Team:UTK-Knoxville

From 2012.igem.org

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How does an IRES work?  
How does an IRES work?  
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<p class="justify">However, many proteins are positioned as the second open reading frame in a strand of mRNA or contain highly structured 5’ untranslated regions, preventing efficient scanning from the 5’ end. This prevents the engineering of operons that contain two or more genes under the control of the same promoter. Luckily, nature has come up with its own remedy for this problem, known as IRES mediated translation initiation, which allows the ribosome to bind in the middle of a strand of mRNA and initiate translation. </p>
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<p class="justify">However, many proteins are positioned as the second open reading frame in a strand of mRNA or contain highly structured 5’ untranslated regions, scanning from the 5’ end inefficient. This prevents the engineering of operons that contain two or more genes under the control of the same promoter. Luckily, nature has come up with its own remedy for this problem, known as IRES mediated translation initiation. This allows the ribosome to bind in the middle of a strand of mRNA and initiate translation. </p>
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What are we doing?  
What are we doing?  
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Unfortunately, the Registry of Standard Biological Parts contains few IRESs and even those are poorly annotated. The UTK-Knoxville iGEM team hopes to remedy this problem by characterizing a group of IRESs and submitting them to the registry. In addition, we plan to develop a methodology of determining relative IRES strength, as modeled by the methodology put forth by Kelly et al in the Journal of Biological Engineering (Kelly et al., 2001). Using flow cytometry, we will determine the relative levels of fluorescent protein under the control of each IRES, as expressed in <i>S. cerevisiae </i>. Through this work, we hope to initiate the growth of a library of IRESs and to develop a protocol to encourage contribution by all members of the community.</p>
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Unfortunately, the Registry of Standard Biological Parts contains few IRESs and even those are poorly annotated. The UTK-Knoxville iGEM team hopes to remedy this problem by characterizing a group of IRESs and submitting them to the registry. In addition, we plan to develop a methodology of determining relative IRES strength, as modeled by the methodology put forth by Kelly et al in the Journal of Biological Engineering (Kelly et al., 2001). Using flow cytometry, we will determine the relative levels of fluorescent protein under the control of each IRES, as expressed in <i>S. cerevisiae </i>. Through this work we hope to initiate the growth of a library of IRESs and to develop a protocol to encourage contribution by all members of the community.</p>
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Revision as of 01:41, 25 September 2012

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