Non-random genetic alterations in the cyanobacterium Nostoc sp. exposed to space conditions

Liu, Yuguang; Jeraldo, Patricio; Herbert, William G.; McDonough, Samantha J.; Eckloff, Bruce W.; Vera, Jean‐Pierre de; Cockell, Charles S.; Leya, Thomas; Baqué, Mickaël; Jen, Jin; Schulze‐Makuch, Dirk

doi:10.1038/s41598-022-16789-w

Sci Rep

2022

DOI: 10.1038/s41598-022-16789-w

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Non-random genetic alterations in the cyanobacterium Nostoc sp. exposed to space conditions

Yuguang Liu

Patricio Jeraldo

William G. Herbert

et al.

Abstract: Understanding the impact of long-term exposure of microorganisms to space is critical in understanding how these exposures impact the evolution and adaptation of microbial life under space conditions. In this work we subjected Nostoc sp. CCCryo 231-06, a cyanobacterium capable of living under many different ecological conditions, and also surviving in extreme ones, to a 23-month stay at the International Space Station (the Biology and Mars Experiment, BIOMEX, on the EXPOSE-R2 platform) and returned it to Earth… Show more

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Cited by 3 publications

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Lab-on-chip technologies for space research — current trends and prospects

Krakos

2023

Microchim Acta

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The in-depth analysis concerning application of microfluidic instruments for space biology research is presented. The article focuses on recently investigated key scientific fields, i.e., lab-on-chips applied to the biomedical studies performed in the (1) International Space Station and (2) CubeSat nanosatellites. The paper presents also the lab-on-chip devices that were fabricated with a view to future space biology research and to those that to date have been solely been tested under Earth laboratory conditions and/or simulated microgravity environments. NASA and ESA conceptual mission plans for future are also mentioned, concerning for instance “tissue chips” and the ESA-SPHEROIDS campaign. The paper ends with final conclusions and future perspectives regarding lab-on-chip application in the space biology sector and its impact on novel biomedical and pharmaceutical strategies. Graphical Abstract

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Lab-on-chip technologies for space research — current trends and prospects

Krakos

2023

Microchim Acta

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Genome Stability of Bacillus velezensis after Two-Year Exposure in Open Space

Fialkina,

Deshevaya,

Rakitin

et al. 2024

Mol Biol

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Genome stability of <i>Bacillus velezensis</i> after two-year exposure in open space

Fialkina,

Dshevaya,

Rakitin

et al. 2024

Molekulârnaâ biologiâ

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Spore-forming bacteria have a unique resistance to negative environmental conditions, including aggressive space factors, and are an excellent model for studying adaptation mechanisms and survival strategies at the molecular level. The study analyzed the genome of Bacillus velezensis, which remained viable after a two-year exposure in outer space on the outer surface of the ISS as part of the Test space experiment. A comparative analysis of the draft genomes of the exhibit strain and the ground control did not reveal significant changes, the average nucleotide identity was 99.98%, which indicates the ability of microorganisms to maintain genome stability in space conditions, due to both increased stress resistance of bacterial spores and efficient operation of the system. repair of accumulated changes. The study of single nucleotide polymorphism in the genome of Bacillus velezensis revealed nine point substitutions, three of which are in intergenic regions, 6 in protein-coding genes, three of them are missense mutations, two nucleotide deletions leading to a shift in the reading frame, and one synonymous substitution. The profiles of the housekeeping genes were determined during MLST typing, and it was found that the allelic profiles obtained for B. velezensis T15.2 and 924 strains do not correspond to any of the previously described sequence types. The presented results indicate the ability of Bacillus velezensis bacteria to maintain the viability of spores and the integrity of the genome for a long time under extreme conditions of outer space, which is important for the problem of planetary protection, as well as the potential possibility of implementing biotechnological processes based on Bacillus velezensis during space exploration.

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Non-random genetic alterations in the cyanobacterium Nostoc sp. exposed to space conditions

Cited by 3 publications

References 44 publications

Lab-on-chip technologies for space research — current trends and prospects

Lab-on-chip technologies for space research — current trends and prospects

Genome Stability of Bacillus velezensis after Two-Year Exposure in Open Space

Genome stability of <i>Bacillus velezensis</i> after two-year exposure in open space

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