Team:EPF-Lausanne

From 2012.igem.org

(Difference between revisions)
(Edited style)
(The First Switch)
Line 24: Line 24:
This is where our "SWITCH" project steps in.
This is where our "SWITCH" project steps in.
-
===The First Switch===
+
===The Simple Switch===
-
We want to transfect a light switch along with the gene of interest. This means that the product will only be synthesized by the cells in the presence of blue light, allowing them to grow happily in the dark.
+
We want to design a light-sensitive switch, so that the product will only be synthesized by the cells in presence of blue light, allowing them to grow happily in the dark.
-
The switch is based on an already existing chimeric protein, LovTAP. This protein was originally intended to act as a light-induced repressor in bacteria. The EPFL 2009 iGEM team proposed to fuse it with VP16, a viral activator, in order to convert it into a light-induced activator in mammalian cells.
+
The switch is based on an already existing chimeric protein, LovTAP. This protein was originally intended to act as a light-induced repressor in bacteria. The EPFL 2009 iGEM team proposed to fuse it with VP16, a viral activator, in order to convert it into a light-induced activator in mammalian cells. This way, it will be enough to add a LovTAP binding site in front of the gene of interest and a LovTAP encoding gene to induce protein expression without using any additional chemical or disturbing too many pathways.
-
This year we will try to realize this idea by transfecting CHO (Chinese hamster ovary) cells with two plasmids: one coding for the LovTAP-VP16 fusion protein and another with a read-out ( red fluorescence ) protein preceded by a binding site for LovTAP-VP16. If everything goes as expected, LovTAP-VP16 will only bind the plasmid and activate the production of read-out when exposed to light.
+
-
We will thus be able to induce protein production without using any chemical reaction.
+
 +
This year we will try to realize this idea by transfecting CHO (Chinese hamster ovary) cells with two plasmids: one coding for the LovTAP-VP16 fusion protein and another with a read-out ( red fluorescence ) protein preceded by a binding site for LovTAP-VP16. If everything goes as expected, LovTAP-VP16 will only bind the plasmid and activate the production of read-out when exposed to light.
===The Other Switch===
===The Other Switch===

Revision as of 15:51, 15 September 2012


Contents

The "SWITCH" Project

The Problem

Producing complex therapeutic proteins requires biosynthesis in mammalian cells. Produced proteins can sometimes have a certain level of toxicity for the cells and limit the productivity if they are produced constantly and are accumulating. To avoid this, the pharmaceutical industries are using 'rewired' cells that synthesize toxic proteins only when a special molecule is added to the bioreactor. However, this solution has two disadvantages. First, cell rewiring will affect several pathways and might disturb protein synthesis. Second, the 'special' molecule will mix with the final product and a purification will have to be done to get rid of it.

The pharmaceutical industry needs an easier way to induce the production of a specific compound in mammalian cell.

This is where our "SWITCH" project steps in.

The Simple Switch

We want to design a light-sensitive switch, so that the product will only be synthesized by the cells in presence of blue light, allowing them to grow happily in the dark. The switch is based on an already existing chimeric protein, LovTAP. This protein was originally intended to act as a light-induced repressor in bacteria. The EPFL 2009 iGEM team proposed to fuse it with VP16, a viral activator, in order to convert it into a light-induced activator in mammalian cells. This way, it will be enough to add a LovTAP binding site in front of the gene of interest and a LovTAP encoding gene to induce protein expression without using any additional chemical or disturbing too many pathways.

This year we will try to realize this idea by transfecting CHO (Chinese hamster ovary) cells with two plasmids: one coding for the LovTAP-VP16 fusion protein and another with a read-out ( red fluorescence ) protein preceded by a binding site for LovTAP-VP16. If everything goes as expected, LovTAP-VP16 will only bind the plasmid and activate the production of read-out when exposed to light.

The Other Switch

In addition, we will be realizing the light switch described by Fussenegger et al. In this light switch, light-sensitive melanopsin triggers a cascade involving calcium ion channels that eventually leads to the transcription of the gene of interest. Fussenegger's team did this using HEK (human embryo kidney) cells, and we will also try to make it work on CHO cells.



Wiki Links

Important pages

Pages

Retrieved from "http://2012.igem.org/Team:EPF-Lausanne"