Independence among synthetic genetic devices in the bacterium Escherichia coli extends to the time-domain

Author

Hajimorad, M. ; Keasling, J.D.

Author_Institution

Dept. of Eng. & Design, Eastern Washington Univ., Cheney, WA, USA

fYear

2014

fDate

22-24 Oct. 2014

Firstpage

89

Lastpage

92

Abstract

Engineering biology in a direct, systematic manner is limited today. The ability to build biological systems from components that act independent of one another has the potential to make the forward engineering of biology practical. Previously, we have shown that independence among synthetic genetic devices is possible in Escherichia coli under steady-state conditions. Here, we show that independence is also possible under transient conditions, suggesting that the ability of biological systems to exhibit linear behavior is not contextually-dependent. Furthermore, the green fluorescent protein part was once again observed to be the most nonlinear in the model system. This suggests it may not be well suited for characterization purposes irrespective of the context.

Keywords

biological techniques; fluorescence; genetics; microorganisms; proteins; bacterium Escherichia coli; biological systems; characterization purposes; forward engineering; green fluorescent protein; linear behavior; model system; nonlinear model; steady-state conditions; synthetic genetic devices; time-domain; transient conditions; Biological systems; Cloning; DNA; Encoding; Fluorescence; Proteins; Synthetic biology;

fLanguage

English

Publisher

ieee

Conference_Titel

Biomedical Circuits and Systems Conference (BioCAS), 2014 IEEE

Conference_Location

Lausanne

Type

conf

DOI

10.1109/BioCAS.2014.6981652

Filename

6981652