Team:TU-Munich/Project/Killswitch
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=== Our solution – a red light-triggered autokill system === | === Our solution – a red light-triggered autokill system === | ||
==== PhyB - PIF3/PIF6 interaction under red light exposition ==== | ==== PhyB - PIF3/PIF6 interaction under red light exposition ==== | ||
- | <div class="box-right">'''Phytochrome B''' (abbrev.: '''PhyB''') is a plant photoreceptor that exists in two interconvertible forms P<sub>r</sub> and P<sub>fr</sub>. In its P<sub>r</sub> (red light sensititve) form, PhyB interacts with Phytochrome Interacting Factors, e. g. PIF3 or PIF6.</div> | + | <div class="box-right">'''Phytochrome B''' (abbrev.: '''PhyB''') is a plant photoreceptor that exists in two interconvertible forms P<sub>r</sub> and P<sub>fr</sub>. In its P<sub>r</sub> (red light sensititve) form, PhyB interacts with Phytochrome Interacting Factors, e. g. PIF3 or PIF6. |
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+ | '''Phytochrome Interacting Factor 3/6''' (abbrev.: '''PIF3/PIF6''') are both transcription factors with basic helix-loop-helix (bHLH) motifs that that bind to '''PhyB''' upon red light exposition</div> | ||
==== Reconstitution of Split-TEV-Protease ==== | ==== Reconstitution of Split-TEV-Protease ==== |
Revision as of 12:44, 9 September 2013
Red light triggered self-destruction – a new mechanism preventing uncontrolled spread of transgenic plants
Background – Why generate a plant which kills itself under certain conditions?
Working on plants is uncomplicated since as photoautotrophic organisms they can provide their own energy. So creating a photosensitive plant might seem silly at first glance. "Crazy, stupid Germans!", you might think, but wait, there's more! Green biotechnology doesnt have an easy stand in Germany since the "German Angst" of uncontrolled spreading of transgenic plants. Therefore, we see it as our task and duty to meet the required high safety standards that minimize these risks for a maximum of biosafety. We created a plant that can only survive in a well defined environment. Plants don't neccessarily need the whole spectrum of light to supply themselves with energy, so reassigning part of the spectrum to other purposes is possible. Shielded from red light by filters, the moss survives without compromising vitality or growth. Unintended release of our protected environment leads to activation of a lethal process of no return and thus kills the moss.
Our solution – a red light-triggered autokill system
PhyB - PIF3/PIF6 interaction under red light exposition
Reconstitution of Split-TEV-Protease
Liberation of membrane-anchored nuclease and nuclear translocation
Disruption of the genetic material and programmed cell-death
Design of our construct
Results
References:
http://www.ncbi.nlm.nih.gov/pubmed/6327079 Edens et al., 1984
- http://www.ncbi.nlm.nih.gov/pubmed/6327079 Edens et al., 1984 Edens, L., Bom, I., Ledeboer, A. M., Maat, J., Toonen, M. Y., Visser, C., and Verrips, C. T. (1984). Synthesis and processing of the plant protein thaumatin in yeast. Cell, 37(2):629–33.
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