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− | <img src="https://static.igem.org/mediawiki/2018/ | + | <img src="https://static.igem.org/mediawiki/2018/1/11/T--Rheda_Bielefeld--parts%2Cquer.jpeg" width="50%"> |
</div> | </div> | ||
<div class="row"> | <div class="row"> | ||
<div class="column left"> | <div class="column left"> | ||
− | <h2> | + | <h2> Plasmid Designs</h2> |
<article> | <article> | ||
− | <img src="https://static.igem.org/mediawiki/2018/thumb/2/2b/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg/598px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg.png" style=" | + | <a href="https://static.igem.org/mediawiki/2018/thumb/2/2b/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg/598px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg.png"> |
+ | <img src="https://static.igem.org/mediawiki/2018/thumb/2/2b/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg/598px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_pelB%29.jpeg.png" style="height:auto; width:100%;font-size:0.7em;"></a>Click the image to enlarge it</img> | ||
<br><br> | <br><br> | ||
Fig. 1: pelB-gene from the B.sub. in psb1C3-vector | Fig. 1: pelB-gene from the B.sub. in psb1C3-vector | ||
<br><br> | <br><br> | ||
− | <img src="https://static.igem.org/mediawiki/2018/thumb/8/88/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg/582px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg.png" style=" | + | <a href="https://static.igem.org/mediawiki/2018/thumb/8/88/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg/582px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg.png"> |
+ | <img src="https://static.igem.org/mediawiki/2018/thumb/8/88/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg/582px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_sub_yesZ%29.jpeg.png" style="height:auto; width:100%;font-size:0.7em;"></a>Click to enlarge</img> | ||
<br><br> | <br><br> | ||
Fig. 2: yesZ-gene from the B.sub. in psb1C3-vector | Fig. 2: yesZ-gene from the B.sub. in psb1C3-vector | ||
<br><br> | <br><br> | ||
− | <img src="https://static.igem.org/mediawiki/2018/thumb/4/4c/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg/601px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg.png" style=" | + | <a href="https://static.igem.org/mediawiki/2018/thumb/4/4c/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg/601px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg.png"> |
+ | <img src="https://static.igem.org/mediawiki/2018/thumb/4/4c/T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg/601px-T--Rheda_Bielefeld--cloning%2Csnapgene%28psb1C3_xan_pelB%29.jpeg.png" style="height:auto; width:100%;font-size:0.7em;"></a>Click to enlarge</img> | ||
<br><br> | <br><br> | ||
Fig. 3: pelB-gene from the Xan. in psb1C3-vector | Fig. 3: pelB-gene from the Xan. in psb1C3-vector | ||
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<h2> Parts</h2> | <h2> Parts</h2> | ||
<article> | <article> | ||
− | The | + | The main idea of our project is to detect pollen by a DNA-based method, but another plan has been also to differ between the different types of pollen. Concerning this, we mainly focused on the pollen most commonly causing allergic reactions in our area. To analyze and to extract the DNA, we had to break open the outer layer of the pollen. Some attempts to mechanically or chemicaly open pollen are described here: |
<a href="https://2018.igem.org/Team:Rheda_Bielefeld/Pollen" style="color:yellow">Pollen</a><br> | <a href="https://2018.igem.org/Team:Rheda_Bielefeld/Pollen" style="color:yellow">Pollen</a><br> | ||
− | Pollen have | + | Pollen have an outer (exine) and inner (intine) layer, parts of which consist of pectine and cellulose <a href="https://2018.igem.org/Team:Rheda_Bielefeld/Assays" style="color:yellow"> (Assays)</a>. Therefore,we wanted to use Escherichia coli to produce enzymes which are able to dismantle these substances and hereby break open the pollen. |
<br> | <br> | ||
For this purpose we chose the following enzymes: | For this purpose we chose the following enzymes: | ||
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Out of the Bacillus subtilis the genes pelB and yesZ and out of Xanthomonas campestris the gene pelB. The genes pelB out of B.sub. and Xan. Code for pectinases or pectin lyases, yesZ being a beta-glucosidase, which could have enhanced the further dismanteling of the shell. | Out of the Bacillus subtilis the genes pelB and yesZ and out of Xanthomonas campestris the gene pelB. The genes pelB out of B.sub. and Xan. Code for pectinases or pectin lyases, yesZ being a beta-glucosidase, which could have enhanced the further dismanteling of the shell. | ||
<br> | <br> | ||
− | The BioBricks are supposed to be assembled performing a Gibson Assembly. For this we isolated the DNA of Bacillus subtilis and Xanthomonas campestris B100 and amplified the genes with specific primers. We wanted to clone the genes into psb1C3 and send them in. Using the E.coli vector pz9 availible to us in our | + | The BioBricks are supposed to be assembled performing a Gibson Assembly. For this we isolated the DNA of Bacillus subtilis and Xanthomonas campestris B100 and amplified the genes with specific primers. We wanted to clone the genes into psb1C3 and send them in. Using the E.coli vector pz9 availible to us in our lab we planned to characterize the genes. All in all we were trying to perform 6 clonings (3 clonings into psb1C3 and 3 into pz9). The psb1C3 constructs can be seen on the left. The experimentdesign was created with snapgene. |
<br> | <br> | ||
We also thought about using other, already in iGEM existing, enzymes: | We also thought about using other, already in iGEM existing, enzymes: |
Latest revision as of 14:15, 17 October 2018
Plasmid Designs
Fig. 1: pelB-gene from the B.sub. in psb1C3-vector
Click to enlarge
Fig. 2: yesZ-gene from the B.sub. in psb1C3-vector
Click to enlarge
Fig. 3: pelB-gene from the Xan. in psb1C3-vector
Parts
Pollen have an outer (exine) and inner (intine) layer, parts of which consist of pectine and cellulose (Assays). Therefore,we wanted to use Escherichia coli to produce enzymes which are able to dismantle these substances and hereby break open the pollen.
For this purpose we chose the following enzymes:
Out of the Bacillus subtilis the genes pelB and yesZ and out of Xanthomonas campestris the gene pelB. The genes pelB out of B.sub. and Xan. Code for pectinases or pectin lyases, yesZ being a beta-glucosidase, which could have enhanced the further dismanteling of the shell.
The BioBricks are supposed to be assembled performing a Gibson Assembly. For this we isolated the DNA of Bacillus subtilis and Xanthomonas campestris B100 and amplified the genes with specific primers. We wanted to clone the genes into psb1C3 and send them in. Using the E.coli vector pz9 availible to us in our lab we planned to characterize the genes. All in all we were trying to perform 6 clonings (3 clonings into psb1C3 and 3 into pz9). The psb1C3 constructs can be seen on the left. The experimentdesign was created with snapgene.
We also thought about using other, already in iGEM existing, enzymes:
Team | Part | Comments |
---|---|---|
WLC Milwaukee 2014 |
BBa_K1175007 yesZ frim Bacillus Subtilis |
characterized in vitro assy Statuts: It`s complicated |
Edinburgh 2008 | BBa_K118023 Codon optimized Caulobacter crescentus |
Caulobacter crescentus codon usage |
British Columbia 2016 | BBa_K2139003 Codon optimized Caulobacter crescentus |
sample not in stock Endo-beta-1,4-glucanase E1 |
Stanford-Brown-Spelman 2014 | BBa_K1499501 Endo-1,4-&-beta-glucanase (EG1) / Neisseria sicca |
Not characterized, but Neisseria sicca is an S2 organism |
What went wrong?
We also tried to order the parts for our clonings from IDT, but they were not able to send them to us in time for us to still work with them.