Continuous low-voltage dc electroporation on a microfluidic chip with polyelectrolytic salt bridges

Authors
Kim, Sang KyungKim, Jae YunKim, Kwang PyoChung, Taek Don
Issue Date
2007-10-15
Publisher
AMER CHEMICAL SOC
Citation
ANALYTICAL CHEMISTRY, v.79, no.20, pp.7761 - 7766
Abstract
A microfluidic electroporator operating under a continuous low dc voltage (7 to similar to 15 V) is reported. The proposed electroporation microchip exploits the ionic conductivity of polyelectrolytic gel electrodes to precisely control the electric field that is applied to cells without bubble generation in the microchannel. In this study, pDADMAC (poly diallyldimethylammonium chloride) was used to efficiently apply the electric potential difference to the cells in the microchannels. Impedance analysis showed that the pDADMAC plugs could work as ionic conductors with a conductivity of approximately 16 S m(-1). In accordance with the calculation using CFD-ACE, an input voltage of only 10 V could generate an electric field of 0.9 kV cm(-1) across the microchannel; this meets the requirements for electropermeation. The electropermeation of K562 human chronic leukemia cells was observed in the microchip from 7 V, and the efficiency increased up to 60% upon the application of an input voltage of 15 V with a viability of 80%. An amount of 10(5) cells could be transfected every minute under a constant potential difference. The transfection and expression of DNA plasmids were also successfully demonstrated in the suspension cell line.
Keywords
MAMMALIAN-CELLS; GENE; ELECTROTRANSFECTION; ELECTROPHORESIS; SYSTEM; MAMMALIAN-CELLS; GENE; ELECTROTRANSFECTION; ELECTROPHORESIS; SYSTEM; microfluidic chip; electroporation; polyelectrolyte; in-situ photopolymerization
ISSN
0003-2700
URI
https://pubs.kist.re.kr/handle/201004/134038
DOI
10.1021/ac071197h
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KIST Article > 2007
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