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+ | <span class="ws-nowrap"> <a class="text-decoration-none" href="#">NAWI Graz</a></span> | ||
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+ | <li><a href="/Team:NAWI-Graz/Description">Description</a></li> | ||
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+ | <li><a href="/Team:NAWI-Graz/Proof">Proof of concept</a></li> | ||
+ | <li><a href="/Team:NAWI-Graz/Demonstration">Demonstration</a></li> | ||
+ | <li><a href="/Team:NAWI-Graz/Results">Results</a></li> | ||
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+ | <li><a href="/Team:NAWI-Graz/Silver">Design</a></li> | ||
+ | <li><a href="/Team:NAWI-Graz/Gold">Experiments</a></li> | ||
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+ | <!-- | ||
+ | <h2 class="font-weight-semibold mb-xs">Our project</h2> | ||
+ | <p class="lead font-weight-normal">The Last Colinator</p>--> | ||
+ | <h2 class="mt-xl mb-none"><span class="alternative-font font-size-md">Parts Verification</span></h2> | ||
+ | <p> | ||
+ | The first thing we had to do was to check if the gBlocks provided by IDT hat the correct sequence. For this we used the blunt end pjet1.2. cloning vector. | ||
+ | For each gBlock we used 4 clones for sequencing. In case of the blue and the red gBlock we were quit sure we would get the correct sequence because we picked red and blue colonies. In case of the gBlocks containing the toxins we were not sure about the result. | ||
+ | Red (Figure 1) and Blue (Figure 2) delivered like assumed correct sequences and also the mazF part (Figure 3) had the correct sequence. Only the ccdB part made problems. | ||
+ | </p> | ||
+ | <p> When we got the results we saw, that all clones we used for sequencing looped out the sequence coding for the toxic ccdB (Figure 4). It seems that homologues region of 25bp is enough for E.coli to do recombination.</p> | ||
+ | <p>To solve the problem we designed a primer without the tac promoter and with a different RBS. The missing of the tac promoter was no problem because we had to use a pUC19 plasmid which already has a lac promoter downstream the MCS. After a successful PCR we used the product to do another pJET ligation. This time we did restricton analysis before sending for sequencing. We used EcoRI which hat to restriction sides and for this reason we got two fragments. One fragment should show a band at the size of 3000bp and the fragment a band at the size of about 1100bp. 3 clones showed the correct pattern on the gel. (Figure 5)</p> | ||
+ | <p>The correct clones were sent for sequencing. This time the fragments showed the sequence we needed. (Figure 6)</p> | ||
+ | |||
+ | |||
+ | <h2 class="mt-xl mb-none"><span class="alternative-font font-size-md">Plasmid Assembly</span></h2> | ||
+ | <p> | ||
+ | To assembly our final plasmids we used the correct sequenced pjet clones to perform a PCR. To see if we have the correct sequence we perform agarose gel and extracted the correct sized DNA band from the gel. <br> | ||
+ | The next thing we did was to digest the different parts with the correct enzymes. After cutting we cleaned the product to be sure we can perform a perfect ligation. | ||
+ | After the ligation and transformation, we expected red and blue colonies. | ||
+ | To be sure the clones which turned blue and red had the correct plasmid we did a restriction digest of different colonies. For both clones we used EcoRI for restriction analysis. For the reason this enzyme has two restriction sites we expected two fragments one fragment with 1000bp and one with 4000bp. For the pUC19_red_mazF we checked 8 clones und 6 of them were positive (Figure 7). For the pUC19_blue_ccdB we checked only three clones. Two of the three showed the pattern we assumed (Figure 8). | ||
+ | |||
+ | </p> | ||
+ | <p>The correct clones were sequenced and after getting the sequenced verified we isolated the plasmid to be sure E.coli does not destroy it. | ||
+ | We also picked colonies from the correct red and blue strains and plated them on three following days on plates and count each day how many colonies got colour and how many stayed with. This should say us how stabile the plasmid is. | ||
+ | </p> | ||
+ | |||
+ | <p>The next thing we did was to use the correct sequenced clones and transform it again to receive fresh clones with no mutations for our final studies. </p> | ||
+ | |||
+ | |||
+ | <h2 class="mt-xl mb-none"><span class="alternative-font font-size-md">Proteomics</span></h2> | ||
+ | <p> | ||
+ | The check if the seven proteins, chromoprotein red/blue, ccdB, mazF, ccdA, mazE and dam methylase were expressed we used SDS-PAGE. It was also important to see, if the proteins especially the toxins were secreted to the media. The chromoproteins can be found at about 25kda, at the size of 32kDa we can find the dam methylase. The ccdB has a weight of about 11kDa. | ||
+ | </p> | ||
+ | |||
+ | <p>The two antitoxins and mazE are smaller than 10kDA, when seeing the picture in real we could find small bands lower than 10kDA. Unfortinately no time was left for puring a higher concentrated SDS gel.</p> | ||
+ | |||
+ | <p>Although we cannot be 100% sure that all proteins we needed were expressed by E.coli we can be really sure that our insilico worked. For all composite parts one protein can be found on the gel. In case of the toxin part we found the dam methylase wich was located downstream the toxin. In case of the antitoxin composite part we saw the red chromoprotein on the SDS and also with the coloured colonies. </p> | ||
+ | |||
+ | <h2 class="mt-xl mb-none"><span class="alternative-font font-size-md">Microbiology</span></h2> | ||
+ | <p> | ||
+ | The last part of the project was the microbiological part. This final part would show us if our hypothesis was true or not. | ||
+ | The first thing we did was to set up two over night cultures from each strain. When we induced one ONC at an OD600 of 0.6 and we ecpacted different growth behaviour. | ||
+ | The E.coli with the mazF toxin had no changes in growing (Figure 12) while the one with the ccdB toxin did not grow as fast as the not induced, but still showed growth (figure 11) . We think this shows us that the toxin/antitoxin system works because there is growth but e.coli shows stress symptoms. </p> | ||
+ | |||
+ | <p>For the reason the red clone showed normal growth we decided to add IPTG from the beginning. What we saw was that the growth of the induced culture was about 50% slower than the not induced ONC but still showed growth (Figure 13). For us this proofed again that the system is working. </p> | ||
+ | <p>The next thing we did was to bring the different colonies together on a plate. First we tried without inducing to see what happened. Like we assumed nothing happened, to different strains grow next to each other. (Figure 14) </p> | ||
+ | |||
+ | <p>In the final test we used plates with 0.1M of IPTG. This time we used a Impföse to bring the different strains together. After growing over night we detected that the red strain killed or overgrew the blue strain on every single plate. </p> | ||
+ | |||
+ | |||
+ | <h2 class="mt-xl mb-none"><span class="alternative-font font-size-md">BioBricks</span></h2> | ||
+ | <p> | ||
+ | After we had our positive clones for the main project we used the positive sequenced pJET clones to assemble the BioBricks. | ||
+ | We decided to make four composite BioBricks. The composite parts are also the main parts of our project. | ||
+ | One BioBrick contains the MazE antitoxin and the red chromoprotein. (Figure 1)</p> | ||
+ | |||
+ | <p>One other BioBrick contains the mazF Toxin and the dam methylase. (Figure 2)</p> | ||
+ | |||
+ | <p> | ||
+ | The third BioBrick contains the ccdA antitoxin for the ccdB toxin and the blue chromoprotein. (Figure 3) </p> | ||
+ | |||
+ | <p>The ccdB Toxin BioBrick did not work to assemble </p> | ||
+ | |||
+ | <p> Like told by the iGEM HQ we used the pSB1C3 plasmid as Backbone. Unfortunately the plasmid provided by the HQ did not work. So we had to use the plasmid from 12P well of plate 6. We transformed the plasmid in E.coli afterwards we isolated the plasmid cut with EcoRI and PstI. After electrophoreses we cut out the band at the size of 2000bp we purified the DNA and measured the concentration with the NanoDrop. | ||
+ | To get the Inserts we used PCR. As template we used like said before the positive sequenced pJET clones. We used an aliquot of the PCR product to check the correct size the other part of the PCR was used to purify. Then we cut the fragments with EcoRI and PstI. | ||
+ | Next we calculated a molecular 1:1 ratio and performed ligation. Transformation and plating out followed. | ||
+ | After screening the plates for positive clones we performed dilution plating to get single colonies. Figure 4 showes the red-mazE BioBrick, Figure 5 the blue_ccdA BioBrick and Figure 6 the mazF_dam methylase BioBrick. | ||
+ | It took over night to see the different colors of the blue and red constructs. </p> | ||
+ | |||
+ | <p>To be sure we send the correct sequence to the registry we let it sequence. (Figure 7-9)</p> | ||
+ | |||
+ | <p> | ||
+ | For the reason we used the same parts for the BioBricks as we used for our main plasmids we did no further analysis in case of proteomics. You can find de results here! | ||
+ | </p> | ||
+ | </div> | ||
+ | </div> | ||
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Revision as of 17:03, 13 October 2016
Parts Verification
The first thing we had to do was to check if the gBlocks provided by IDT hat the correct sequence. For this we used the blunt end pjet1.2. cloning vector. For each gBlock we used 4 clones for sequencing. In case of the blue and the red gBlock we were quit sure we would get the correct sequence because we picked red and blue colonies. In case of the gBlocks containing the toxins we were not sure about the result. Red (Figure 1) and Blue (Figure 2) delivered like assumed correct sequences and also the mazF part (Figure 3) had the correct sequence. Only the ccdB part made problems.
When we got the results we saw, that all clones we used for sequencing looped out the sequence coding for the toxic ccdB (Figure 4). It seems that homologues region of 25bp is enough for E.coli to do recombination.
To solve the problem we designed a primer without the tac promoter and with a different RBS. The missing of the tac promoter was no problem because we had to use a pUC19 plasmid which already has a lac promoter downstream the MCS. After a successful PCR we used the product to do another pJET ligation. This time we did restricton analysis before sending for sequencing. We used EcoRI which hat to restriction sides and for this reason we got two fragments. One fragment should show a band at the size of 3000bp and the fragment a band at the size of about 1100bp. 3 clones showed the correct pattern on the gel. (Figure 5)
The correct clones were sent for sequencing. This time the fragments showed the sequence we needed. (Figure 6)
Plasmid Assembly
To assembly our final plasmids we used the correct sequenced pjet clones to perform a PCR. To see if we have the correct sequence we perform agarose gel and extracted the correct sized DNA band from the gel.
The next thing we did was to digest the different parts with the correct enzymes. After cutting we cleaned the product to be sure we can perform a perfect ligation.
After the ligation and transformation, we expected red and blue colonies.
To be sure the clones which turned blue and red had the correct plasmid we did a restriction digest of different colonies. For both clones we used EcoRI for restriction analysis. For the reason this enzyme has two restriction sites we expected two fragments one fragment with 1000bp and one with 4000bp. For the pUC19_red_mazF we checked 8 clones und 6 of them were positive (Figure 7). For the pUC19_blue_ccdB we checked only three clones. Two of the three showed the pattern we assumed (Figure 8).
The correct clones were sequenced and after getting the sequenced verified we isolated the plasmid to be sure E.coli does not destroy it. We also picked colonies from the correct red and blue strains and plated them on three following days on plates and count each day how many colonies got colour and how many stayed with. This should say us how stabile the plasmid is.
The next thing we did was to use the correct sequenced clones and transform it again to receive fresh clones with no mutations for our final studies.
Proteomics
The check if the seven proteins, chromoprotein red/blue, ccdB, mazF, ccdA, mazE and dam methylase were expressed we used SDS-PAGE. It was also important to see, if the proteins especially the toxins were secreted to the media. The chromoproteins can be found at about 25kda, at the size of 32kDa we can find the dam methylase. The ccdB has a weight of about 11kDa.
The two antitoxins and mazE are smaller than 10kDA, when seeing the picture in real we could find small bands lower than 10kDA. Unfortinately no time was left for puring a higher concentrated SDS gel.
Although we cannot be 100% sure that all proteins we needed were expressed by E.coli we can be really sure that our insilico worked. For all composite parts one protein can be found on the gel. In case of the toxin part we found the dam methylase wich was located downstream the toxin. In case of the antitoxin composite part we saw the red chromoprotein on the SDS and also with the coloured colonies.
Microbiology
The last part of the project was the microbiological part. This final part would show us if our hypothesis was true or not. The first thing we did was to set up two over night cultures from each strain. When we induced one ONC at an OD600 of 0.6 and we ecpacted different growth behaviour. The E.coli with the mazF toxin had no changes in growing (Figure 12) while the one with the ccdB toxin did not grow as fast as the not induced, but still showed growth (figure 11) . We think this shows us that the toxin/antitoxin system works because there is growth but e.coli shows stress symptoms.
For the reason the red clone showed normal growth we decided to add IPTG from the beginning. What we saw was that the growth of the induced culture was about 50% slower than the not induced ONC but still showed growth (Figure 13). For us this proofed again that the system is working.
The next thing we did was to bring the different colonies together on a plate. First we tried without inducing to see what happened. Like we assumed nothing happened, to different strains grow next to each other. (Figure 14)
In the final test we used plates with 0.1M of IPTG. This time we used a Impföse to bring the different strains together. After growing over night we detected that the red strain killed or overgrew the blue strain on every single plate.
BioBricks
After we had our positive clones for the main project we used the positive sequenced pJET clones to assemble the BioBricks. We decided to make four composite BioBricks. The composite parts are also the main parts of our project. One BioBrick contains the MazE antitoxin and the red chromoprotein. (Figure 1)
One other BioBrick contains the mazF Toxin and the dam methylase. (Figure 2)
The third BioBrick contains the ccdA antitoxin for the ccdB toxin and the blue chromoprotein. (Figure 3)
The ccdB Toxin BioBrick did not work to assemble
Like told by the iGEM HQ we used the pSB1C3 plasmid as Backbone. Unfortunately the plasmid provided by the HQ did not work. So we had to use the plasmid from 12P well of plate 6. We transformed the plasmid in E.coli afterwards we isolated the plasmid cut with EcoRI and PstI. After electrophoreses we cut out the band at the size of 2000bp we purified the DNA and measured the concentration with the NanoDrop. To get the Inserts we used PCR. As template we used like said before the positive sequenced pJET clones. We used an aliquot of the PCR product to check the correct size the other part of the PCR was used to purify. Then we cut the fragments with EcoRI and PstI. Next we calculated a molecular 1:1 ratio and performed ligation. Transformation and plating out followed. After screening the plates for positive clones we performed dilution plating to get single colonies. Figure 4 showes the red-mazE BioBrick, Figure 5 the blue_ccdA BioBrick and Figure 6 the mazF_dam methylase BioBrick. It took over night to see the different colors of the blue and red constructs.
To be sure we send the correct sequence to the registry we let it sequence. (Figure 7-9)
For the reason we used the same parts for the BioBricks as we used for our main plasmids we did no further analysis in case of proteomics. You can find de results here!