Team:ArtScienceBangalore/Project

From 2010.igem.org

(Difference between revisions)
Line 15: Line 15:
<div id="asbContent">
<div id="asbContent">
</html>
</html>
-
Abstract here
+
'''Synthetic/Post-Natural Ecologies'''
 +
 
 +
In our second year as artists and designers working with synthetic biology, we have decided to investigate the consequences of a synthetic ecology, an ecology in which organisms created in a techno-scientific environment interact with organisms in the wild. C. elegans live on a diet of a variety of bacteria. E.coli being one of them. Genetically modified E.Coli can be fed to C.Elegans which can then express any double stranded RNA of interest. The dsRNA can knock off specific genes which causes changes in C.Elegans.Our experiments have a range of an external factors in two sets, temperature and IPTG. C.Elegans, then will act as a marker to express a range of temperatures and concentrations of IPTG in a any given sample.On a utilitarian level, our project investigates the use of C.elegans as a visual marker for changes in environmental conditions and on a more critical level, we are using C.elegans to study the consequences of interactions between engineered organisms and the 'natural' world.
 +
 
 +
 
<html>
<html>
</div>
</div>
</html>
</html>

Revision as of 05:15, 27 October 2010

Synthetic/Post-Natural Ecologies

In our second year as artists and designers working with synthetic biology, we have decided to investigate the consequences of a synthetic ecology, an ecology in which organisms created in a techno-scientific environment interact with organisms in the wild. C. elegans live on a diet of a variety of bacteria. E.coli being one of them. Genetically modified E.Coli can be fed to C.Elegans which can then express any double stranded RNA of interest. The dsRNA can knock off specific genes which causes changes in C.Elegans.Our experiments have a range of an external factors in two sets, temperature and IPTG. C.Elegans, then will act as a marker to express a range of temperatures and concentrations of IPTG in a any given sample.On a utilitarian level, our project investigates the use of C.elegans as a visual marker for changes in environmental conditions and on a more critical level, we are using C.elegans to study the consequences of interactions between engineered organisms and the 'natural' world.