Litcius/Paper detail

Best practices in the flow cytometry of microalgae

Dora Čertnerová, David W. Galbraith

2021Cytometry Part A23 citationsDOIOpen Access PDF

Abstract

Microalgae are photosynthetic microorganisms with a major influence on global ecosystems. Further, owing to the production of various secondary metabolites, microalgae are also intensively studied for their enormous potential in biotechnology and its applications. While flow cytometry (FCM) is a fast and reliable method particularly suitable for genome size estimation in plant and animal studies, its application to microalgae often comes with many methodological challenges due to specific issues (e.g., cell wall composition, and presence of various secondary metabolites). Sample preparation requires considerable amounts of biomass, chemical fixation, and/or extraction of cellular components. In genome size estimation, appropriate methods for isolation of intact nuclei (using lysis buffers, razor-blade chopping, various enzymes, or bead-beating of cells) are essential for successful and high-quality analyses. Nuclear DNA amounts of microalgae diverge greatly, varying by almost 30,000-fold (0.01 to 286 pg). Even though new algal reference standards for genome size are now being introduced, animal red blood cells and nuclei from plant tissues are still predominantly used. Due to our limited knowledge of microalgal life cycles, particular caution should be taken during 1C/2C-value (or ploidy level) assignments.

Topics & Concepts

BiologyLysisFlow cytometryMicroorganismGenome sizeGenomeBiomass (ecology)PloidyComputational biologyPhotosynthesisCell disruptionBiotechnologyBotanyBacteriaBiochemistryEcologyGeneticsGeneAlgal biology and biofuel productionProtist diversity and phylogenyAquatic Ecosystems and Phytoplankton Dynamics