The development of new technologies of microscopy, flow cytometry and genomics has allowed a profound reconsideration of the diversity and ecological role of femtoplankton entities (i.e., viruses, vesicles, aster like nanoparticles -ALNs-). Among these, the discovery of ALNs, raise serious questions about their exact nature and their biological and environmental roles. The elaboration of a practical guide for the concentration and separation of femtoplankton entities, including ALNs, is necessary for a better understanding of their diversity, ontogeny, and ecology. Here, we propose a step-by-step procedure for the enrichment and isolation of femtoplankton entities and prokaryotes. The established protocol couples tangential flow filtration to differential centrifugation, leading to differentiate enriched samples (with different target entity contents), usable as a matrix for sorting by flow cytometry. All entities were identified, characterized and counted by transmission electron microscopy and flow cytometry. The procedure allows an efficient detection, concentration and separation of femtoplankton entities (up to purity rate of 92, 67, 81 and 85% for virus like particles, vesicles, prokaryotes and ALNs, respectively), and different morphotypes of ALNs into different fractions (up to 51, 72, 52, 40 and 79% of total ALNs for 20-, 11-, budding 11-, 5-10- and 4-armed ALNs, respectively).
Keywords: Aster like nanoparticle; Concentration; Differential centrifugation; Flow cytometry sorting; Separation; Tangential flow filtration.
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