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Revision as of 07:56, 18 August 2014
iGEM ETH Zurich 2014
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References
[1]
Slusarczyk, A. L., A., Weiss, R., Foundations for the design and implementation of synthetic genetic circuits, Nature Reviews Genetics, 13, 2012
[2]
Ausländer, D.,
et al
., A Synthetic Multifunctional Mammalian pH Sensor and CO
2
Transgene-Control Device, Molecular Cell, 55, 2014
[3]
Bugaj, L. J., Schaffer, D. V., Bringing next-generation therapeutics to the clinic through synthetic biology, Current Opinion in Chemical Biology, 16, 2012
[4]
Eberhard, A.,
et al
., Structural identification of autoinducer of
Photobacterium fischeri
luciferase, Biochemistry, 20, 1981
[5]
Williams, P.,
et al
. Look who's talking: communication and quorum sensing in the bacterial world, Philosophical Transactions of the Royal Society B: Biological Sciences, 362.1483, 2007
[6]
Jayaraman, A., and Wood, TK. Bacterial quorum sensing: signals, circuits, and implications for biofilms and disease, Annual Review of Biomedical Engineering, 10, 2008
[7]
Benenson, Y., Recombinatorial Logic, Science, 340, 2013
[8]
Siuti, P.,
et al
., Synthetic circuits integrating logic and memory in living cells, Nature Biotechnology, 31.5, 2013
[9]
Bonnet, J.,
et al
., Amplifying genetic logic gates, Science, 340.6132, 2013
[10]
Collins, J.,
et al
., Engineered riboregulators enable post-transcriptional control of gene expression, Nature Biotechnology, 22, 2004
[11]
Wolfram, Stephen. A new kind of science. Vol. 5. Champaign: Wolfram media, 2002
[12]
Luisi, Pier Luigi. The emergence of life: from chemical origins to synthetic biology.
Chapter 6
. Cambridge University Press, 2006