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Molecular Mechanisms of Microbial Survivability in Outer Space: A Systems Biology Approach

Tetyana Milojević, Wolfram Weckwerth

2020Frontiers in Microbiology55 citationsDOIOpen Access PDF

Abstract

responses of microbial life to the stress conditions of space during interplanetary transfer. Significant progress has been made toward the understanding of the effects of space environmental factors, e.g., microgravity, vacuum and radiation, on microorganisms exposed to real and simulated space conditions. Of extreme importance is not only knowledge of survival potential of space-exposed microorganisms, but also the determination of mechanisms of survival and adaptation of predominant species to the extreme space environment, i.e., revealing the molecular machinery, which elicit microbial survivability and adaptation. Advanced technologies in -omics research have permitted genome-scale studies of molecular alterations of space-exposed microorganisms. A variety of reports show that microorganisms grown in the space environment exhibited global alterations in metabolic functions and gene expression at the transcriptional and translational levels. Proteomic, metabolomic and especially metabolic modeling approaches as essential instruments of space microbiology, synthetic biology and metabolic engineering are rather underrepresented. Here we summarized the molecular space-induced alterations of exposed microorganisms in terms of understanding the molecular mechanisms of microbial survival and adaptation to drastic outer space environment.

Topics & Concepts

MicroorganismBiologySpace environmentSpace explorationAdaptation (eye)SurvivabilityComputational biologyOuter spaceMetabolomicsExtreme environmentSpace (punctuation)Biochemical engineeringAstrobiologyGeneticsAerospace engineeringComputer scienceBacteriaBioinformaticsPhysicsEngineeringNeuroscienceGeophysicsOperating systemSpaceflight effects on biologySpace Exploration and TechnologyGenetics, Aging, and Longevity in Model Organisms
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