posted on 2015-12-16, 23:35authored byRoberta Lentini, Michele Forlin, Laura Martini, Cristina Del Bianco, Amy C. Spencer, Domenica Torino, Sheref S. Mansy
To
facilitate the construction of cell-free genetic devices, we
evaluated the ability of 17 different fluorescent proteins to give
easily detectable fluorescence signals in real-time from in
vitro transcription-translation reactions with a minimal
system consisting of T7 RNA polymerase and E. coli translation machinery, i.e., the PUREsystem. The data were used
to construct a ratiometric fluorescence assay to quantify the effect
of genetic organization on in vitro expression levels.
Synthetic operons with varied spacing and sequence composition between
two genes that coded for fluorescent proteins were then assembled.
The resulting data indicated which restriction sites and where the
restriction sites should be placed in order to build genetic devices
in a manner that does not interfere with protein expression. Other
simple design rules were identified, such as the spacing and sequence
composition influences of regions upstream and downstream of ribosome
binding sites and the ability of non-AUG start codons to function in vitro.