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Molecular Epidemiology of <i>Ralstonia pseudosolanacearum</i> Phylotype I Strains in the Southwest Indian Ocean Region and Their Relatedness to African Strains

Gilles Cellier, Thibault Nordey, Laura Cortada, Mirana Gauche, Hasina Rasoamanana, Noura Yahiaoui, Emeline Rébert, Philippe Prior, J. J. Chéron, Stéphane Poussier, Olivier Pruvost

2022Phytopathology17 citationsDOI

Abstract

The increasing requirement for developing tools enabling fine strain traceability responsible for epidemics is tightly linked with the need to understand factors shaping pathogen populations and their environmental interactions. Bacterial wilt caused by the Ralstonia solanacearum species complex (RSSC) is one of the most important plant diseases in tropical and subtropical regions. Sadly, little, outdated, or no information on its epidemiology is reported in the literature, although alarming outbreaks are regularly reported as disasters. A large set of phylotype I isolates ( n = 2,608) was retrieved from diseased plants in fields across the Southwest Indian Ocean (SWIO) and Africa. This collection enabled further assessment of the epidemiological discriminating power of the previously published RS1-MLVA14 scheme. Thirteen markers were validated and characterized as not equally informative. Most had little infra-sequevar polymorphism, and their performance depended on the sequevar. Strong correlation was found with a previous multilocus sequence typing scheme. However, 2 to 3% of sequevars were not correctly assigned through endoglucanase gene sequence. Discriminant analysis of principal components (DAPC) revealed four groups with strong phylogenetic relatedness to sequevars 31, 33, and 18. Phylotype I-31 isolates were highly prevalent in the SWIO and Africa, but their dissemination pathways remain unclear. Tanzania and Mauritius showed the greatest diversity of RSSC strains, as the four DAPC groups were retrieved. Mauritius was the sole territory harboring a vast phylogenetic diversity and all DAPC groups. More research is still needed to understand the high prevalence of phylotype I-31 at such a large geographic scale.

Topics & Concepts

PhylotypeBiologyRalstonia solanacearumMolecular epidemiologyEpidemiologyIndian ocean16S ribosomal RNAMicrobiologyGeneticsEcologyZoologyGeneBacteriaGenotypeOceanographyPathologyGeologyMedicinePlant Pathogenic Bacteria StudiesInfections and bacterial resistanceLegume Nitrogen Fixing Symbiosis
Molecular Epidemiology of <i>Ralstonia pseudosolanacearum</i> Phylotype I Strains in the Southwest Indian Ocean Region and Their Relatedness to African Strains | Litcius