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Team:Linkoping Sweden/Results
From 2014.igem.org
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<h2 class="clickable ">Approach</h2> | <h2 class="clickable ">Approach</h2> | ||
<div id="approachexp" class="expandable"> | <div id="approachexp" class="expandable"> | ||
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<p>First of all we designed and ordered two different pUC57 plasmids from Genscript, one including the sequence of (EcoR1, Xba1, Promotor + RBS, His-TEV, epitope 2, Spe1 and Pst1) and the other including the sequence of (EcoR1, Xba1, Promotor + RBS, His-TEV and epitope 22, epitope 1, epitope 3, epitope 4, and epitope 17, Spe1 and Pst1). These sequences were digested by the use of EcoR1 and Spe1. | <p>First of all we designed and ordered two different pUC57 plasmids from Genscript, one including the sequence of (EcoR1, Xba1, Promotor + RBS, His-TEV, epitope 2, Spe1 and Pst1) and the other including the sequence of (EcoR1, Xba1, Promotor + RBS, His-TEV and epitope 22, epitope 1, epitope 3, epitope 4, and epitope 17, Spe1 and Pst1). These sequences were digested by the use of EcoR1 and Spe1. | ||
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This biobrick was created by the use of our linearized pSB1C3 backbone and one of our ordered pUC57 plasmids. We designed primers specific only for the His-TEV sequence in our pUC57 plasmids and an overnight PCR experiment was set up for the amplification of our His-TEV sequence. The result from the PCR was controlled on an agarose-gel which indicated strongly that our PCR experiment was successful (Fig.4). Furthermore, our His-TEV sequence was digested with EcoR1 and Pst1 as well as our linearized pSB1C3 backbone and finally ligated.</p> | This biobrick was created by the use of our linearized pSB1C3 backbone and one of our ordered pUC57 plasmids. We designed primers specific only for the His-TEV sequence in our pUC57 plasmids and an overnight PCR experiment was set up for the amplification of our His-TEV sequence. The result from the PCR was controlled on an agarose-gel which indicated strongly that our PCR experiment was successful (Fig.4). Furthermore, our His-TEV sequence was digested with EcoR1 and Pst1 as well as our linearized pSB1C3 backbone and finally ligated.</p> | ||
| - | <p> All 5 of our biobrick constructs were analyzed by transforming our plasmids into electro competent E.Coli cells followed by a PCR colony screening. The following PCR result was controlled by running an agarose-gel which indicated plasmid weights around > 3000 Da for all the epitope and RFP/MCherry constructs as well as a weight around > 2000 Da for our His-TEV biobrick (Fig.5). Furthermore, all biobricks were analyzed by PCR screening in combination with our His-TEV sequence specific primers as well to enable ourselves to prove that the ligation was successful by the appearance of a band at the weight for His-TEV on another agarosegel (Fig.6). All 5 biobricks were sent to sequencing to further prove that the cloning of our biobricks had worked. However, unfortunately there was a problem when we were about to send our samples on sequencing which means that we have not received any response regarding the results yet. Furthermore, since we lack information regarding the sequencing result we have no other choice than to wait until we can begin to express proteins. | + | <p> All 5 of our biobrick constructs were analyzed by transforming our plasmids into electro competent E.Coli cells followed by a PCR colony screening. The following PCR result was controlled by running an agarose-gel which indicated plasmid weights around > 3000 Da for all the epitope and RFP/MCherry constructs as well as a weight around > 2000 Da for our His-TEV biobrick (Fig.5). Furthermore, all biobricks were analyzed by PCR screening in combination with our His-TEV sequence specific primers as well to enable ourselves to prove that the ligation was successful by the appearance of a band at the weight for His-TEV on another agarosegel (Fig.6). All 5 biobricks were sent to sequencing to further prove that the cloning of our biobricks had worked. However, unfortunately there was a problem when we were about to send our samples on sequencing which means that we have not received any response regarding the results yet. Furthermore, since we lack information regarding the sequencing result we have no other choice than to wait until we can begin to express proteins.</p> |
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| + | <div class="image-box" style="width:200px;height:400px;float:left;margin:0px 5px"> | ||
| + | <a href="#figure4" name="modal"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/thumb/0/06/Linkoping_sweden_Gel1.jpg/449px-Linkoping_sweden_Gel1.jpg" style="max-width:200px;max-height:240px;" title="PCR amplification using His-TEV specific primers."></a> | ||
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| + | <div id="figure4" class="window" style="width:636px;height:849px"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/0/06/Linkoping_sweden_Gel1.jpg" title="PCR amplification using His-TEV specific primers." style="background:#FFFFFF;max-width:100%;max-height:100%;"> | ||
| + | <p>Fig 4. PCR amplification using His-TEV specific primers. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). The strongly visible band around 125 base-pairs is indicating that our His-TEV sequence has been amplified correctly.</p> | ||
| + | </div> | ||
| + | <div id="mask"></div> | ||
| + | </div> | ||
| + | <p>Fig 4. PCR amplification using His-TEV specific primers. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). The strongly visible band around 125 base-pairs is indicating that our His-TEV sequence has been amplified correctly.</p> | ||
| + | </div> | ||
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| + | <div class="image-box" style="width:370px;height:400px;float:left;margin:0px 5px"> | ||
| + | <a href="#figure5" name="modal"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/thumb/6/61/Linkoping_sweden_Gel2.JPG/800px-Linkoping_sweden_Gel2.JPG" style="max-width:370px;max-height:240px;" title="Control of the colony-screening experiment performed on all 5 different biobricks."></a> | ||
| + | <div id="boxes"> | ||
| + | <div id="figure5" class="window" style="width:849px;height:636px"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/6/61/Linkoping_sweden_Gel2.JPG" title="Control of the colony-screening experiment performed on all 5 different biobricks." style="background:#FFFFFF;max-width:100%;max-height:100%;"> | ||
| + | <p>Fig 5. Control of the colony-screening experiment performed on all 5 different biobricks. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). (2) His-TEV Biobrick, colony 2 (3) RFP + all 5 epitopes, colony 1 (4) RFP + all 5 epitopes, colony 2 (5) RFP + all 5 epitopes, colony 3 (6) MCherry + all 5 epitopes, colony 2 (7) MCherry + epitope 2, colony 2 (8) RFP + epitope 2, colony 1 (9) RFP (E1010) Biobrick (10) Control (11) Empty super-competent cells (12) DNA ladder.</p> | ||
| + | </div> | ||
| + | <div id="mask"></div> | ||
| + | </div> | ||
| + | <p>Fig 5. Control of the colony-screening experiment performed on all 5 different biobricks. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). (2) His-TEV Biobrick, colony 2 (3) RFP + all 5 epitopes, colony 1 (4) RFP + all 5 epitopes, colony 2 (5) RFP + all 5 epitopes, colony 3 (6) MCherry + all 5 epitopes, colony 2 (7) MCherry + epitope 2, colony 2 (8) RFP + epitope 2, colony 1 (9) RFP (E1010) Biobrick (10) Control (11) Empty super-competent cells (12) DNA ladder.</p> | ||
| + | </div> | ||
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| + | <div class="image-box" style="width:370px;height:410px;float:left;margin:0px 5px"> | ||
| + | <a href="#figure6" name="modal"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/thumb/e/ee/Linkoping_sweden_Gel3.JPG/800px-Linkoping_sweden_Gel3.JPG" style="max-width:370px;max-height:240px;" title="Control of the PCR screening experiment performed using His-TEV sequence specific primers."></a> | ||
| + | <div id="boxes"> | ||
| + | <div id="figure6" class="window" style="width:849px;height:636px"> | ||
| + | <img src="https://static.igem.org/mediawiki/2014/e/ee/Linkoping_sweden_Gel3.JPG" title="Control of the PCR screening experiment performed using His-TEV sequence specific primers." style="background:#FFFFFF;max-width:100%;max-height:100%;"> | ||
| + | <p>Fig 6. Control of the PCR screening experiment performed using His-TEV sequence specific primers. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). (2) His-TEV Biobrick, colony 1 (3) His-TEV Biobrick, colony 2 (4) His-TEV Biobrick, colony 3 (5) RFP + all 5 epitopes, colony 1 (6) RFP + all 5 epitopes, colony 2 (7) RFP + all 5 epitopes, colony 3 (8) RFP + all 5 epitopes, colony 4 (9) MCherry + all 5 epitopes, colony 1 (10) MCherry + all 5 epitopes, colony 2 (11) MCherry + all 5 epitopes, colony 3 (12) MCherry + all 5 epitopes, colony 4 (13) RFP + epitope 2, colony 1 (14) RFP + epitope 2, colony 2 (15) MCherry + epitope 2, colony 1 (16) MCherry + epitope 2, colony 2 (17) DNA ladder.</p> | ||
| + | </div> | ||
| + | <div id="mask"></div> | ||
| + | </div> | ||
| + | <p>Fig 6. Control of the PCR screening experiment performed using His-TEV sequence specific primers. (1) DNA ladder (From bottom base-pairs: 250 bp, 500 bp, 750 bp,1k bp, 1.5k bp, 2k bp, 2.5k bp, 3k bp, 3.5k bp, 4k bp, 5k bp, 6k bp, 8k bp, 10k bp). (2) His-TEV Biobrick, colony 1 (3) His-TEV Biobrick, colony 2 (4) His-TEV Biobrick, colony 3 (5) RFP + all 5 epitopes, colony 1 (6) RFP + all 5 epitopes, colony 2 (7) RFP + all 5 epitopes, colony 3 (8) RFP + all 5 epitopes, colony 4 (9) MCherry + all 5 epitopes, colony 1 (10) MCherry + all 5 epitopes, colony 2 (11) MCherry + all 5 epitopes, colony 3 (12) MCherry + all 5 epitopes, colony 4 (13) RFP + epitope 2, colony 1 (14) RFP + epitope 2, colony 2 (15) MCherry + epitope 2, colony 1 (16) MCherry + epitope 2, colony 2 (17) DNA ladder.</p> | ||
| + | </div> | ||
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</div> | </div> | ||
</div> | </div> | ||
Revision as of 10:18, 16 October 2014
Our vision is to create a biobrick including the sequence of the Ara h1 protein linked to a red fluorescent protein so that we in turn can express the protein and thus provide an interaction of this protein complex with the antibodies. To ensure ourselves that this epitope-red fluorescent protein complex will bind to the Ara h1 specific IgG antibodies several ideas of biobrick-setup was brought to mind. Since we use both monoclonal antibodies specific for epitope 2 of Ara h1 and polyclonal antibodies specific for several epitopes of Ara h1 we decided to create a biobrick consisting of epitope 2 of Ara h1 linked to a red fluorescent protein as well as a biobrick consisting of five wisely chosen epitopes (epitope 22, epitope 1, epitope 3, epitope 4, and epitope 17) of Ara h1 linked to a red fluorescent protein. However, since there are two different mutants of the red fluorescent protein (called RFP and MCherry) we decided to create two setups of every biobrick combination to ensure that the best possible detection by FRET is used since RFP and MCherry slightly differs in their wavelength areas. The main idea is to practically test this FRET effect in both epitope-RFP and epitope-MCherry combinations by fluorescence which hopefully will prove to us which mutant is best suited to use and thus prove that our theory actually works.
