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Literature DB >> 27630185

Microgravity as a biological tool to examine host-pathogen interactions and to guide development of therapeutics and preventatives that target pathogenic bacteria.

Ellen E Higginson¹, James E Galen¹, Myron M Levine², Sharon M Tennant³.

Abstract

Space exploration programs have long been interested in the effects of spaceflight on biology. This research is important not only in its relevance to future deep space exploration, but also because it has allowed investigators to ask questions about how gravity impacts cell behavior here on Earth. In the 1980s, scientists designed and built the first rotating wall vessel, capable of mimicking the low shear environment found in space. This vessel has since been used to investigate growth of both microorganisms and human tissue cells in low shear modeled microgravity conditions. Bacterial behavior has been shown to be altered both in space and under simulated microgravity conditions. In some cases, bacteria appear attenuated, whereas in others virulence is enhanced. This has consequences not only for manned spaceflight, but poses larger questions about the ability of bacteria to sense the world around them. By using the microgravity environment as a tool, we can exploit this phenomenon in the search for new therapeutics and preventatives against pathogenic bacteria for use both in space and on Earth. © FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.

Entities: Species

Keywords: bacteria; host pathogen; microgravity; rotating wall vessel; spaceflight; virulence

Mesh：

Substances：
Bacterial Vaccines

Year: 2016 PMID： 27630185 PMCID： PMC5985481 DOI： 10.1093/femspd/ftw095

Source DB: PubMed Journal: Pathog Dis ISSN： 2049-632X Impact factor: 3.166

65 in total

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Journal: J Biol Chem Date: 2013-09-09 Impact factor: 5.157

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Journal: Infect Immun Date: 2014-10-20 Impact factor: 3.441

6. Transcriptional and proteomic responses of Pseudomonas aeruginosa PAO1 to spaceflight conditions involve Hfq regulation and reveal a role for oxygen.

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Journal: Appl Environ Microbiol Date: 2010-12-17 Impact factor: 4.792

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Journal: Infect Immun Date: 2000-06 Impact factor: 3.441

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Authors: M Tavassoli
Journal: Blood Date: 1982-11 Impact factor: 22.113

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Journal: PLoS One Date: 2013-04-29 Impact factor: 3.240

10 in total

1. Growth of Staphylococcus aureus Using a Rotary Cell Culture System.

Authors: Matthew R Hauserman; Kelly C Rice
Journal: Methods Mol Biol Date: 2021

Review 2. Remote Controlled Autonomous Microgravity Lab Platforms for Drug Research in Space.

Authors: Shimon Amselem
Journal: Pharm Res Date: 2019-11-18 Impact factor: 4.200

3. Phenotypic, genomic, and transcriptomic changes in an Acinetobacter baumannii strain after spaceflight in China's Tiangong-2 space laboratory.

Authors: Xian Zhao; Yi Yu; Xuelin Zhang; Bing Huang; Chou Xu; Bin Zhang; Po Bai; Changting Liu
Journal: Braz J Microbiol Date: 2022-06-28 Impact factor: 2.214

4. Transcriptomic changes in an animal-bacterial symbiosis under modeled microgravity conditions.

Authors: Giorgio Casaburi; Irina Goncharenko-Foster; Alexandrea A Duscher; Jamie S Foster
Journal: Sci Rep Date: 2017-04-10 Impact factor: 4.379

5. Response of membrane tension to gravity in an approximate cell model.

Authors: Lili Wang; Weiyi Chen; Hongmei Guo; Airong Qian
Journal: Theor Biol Med Model Date: 2019-12-05 Impact factor: 2.432

Review 6. Immunity in Space: Prokaryote Adaptations and Immune Response in Microgravity.

Authors: Macauley J Green; Jonathan W Aylott; Paul Williams; Amir M Ghaemmaghami; Philip M Williams
Journal: Life (Basel) Date: 2021-02-02

Review 7. Advances in space microbiology.

Authors: Swati Bijlani; Elisa Stephens; Nitin Kumar Singh; Kasthuri Venkateswaran; Clay C C Wang
Journal: iScience Date: 2021-04-03