We have developed a novel workflow (sdDE-FACS, s̲ingle d̲roplet D̲ouble E̲mulsion FACS) that allows robust production, screening, and sorting of single double emulsion droplets with complete nucleic acid recovery.
In
the past five years, droplet microfluidic techniques have unlocked
new opportunities for the high-throughput genome-wide analysis of
single cells, transforming our understanding of cellular diversity
and function. However, the field lacks an accessible method to screen
and sort droplets based on cellular phenotype upstream of genetic
analysis, particularly for large and complex cells. To meet this need,
we developed Dropception, a robust, easy-to-use workflow for precise
single-cell encapsulation into picoliter-scale double emulsion droplets
compatible with high-throughput screening via fluorescence-activated
cell sorting (FACS). We demonstrate the capabilities of this method
by encapsulating five standardized mammalian cell lines of varying
sizes and morphologies as well as a heterogeneous cell mixture of
a whole dissociated flatworm (5–25 μm in diameter) within
highly monodisperse double emulsions (35 μm in diameter). We
optimize for preferential encapsulation of single cells with extremely
low multiple-cell loading events (<2% of cell-containing droplets),
thereby allowing direct linkage of cellular phenotype to genotype.
Across all cell lines, cell loading efficiency approaches the theoretical
limit with no observable bias by cell size. FACS measurements reveal
the ability to discriminate empty droplets from those containing cells
with good agreement to single-cell occupancies quantified via microscopy,
establishing robust droplet screening at single-cell resolution. High-throughput
FACS screening of cellular picoreactors has the potential to shift
the landscape of single-cell droplet microfluidics by expanding the
repertoire of current nucleic acid droplet assays to include functional
phenotyping.
Two young chimpanzees showed retention of self-recognition after 1 year without access to mirrors. A year earlier the animals were positive on the Gallup dye test. One year later they were once again anesthetized, marked on the brow and ears, and following recovery, exposed individually to a large mirror. Both demonstrated mirror-orientated mark-directed responses. Time-sample observations of behavior toward the mirror further support self-recognition. The chimpanzee's self-awareness, as inferred from its self-recognition, appears to be a stable characteristic of the animal.
Double emulsion droplets (DEs) are water/oil/water droplets that can be sorted via Fluorescence-Activated Cell Sorting (FACS), allowing for new opportunities in high-throughput cellular analysis, enzymatic screening, and synthetic biology. These...
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