Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115]
Theobroma cacao is currently under serious threat due to various diseases, of which Phytophthora pod rot, commonly called 'black pod' is one of the most economically important. Four fungal species of the same genus are primarily responsible for this disease: P. palmivora, P. megakarya, P. capsici and P. citrophthora. Among these, P. palmivora is the most common, being present in most cacao producing countries. P. palmivora can cause yield losses of 20-30% and tree mortality of 10% annually. P. megakarya occurs only in West African countries, but is the most virulent among the four species. In Africa it causes 30-90% annual crop losses and thus it poses a severe threat to the cacao industry and to producers in Africa. Both in vitro pod husk inoculation assays and in planta pod inoculation assays verified that P. megakarya was more aggressive. Studies suggest effective early penetration by P. megakarya makes it a more destructive pathogen. Since the Phytophthora species that cause disease on cacao differ so much in their virulence, we developed specific primers for QPCR identification of each species. At the same time we characterized the genetic diversity of P. palmivora and P. megakarya in Ghana, a major producer. Through further genetic analysis, we estimate the genome size of P. megakarya to be 116.9 Mb and the P. palmivora genome size to be 100 Mb. P. palmivora appears to be tetraploid whereas P. megakarya, despite its larger genome, is not. Comparative genome analysis between these two species shows that both species carry large numbers of plant-pathogen interaction proteins including the RxLR effectors. An in-depth comparative analysis of genomics and transcriptomics between these two closely related species is being carried out to highlight the molecular mechanism behind their virulence and support the development of effective control measures. This is critical since Phytophthora spp. in general and P. megakarya specifically, represent a significant threat to cacao production and the chocolate industry worldwide. (Texte intégral)
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dig-cirad-fr-5753152021-02-09T07:41:49Z http://agritrop.cirad.fr/575315/ http://agritrop.cirad.fr/575315/ Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115]. Ali Shahin, Amoako-Attah Ishmael, Shao Jonathan, Bailey Rebecca, Strem Mary, Phillips Wilbert, Surujdeo-Maharaj Surendra, Marelli Jean-Philippe, Ten Hoopen Gerben Martijn, Goss Erica, Villela Dias Cristianao, Shen Danyu, Tyler Brett, Meinhardt Lyndel W., Bailey Bryan. 2015. In : Plant and Animal Genomes Conference XXIII Conference, San diego, United States, San Diego, United States, January 10-14, 2015. s.l. : s.n., Résumé Plant and Animal Genome Conference. 23, San Diego, États-Unis, 10 Janvier 2015/14 Janvier 2015.https://pag.confex.com/pag/xxiii/webprogram/Paper14557.html <https://pag.confex.com/pag/xxiii/webprogram/Paper14557.html> Researchers Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] Ali, Shahin Amoako-Attah, Ishmael Shao, Jonathan Bailey, Rebecca Strem, Mary Phillips, Wilbert Surujdeo-Maharaj, Surendra Marelli, Jean-Philippe Ten Hoopen, Gerben Martijn Goss, Erica Villela Dias, Cristianao Shen, Danyu Tyler, Brett Meinhardt, Lyndel W. Bailey, Bryan eng 2015 s.n. Plant and Animal Genomes Conference XXIII Conference, San diego, United States, San Diego, United States, January 10-14, 2015 H20 - Maladies des plantes Theobroma cacao is currently under serious threat due to various diseases, of which Phytophthora pod rot, commonly called 'black pod' is one of the most economically important. Four fungal species of the same genus are primarily responsible for this disease: P. palmivora, P. megakarya, P. capsici and P. citrophthora. Among these, P. palmivora is the most common, being present in most cacao producing countries. P. palmivora can cause yield losses of 20-30% and tree mortality of 10% annually. P. megakarya occurs only in West African countries, but is the most virulent among the four species. In Africa it causes 30-90% annual crop losses and thus it poses a severe threat to the cacao industry and to producers in Africa. Both in vitro pod husk inoculation assays and in planta pod inoculation assays verified that P. megakarya was more aggressive. Studies suggest effective early penetration by P. megakarya makes it a more destructive pathogen. Since the Phytophthora species that cause disease on cacao differ so much in their virulence, we developed specific primers for QPCR identification of each species. At the same time we characterized the genetic diversity of P. palmivora and P. megakarya in Ghana, a major producer. Through further genetic analysis, we estimate the genome size of P. megakarya to be 116.9 Mb and the P. palmivora genome size to be 100 Mb. P. palmivora appears to be tetraploid whereas P. megakarya, despite its larger genome, is not. Comparative genome analysis between these two species shows that both species carry large numbers of plant-pathogen interaction proteins including the RxLR effectors. An in-depth comparative analysis of genomics and transcriptomics between these two closely related species is being carried out to highlight the molecular mechanism behind their virulence and support the development of effective control measures. This is critical since Phytophthora spp. in general and P. megakarya specifically, represent a significant threat to cacao production and the chocolate industry worldwide. (Texte intégral) conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/575315/1/document_575315.pdf application/pdf Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html https://pag.confex.com/pag/xxiii/webprogram/Paper14557.html info:eu-repo/semantics/altIdentifier/purl/https://pag.confex.com/pag/xxiii/webprogram/Paper14557.html |
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H20 - Maladies des plantes H20 - Maladies des plantes Ali, Shahin Amoako-Attah, Ishmael Shao, Jonathan Bailey, Rebecca Strem, Mary Phillips, Wilbert Surujdeo-Maharaj, Surendra Marelli, Jean-Philippe Ten Hoopen, Gerben Martijn Goss, Erica Villela Dias, Cristianao Shen, Danyu Tyler, Brett Meinhardt, Lyndel W. Bailey, Bryan Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
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Theobroma cacao is currently under serious threat due to various diseases, of which Phytophthora pod rot, commonly called 'black pod' is one of the most economically important. Four fungal species of the same genus are primarily responsible for this disease: P. palmivora, P. megakarya, P. capsici and P. citrophthora. Among these, P. palmivora is the most common, being present in most cacao producing countries. P. palmivora can cause yield losses of 20-30% and tree mortality of 10% annually. P. megakarya occurs only in West African countries, but is the most virulent among the four species. In Africa it causes 30-90% annual crop losses and thus it poses a severe threat to the cacao industry and to producers in Africa. Both in vitro pod husk inoculation assays and in planta pod inoculation assays verified that P. megakarya was more aggressive. Studies suggest effective early penetration by P. megakarya makes it a more destructive pathogen. Since the Phytophthora species that cause disease on cacao differ so much in their virulence, we developed specific primers for QPCR identification of each species. At the same time we characterized the genetic diversity of P. palmivora and P. megakarya in Ghana, a major producer. Through further genetic analysis, we estimate the genome size of P. megakarya to be 116.9 Mb and the P. palmivora genome size to be 100 Mb. P. palmivora appears to be tetraploid whereas P. megakarya, despite its larger genome, is not. Comparative genome analysis between these two species shows that both species carry large numbers of plant-pathogen interaction proteins including the RxLR effectors. An in-depth comparative analysis of genomics and transcriptomics between these two closely related species is being carried out to highlight the molecular mechanism behind their virulence and support the development of effective control measures. This is critical since Phytophthora spp. in general and P. megakarya specifically, represent a significant threat to cacao production and the chocolate industry worldwide. (Texte intégral) |
format |
conference_item |
topic_facet |
H20 - Maladies des plantes |
author |
Ali, Shahin Amoako-Attah, Ishmael Shao, Jonathan Bailey, Rebecca Strem, Mary Phillips, Wilbert Surujdeo-Maharaj, Surendra Marelli, Jean-Philippe Ten Hoopen, Gerben Martijn Goss, Erica Villela Dias, Cristianao Shen, Danyu Tyler, Brett Meinhardt, Lyndel W. Bailey, Bryan |
author_facet |
Ali, Shahin Amoako-Attah, Ishmael Shao, Jonathan Bailey, Rebecca Strem, Mary Phillips, Wilbert Surujdeo-Maharaj, Surendra Marelli, Jean-Philippe Ten Hoopen, Gerben Martijn Goss, Erica Villela Dias, Cristianao Shen, Danyu Tyler, Brett Meinhardt, Lyndel W. Bailey, Bryan |
author_sort |
Ali, Shahin |
title |
Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
title_short |
Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
title_full |
Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
title_fullStr |
Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
title_full_unstemmed |
Biology and genomics of Phytophthora spp.: fight against a potential global chocolate famine [W115] |
title_sort |
biology and genomics of phytophthora spp.: fight against a potential global chocolate famine [w115] |
publisher |
s.n. |
url |
http://agritrop.cirad.fr/575315/ http://agritrop.cirad.fr/575315/1/document_575315.pdf |
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