TY - JOUR
T1 - Development of an inducible three colour bacterial water colour system
AU - Brown, T.
AU - Chang, C.
AU - Heinze, B.
AU - Hollinger, P.
AU - Kittleson, J.
AU - MacDow, K.
AU - Reavis, D.
AU - Curry, J.
AU - Riley, M.
PY - 2007
Y1 - 2007
N2 - Here we present the work of the 2006 University of Arizona team in the iGEM (international Genetically Engineered Machine) competition sponsored by MIT. Our aim was to develop an inducible water colour system for painting bacteria in three colours. Using BioBricks, a plasmid was designed for insertion into E. coli which would allow the bacterium to respond to each of three different chemical inducers by producing yellow, cyan or red fluorescent proteins. In principle the inducers could be deposited on a bacterial lawn using a high-resolution printer so that three colour images could be produced with a spatial resolution matching the size of the bacterium. This could be the first step towards producing a bacterial lawn that behaves like a canvas for watercolour painting or eventually a three-colour television set. The application connects with current interest in precise control of cellular response desired in biosensors and bioengineered materials. The University of Arizona iGEM team called the 'Cell Raisers' was assembled in May 2006 and worked enthusiastically throughout the summer. The team was comprised of six undergraduates (Tyler Brown, Brian Heinze, Patrick Hollinger, Josh Kittleson, Kevin MacDow, and Dan Reavis), one graduate student (Carlos Chang), and two faculty members (Joan Curry and Mark Riley). This proved to be an ambitious project, and while the final goal was not fully realised, first steps were made in terms of design, plasmid construction and bacterial deposition with an inkjet printer. Patrick Hollinger and Brian Heinze gave the technical presentation to judges and competing teams on Saturday, November 4, 2006 in MIT's Stata Center. The team also presented a poster that was viewed in the evening after all the presentations. For their efforts, the University of Arizona team received honourable mention with special consideration: 'For progress toward synthetic biology in three colours'.
AB - Here we present the work of the 2006 University of Arizona team in the iGEM (international Genetically Engineered Machine) competition sponsored by MIT. Our aim was to develop an inducible water colour system for painting bacteria in three colours. Using BioBricks, a plasmid was designed for insertion into E. coli which would allow the bacterium to respond to each of three different chemical inducers by producing yellow, cyan or red fluorescent proteins. In principle the inducers could be deposited on a bacterial lawn using a high-resolution printer so that three colour images could be produced with a spatial resolution matching the size of the bacterium. This could be the first step towards producing a bacterial lawn that behaves like a canvas for watercolour painting or eventually a three-colour television set. The application connects with current interest in precise control of cellular response desired in biosensors and bioengineered materials. The University of Arizona iGEM team called the 'Cell Raisers' was assembled in May 2006 and worked enthusiastically throughout the summer. The team was comprised of six undergraduates (Tyler Brown, Brian Heinze, Patrick Hollinger, Josh Kittleson, Kevin MacDow, and Dan Reavis), one graduate student (Carlos Chang), and two faculty members (Joan Curry and Mark Riley). This proved to be an ambitious project, and while the final goal was not fully realised, first steps were made in terms of design, plasmid construction and bacterial deposition with an inkjet printer. Patrick Hollinger and Brian Heinze gave the technical presentation to judges and competing teams on Saturday, November 4, 2006 in MIT's Stata Center. The team also presented a poster that was viewed in the evening after all the presentations. For their efforts, the University of Arizona team received honourable mention with special consideration: 'For progress toward synthetic biology in three colours'.
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U2 - 10.1049/iet-stb:20070015
DO - 10.1049/iet-stb:20070015
M3 - Article
AN - SCOPUS:34547792851
SN - 1752-1394
VL - 1
SP - 21
EP - 24
JO - IET Synthetic Biology
JF - IET Synthetic Biology
IS - 1-2
ER -