Team:British Columbia

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    <a href="https://2013.igem.org/Team:British_Columbia/Project/CRISPR"><img class="icon" src="https://static.igem.org/mediawiki/2013/a/a9/Crispr2-01.png"
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There are an estimated 10<sup>31</sup> phage particles on earth, meaning that any bacterial process is constantly under the threat of infection. Industrial bacterial bioprocesses are no exception, and phage infections frequently devastate bioreactor facilities. This results in high economic costIn fact, one of the main considerations in choosing the location of a bioreactor is the extent of environmental phage sources. Even in ideal locations, decontamination is frequently required and is the most substantial day-to-day financial burden. Engineering bacterial resistance to phage infection is a common scientific goal; however, these attempts are usually undermined by the inherent diversity of phage. The bacterial immune system CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) is one way in which bacteria naturally deal with phage infection in the environment and has become a powerful tool in genetic engineering, with specificity at the single nucleotide level.
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For the first time, we re-factored the CRISPR system down to its minimum components and demonstrated engineered specificity in <i>E. coli</i>. We analyzed all available sequence information from two common phage families that infect <i>E. coli</i> and designed the most broadly neutralizing systems possible. This work provides a proof-of-concept experiment for engineering bioreactor immunity, and provides all the sufficient modules to facilitate future engineering of CRISPR in bacteria. Moreover, having these working components in the BioBrick registry is incredibly exciting as its tractability will endlessly expand the engineering potential of the iGEM community going forward.
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{|align="justify"
 
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|WE ARE GETTING CLOSE TO NAILING DOWN A PROJECT IDEA. GO TEAM :) On to some bonding over food!
 
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|[[Image:British_Columbia_logo.png|200px|right|frame]]
 
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''Tell us more about your project.  Give us background.  Use this as the abstract of your project.  Be descriptive but concise (1-2 paragraphs)''
 
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|[[Image:British_Columbia_team.png|right|frame|Your team picture]]
 
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|align="center"|[[Team:British_Columbia | Team British_Columbia]]
 
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{| style="color:#1b2c8a;background-color:#0c6;" cellpadding="3" cellspacing="1" border="1" bordercolor="#fff" width="62%" align="center"
 
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!align="center"|[[Team:British_Columbia|Home]]
 
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!align="center"|[[Team:British_Columbia/Team|Team]]
 
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!align="center"|[https://igem.org/Team.cgi?year=2013&team_name=British_Columbia Official Team Profile]
 
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!align="center"|[[Team:British_Columbia/Project|Project]]
 
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!align="center"|[[Team:British_Columbia/Parts|Parts Submitted to the Registry]]
 
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!align="center"|[[Team:British_Columbia/Modeling|Modeling]]
 
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!align="center"|[[Team:British_Columbia/Notebook|Notebook]]
 
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!align="center"|[[Team:British_Columbia/Safety|Safety]]
 
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!align="center"|[[Team:British_Columbia/Attributions|Attributions]]
 
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Latest revision as of 01:08, 29 October 2013

iGEM Home

There are an estimated 1031 phage particles on earth, meaning that any bacterial process is constantly under the threat of infection. Industrial bacterial bioprocesses are no exception, and phage infections frequently devastate bioreactor facilities. This results in high economic cost. In fact, one of the main considerations in choosing the location of a bioreactor is the extent of environmental phage sources. Even in ideal locations, decontamination is frequently required and is the most substantial day-to-day financial burden. Engineering bacterial resistance to phage infection is a common scientific goal; however, these attempts are usually undermined by the inherent diversity of phage. The bacterial immune system CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) is one way in which bacteria naturally deal with phage infection in the environment and has become a powerful tool in genetic engineering, with specificity at the single nucleotide level.

For the first time, we re-factored the CRISPR system down to its minimum components and demonstrated engineered specificity in E. coli. We analyzed all available sequence information from two common phage families that infect E. coli and designed the most broadly neutralizing systems possible. This work provides a proof-of-concept experiment for engineering bioreactor immunity, and provides all the sufficient modules to facilitate future engineering of CRISPR in bacteria. Moreover, having these working components in the BioBrick registry is incredibly exciting as its tractability will endlessly expand the engineering potential of the iGEM community going forward.