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FACS-Based
Isolation of Slowly Growing Cells: Double
Encapsulation of Yeast in Gel Microdrops
Nature Biotechnology, July 1996, vol.
14, pp.884-887
Elizabeth A. Gift, Hyun J. Park,
Glenn A. Paradis, Arnold L Demain, and James C.
Weaver
Isolating
hyperproducing cells is important in
biotechnology, but the cells usually grow slowly
end can be overgrown by poorly producing cells.
We describe a new method of isolating slowly
growing cells from among rapidly growing cells,
which has the potential for automation and high
throughput (e.g., 100,000 cells/h). A model
system is presented consisting of a mixed
population of slowly growing mutant and rapidly
growing wild-type yeast which were encapsulated
in double agarose gel microdrops (dGMDs); with
most dGMDs initially containing single cells.
Double encapsulation locates parent cells near
dGMD centers, making microcolony measurement more
accurate. After a 15 hr. incubation, fluorescent
activated cell sorting was used to analyze and
sort dGMDs with small microcolonies (slow
growers) from dGMD with large microcolonies
(rapid growers). Successful isolation of slow
growers from a mixed population of predominantly
rapidly growing Saccharomyces cerevisiae
cells was achieved.
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