156
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