Team:Toulouse/Notebook/Protocols

From 2014.igem.org

(Difference between revisions)
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   <li><a href="#select5">Checking of the genetic constructions</a></li>
   <li><a href="#select5">Checking of the genetic constructions</a></li>
   <li><a href="#select6"><i>B. subtilis</i> transformation</a></li>
   <li><a href="#select6"><i>B. subtilis</i> transformation</a></li>
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   <li><a href="#select7">Checking of the genetic constructions after plasmid integration in <i>Bacillus subtilis</i> </a></li>
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   <li><a href="#select7">Test of the pSB<sub>BS</sub>4S plasmid integration in <i>Bacillus subtilis</i> genome on the threonine site</a></li>
<li><a href="#select8">Final Tests</a></li>
<li><a href="#select8">Final Tests</a></li>
   </ul>
   </ul>
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<br/></p>
<br/></p>
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<p class="texte"><b> Preparation of solutions </b>
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<p class="texte"><b> Preparation of solutions: </b><br>
<I> <br> 300 mM Tri-Na Citrate:</I>
<I> <br> 300 mM Tri-Na Citrate:</I>
<br>- 0.88 g Tri-Na Citrate
<br>- 0.88 g Tri-Na Citrate
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<br>The complete mixture should be dissolved in 100 ml. First add 50 ml milliQ water and mix. When everything is dissolved add MQ water till 100 ml. Filter sterilize the complete mixture and store at -20°C.
<br>The complete mixture should be dissolved in 100 ml. First add 50 ml milliQ water and mix. When everything is dissolved add MQ water till 100 ml. Filter sterilize the complete mixture and store at -20°C.
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<p class="title1" id="select7">Checking of the genetic constructions after plasmid integration in <I>Bacillus subtilis</I></p>
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<p class="title1" id="select7">Test of the pSB<sub>BS</sub>4S plasmid integration in <i>Bacillus subtilis</i> genome on the threonine site</p>
<p class="texte">
<p class="texte">
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<br>Test of the pSBBS4S plasmid integration in Bacillus subtilis genome on the threonine site:
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<br>- Plate the transformed <i>Bacillus strain</i> on a selective medium (LB + spectinomycin) overnight  
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<br>- Plate the transformed Bacillus strain on a selective medium (LB + spectinomycin) overnight  
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<br>- The obtained clones are then plated on different media:  Medium Competence (Thr+), Medium Competence (Thr-) and LB + Spectinomycin.  
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<br>- The obtained clones are then plated on different media:  Medium Competence (Thr+), Medium Competence (Thr-) and LB + spectinomycine.  
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<br>When the plasmid is integrated, the clone can grow on minimum medium with threonine and on LB + Spectinomycin but can not grow on the minimum medium without thronine.
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<br>When the plasmid is integrated, the clone can grow on minimum medium without threonine but can not grow on the other media.
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Moreover, a colony PCR can be performed with the same protocol as previously presented. The used primers are VFBS and VRBS.
Moreover, a colony PCR can be performed with the same protocol as previously presented. The used primers are VFBS and VRBS.
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<p class="texte">
<p class="texte">
Many chemotaxis tests exist such as plate tests or capillary tests. We tried all of them and we decided to optimize the « Capillary essay » from Imperial College 2011 iGEM team.
Many chemotaxis tests exist such as plate tests or capillary tests. We tried all of them and we decided to optimize the « Capillary essay » from Imperial College 2011 iGEM team.
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<br>- Prepare the bacteria in LB medium so they reach an OD between 0.5 and 0.6 (exponential growth phase). This step takes about 5 hours.
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<br>- Prepare the bacteria in LB medium until they reach an OD between 0.5 and 0.6 (exponential growth phase). This step takes about 5 hours.
<br>- Prepare the multichannel pipette: improve the cohesion between the tips and the pipette with Blu-Tack to avoid air and the possibility of leakage.
<br>- Prepare the multichannel pipette: improve the cohesion between the tips and the pipette with Blu-Tack to avoid air and the possibility of leakage.
<br>
<br>
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<center><img src="https://static.igem.org/mediawiki/2014/b/b1/Installation_1.gif"></center>
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<center><img src="https://static.igem.org/mediawiki/2014/b/b1/Installation_1.gif" width="500px"></center>
<p class="texte">
<p class="texte">
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<br>- Put 200µl of the different chemoattractants in the wells of the ELISA plate and pipette 15µL of each with the multichannel pipette: galactose which represents our negative control, glucose which represents our positive control and N-acetylglucosamine (NAG).  
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<br>- Put 200µl of the different chemoattractants in the wells of the ELISA plate and pipet 15µL of each with the multichannel pipette: galactose which represents our negative control, glucose which represents our positive control and N-acetylglucosamine (NAG).  
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NB: The NAG is the most important test because it is the monosaccharide which composes the chitin on Ceratocystis platani wall. The volume in the tips must be marked.
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<br><i>NB: The NAG is the most important test because it is the monosaccharide which composes the chitin on Ceratocystis platani wall.</i>
 +
<br> The volume in the tips must be marked.
<br>- Put the tips with chemoattractants in 300µL of the bacterial solution in exponential growth phase in the ELISA plate.
<br>- Put the tips with chemoattractants in 300µL of the bacterial solution in exponential growth phase in the ELISA plate.
<br>- Let the installation settle for 1 hour at room temperature.
<br>- Let the installation settle for 1 hour at room temperature.
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</p>
</p>
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<p class="texte">
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<p class="title3">Column activation:</p>
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<I>Column activation:</I>
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<p class="texte">- Vortex the beads  
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<br>- Vortex the beads  
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<br>- Put 50 µL of beads in a 1.5mL centrifuge tube
<br>- Put 50 µL of beads in a 1.5mL centrifuge tube
<br>- Wash with 500 µL of CBB
<br>- Wash with 500 µL of CBB
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<p class="texte"><I>Bacterial fixation on the chitin beads:</I>
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<p class="title3">Bacterial fixation on the chitin beads:</p><p class="texte">
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<br>- Add 200 µL of bacteria solution (105 bactéria/mL)to the washed beads  
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- Add 200 µL of bacteria solution (105 bacteria/mL) to the washed beads  
<br>- Shake during 1h at 4°C
<br>- Shake during 1h at 4°C
<br>- Add 500 µL of CBB (washing A)
<br>- Add 500 µL of CBB (washing A)
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</p>
</p>
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<p class="texte"><I>Bacteria count:</I>
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<p class="title3">Bacteria count:</p>
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<br>- Make different dilutions : 10-1, 10-3, 10-5 of the first bacterial culture and spread on LA plates
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<p class="texte">- Make different dilutions : 10<sup>-1</sup>, 10<sup>-3</sup>, 10<sup>-5</sup> of the first bacterial culture and spread on LA plates
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<br>- Make different dilutions : 1, 10-2, 10-4 of washings (A and B) and of the beads in CBB medium and spread on LA plates
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<br>- Make different dilutions : 1, 10<sup>-2</sup>, 10<sup>-4</sup> of washings (A and B) and of the beads in CBB medium and spread on LA plates
<br>- Place the plates at 37°C overnight
<br>- Place the plates at 37°C overnight
<br>- Count colonies on different plates
<br>- Count colonies on different plates
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<p class="texte">
<p class="texte">
CAUTION : all the lab equipment must be desinfected before the manipulations with the fungi.  
CAUTION : all the lab equipment must be desinfected before the manipulations with the fungi.  
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<br>Three different funguss strains were used : <I>Aspergillus brasiliensis, Aspergillus nidulans, Trichoderma reesei</I>
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<br>Three different fungus strains were used : <I>Aspergillus brasiliensis, Aspergillus nidulans, Trichoderma reesei</I>
<br>- The conidia can be taken by adding one drop of Tween 80 on the fungus plate.
<br>- The conidia can be taken by adding one drop of Tween 80 on the fungus plate.
<br>- Then the drop is mixed with 1mL of sterile water in an Eppedorf.
<br>- Then the drop is mixed with 1mL of sterile water in an Eppedorf.
<br>- A microscopy count can be performed thanks to Thoma cell to determine the conidia concentration.
<br>- A microscopy count can be performed thanks to Thoma cell to determine the conidia concentration.
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<br>NB : The conidia solutions are then diluted and spread on sap medium to get 10,000 conidia/plate.
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<br><i>NB : The conidia solutions are then diluted and spread on sap medium to get 10,000 conidia/plate.</i>
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<br>- After 72hours of liquid culture of the different clones of <i>B. subtilis</i> with the fungicides module, the culture can be centrifugated.
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<br>- After 72 hours of liquid culture of the different clones of <i>B. subtilis</i> with the fungicides module, the culture can be centrifugated.
<br>- 130µL of the supernatant is used to soak a pad placed on the conidia plate. The bacterial pellet is resuspended in 130µL of LB medium and also put on a pad.  
<br>- 130µL of the supernatant is used to soak a pad placed on the conidia plate. The bacterial pellet is resuspended in 130µL of LB medium and also put on a pad.  
<br>- The plates containing 10,000 conidia and the soaked pads are then put at room temperature for a few days according to the growth speed of the fungi. Controls are also realized with wild type strains or copper sulfate at 10 and 20mg/mL.
<br>- The plates containing 10,000 conidia and the soaked pads are then put at room temperature for a few days according to the growth speed of the fungi. Controls are also realized with wild type strains or copper sulfate at 10 and 20mg/mL.
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<p class="title2">Fungicide test: <i>in planta</i> assay</p>
<p class="title2">Fungicide test: <i>in planta</i> assay</p>
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<p class="title3">First step</p>
<p class="texte">
<p class="texte">
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The first step is related to the inoculation of SubtiTree in plants through stomata (opened in wet condition). We diluted our bacterial samples to get two concentrations:  5.10^6 and 10^8 bacteria per mL. The WT and trasnformed bacteria are introduced into plants (a control test without bacteria was performed). Thanks to a 1 ml syringe (without needle), the plant was injected with bacteria by pressure. Five leaves of each plant were used, marked with a marker point. It is necessary to repeat the operation on both sides of the leaf and the excess is wipe off. The plants are placed in a growth chamber (phytotron) to control light, high humidity, temperature and bacterial non-proliferation. Bacterial growth in the plant is left for 24 h.
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The first step is related to the inoculation of SubtiTree in plants through stomata (opened in wet condition). <br>We diluted our bacterial samples to get two concentrations:  5.10<sup>6</sup> and 10<sup>8</sup> bacteria per mL. The WT and transformed bacteria are introduced into plants (a control test without bacteria is performed). Thanks to a 1 ml syringe (without needle), the plant was injected with bacteria by pressure. Five leaves of each plant were used, marked with a marker point. It is necessary to repeat the operation on both sides of the leaf and the excess is wipe off. The plants are placed in a growth chamber (phytotron) to control light, high humidity, temperature and bacterial non-proliferation. Bacterial growth in the plant is left for 24 h.
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</br>
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</p>
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<p class="title3">Second step</p>
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The next step begins with the preparation of the fungal samples.Fungal culture is crushed and mixed with PDB (Potato Dextrose Broth). Then the mix passes through a 100 µm filter (to remove large aggregates) and  through a 40 µm filter. The caught hyphae are mixed with PDB for 24 to 48 hours until OD(600nm) 2.5 isobtained. The previously seeded leaves are taken from the plant using a scalpel and placed in boxes above wet absorbent paper (leaves are kept alive for a week). Above each leaf, 5µl of the fungal suspension is deposited (using beveled tips because it is too viscous). As control, we kept inoculated leaves without fungus and leaves with only fungus. Pictures are taken at different times. All the plants are destroyed by autoclaving.
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The next step begins with the preparation of the fungal samples. Fungal culture is crushed and mixed with PDB (Potato Dextrose Broth). Then the mix passes through a 100 µm filter (to remove large aggregates) and  through a 40 µm filter. The caught hyphae are mixed with PDB for 24 to 48 hours until OD (600nm) 2.5 is obtained. The previously seeded leaves are taken from the plant using a scalpel and placed in boxes above wet absorbent paper (leaves are kept alive for a week). Above each leaf, 5µl of the fungal suspension is deposited (using beveled tips because it is too viscous). As control, we kept inoculated leaves without fungus and leaves with only fungus. Pictures are taken at different times. All the plants are destroyed by autoclaving.
</p>
</p>

Revision as of 18:52, 16 October 2014