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Epidemiology, coexistence, diversity and evolution through recombination of emergent begomoviruses

Lefeuvre Pierre, Péréfarres Frédéric, Thébaud Gaël, Martin Darren Patrick, Lett Jean-Michel. 2014. Epidemiology, coexistence, diversity and evolution through recombination of emergent begomoviruses. In : International Workshop of Management of Emerging Whitefly-transmitted Virus Diseases, Malaga, Spain, 19-23 October 2014. s.l. : s.n., Résumé, 1 p. International Workshop of Management of Emerging Whitefly-transmitted Virus Diseases, Malaga, Espagne, 19 Octobre 2014/23 Octobre 2014.

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Résumé : Among the plant viruses transmitted by insect vectors, the genus Begomovirus is responsible for many emerging diseases of major economic importance on various crops. Tomato yellow leaf curl disease (TYLCD) is one of the most devastating viral diseases affecting tomato crops in warm and temperate regions of the world and is associated to a complex of begomoviruses (TYLCV-like viruses). After the first epidemic of TYLCD in Reunion in 1997, we have described the successive invasion of two strains of TYLCV (TYLCV-Mld and TYLCV-IL). During a 7-year field survey, we observed a partial displacement of the resident TYLCV-Mld by the newcomer TYLCV-IL (Perefarres et al, 2014). The better ecological aptitude of TYLCV-IL in single infections was demonstrated experimentaly, which explains its rapid spread. However, we demonstrate that the relative fitness of virus strains can drastically change between single infections and co-infections. An epidemiological model parameterized with our experimental data predicts that the two strains will coexist in the long run through unilateral assistance by the fitter strain. Using a phylogeographic analysis based on Bayesian inference, we have reconstructed a plausible history of TYLCV diversification and movements throughout the world, and demonstrated that the Mediterranean basin represent the main launch-pad of global TYLCV movements (Lefeuvre et al, 2010). In the South-west Indian Ocean (SWIG) Islands, the study of the genetic diversity of begomoviruses has revealed the existence of an extraordinary diversity of indigenous viruses (Lefeuvre et al, 2007a). Phylogenetic analyses of these sequences revealed a polyphyletic origin and a close relationship with the Mediterranean and African cluster of monopartite and bipartite begomoviruses. Moreover, we present evidence that detectable recombination events amongst African, Mediterranean and SWIG begomoviruses, while significantly contributing to their diversity, have not occurred randomly throughout their genomes. Based on detailed analysis of unique recombination events, we have demonstrated the existence and conservation of recombination hot- and cold-spots in the begomovirus genomes, and the obviously non-random patterns of sequence exchange (Lefeuvre et al, 2007b). To go one step further in the analysis of factors influencing recombination patterns we performed experiments of co-infection of tomato plants to study the viral progeny of a worldwide emerging virus (TYLCV) and an SWIG indigenous begomovirus (Martin et al, 2011). Patterns of sequence exchange between these viruses appeared to be extraordinarily complex and variable. The analysis of the distribution of breakpoints confirms the existence of recombination hot- and cold-spots, already observed in natura, and proved the existence of deterministic phenomena involved in the evolution of viral populations. (Texte intégral)

Classification Agris : H20 - Maladies des plantes

Auteurs et affiliations

  • Lefeuvre Pierre, CIRAD-BIOS-UMR PVBMT (REU)
  • Péréfarres Frédéric
  • Thébaud Gaël, INRA (FRA)
  • Martin Darren Patrick, Institute of Infectious Diseases and Molecular Medicine (ZAF)
  • Lett Jean-Michel, CIRAD-BIOS-UMR PVBMT (REU)

Source : Cirad - Agritrop (https://agritrop.cirad.fr/575001/)

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