Team:Alberta/References/Publications/On-chip transformation of bacteria

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Authors: Kuniaki Nagamine, Shiho Onodera, Yu-suke Torisawa, Tomoyuki Yasukawa, Hitoshi Shiku, and Tomokazu Matsue

Analytical Chemistry, 2005, 77 (13), pp 4278–4281

Abstract: On-chip transformation of Escherichia coli cells was accomplished for the first time using a microbial array chip. The continuous E. coli transformation procedures were performed on a chip in which the microcompartment was composed of PDMS microfluidic channels and a silicon substrate predeposited with different plasmid DNAs. The PDMS microfluidic device enabled the parallel transformation of E. coli cells with various plasmid DNAs by separating each transformation area. The phenotypic differences reflecting different plasmid DNAs were identified by various approaches such as colorimetry, fluorometry, and electrochemical methods. This microbial array chip could become a versatile tool for many cell biological applications.

Link: ACS Publications

Revision as of 22:04, 21 October 2009 (view source) Mitch p (Talk \| contribs) (New page: Authors: Kuniaki Nagamine, Shiho Onodera, Yu-suke Torisawa, Tomoyuki Yasukawa, Hitoshi Shiku, and Tomokazu Matsue Analytical Chemistry, 2005, 77 (13), pp 4278–4281 <b>Abstract:</b> On-...) ← Older edit		Latest revision as of 22:04, 21 October 2009 (view source) Mitch p (Talk \| contribs)
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	<b>Abstract:</b> On-chip transformation of Escherichia coli cells was accomplished for the first time using a microbial array chip. The continuous E. coli transformation procedures were performed on a chip in which the microcompartment was composed of PDMS microfluidic channels and a silicon substrate predeposited with different plasmid DNAs. The PDMS microfluidic device enabled the parallel transformation of E. coli cells with various plasmid DNAs by separating each transformation area. The phenotypic differences reflecting different plasmid DNAs were identified by various approaches such as colorimetry, fluorometry, and electrochemical methods. This microbial array chip could become a versatile tool for many cell biological applications.		<b>Abstract:</b> On-chip transformation of Escherichia coli cells was accomplished for the first time using a microbial array chip. The continuous E. coli transformation procedures were performed on a chip in which the microcompartment was composed of PDMS microfluidic channels and a silicon substrate predeposited with different plasmid DNAs. The PDMS microfluidic device enabled the parallel transformation of E. coli cells with various plasmid DNAs by separating each transformation area. The phenotypic differences reflecting different plasmid DNAs were identified by various approaches such as colorimetry, fluorometry, and electrochemical methods. This microbial array chip could become a versatile tool for many cell biological applications.

-	'''Link:'''[http://pubs.acs.org/doi/abs/10.1021/ac048278n ACS Publications]	+	'''Link:''' [http://pubs.acs.org/doi/abs/10.1021/ac048278n ACS Publications]