Team:Toulouse/Result/experimental-results

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<B>Results</B>
<B>Results</B>
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     The first tests were performed with commercial GAFP-1 and D4E1 with different concentrations (12,5µM 25µM 100µM). These tests were performed on different fungal strains sharing the same phylum with Ceratocystis Platani. As Ceratocystis Platani is pathogenic, we couldn't perform tests directly with this fungus. <br>
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     The first tests were accomplished with commercial GAFP-1 and D4E1 peptides at different concentrations (12,5µM/25µM/100µM). These tests were performed on different fungal strains sharing the same phylum with <i>Ceratocystis Platani<i/>. <br>As <i>Ceratocystis Platani<i/> is pathogenic, we could not perform tests directly with this fungus. <br/>
After several days at 30°C, the PDA (Potato Dextrose Agar) plates covered with fungus and commercial peptides were analyzed.
After several days at 30°C, the PDA (Potato Dextrose Agar) plates covered with fungus and commercial peptides were analyzed.
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An inhibiton halo was noticeable with commercial D4E1 at 100µM on aspergillus brasiliensis. Less bright halos were also present with lower concentrations. Concerning commercial GAFP-1, no effect was noticeable in the tested conditions. As positive control, a well-known chemical fungicide was used : copper sulfate. The inhibition of the fungal growth was complete at 20mg/ml, and at 10mg/ml a darker halo appeared around the pad filled with copper sulfate.  This corresponds to a sporing halo in response to the stress generated by the fungicide.
 
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<br> FIGURE <br/>
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    An inhibiton halo was noticeable with commercial D4E1 peptide at 100µM on <i>Aspergillus brasiliensis<i/>. Less bright halos were also present with lower concentrations. Concerning commercial GAFP-1, we did not notice any effect in the tested conditions.
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<br>    As positive control, a well-known chemical fungicide was used: the Copper Sulfate. The inhibition of the fungal growth was complete at 20mg/ml, and at 10mg/ml a darker halo appeared around the pad filled with Copper Sulfate as we can see on the figure below.  This corresponds to a sporing halo in response to the stress generated by the fungicide.
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<br> FIGURE <br/>
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Given these results, we concluded that very high fungicides concentrations are required to inhibit the fungal growth. Following these tests, new conditions were adopted in order not to encourage too much fungal growth over bacterial growth. The culture medium was adjusted to fit our objective and to approximate the conditions found in the tree : a 'sap-like' medium was elaborated. The incubations were then carried at room temperature.
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<br> <g>Test with SubtiTree <g/>
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In order to tests B. subtilis mutants, it was essential to find the right balance between the fungal growth and the bacterial one, necessary to get a high concentration of peptides. In thei genetic construction, these peptides are designed to be exported in the extracellular medium. The transformed bacillus subtilis strains were grown at 37°C during 72h and tested. After centrifugation, the supernatant and the resuspended pellet were placed on pads disposed plates previously seeded with a defined number of conidia (see protocols to have more details). After several days at room temperature, an inhibition halo of Trichoderma reesei's growth was clearly visible for the strain expressing D4E1 gene. The inhibition was even more noticeable with the strain carrying the operon GAFP-1+D4E1. However, no effect was detected for the strain expressing the GAFP-1 gene, supposing a synergistic effect between these two peptides.  
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Regarding EcAMP and the triple-fungicides operon, no effect has been detected on the fungal growth. Several factors can explain these results: A number of post-transcriptional modification are required to have a functional EcAMP and in addition to that, sequencing results of these constructs show some differences with the original designed sequence.  
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<br><br/>
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Given these results, we concluded that very high fungicide concentrations are required to inhibit the fungal growth. Following these tests, new conditions were adopted in order not to encourage too much fungal growth over bacterial growth. The culture medium was adjusted to fit our objective and to approximate the conditions found in the trees: a 'sap-like' medium was elaborated. The incubations were then carried at room temperature.
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<br>
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<g>Test with SubtiTree <g/>
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<br/>
 +
<br><br/>
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In order to test <i>Bacillus subtilis<i/> mutants, it was essential to find the right balance between the fungal growth and the bacterial one.This condition was necessary to get a high concentration of peptides. In our genetic constructions, these peptides are designed to be exported in the extracellular medium.  
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<br><br/>The transformed <i>Bacillus subtilis<i/> strains were grown at 37°C during 72h and tested. After centrifugation, the supernatant and the resuspended pellet were placed on pads disposed plates previously seeded with a defined number of conidia (see protocols to have more details). After several days at room temperature, an inhibition halo of <br><i>Trichoderma reesei<i/>'s growth was clearly observable for the strain expressing D4E1 gene. The inhibition was even more noticeable with the strain carrying the operon GAFP-1 + D4E1.  
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However, no effect was detected for the strain expressing the GAFP-1 gene, supposing a synergistic effect between these two peptides.  
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Regarding EcAMP and the triple-fungicides operon, no effect has been detected on the fungal growth. Several factors can explain these results: A number of post-transcriptional modification are required to have a functional EcAMP and in addition to that, sequencing results of these constructs showed some differences with the original designed sequence.  
   
   
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PHOTO  
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<br>PHOTO <br/>
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Inhibtion halos aren't visible with supernatants, possibly because of their low concentration in the extracellular medium.  
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Inhibition halos are not visible with supernatants, probably because of their low concentrations in the extracellular medium.  
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Another effect was noted with the same strains expriming D4E1 and GAFP-1+D4E1 on another fungus Aspergillus brasiliansis. This effect is comparable to the one previously noted with low concentration of sulfate copper.  
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Another effect was noted with the same strains expriming D4E1 and GAFP-1 + D4E1 on another fungus <i>Aspergillus brasiliansis<i/>. This effect is comparable to the one previously noted with low concentration of sulfate copper.  
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The choice of our chassis appears to be optimal as we noted that wild type bacillus subtilis disturb the hyphae growth of the fungi. Some strains of bacillus subtilis (qst 713) are already used as biofongicides for use on several minor crops to treat a variety of plant diseases and fungal pathogens.  
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The choice of our chassis appears to be optimal as we noted that wild type <i>Bacillus subtilis<i/> disturbs the hyphae growth of the fungi. Some strains of <i>Bacillus subtilis<i/> (qst 713) are already used as Biofungicides for use on several minor crops to treat a variety of plant diseases and fungal pathogens.  
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After this set of experiments, the strain expressing the operon GAFP-1+D4E1 is the best candidate to play a major role in the fight against fungal diseases such as Canker stain. Our team decided to follow the experiments on a model plant.  
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After this set of experiments, the strain expressing the operon GAFP-1 + D4E1 is the best candidate to play a major role in the fight against fungal diseases such as Canker stain. Our team decided to follow the experiments on a model plant.  
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Thanks to the diversity of anti-fungal peptides, this strategy can be adapted to different types of diseases, with different degree of specifity, ...
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Thanks to the diversity of anti-fungal peptides, this strategy can be adapted to different types of diseases, with different degree of specifity...

Revision as of 09:36, 7 October 2014