Synergistic effects of space radiation and microgravity (miRNA WT and dys-mutant)

Space radiations and microgravity both could cause DNA damage in cells but the effects of microgravity on DNA damage response to space radiations are still controversial. A mRNA microarray and microRNA microarray in dauer larvae of Caenorhabditis elegans (C. elegans) that endured space xef xac x82ight environment and space radiations environment during 16.5-day Shenzhou-8 space mission were performed. In our study wild type and dys-1 mutant strains of C.elegans endured four conditions during shenzhou-8 spaceflight mission including spaceflight static condition(ss) spaceflight 1-g centrifugal condition(sc) ground control condition(gc) and no-transport control. Limited to the quantity of worm samples we performed technical-repeat test but not sample-repeat test. Accordingly eight miRNA microarrays were performed.

Data and Resources

Additional Info

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Maintainer GeneLab Outreach
Last Updated April 23, 2025, 19:53 (UTC)
Created February 18, 2025, 23:57 (UTC)
accessLevel public
accrualPeriodicity irregular
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harvest_source_title DNG Legacy Data
identifier nasa_genelab_GLDS-165_27cx-67an
issued 2018-06-26
landingPage https://data.nasa.gov/dataset/synergistic-effects-of-space-radiation-and-microgravity-mirna-wt-and-dys-mutant
modified 2023-01-26
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