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- | <div class="Recoli"> | + | <div class="FlowChart"> |
| <div style="height: 400; background:#FFFFFF; colorou line-height:100% padding: 3px 0px;"> | | <div style="height: 400; background:#FFFFFF; colorou line-height:100% padding: 3px 0px;"> |
- | <h1>RE. coli</h1> | + | <h1>Click an Area of Interest</h1> |
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- | <font size="2">Team RE. coli is the University of Alberta's 2009 International Genetically Engineered Machines (iGEM) team. This year's iGEM project can be subdivided into two major efforts. The first and most important of which is the BioBytes chromosome assembly system. This system refers to a mechanism for rapid and reliable construction of plasmids (i.e.: artificial gene sets) in vitro. The second, the minimal genome project, refers to the ultimate goal of rapid and reliable DNA assembly, that is, the construction of an artificial <i>E. coli</i> chromosome. Furthermore, it includes the strategy of gene selection, arrangement, artificial chromosome insertion and the destruction of the host's chromosome.</P> | + | <center> |
- | </font></div>
| + | <img src="https://static.igem.org/mediawiki/2009/a/a1/UofA09_Bead_Overviewflowover.png" usemap="#overviewflow"> |
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| + | <area shape="rect" coords="302,276,178,340" href="https://2009.igem.org/Team:Alberta/DNAanchor"> |
- | <td style="height: 800; padding-left: 10px; padding-right: 10px; padding-top: 11px;"> | + | <area shape="polygon" coords="167,441,240,393,313,439,240,489" href="https://2009.igem.org/Team:Alberta/Project/linearconstruct"> |
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| + | <area shape="rect" coords="467,408,344,474" href="https://2009.igem.org/Team:Alberta/Optimization"> |
- | <div class="Overview">
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| + | <area shape="rect" coords="135,526,11,592" href="https://2009.igem.org/Team:Alberta/GenAutomation"> |
- | <h2>BioBytes Chromosome Assembly</h2>
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- | <P>Current methods for DNA assembly are incredulously slow and complicated, and tend to break down with large scale additions. The current method, in brief, is to incorporate genes constructed in the form of "bricks", put them into a helper plasmid, amplify them within the bacterial host <i>E. coli</i>, and purify them before beginning the next cycle of additions. At each addition step, the construct must be structurally and functionally evaluated. The entire cycle is routinely completed over three to four days, while troubleshooting and correction require considerable effort. It is also pertinent to know that the system has a tendency to break down after five or more additions.
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- | </P><P>
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- | These issues have left a void in genetic engineering that the BioBytes chromosome assembly system hopes to fill. Our system involves the linking of Streptavidin to a carefully structured set of magnetic beads. Streptavidin strongly binds to biotin, a moiety that can be synthetically added to double stranded DNA molecules. This Bead-Streptavidin-Biotin-Double Stranded DNA platform provides a secure base for genetic information to be added sequentially. Genes are to be created in a standardized format so that they can added one after another, with each gene binding to the last, to form a long chain of DNA as per Figure 1 (See below). This is a far simpler method than the current method of inserting single genes into an already circular piece of DNA. In one final step, the single stranded DNA is released from the biotin and recircularized with the end of the final brick. This is illustrated in Figure 2 (See below). The BioBytes chromosome assembly system requires ~15 minutes per gene addition cycle, a marked improvement over the current three day methods.</P>
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- | <img src="https://static.igem.org/mediawiki/2009/a/ac/UofA09_overview_F1.jpg"> | + | |
- | Figure 1: A means for linking consecutive genes using the BioBytes chromosome assembly system.
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- | <img src="https://static.igem.org/mediawiki/2009/1/1b/UofA09_overview_F2.jpg"> | + | |
- | Figure 2: A means for recircularizing the artificially constructed chromosome once all the desired bricks have been sequentially added.
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- | <h2>The Minimal Genome Project</h2>
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- | <font size="2"><P>The minimal <i>E. coli</i> genome has been a holy grail of biology for a number of years. <i>E. coli</i> is the most widely used cellular research tool by the molecular biology community. Since scientific research is based upon reductionism and simplification for understanding, a simplified version of an experimental model organism such as <i>E. coli</i> is, in principle, preferred as a chassis for experimentation. To reduce the <i>E. coli</i> genome to roughly 10% its original size shows a great simplification of this model organism.</P>
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- | To create such an organism, we plan on building an artificial <i>E. coli</i> chromosome using the BioBytes chromosome assembly system and inserting it into living <i>E. coli</i>. We then intend to remove the host chromosome by making it incapable of division. This allows only the artificial, inserted chromosome to propagate through multiple generations as the cells grow and divide. This is markedly different than the current, time-consuming method of knocking out inessential genes, one at a time, in an effort to produce the minimal genome. It is this difference that we hope to exploit in our attempt to win the race to produce the minimal <i>E. coli</i> genome.</p>
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