Difference between revisions of "Team:Exeter/Project"

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<p id="pp">Our metabolic kill switches build on previous iGEM projects which have used the expression of highly phototoxic  
 
<p id="pp">Our metabolic kill switches build on previous iGEM projects which have used the expression of highly phototoxic  
fluorescent proteins to kill the cells by exposing the culture to light. In 2013, the iGEM team from Carnegie Mellon developed a phage delivery system of the KillerRed gene to be expressed in the infected bacteria, killing it on exposure to light. Carnegie Mellon 2014 continued characterisation of KillerRed and its monomeric form named Supernova by analysing photobleaching.<br> KillerRed and KillerOrange are homologues of GFP
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fluorescent proteins to kill the cells by exposing the culture to light. In 2013, the iGEM team from Carnegie Mellon developed a phage delivery system of the KillerRed gene to be expressed in the infected bacteria, killing it on exposure to light. Carnegie Mellon 2014 continued characterisation of KillerRed and its monomeric form named Supernova by analysing photobleaching.<br> KillerRed and KillerOrange are homologues of Green fluroescence protein (GFP)
 
  which, when irradiated with green and blue light respectively, generate reactive oxygen species (ROS). KillerRed has been
 
  which, when irradiated with green and blue light respectively, generate reactive oxygen species (ROS). KillerRed has been
 
  shown to effectively kill cells when exposed to green light (540–580 nm) and is much less effective under blue light
 
  shown to effectively kill cells when exposed to green light (540–580 nm) and is much less effective under blue light

Revision as of 19:18, 16 October 2016