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| | + | <div class="titleWrapper"><div class="titleBackground" style="background-image:url(https://static.igem.org/mediawiki/2018/5/54/T--Marburg--header_improve.jpg)"></div><div class="title">Improve</div></div> |
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| − | <div class="column full_size judges-will-not-evaluate"> | + | <p> |
| − | <h3>★ ALERT! </h3> | + | <em> |
| − | <p>This page is used by the judges to evaluate your team for the <a href="https://2018.igem.org/Judging/Medals">medal criterion</a> or <a href="https://2018.igem.org/Judging/Awards"> award listed below</a>. </p>
| + | There is always space for improvement, no matter how long you've been in the business. |
| − | <p> Delete this box in order to be evaluated for this medal criterion and/or award. See more information at <a href=" https:// 2018.igem.org/ Judging/Pages_for_Awards"> Instructions for Pages for awards</ a> .</ p> | + | </em> |
| − | </div> | + | <br /> |
| | + | <strong> |
| | + | -- Oscar de la Hoya |
| | + | </strong> |
| | + | </p> |
| | + | <p> |
| | + | <br /> |
| | + | Cloning is the daily bread of molecular biologists. Almost all synbio projects start with weeks or months of cloning, a time which is the most frustrating and simultaneously least rewarding period of a project. Being able to distinguish between the native vector and the successfully assembled plasmid clearly while picking can save a lot of time and work. During the last decades, many approaches have been established to help distinguishing between false and correctly assembled plasmids. In our project, we created the Marburg Collection, a novel golden-gate-based cloning toolbox. This toolbox consists of LVL0 parts stored in a |
| | + | <a href=" http:// parts.igem.org/ Part:pSB1C3 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | pSB1C3 |
| | + | </abbr> |
| | + | </a> |
| | + | derivat. |
| | + | As many plasmids had to be created, we desperately needed a simple, fast and cheap way to reliably select correct colonies even for inefficient clonings. |
| | + | </p> |
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| | + | |
| | + | <p> |
| | + | Here, we present the improvement of an iGEM-part for (a mostly faster,) easier and cheaper selection which suits our needs. |
| | + | </p><figure style="display:block; margin:0 auto 0 auto; width: 50%;"> |
| | + | <img src=" https://static.igem.org/mediawiki/2018/8/85/T--Marburg---K2560002.png"> |
| | + | <figcaption><b> Figure 1: Plasmidmap of BBa_K2560002 </b><br>Our improved part BBa_K2560002 is a derivate of the BBa_P10500 containing sfGFP drop out.</figcaption> |
| | + | </figure> |
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| − | <div class="clear"></div> | + | <p> |
| | + | iGEM provides the universal acceptor plasmid |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr> |
| | + | </a> |
| | + | for creating new PhytoBricks. This plasmid contained the <i>lacZ-α</i> part in the cloning sites for blue-white screening. The <i>lacZ</i>-gene encodes the β-galactosidase, which catalyzes the hydrolysis of the glycosidic bond of β-galactopyranosides like D-lactose. Blue-white screening is based on alpha-complementation, where the <i>α</i>- subunit (C-terminal section) and <i>ω</i>-subunit (N-terminal section) of the β-galactosidase (both non-functional peptides) are able to reconstitute a functional enzyme. By the addition of the two D-lactose Analogues Xgal (5-bromo-4-chloro-3-indolyl-β-D-galactopyranoside) and IPTG (Isopropyl ß-D-1-thiogalactopyranoside) to the plates, colonies with successful cloning products thereby no <i>lacZ-α</i> will have the typical white colour while the unsuccessful ones precipitate the blue-coloured product resulting in blue colonies. |
| | + | For further reading, <a href="https://2018.igem.org/Team:Marburg/Results"><abbr title="Link to Results">click here. </abbr></a> <br> However, this kind of selection requires the use of specific strains which possess the <i>lacZ-ω</i> but neither the native <i>lacZ</i> nor the <i>lacZ-α</i> fragment. As an example, the |
| | + | <a href=" https://www.neb.com/-/media/catalog/datacards-or-manuals/c2984datasheet-lot1131402.pdf "> |
| | + | <abbr title="""> |
| | + | <i>E. coli</i> NEB Turbo</abbr> |
| | + | </a> strain which is routinely used for cloning harbors a <i>lacZ</i> without the N-terminal portion. As we wanted to establish <i>Vibrio natriegens</i> as a chassis for cloning, we investigated if the wild type strain is compatible with blue-white screening. Unfortunately, cloning using |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr> |
| | + | </a> |
| | + | in <i>V. natriegens</i> shows no difference between colonies containing the <i>lacZ-α</i> dropout and those without. For further reading about the <i>lac</i> operon of <i>V. natriegens</i>, <a href="https://2018.igem.org/Team:Marburg/Design"><abbr title="Link to Design">click here. </b></p></abbr></a></p> |
| | + | <p> |
| | + | To overcome this limitation and to enable fast and reliable cloning with <i>V. natriegens</i>, we decided to establish a new visualization method. Our improved part, namely |
| | + | <a href=" http://parts.igem.org/Part:BBa_K2560002 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_K2560002</abbr></a>, is a derivative of the iGEM |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr> |
| | + | </a> |
| | + | containing a |
| | + | <dfn data-info=" superfolded green fluorescent protein "> |
| | + | sfGFP</dfn> |
| | + | dropout as fluorescent selection marker. |
| | | | |
| | + | <br> |
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| − | <div class="column full_size">
| |
| − | <h1>Improve</h1>
| |
| − | <p>For teams seeking to improve upon a previous part or project, you should document all of your work on this page. Please remember to include all part measurement and characterization data on the part page on the Registry. Please include a link to your improved part on this page.</p>
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| | | | |
| − | <h3>Gold Medal Criterion #2</h3>
| |
| − | <p><b>Standard Tracks:</b> Create a new part that has a functional improvement upon an existing BioBrick part. The sequences of the new and existing parts must be different. You must perform experiments with both parts to demonstrate this improvement. Document the experimental characterization on the Part's Main Page on the Registry for both the existing and new parts. Both the new and existing Main Page of each Part’s Registry entry must reference each other. Submit a sample of the new part to the Registry.
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| − | The existing part must NOT be from your 2018 part number range and must be different from the part documented in bronze #4.
| + | In the pictures 2, you can see the wild type <i>V. natriegens</i> in comparison with the iGEM |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr></a> |
| | + | forming white colonies as well as bright green colonies containing the improved part |
| | + | <a href=" http://parts.igem.org/Part:BBa_K2560002 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_K2560002</abbr></a>. No differences between the wild type and the |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr></a> |
| | + | containing colonies are noticable. On the contrary, our new |
| | + | <a href=" http://parts.igem.org/Part:BBa_K2560002 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_K2560002</abbr></a> part leads to a strong visual distinction to colonies which do not possess the |
| | + | <dfn data-info=" superfolded green fluorescent protein "> |
| | + | sfGFP</dfn>. In this way, we created a part for universal LVL0 cloning with a improved selection without the need of additional supplements like Xgal or IPTG. </p> Our part not only suits for <i>V. natriegens</i> but is convenient for the frequently used cloning host <i>E. coli</i>. As it can be seen in the picture 3, <i>E. coli</i> containing the |
| | + | <dfn data-info=" superfolded green fluorescent protein "> |
| | + | sfGFP</dfn> possess a considerable strong green colour even without the use of UV light and is just or even more distinguishable from the wild type as the <i>lacZ</i> containing blue colonies. By using our improved part |
| | + | <a href=" http://parts.igem.org/Part:BBa_K2560002 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_K2560002</abbr></a> instead of the iGEM part |
| | + | <a href=" http://parts.igem.org/Part:BBa_P10500 "> |
| | + | <abbr title=" Link to the iGEM part registry "> |
| | + | BBa_P10500</abbr></a> work and money for the addition of the required supplements can be saved and the risk of not functional plates for selection is decreased. In our experiments, we were using 40 μg per Liter Xgal and 0,5 mM IPTG. Calculating with current prices, 100 plates supplemented with |
| | + | <a href=" https://www.applichem.com/shop/produktdetail/as/x-gal-ibiochemicai/ "> |
| | + | <abbr title=" link to shop "> |
| | + | Xgal</abbr></a> and |
| | + | <a href=" https://www.carlroth.com/de/de/Chemikalien/A-Z-Chemikalien/I/IPTG/IPTG/p/000000010000911300020023_de "> |
| | + | <abbr title=" link to shop "> |
| | + | IPTG</abbr></a> |
| | + | costs about 80 dollar. |
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| − | <br><br> | + | <style> |
| − | <b>Special Tracks:</b> Improve the function of an existing iGEM project (that your current team did not originally create) and display your achievement on your wiki.</p>
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| | + | <div class="imageContainer"> |
| | + | <figure> |
| | + | <img src=" https://static.igem.org/mediawiki/2018/8/80/T--Marburg--V.natriegens.png "/> |
| | | | |
| | + | <figcaption><b> Figure 2: <i>V. natriegens</i> </b><br> A: Colonies of wild type, B: white colonies containing BBa_P10500 and C: colonies with BBa_K2560002 resulting in green colonies. </figcaption> |
| | + | </figure> |
| | + | </img> |
| | + | <figure> |
| | + | <img src=" https://static.igem.org/mediawiki/2018/b/b3/T--Marburg--E.coli.png "/> <figcaption><b> Figure 3: <i>E. coli</i> </b><br> A: Colonies of wild type, B: blue colonies containing BBa_P10500 and C: colonies with BBa_K2560002 resulting in green colonies. </figcaption> |
| | + | </figure> |
| | + | </img> |
| | + | |
| | </div> | | </div> |
| | + | </p> |
| | + | <p> <br>By using our improved part for cloning, the detection of successfully ligated clones from non is feasible for strains which are not compatible with blue-white screening and therefor becomes more universal, faster and cheaper than before. |
| | + | </p> |
| | + | </body> |
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