Difference between revisions of "Team:Vilnius-Lithuania/Design"

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        <img src="https://static.igem.org/mediawiki/2018/c/cd/T--Vilnius-Lithuania--THERMO3_switches.jpg"
 
                 <strong>Fig. 1</strong> A simplified mechanism of action of RNA thermometers. At lower temperatures the secondary mRNA stem-loop masks the RBS. Higher temperature induces melting of the hairpin which reveals the RBS to allow ribosome binding and initiation of translation.
 
                 <strong>Fig. 1</strong> A simplified mechanism of action of RNA thermometers. At lower temperatures the secondary mRNA stem-loop masks the RBS. Higher temperature induces melting of the hairpin which reveals the RBS to allow ribosome binding and initiation of translation.
 
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                 <strong>Fig. 2</strong> Electrophoresis gel of PCR products: 6- Sw2, 7- Sw3, 8- Sw6, 9- Sw7, 10- Sw9, 11- Sw11.
 
                 <strong>Fig. 2</strong> Electrophoresis gel of PCR products: 6- Sw2, 7- Sw3, 8- Sw6, 9- Sw7, 10- Sw9, 11- Sw11.
 
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Revision as of 18:53, 17 October 2018

Design and Results

RNA Thermoswitches

Cell-free, synthetic biology systems open new horizons in engineering biomolecular systems which feature complex, cell-like behaviors in the absence of living entities. Having no superior genetic control, user-controllable mechanisms to regulate gene expression are necessary to successfully operate these systems. We have created a small collection of synthetic RNA thermometers that enable temperature-dependent translation of membrane proteins, work well in cells and display great potential to be transferred to any in vitro protein synthesis system.

invert