Team:Toulouse/Project/Fungicides

From 2014.igem.org

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         <p class="textesimple">The main objective of SubtiTree is to ensure the <b> destruction of the pathogenic fungi </b> inside the tree. In order to achieve this goal, we built a genetic module to produce three different peptides with antifungal activities. </p> <br>
         <p class="textesimple">The main objective of SubtiTree is to ensure the <b> destruction of the pathogenic fungi </b> inside the tree. In order to achieve this goal, we built a genetic module to produce three different peptides with antifungal activities. </p> <br>
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  <p class="textesimple">Originated from plants, these peptides have different targets to maximize the lethality on <i>C. platani</i>.  
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  <p class="textesimple">Originated from plants, these peptides have different targets to maximize the lethality on <i>C. platani</i>. </p>
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- <b>D4E1</b> is a synthetic peptide analog to Cecropin B AMPs (antimicrobial peptides) made of 17 amino acids which has been shown to have an antifungal activity by complexing with a sterol present in the conidia’s wall of numerous fungi. </p>
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<p  class="textesimple">
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<li class="tree"><p class="texte"><b>D4E1</b> is a synthetic peptide analog to Cecropin B AMPs (antimicrobial peptides) made of 17 amino acids which has been shown to have an antifungal activity by complexing with a sterol present in the conidia’s wall of numerous fungi. </p></li>
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- <b>GAFP-1 </b>(<i>Gastrodia</i> Anti Fungal Protein 1), also known as gastrodianin, is a mannose and chitin binding lectin originating from the Asiatic orchid Gastrodia elata, a traditional Chinese medicinal herb cultured for thousands of years. GAFP1 accumulates in nutritive corms where the fungal infection takes place, and <i>in vitro</i> assays demonstrated it can inhibit the growth of ascomycete and basidiomycete fungal plant pathogens.</p>
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<p class="textesimple">
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<li class="tree"><p class="texte"><b>GAFP-1 </b>(<i>Gastrodia</i> Anti Fungal Protein 1), also known as gastrodianin, is a mannose and chitin binding lectin originating from the Asiatic orchid Gastrodia elata, a traditional Chinese medicinal herb cultured for thousands of years. GAFP1 accumulates in nutritive corms where the fungal infection takes place, and <i>in vitro</i> assays demonstrated it can inhibit the growth of ascomycete and basidiomycete fungal plant pathogens.</p></li>
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- <b>EcAMP-1 </b>(<i>Echinochloa crus-galli </i> Anti Microbial Peptide) consists in 37 amino acids inhibiting hyphae elongation. EcAMP1 is the first example of AMP with a novel disulfide-stabilized-α helical hairpin fold. It is isolated from kernels of barnyard grass. EcAMP1 exhibits high activity against fungi of the genus Fusarium.</p>
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<li class="tree"><p class="texte"><b>EcAMP-1 </b>(<i>Echinochloa crus-galli </i> Anti Microbial Peptide) consists in 37 amino acids inhibiting hyphae elongation. EcAMP1 is the first example of AMP with a novel disulfide-stabilized-α helical hairpin fold. It is isolated from kernels of barnyard grass. EcAMP1 exhibits high activity against fungi of the genus Fusarium.</p></li>
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<p  class="title1">References</p>
<p  class="title1">References</p>
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<p class="texte">
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<ul>
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- A.J De Lucca, J.M Bland, C. Grimm, T.J Jacks.<b> Fungicidal properties, sterol binding, and proteolytic resistance of the synthetic peptide D4E1 </b>. Canadian Journal of Microbiology. 1998, Vol. 44:514-520. <br>
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<li class="tree"><p class="texte">A.J De Lucca, J.M Bland, C. Grimm, T.J Jacks.<b> Fungicidal properties, sterol binding, and proteolytic resistance of the synthetic peptide D4E1 </b>. Canadian Journal of Microbiology. 1998, Vol. 44:514-520. </p></li>
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- Kanniah Rajasekaran, Kurt D. Stromberg, Jeffrey W. Cary, and Thomas E. Cleveland.<b> Broad-Spectrum Antimicrobial Activity in vitro of the Synthetic Peptide D4E1</b>. J. Agric. Food Chem. 2001, Vol. 49, 2799-2803.<br>
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<li class="tree"><p class="texte">Kanniah Rajasekaran, Kurt D. Stromberg, Jeffrey W. Cary, and Thomas E. Cleveland.<b> Broad-Spectrum Antimicrobial Activity in vitro of the Synthetic Peptide D4E1</b>. J. Agric. Food Chem. 2001, Vol. 49, 2799-2803.</p></li>
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-M. Visser, D. Stephan, J.M. Jaynes and J.T. Burger.<b> A transient expression assay for the in planta efficacy screening of an antimicrobial peptide against grapevine bacterial pathogens</b>. Letters in Applied Microbiology. 2012, Vol. 54, 543–551.<br>
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<li class="tree"><p class="texte">M. Visser, D. Stephan, J.M. Jaynes and J.T. Burger.<b> A transient expression assay for the in planta efficacy screening of an antimicrobial peptide against grapevine bacterial pathogens</b>. Letters in Applied Microbiology. 2012, Vol. 54, 543–551.</p></li>
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-K. D. Cox, D. R. Layne, R. Scorza, G Schnabel. <b>Gastrodia anti-fungal protein from the orchid Gastrodia elata confers disease resistance to root pathogens in transgenic tobacco</b>. Planta. 2006, Vol. 224:1373–1383<br>
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<li class="tree"><p class="texte">K. D. Cox, D. R. Layne, R. Scorza, G Schnabel. <b>Gastrodia anti-fungal protein from the orchid Gastrodia elata confers disease resistance to root pathogens in transgenic tobacco</b>. Planta. 2006, Vol. 224:1373–1383</p></li>
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-Xiaochen Wang, Guy Bauw, Els J.M. Van Damme, Willy J. Peumans, Zhang-Liang Chen, Marc Van Montagu and Willy Dillen. <b>Gastrodianin-like mannose-binding proteins: a novel class of plant proteins with antifungal properties</b>. The Plant Journal. 2001, Vol. 25(6), 651±661<br>
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<li class="tree"><p class="texte">Xiaochen Wang, Guy Bauw, Els J.M. Van Damme, Willy J. Peumans, Zhang-Liang Chen, Marc Van Montagu and Willy Dillen. <b>Gastrodianin-like mannose-binding proteins: a novel class of plant proteins with antifungal properties</b>. The Plant Journal. 2001, Vol. 25(6), 651±661</p></li>
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-Svetlana B. Nolde, Alexander A. Vassilevski, Eugene A. Rogozhin, Nikolay A. Barinov, Tamara A. Balashova, Olga V. Samsonova, Yuri V. Baranov, Alexey S. Arseniev and Eugene V. Grishin. <b>Disulfide-stabilized Helical Hairpin Structure and Activity of a Novel Antifungal Peptide EcAMP1 from Seeds of Barnyard Grass (Echinochloa crus-galli)</b>. The journal of Biological Chemistry. 2011, Vol. 286, 25145–25153<br>
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<li class="tree"><p class="texte">Svetlana B. Nolde, Alexander A. Vassilevski, Eugene A. Rogozhin, Nikolay A. Barinov, Tamara A. Balashova, Olga V. Samsonova, Yuri V. Baranov, Alexey S. Arseniev and Eugene V. Grishin. <b>Disulfide-stabilized Helical Hairpin Structure and Activity of a Novel Antifungal Peptide EcAMP1 from Seeds of Barnyard Grass (Echinochloa crus-galli)</b>. The journal of Biological Chemistry. 2011, Vol. 286, 25145–25153</p></li>
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Revision as of 11:34, 15 October 2014