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Cryopreservation of clonal and polyclonal populations of Chlamydomonas reinhardtii.

Jacob BoswellCharles Ross LindseyEmily CookFrank RosenzweigMatthew Herron
Published in: Biology methods & protocols (2021)
Long-term preservation of laboratory strains of Chlamydomonas reinhardtii has historically involved either liquid nitrogen cryopreservation, which is expensive and labor intensive, or storage on agar plates, which requires frequent transfer to new plates, and which may leave samples susceptible to contamination as well as genetic drift and/or selection. The emergence of C. reinhardtii as a model organism for genetic analysis and experimental evolution has produced an increasing demand for an efficient method to cryopreserve C. reinhardtii populations. The GeneArt™ Cryopreservation Kit for Algae provides the first method for algal storage at -80°C; however, little is known about how this method affects recovery of different clones, much less polyclonal populations. Here, we compare postfreeze viability of clonal and genetically mixed samples frozen at -80°C using GeneArt™ or cryopreserved using liquid nitrogen. We find that the GeneArt™ protocol yields similar percent recoveries for some but not all clonal cultures, when compared to archiving via liquid N2. We also find that relative frequency of different strains recovered from genetically mixed populations can be significantly altered by cryopreservation. Thus, while cryopreservation using GeneArt™ is an effective means for archiving certain clonal populations, it is not universally so. Strain-specific differences in freeze-thaw tolerance complicate the storage of different clones, and may also bias the recovery of different genotypes from polyclonal populations.
Keyphrases
  • genetic diversity
  • escherichia coli
  • ionic liquid
  • randomized controlled trial
  • gene expression
  • drinking water
  • copy number
  • bone marrow
  • human health