posted on 2018-10-04, 11:26authored byCristian Soitu, Alexander Feuerborn, Ann Na Tan, Henry Walker, Pat A. Walsh, Alfonso A. Castrejón-Pita, Peter R. Cook, Ed J. Walsh
Many proofs of concept have demonstrated the potential of microfluidics
in cell biology. However, the technology remains inaccessible
to many biologists, as it often requires complex manufacturing
facilities (such as soft lithography) and uses materials foreign to cell
biology (such as polydimethylsiloxane). Here, we present a method
for creating microfluidic environments by simply reshaping fluids on
a substrate. For applications in cell biology, we use cell media on a
virgin Petri dish overlaid with an immiscible fluorocarbon. A hydrophobic/
fluorophilic stylus then reshapes the media into any pattern
by creating liquid walls of fluorocarbon. Microfluidic arrangements
suitable for cell culture are made in minutes using materials familiar
to biologists. The versatility of the method is demonstrated by creating
analogs of a common platform in cell biology, the microtiter
plate. Using this vehicle, we demonstrate many manipulations required
for cell culture and downstream analysis, including feeding,
replating, cloning, cryopreservation, lysis plus RT-PCR, transfection
plus genome editing, and fixation plus immunolabeling (when fluid
walls are reconfigured during use). We also show that mammalian
cells grow and respond to stimuli normally, and worm eggs develop
into adults. This simple approach provides biologists with an entrée
into microfluidics.
Funding
Earthquake Vulnerability of Water Supply and Natural Gas Systems