Team:UIUC-Illinois/Project
From 2011.igem.org
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- | + | <div class="title">The Design:</div> | |
- | <p></p> | + | <div class="desc"> |
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+ | <p>The design of our E. chiver system seeks to obtain the following goals: 1) Link integration, excision, and replication of the construct (file) to the presence or absence of a chemical inducer. 2) Allow for modularity of the chemical inducer and gene of interest (file contents). 3) Ensure energetically favorable storage of construct by integration as a single copy (avoid multiple integration events). 4) Enable the system to report which machinery is being expressed. 5) Ultimately allow for the coexistence of multiple files to create a bacterial filing cabinet.</p> | ||
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+ | <p>A single File contains two major components</p> | ||
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+ | <div class="indent"> | ||
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+ | <p><b>Shuttle Construct (File) </b></p> | ||
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+ | <p>This is the plasmid that shuttles in and out of the chromosome. It contains the following elements:</p> | ||
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+ | <p><i>R6K Origin</i>, for control over replication (see <i>pir</i> component)</p> | ||
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+ | <p><i>attP site</i>, for integration into chromosome in absence of inducer</p> | ||
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+ | <p><i>Modular Biobrick site</i>, for choosing the controlling chemical inducer and for insertion of the gene of interest <b>(File Contents)</b></p> | ||
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+ | <p><i>pir gene</i> (controlled by inducer), for replication of shuttle construct during presence of inducer</p> | ||
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+ | <p><i>CI repressor</i> (controlled by inducer), for repression of Integrase machinery (see helper construct) during presence of chemical inducer</p> | ||
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+ | <p><i>Reversed Constitutive Promoter</i>, for repression of Integrase machinery after initial integration event (absence of inducer). This element is essential for addressing goal 3, avoiding multiple integration events.</p> | ||
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+ | <p><b>Helper Construct (Filing Cabinet):</b></p> | ||
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+ | <p>This is a modified chromosomal attB site. Our E. chiver strain must have genetically engineered attB sites in order to function. The construct contains the following elements:</p> | ||
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+ | <p>Xis/Int/RFP operon (under chemical inducer), for excision of an integrated construct during the presence of the inducer. As soon as the construct is excised, however, this operon is switched off.</p> | ||
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+ | <p>CI repressor, which is under the control of the shuttle construct’s Reversed Constitutive Promoter only when the shuttle construct is integrated. The CI repressor, in this situation, acts to turn off the adjacent integrase machinery to prevent multiple integrations (see goal 3).</p> | ||
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+ | <p>CI Promoter/Int/YFP, for expression of the integration machinery under the conditions that 1) no inducer is present, AND 2) no shuttle construct is integrated.</p> | ||
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+ | </div> | ||
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+ | <p>For our example of a single file design (addressing goals 1-4) we used lambda phage machinery. However, any Lambdoid phage machinery can be by replaced into this system in order to change the site of chromosomal integration. Follow the link below for a walk through of our single file design and an explanation of how it obtains goals 1-4.</p> | ||
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+ | <p>Our design addressing goal 5, allowing for multiple files to coexist (a true filing cabinet), was explored by adding an analogous second filing system under the control of P21 phage machinery and the conditional replication of origin OriV to our original Lambda system. The other difference in this P21 construct is the use of the CII repressor to repress the P21 integrase gene when appropriate. In order to create a multi-file system each analogous construct (file) must have 1) a unique origin of replication, 2) a separate Lambdoid phage system whose activity does not overlap with other Lambdoid phage sites (i.e. the combination of HK022 and Lambda phage files is not recommended because HK022 recognizes Lambda attachment sites as well as it’s own), 3) no two files may have their helper construct integrase gene under the same repressor (i.e. lambda system utilizes cI while P21 system utilizes cII). These three requirements are necessary to prevent crosstalk between two files. Click on the link below to view a walk through of the multi-file, Lambda and P21, system. </p> | ||
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+ | <div class="title">References</div> | ||
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+ | <p>1. Haldimann, A., Wanner, B. L. 2001. Conditional-Replication, Integration, Excision, and Retrieval Plasmid-Host Systems for Gene Structure-Function Studies of Bacteria. Journal of Bacteriology. 183:21 6384-6393. 2. Metcalf, W. W., Weihong, J., Wanner, B. L. 1994. Use of the rep technique for allele replacement to construct new Escherichia coli hosts for maintenance of R6Kϒ origin plasmids at different copy numbers. Gene. 138: 1-7.</p> | ||
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+ | <p>2. Metcalf, W. W., Weihong, J., Wanner, B. L. 1994. Use of the rep technique for allele replacement to construct new Escherichia coli hosts for maintenance of R6Kϒ origin plasmids at different copy numbers. Gene. 138: 1-7.</p> | ||
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Latest revision as of 04:19, 29 September 2011