Team:Wageningen UR/notebook/journal/resistance

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<h1>Fungal resistance journal</h1>
<h1>Fungal resistance journal</h1>
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<p></p>
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<p>All transformations were done in <i>E. coli</i>. Preparation of the backbones was done in DH5alfa, while for transformations with the clusters JM109 was used.</p>
                              
                              
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<dt id="02w1"><a>Growth experiments</a></dt>
<dt id="02w1"><a>Growth experiments</a></dt>
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<p>Growth experiments were conducted on <i>Eschericia coli (Strains DH5alfa, BL21 and JM109), Bacillus subtilis</i> and <i>Pseudomonas putida</i>. Fusaric acid concentrations ranged from 0 to 250 ug/ml. After 18 hours of incubation at 37 degress celcius, OD 600 measurements were taken.</p>
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<p>Growth experiments were conducted with fusaric acid concentrations ranging from 0 to 250 ug/ml were performed on <i>Eschericia coli (Strains DH5alfa, BL21 and JM109), Bacillus subtilis</i> and <i>Pseudomonas putida</i>. After 18 hours of incubation at 37 degress celcius, OD 600 measurements were taken.</p>
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                                                         <figure>
                                                         <figure>
                                                         <img src="https://static.igem.org/mediawiki/2014/1/13/Wageningen_UR_journal_resistance_resistance_assay.png" width="800px">
                                                         <img src="https://static.igem.org/mediawiki/2014/1/13/Wageningen_UR_journal_resistance_resistance_assay.png" width="800px">
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                                                         </figure>  
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                                                         <figcaption>
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                                                        Figure 1. Both <i>B. subtilis</i> and all of the <i>E. coli</i> strains show a strong response to increasing doses of fusaric acid in the medium. <i>P. putida</i>, however, does not show any decrease in growth for the concentrations used. Therefore another experiment was done with higher concentrations for <i>P. putida</i>.
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                                                      <p>Both <i>B. subtilis</i> and all of the <i>E. coli</i> strains show a strong response to increasing doses of fusaric acid in the medium. <i>P. putida</i>, however, does not show any decrease in growth for the concentrations used. Therefore another experiment was done with higher concentrations for <i>P. putida</i>.</p>
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                                                        </figcaption>
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                                                        </figure>
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                                                         <p><i><b>NOTE: Fusaric acid used in this experiment was probaply (partially) degraded. Therefore data from this experiment is not used.</b></i></p>
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                                                         <p><i><b>NOTE: After ordering new fusaric acid later in the project, it was found out that the fusaric acid used in this experiment was not the same strength, with the old one most likely being (partially) degraded. Therefore data from this experiment is not used.</b></i></p>
                                                         </p>
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                                                         <img src="https://static.igem.org/mediawiki/2014/c/cf/Wageningen_UR_journal_resistance_hplc_first_try.png" width="800px">
                                                         <img src="https://static.igem.org/mediawiki/2014/c/cf/Wageningen_UR_journal_resistance_hplc_first_try.png" width="800px">
                                                         <figcaption>
                                                         <figcaption>
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                                                         Left: HPLC calibration curve. </br>
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                                                         Figure 2. Left: The HPLC method used delivered a good calibration curve, but peak resolvance was not optimal, with the FA peak having overlap with several smaller peaks in the samples with <i>P. putida</i>. Therefore it was decided to repeat the experiment to improve the HPLC method. </br>
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                                                         Right: Fusaric acid breackdown
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                                                         Right: Initial results on fusaric acid breakdown showed signs of breakdown, but because peak resolvance was not optimal and the measurements were not done in duplo more data was needed to draw conclusions.                                                     
                                                         </figcaption>
                                                         </figcaption>
                                                         </figure>
                                                         </figure>
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<p>The HPLC method used delivered a linea calibration curve, but peak resolvance was not optimal, with the FA peak having overlap with several smaller peaks in the samples with <i>P. putida</i>. Therefore it was decided to repeat the experiment to improve the HPLC method.
 
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Initial results on fusaric acid breakdown showed signs of breakdown, but because peak resolvance was not optimal and the measurements were not done in duplo more data was needed to draw conclusions.</p>
 
                                                        
                                                        
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<p>Based on the initial results a more elaborate experiment was started. Six samples were grown in duplo:</p>
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                                                        <p>Based on the initial results a more elaborate experiment was started in duplo. Six samples would be grown in duplo:</p>
                                                         <ul>
                                                         <ul>
                                                         <li>A. Negative control for growth on M9 without carbon source. (PP+, Glucose-, FA-)</li>
                                                         <li>A. Negative control for growth on M9 without carbon source. (PP+, Glucose-, FA-)</li>
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                                                         <img src="https://static.igem.org/mediawiki/2014/1/12/Wageningen_UR_journal_resistance_putida_growth.png" width="800px">
                                                         <img src="https://static.igem.org/mediawiki/2014/1/12/Wageningen_UR_journal_resistance_putida_growth.png" width="800px">
                                                         <figcaption>
                                                         <figcaption>
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                                                         <i>P. putida</i> growth followed for 12 hours grown in LB medium. The OD was measured every 15 minutes at 600nm. Plates were incubated shaking at 30 degrees Celsius. Concentrations of fusaric acid are noted in the legend in ug/ml. </br>
+
                                                         Figure 3. <i>P. putida</i> growth followed for 12 hours grown in LB medium. The OD was measured every 15 minutes at 600nm. Plates were incubated shaking at 30 degrees Celsius. Concentrations of fusaric acid are noted in the legend in ug/ml. </br>
                                                         At concentrations higher then 500 <i>P. putida</i> ceases to grow.
                                                         At concentrations higher then 500 <i>P. putida</i> ceases to grow.
                                                         </figcaption>
                                                         </figcaption>
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<dt id="02w4"><a>Isolation of genes</a></dt>
<dt id="02w4"><a>Isolation of genes</a></dt>
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<dd class="timelineEvent" id="02w4EX" style="display:none;">
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<p>All gene clusters were isolated using <a href="https://static.igem.org/mediawiki/2014/e/eb/Wageningen_UR_protocols_Pcr.pdf"target="_blank" class="soft_link">PCR</a>. The following primers were used. Temperatures were calculated using <a href="http://tmcalculator.neb.com/" class="soft_link" target="blank">NEB Tm Calculator</a></p>   
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<p>All gene clusters were isolated using <a href="https://static.igem.org/mediawiki/2014/e/eb/Wageningen_UR_protocols_Pcr.pdf"target="_blank" class="soft_link">PCR</a>. The following primers were used. Temperatures were calculated using <a href="http://tmcalculator.neb.com/" class="soft_link" target="blank">NEB Tm Calculator.</a> If the initial temperature did not work, the Tm was lowered by 3 degrees and a duplo with 1 ul of DMSO was done.</a></p>   
                                                      
                                                      
                                                     <h3><i>P. putida</i> - PP1263-1266</h3>
                                                     <h3><i>P. putida</i> - PP1263-1266</h3>
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                                                     </ul>
                                                     </ul>
                                                      
                                                      
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                                                    <h3><i>Stenotrophomonas maltophilia</i> - FuaABC</h3>
 
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                                                    <ul>
 
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                                                    <li>FP: GTTTCTTCGAATTCGCGGCCGCTTCTAGAGATTGATTGTCATTGTAGCGAAATTC</li>
 
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                                                    <li>RP: GTTTCTTCCTGCAGCGGCCGCTACTAGTACGGTAATTTCCTGAACAGAC</li>
 
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                                                    </ul>
 
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                                                     <h3><i>Pseudomonas cepacia</i> - FusABCDE</h3>
                                                     <h3><i>Pseudomonas cepacia</i> - FusABCDE</h3>
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                                                     <li>RP: GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTATTACGACTTCTTCTGCTTGTCC</li>
                                                     <li>RP: GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTATTACGACTTCTTCTGCTTGTCC</li>
                                                     </ul>
                                                     </ul>
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 +
                                                    <h3><i>Stenotrophomonas maltophilia</i> - FuaABC</h3>
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                                                    <ul>
 +
                                                    <li>FP: GTTTCTTCGAATTCGCGGCCGCTTCTAGAGATTGATTGTCATTGTAGCGAAATTC</li>
 +
                                                    <li>RP: GTTTCTTCCTGCAGCGGCCGCTACTAGTACGGTAATTTCCTGAACAGAC</li>
 +
                                                    </ul>
 +
                                                    <p>No PCR results could be obtained for this cluster, possibly the DNA was degraded during the time spent shipping. Since the other PCRs did give results, it was chosen not to continue with this gene cluster</p>                                                                                                   
                                                      
                                                      
                                                     </dd>
                                                     </dd>
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                                                     <figure>
                                                     <figure>
                                                     <img src="https://static.igem.org/mediawiki/2014/8/8f/Wageningen_UR_journal_resistance_plamid_map.png" width="600px">
                                                     <img src="https://static.igem.org/mediawiki/2014/8/8f/Wageningen_UR_journal_resistance_plamid_map.png" width="600px">
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                                                     <figcaption>Example of the plasmid layout. BBa_J04500 is inserted between EcoRI and XbaI while the FDT cluster is inserted between XbaI and SpeI. Standard three point ligation could not be used because of illegal PstI sites.</figcaption>
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                                                     <figcaption>Figure 4. Example of the plasmid layout. BBa_J04500 is inserted between EcoRI and XbaI while the FDT cluster is inserted between XbaI and SpeI. Standard three point ligation could not be used because of illegal PstI sites.</figcaption>
                                                     </figure>
                                                     </figure>
                                                      
                                                      
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<h2 class="timelineMajorMarker"><span>September</span></h2>
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<dt id="02w6"><a>Transformations</a></dt>
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<p>All transformations using the fusaric acid resistance clusters proved unsuccesfull. Any colonies obtained were proven by colony PCR or restriction digestion to not contain any inserts. Since the expression of membrane proteins can often be toxic, it was considered that the leakiness of the <i>pLac</i> promoter in combination with the high copy pSB1C3 plasmid might prove toxic for our host organism. Therefore it was decided to construct low copy backbones using pSB3K3 and pSB4K5.</p>
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                                                    </dd>
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<dt id="02w7"><a>Preparation of low copy backbones</a></dt>
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<dd class="timelineEvent" id="02w7EX" style="display:none;">
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<p>To prevent toxicity from leaky expression of potentially toxic membrane proteins low copy number backbones pSB3K3 and pSB4K5 were digested with EcoRI and XbaI to insert J04500 according to standard protocols.</p>
 +
                                                    </dd>
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<dt id="02w8"><a>FDT-123 PCR of seperate genes</a></dt>
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<dd class="timelineEvent" id="02w7EX" style="display:none;">
 +
<p>As an alternate way to see if the proteins that were tried to be expressed were toxic, it was decided to isolate the three genes from the FDT-123 cluster seperatly. This could give insight in which of the genes would cause the potential toxicity.
 +
</br>
 +
Primers used were:</p>
 +
<ul><li>AEX05579.1 FP - GTTTCTTCGAATTCGCGGCCGCTTCTAGAGCCACACTGGGGTTATTCGCATGAAATC</li>
 +
<li>AEX05580.1 FP - GTTTCTTCGAATTCGCGGCCGCTTCTAGAGCGATCTGCACTGCGCGTTAC</li>
 +
<li>AEX05580.1 RP - GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTAGGCCGCTACCGCTACTGC</li>
 +
<li>AEX05581.1 RP - GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTATCATTTATCATGGGTGGGTTCCTCGTTC</li>
 +
</ul>
 +
                                                    </dd>
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<h2 class="timelineMajorMarker"><span>October</span></h2>
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<dl class="timelineMinor">
 +
<dt id="02w9"><a>Transformations with low copy backbones</a></dt>
 +
<dd class="timelineEvent" id="02w6EX" style="display:none;">
 +
<p>Using the low copy backbones transformations results were obtained. The transformation of the FDT-123 cluster in pSB4K5 initially gave positive results on colony pcr, but after miniprepping and digestion the plasmid seemed empty. Two of the transformants were sent for sequencing. Insert containing the FDT-123 FP and RP was inserted with a palindromic sequence of "ATCGATGCTA" or "TAGCATCGAT" was confirmed by sequencing. The PP cluster gave similar results but with a sequence of "TTGTCCT". Since these sequences are palindromic this might be an indication that the cluster is toxic and recombination with deletion of the cluster is the only viable way to survive.</p>
 +
 +
<p>For the seperate genes of the FDT clusters, succesfull transformants were obtained for FDT-2 and FDT-3 and confirmed by sequencing. FDT-1 did not result in any succesfull tranformants leading to the conclusion that this is most likely the gene responsible for the toxicity of the cluster in <i>E. coli</i>.</p>
 +
 +
<p>Because of the problems getting the whole gene clusters expressed in combination with the high ammount of illegal restriction sites in the clusters, it was decided not to continue with the resistance
 +
                                                    </dd>
 +
<dt id="02w10"><a>Further HPLC experiments</a></dt>
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<dd class="timelineEvent" id="02w7EX" style="display:none;">
 +
<p>Several more tries were done to characterize the possible fusaric acid breakdown of <i>P. putida</i>, however, several technical issues with the HPLC were had so no further results have been obtained yet.</p>
 +
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Latest revision as of 02:15, 18 October 2014

Wageningen UR iGEM 2014

 

 

Fungal resistance journal

All transformations were done in E. coli. Preparation of the backbones was done in DH5alfa, while for transformations with the clusters JM109 was used.


May

Growth experiments

June

HPLC
Growth experiments

August

Isolation of genes
Preparation of backbone

September

Transformations
Preparation of low copy backbones
FDT-123 PCR of seperate genes

October

Transformations with low copy backbones
Further HPLC experiments