• biofilm and planktonic lifestyles differently support the resistance of the desert cyanobacterium chroococcidiopsis under space and martian simulations

    جزئیات بیشتر مقاله
    • تاریخ ارائه: 1392/07/24
    • تاریخ انتشار در تی پی بین: 1392/07/24
    • تعداد بازدید: 1004
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    when chroococcidiopsis sp. strain ccmee 057 from the sinai desert and strain ccmee 029 from the negev desert were exposed to space and martian simulations in the dried status as biofilms or multilayered planktonic samples, the biofilms exhibited an enhanced rate of survival. compared to strain ccmee 029, biofilms of strain ccme 057 better tolerated uv polychromatic radiation (5 × 105 kj/m2 attenuated with a 0.1 % neutral density filter) combined with space vacuum or martian atmosphere of 780 pa. ccmee 029, on the other hand, failed to survive uv polychromatic doses higher than 1.5 × 103 kj/m2. the induced damage to genomic dna, plasma membranes and photosynthetic apparatus was quantified and visualized by means of pcr-based assays and clsm imaging. planktonic samples of both strains accumulated a higher amount of damage than did the biofilms after exposure to each simulation; clsm imaging showed that photosynthetic pigment bleaching, dna fragmentation and damaged plasma membranes occurred in the top 3–4 cell layers of both biofilms and of multilayered planktonic samples. differences in the eps composition were revealed by molecular probe staining as contributing to the enhanced endurance of biofilms compared to that of planktonic samples. our results suggest that compared to strain ccmee 029, biofilms of strain ccmee 057 might better tolerate 1 year’s exposure in space during the next expose-r2 mission.

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