Team:Austin Texas

From 2014.igem.org

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| [[Image:Austin_Texas_Photocage_Card.png|link=Team:Austin_Texas/photocage]]
| [[Image:Austin_Texas_Photocage_Card.png|link=Team:Austin_Texas/photocage]]
| <h1>Project: Photocaged T7 RNA Polymerase</h1><div align=justify>
| <h1>Project: Photocaged T7 RNA Polymerase</h1><div align=justify>
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Noncanonical amino acids (ncAAs) may have unique chemical groups that can provide very useful functionality not normally present in an organism. This summer we used a photocaged ncAA, ortho-nitrobenzyl tyrosine (ONBY), to prevent protein functionality until spatially and/or temporally triggered by light.  '''To this end, our team successfully re­created a light-­activatable T7 RNA Polymerase (RNAP) for a method of non­invasive, spacio­temporal control of protein expression.''' We chose T7 RNAP because there is a tyrosine residue in the active site of the polymerase. By changing this codon to an amber codon, we were able to incorporate (ONBY), a photocaged tyrosine, into the active site.  The presence of the extra ONB group inhibits T7 RNAP activity.  When exposed to 365 nm light, the molecular cage (the ONB group) is released, leaving tyrosine.  Thus, T7 RNAP is only functional when exposed to 365 light, which restores the native T7 polymerase active site that is necessary for proper function of the enzyme. To test this system, we used a GFP reporter with a T7 promoter. '''We were able to see a significant increase in GFP expression upon photodecaging T7 RNAP, as expected.''' In a separate experiment (with no T7 present), we attempted to photoactivate GFP with ONBY incorporated into the fluorophore.  However, we could not detect appreciable GFP activity in this case.  The success of T7 activation may be due to the amplifying effect of decaging a single molecule of T7 RNAP relative to decaging a single molecule of GFP.</div>
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Noncanonical amino acids (ncAAs) may have unique chemical groups that can provide very useful functionality not normally present in an organism. This summer we used a photocaged ncAA, ortho-nitrobenzyl tyrosine (ONBY), to prevent protein functionality until spatially and/or temporally triggered by light.  '''To this end, our team successfully re­created a light-­activatable T7 RNA Polymerase (RNAP) for a method of non­invasive, spacio­temporal control of protein expression.''' We chose T7 RNAP because there is a tyrosine residue in the active site of the polymerase. By changing this codon to an amber codon, we were able to incorporate (ONBY), a photocaged tyrosine, into the active site.  The presence of the extra ONB group inhibits T7 RNAP activity.  When exposed to 365 nm light, the molecular cage (the ONB group) is released, leaving tyrosine.  Thus, T7 RNAP is only functional when exposed to 365 light, which restores the native T7 polymerase active site that is necessary for proper function of the enzyme. To test this system, we used a GFP reporter with a T7 promoter. '''We were able to see a significant increase in GFP expression upon photodecaging T7 RNAP, as expected.'''</div>
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| [[file:caffeinecolisxsw.png|200px| link=https://2014.igem.org/Team:Austin_Texas/human_practices]]
| [[file:caffeinecolisxsw.png|200px| link=https://2014.igem.org/Team:Austin_Texas/human_practices]]
|<h1>Human Practices: Caffeinated Coli @ SXSW Create</h1><div align=justify>
|<h1>Human Practices: Caffeinated Coli @ SXSW Create</h1><div align=justify>
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In the spring of 2014, the UT iGEM team was invited to create a booth at the [http://sxsw.com/exhibitions/sxsw-create/participants-2014 SXSW Interactive Create Event.] Team members took the opportunity to educate the public on the  applications and potential benefits of genetically modified organisms. In a concerted effort between past and present team members, the group banded together for the first time to create an informative, and fun presentation relating to the previous iGEM 2012 team project, [https://2012.igem.org/Team:Austin_Texas/Caffeinated_coli| ''Caffeinated Coli.'']  Our new project also went further scientifically, using caffeinated coli to calculate the amount of caffeine found in coffee, an organic beverage that is not formulaic.  This allowed us to reach out to the wider Austin community and talk with them about science and synthetic biology by using something that many of them consume on a daily basis.</div>
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In the spring of 2014, the UT iGEM team was invited to create a booth at the [http://sxsw.com/exhibitions/sxsw-create/participants-2014 SXSW Interactive Create Event.] Team members took the opportunity to educate the public on the  applications and potential benefits of genetically modified organisms. In a concerted effort between past and present team members, the group banded together for the first time to create an informative, and fun presentation relating to the previous iGEM 2012 team project, [https://2012.igem.org/Team:Austin_Texas/Caffeinated_coli| ''Caffeinated Coli.'']  '''Our new project also went further scientifically, using Caffeinated Coli to calculate the amount of caffeine found in coffee, an organic beverage that is not formulaic.''' This allowed us to reach out to the wider Austin community and talk with them about science and synthetic biology by using something that many of them consume on a daily basis.</div>
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Latest revision as of 03:55, 18 October 2014