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Isolation of SAR11 Marine Bacteria from Cryopreserved Seawater

Elizabeth A. Monaghan, Kelle C. Freel, Michael S. Rappé

2020mSystems22 citationsDOIOpen Access PDF

Abstract

High-throughput dilution culture has proved to be a successful approach to bring some difficult-to-isolate planktonic microorganisms into culture, including the highly abundant SAR11 lineage of marine bacteria. While the long-term preservation of bacterial isolates by freezing them in the presence of cryoprotectants, such as glycerol, has been shown to be an effective method of storing viable cells over long time periods (i.e., years), to our knowledge it had not previously been tested for its efficacy in preserving raw seawater for later use as an inoculum for high-throughput cultivation experiments. We found that SAR11 and other abundant marine bacteria could be isolated from seawater that was previously cryopreserved for nearly 10 months at a rate of culturability similar to that of the same seawater used fresh, immediately after collection. Our findings (i) expand the potential of high-throughput cultivation experiments to include testing when immediate isolation experiments are impractical, (ii) allow for targeted isolation experiments from specific samples based on analyses such as microbial community structure, and (iii) enable cultivation experiments across a wide range of other conditions that would benefit from having source inocula available over extended periods of time.

Topics & Concepts

CryoprotectantSeawaterBacteriaMicroorganismIsolation (microbiology)CryopreservationBiologyGlycerolMarine bacteriophageFood scienceMicrobiologyEcologyFisheryBiochemistryGeneticsEmbryoMicrobial Community Ecology and PhysiologyBacteriophages and microbial interactionsProtist diversity and phylogeny
Isolation of SAR11 Marine Bacteria from Cryopreserved Seawater | Litcius