Team:StanfordBrownSpelman/Amberless Hell Cell

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   For an application of synthetic biology where live, genetically-modified cells will come in direct contact with the environment, such as biological sensors on a UAV, two concerns must be addressed. First, the cells need to be resistant to widely-varying conditions that may be present in the environment; second, in order to address ethical concerns about releasing genetically-modified organisms, it is desirable to reduce horizontal gene transfer from the engineered cells into cells naturally present in the environment. In order to solve both of these issues, and therefore to create an ideal chassis for synthetic biology in environmental applications, we will combine two research goals:
   For an application of synthetic biology where live, genetically-modified cells will come in direct contact with the environment, such as biological sensors on a UAV, two concerns must be addressed. First, the cells need to be resistant to widely-varying conditions that may be present in the environment; second, in order to address ethical concerns about releasing genetically-modified organisms, it is desirable to reduce horizontal gene transfer from the engineered cells into cells naturally present in the environment. In order to solve both of these issues, and therefore to create an ideal chassis for synthetic biology in environmental applications, we will combine two research goals:
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<b>1.</b> The "Hell Cell" project by the 2012 Stanford-Brown iGEM team isolated genes from extremophile bacterial species and inserted them into <i>Escherichia coli</i>, in order to create bacteria that are resistant to extremes in pH, temperature, and moisture. We sought to further characterize, improve, and search for new resistance genes that would help our chassis survive in earth and space applications.  
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<b>1.</b> The <a href="https://2012.igem.org/Team:Stanford-Brown/HellCell/Introduction" target="_blank">"Hell Cell" project</a> by the 2012 Stanford-Brown iGEM team isolated genes from extremophile bacterial species and inserted them into <i>Escherichia coli</i>, in order to create bacteria that are resistant to extremes in pH, temperature, and moisture. We sought to further characterize, improve, and search for new resistance genes that would help our chassis survive in earth and space applications.  
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<b>2.</b> The <a href="http://arep.med.harvard.edu/" target="_blank">Church Lab</a> at Harvard Medical School in 2013 created a strain of <i>E. coli</i> <a href="http://www.addgene.org/49018/" target="_blank">(C321.ΔA)</a> in which all 321 instances of the UAG ("Amber") stop codon in the <i>E. coli</i> genome had been replaced with the UAA stop codon<sup>1</sup>. Release factor 1, which terminates translation at UAG, was also removed. With this system, the Church group incorporated artificial amino acids with a tRNA that recognizes UAG as its codon.  
<b>2.</b> The <a href="http://arep.med.harvard.edu/" target="_blank">Church Lab</a> at Harvard Medical School in 2013 created a strain of <i>E. coli</i> <a href="http://www.addgene.org/49018/" target="_blank">(C321.ΔA)</a> in which all 321 instances of the UAG ("Amber") stop codon in the <i>E. coli</i> genome had been replaced with the UAA stop codon<sup>1</sup>. Release factor 1, which terminates translation at UAG, was also removed. With this system, the Church group incorporated artificial amino acids with a tRNA that recognizes UAG as its codon.  
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Revision as of 22:15, 13 October 2014

Stanford–Brown–Spelman iGEM 2014 — Amberless Hell Cell

Results
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Image description goes here.

Methods & Safety
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Links & References
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