GENESALB (2007-2010): GENEtic analysis of resistance to South American Leaf Blight (SALB) in rubber tree (Hevea spp.)

Seguin Marc, Granet Françoise, Cavaloc Eric, Scomparin Cassio, Mattos Carlos Raimunto Reis, Fonseca Fernando, Cubry Philippe, Espeout Sandra, Rivallan Ronan, Berger Angélique, Déon Marine, Argout Xavier, Le Guen Vincent, Goujon Eric, Pujade-Renaud Valérie, Doare Fabien, Garcia Dominique. 2012. GENESALB (2007-2010): GENEtic analysis of resistance to South American Leaf Blight (SALB) in rubber tree (Hevea spp.). In : Plant Genomics Seminar, Pont Royal en Provence, France, 3-5 April 2012. GISbV, ANR. s.l. : s.n., Résumé, 2 p. Plant Genomics Seminar, Pont Royal en Provence, France, 3 Avril 2012/5 Avril 2012.

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Résumé : Aims Hevea brasiliensis cultivation is nearly the only source of production of natural rubber (latex), an irreplaceable strategic biopolymer for various industrial sectors. Worldwide production is threatened by the South American Leaf Blight (SALB) due to the fungus Microcyclus ulei (Ascomycota). CIRAD and Michelin collaborate, since 1992, on a program (CMB, Cirad-Michelin-Brésil) aiming at the creation of new varieties (grafted clones), combining high latex yield and tolerance to SALB. The ultimate objective is both to allow rubber farming development in the American inter-tropical zone endemically affected by the disease, and to prevent the risk of accidental introduction of the pathogen in the current Asian and African producing regions. The aim of the GENESALB project was to reinforce genetic mapping and candidate genes identification in order to speed up the characterization of genetics factors governing natural resistance to SALB and, ultimately, to set up a marker-aided selection program. Our strategy was based on the analysis of 6 mapping populations issued from 4 diversified tolerant progenitors, evaluated for SALB resistance in 2 locations (Brazil and/or French Guiana) in order to assess genetic diversity of resistance factors (major genes/loci and QTLs). Results Our results show that SALB resistance is mainly governed by major resistance genes/loci and each of the cultivar analyzed by genetic mapping led to the identification of a specific major resistance gene. These original results constitute a favorable context for a marker-aided selection of cultivars combining high yield and high level of SALB tolerance. In addition, it illustrates the richness of wild Amazonian genetic resources and their usefulness for disease resistance improvement in rubber tree. The project produced molecular resources for expression studies and breeding: cloning and sequencing of 6958 expressed genes associated with the disease, characterization of 489 candidate genes and set up of 125 additional genetic markers. The project strengthens the leadership of Cirad and Michelin on this topic, and helped generating new partnership in Brazil. Perspectives Genetic mapping allowed identification of resistance factors, but also of SALB resistant individuals with a potentially improved latex yield. Indeed, all the mapping populations we analyzed correspond to crosses between a high yielding, susceptible progenitor by a low yielding but tolerant one. Available genotyping data allow marker aided selection of the individuals, with the resistance alleles at the resistance loci. that have to be, next years, more precisely evaluated in larger scale trials for other traits of interest such as latex yield and growth vigor. Other segregating populations issued from different tolerant progenitors are available in Brazil and QTL mapping of this material might reveal additional SALB resistance loci. One of these populations shows a complete inheritance of SALB tolerance, with most of the progenies showing a high level of resistance. We plan to apply genetic mapping of this population, which allows performing QTL detection of yield or growth without phytosanitary treatments of the trees against Microcyclus. Development of genetic markers in EST-SSH will be continued. Around 350 ESTs from the SSH libraries, and containing a SSR motif, remain to be tested for EST-SSR polymorphism and mapping. Development of SNP markers will be necessary in order to map a greater number of the candidate genes we identified.

Classification Agris : F30 - Génétique et amélioration des plantes
H20 - Maladies des plantes

Auteurs et affiliations

• Seguin Marc, CIRAD-BIOS-UMR AGAP (FRA)
• Granet Françoise, Michelin (FRA)
• Cavaloc Eric, Michelin (FRA)
• Scomparin Cassio, Michelin (FRA)
• Mattos Carlos Raimunto Reis, Michelin Brésil (BRA)
• Fonseca Fernando, Michelin Brésil (BRA)
• Cubry Philippe
• Espeout Sandra, CIRAD-BIOS-UMR AGAP (FRA)
• Rivallan Ronan, CIRAD-BIOS-UMR AGAP (FRA)
• Berger Angélique, CIRAD-BIOS-UMR AGAP (FRA)
• Déon Marine, Université Blaise Pascal (FRA)
• Argout Xavier, CIRAD-BIOS-UMR AGAP (FRA) ORCID: 0000-0002-0100-5511
• Le Guen Vincent, CIRAD-BIOS-UMR AGAP (FRA)
• Goujon Eric
• Pujade-Renaud Valérie, CIRAD-BIOS-UMR AGAP (FRA)
• Doare Fabien, CIRAD-BIOS-UPR Bioagresseurs (GUF)
• Garcia Dominique, CIRAD-BIOS-UMR AGAP (FRA)

Source : Cirad - Agritrop (https://agritrop.cirad.fr/568105/)

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