Genetic Diversity of the Ralstonia solanacearum Species Complex in the Southwest Indian Ocean Islands
Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the species complex (RSSC) is hampering the production of many sustainable and cash crops. To...
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| Published in: | Frontiers in plant science Vol. 8; p. 2139 |
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| Abstract | Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the
species complex (RSSC) is hampering the production of many sustainable and cash crops. To thoroughly analyze the genetic diversity of the RSSC in the SWIO, we performed a wide sampling survey (in Comoros, Mauritius, Reunion, Rodrigues, and Seychelles) that yielded 1,704 isolates from 129 plots, mainly from solanaceous crops. Classification of the isolates to the four major RSSC phylogenetic groups, named phylotypes, showed that 87% were phylotype I, representing the most prevalent strain in each of the SWIO islands. Additionally, 9.7% were phylotype II, and 3.3% were phylotype III; however, these isolates were found only in Reunion. Phylotype IV (2 isolates), known to be restricted to Indonesia-Australia-Japan, was reported in Mauritius, representing the first report of this group in the SWIO. Partial endoglucanase (
) sequencing, based on the selection of 145 isolates covering the geographic and host diversity in the SWIO (also including strains from Mayotte and Madagascar), revealed 14 sequevars with Reunion and Mauritius displaying the highest sequevar diversity. Through a multilocus sequence analysis (MLSA) scheme based on the partial sequencing of 6 housekeeping genes (
, and
) and 1 virulence-associated gene (
), we inferred the phylogenetic relationships between these 145 SWIO isolates and 90 worldwide RSSC reference strains. Phylotype I was the most recombinogenic, although recombination events were detected among all phylotypes. A multilocus sequence typing (MLST) scheme identified 29 sequence types (STs) with variable geographic distributions in the SWIO. The outstanding epidemiologic feature was STI-13 (sequevar I-31), which was overrepresented in the SWIO and obviously reflected a lineage strongly adapted to the SWIO environment. A goeBURST analysis identified eight clonal complexes (CCs) including SWIO isolates, four CCs being geographically restricted to the SWIO, and four CCs being widespread beyond the SWIO. This work, which highlights notable genetic links between African and SWIO strains, provides a basis for the epidemiological surveillance of RSSC and will contribute to BW management in the SWIO. |
|---|---|
| AbstractList | Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the Ralstonia solanacearum species complex (RSSC) is hampering the production of many sustainable and cash crops. To thoroughly analyze the genetic diversity of the RSSC in the SWIO, we performed a wide sampling survey (in Comoros, Mauritius, Reunion, Rodrigues, and Seychelles) that yielded 1,704 isolates from 129 plots, mainly from solanaceous crops. Classification of the isolates to the four major RSSC phylogenetic groups, named phylotypes, showed that 87% were phylotype I, representing the most prevalent strain in each of the SWIO islands. Additionally, 9.7% were phylotype II, and 3.3% were phylotype III; however, these isolates were found only in Reunion. Phylotype IV (2 isolates), known to be restricted to Indonesia-Australia-Japan, was reported in Mauritius, representing the first report of this group in the SWIO. Partial endoglucanase (egl) sequencing, based on the selection of 145 isolates covering the geographic and host diversity in the SWIO (also including strains from Mayotte and Madagascar), revealed 14 sequevars with Reunion and Mauritius displaying the highest sequevar diversity. Through a multilocus sequence analysis (MLSA) scheme based on the partial sequencing of 6 housekeeping genes (gdhA, gyrB, rplB, leuS, adk, and mutS) and 1 virulence-associated gene (egl), we inferred the phylogenetic relationships between these 145 SWIO isolates and 90 worldwide RSSC reference strains. Phylotype I was the most recombinogenic, although recombination events were detected among all phylotypes. A multilocus sequence typing (MLST) scheme identified 29 sequence types (STs) with variable geographic distributions in the SWIO. The outstanding epidemiologic feature was STI-13 (sequevar I-31), which was overrepresented in the SWIO and obviously reflected a lineage strongly adapted to the SWIO environment. A goeBURST analysis identified eight clonal complexes (CCs) including SWIO isolates, four CCs being geographically restricted to the SWIO, and four CCs being widespread beyond the SWIO. This work, which highlights notable genetic links between African and SWIO strains, provides a basis for the epidemiological surveillance of RSSC and will contribute to BW management in the SWIO. Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the Ralstonia solanacearum species complex (RSSC) is hampering the production of many sustainable and cash crops. To thoroughly analyze the genetic diversity of the RSSC in the SWIO, we performed a wide sampling survey (in Comoros, Mauritius, Reunion, Rodrigues, and Seychelles) that yielded 1,704 isolates from 129 plots, mainly from solanaceous crops. Classification of the isolates to the four major RSSC phylogenetic groups, named phylotypes, showed that 87% were phylotype I, representing the most prevalent strain in each of the SWIO islands. Additionally, 9.7% were phylotype II, and 3.3% were phylotype III; however, these isolates were found only in Reunion. Phylotype IV (2 isolates), known to be restricted to Indonesia-Australia-Japan, was reported in Mauritius, representing the first report of this group in the SWIO. Partial endoglucanase ( egl ) sequencing, based on the selection of 145 isolates covering the geographic and host diversity in the SWIO (also including strains from Mayotte and Madagascar), revealed 14 sequevars with Reunion and Mauritius displaying the highest sequevar diversity. Through a multilocus sequence analysis (MLSA) scheme based on the partial sequencing of 6 housekeeping genes ( gdhA, gyrB, rplB, leuS, adk , and mutS ) and 1 virulence-associated gene ( egl ), we inferred the phylogenetic relationships between these 145 SWIO isolates and 90 worldwide RSSC reference strains. Phylotype I was the most recombinogenic, although recombination events were detected among all phylotypes. A multilocus sequence typing (MLST) scheme identified 29 sequence types (STs) with variable geographic distributions in the SWIO. The outstanding epidemiologic feature was STI-13 (sequevar I-31), which was overrepresented in the SWIO and obviously reflected a lineage strongly adapted to the SWIO environment. A goeBURST analysis identified eight clonal complexes (CCs) including SWIO isolates, four CCs being geographically restricted to the SWIO, and four CCs being widespread beyond the SWIO. This work, which highlights notable genetic links between African and SWIO strains, provides a basis for the epidemiological surveillance of RSSC and will contribute to BW management in the SWIO. Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the species complex (RSSC) is hampering the production of many sustainable and cash crops. To thoroughly analyze the genetic diversity of the RSSC in the SWIO, we performed a wide sampling survey (in Comoros, Mauritius, Reunion, Rodrigues, and Seychelles) that yielded 1,704 isolates from 129 plots, mainly from solanaceous crops. Classification of the isolates to the four major RSSC phylogenetic groups, named phylotypes, showed that 87% were phylotype I, representing the most prevalent strain in each of the SWIO islands. Additionally, 9.7% were phylotype II, and 3.3% were phylotype III; however, these isolates were found only in Reunion. Phylotype IV (2 isolates), known to be restricted to Indonesia-Australia-Japan, was reported in Mauritius, representing the first report of this group in the SWIO. Partial endoglucanase ( ) sequencing, based on the selection of 145 isolates covering the geographic and host diversity in the SWIO (also including strains from Mayotte and Madagascar), revealed 14 sequevars with Reunion and Mauritius displaying the highest sequevar diversity. Through a multilocus sequence analysis (MLSA) scheme based on the partial sequencing of 6 housekeeping genes ( , and ) and 1 virulence-associated gene ( ), we inferred the phylogenetic relationships between these 145 SWIO isolates and 90 worldwide RSSC reference strains. Phylotype I was the most recombinogenic, although recombination events were detected among all phylotypes. A multilocus sequence typing (MLST) scheme identified 29 sequence types (STs) with variable geographic distributions in the SWIO. The outstanding epidemiologic feature was STI-13 (sequevar I-31), which was overrepresented in the SWIO and obviously reflected a lineage strongly adapted to the SWIO environment. A goeBURST analysis identified eight clonal complexes (CCs) including SWIO isolates, four CCs being geographically restricted to the SWIO, and four CCs being widespread beyond the SWIO. This work, which highlights notable genetic links between African and SWIO strains, provides a basis for the epidemiological surveillance of RSSC and will contribute to BW management in the SWIO. Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian Ocean (SWIO) islands, bacterial wilt (BW) caused by the Ralstonia solanacearum species complex (RSSC) is hampering the production of many sustainable and cash crops. To thoroughly analyze the genetic diversity of the RSSC in the SWIO, we performed a wide sampling survey (in Comoros, Mauritius, Reunion, Rodrigues, and Seychelles) that yielded 1,704 isolates from 129 plots, mainly from solanaceous crops. Classification of the isolates to the four major RSSC phylogenetic groups, named phylotypes, showed that 87% were phylotype I, representing the most prevalent strain in each of the SWIO islands. Additionally, 9.7% were phylotype II, and 3.3% were phylotype III; however, these isolates were found only in Reunion. Phylotype IV (2 isolates), known to be restricted to Indonesia-Australia-Japan, was reported in Mauritius, representing the first report of this group in the SWIO. Partial endoglucanase (egl) sequencing, based on the selection of 145 isolates covering the geographic and host diversity in the SWIO (also including strains from Mayotte and Madagascar), revealed 14 sequevars with Reunion and Mauritius displaying the highest sequevar diversity. Through a multilocus sequence analysis (MLSA) scheme based on the partial sequencing of 6 housekeeping genes (gdhA, gyrB, rplB, leuS, adk, and mutS) and 1 virulence-associated gene (egl), we inferred the phylogenetic relationships between these 145 SWIO isolates and 90 worldwide RSSC reference strains. Phylotype I was the most recombinogenic, although recombination events were detected among all phylotypes. A multilocus sequence typing (MLST) scheme identified 29 sequence types (STs) with variable geographic distributions in the SWIO. The outstanding epidemiologic feature was STI-13 (sequevar I-31), which was overrepresented in the SWIO and obviously reflected a lineage strongly adapted to the SWIO environment. A goeBURST analysis identified eight clonal complexes (CCs) |
| Author | Prior, Philippe Hamza, Azali A Félicité, Jérôme Fillâtre, Jacques Poussier, Stéphane Yahiaoui, Noura Petrousse, Bobb Jaufeerally-Fakim, Yasmina Ravelomanantsoa, Santatra Cellier, Gilles Jeetah, Rajan Guérin, Fabien Hostachy, Bruno Chéron, Jean-Jacques |
| AuthorAffiliation | 3 Université de la Réunion, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France 9 Commission of Agriculture , Port-Mathurin , Mauritius 4 Centre National de la Recherche Appliquée au Développement Rural , Tananarive , Madagascar 2 Anses, National Plant Health Laboratory, Tropical Pests and Diseases Unit , Saint-Pierre , France 10 Association Réunionnaise pour la Modernisation de l'Economie Fruitière, Légumière et HORticole , Saint-Pierre , France 8 Department of Agriculture and Food Science, University of Mauritius , Réduit , Mauritius 7 Food and Agricultural Research and Extension Institute , Curepipe , Mauritius 1 CIRAD, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France 5 Institut National de Recherche pour l'Agriculture, la Pêche et l'Environnement , Moroni , Comoros 11 Institut National de la Recherche Agronomique, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France 6 Seychelles Agricultural |
| AuthorAffiliation_xml | – name: 2 Anses, National Plant Health Laboratory, Tropical Pests and Diseases Unit , Saint-Pierre , France – name: 11 Institut National de la Recherche Agronomique, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France – name: 4 Centre National de la Recherche Appliquée au Développement Rural , Tananarive , Madagascar – name: 6 Seychelles Agricultural Agency , Victoria , Seychelles – name: 8 Department of Agriculture and Food Science, University of Mauritius , Réduit , Mauritius – name: 9 Commission of Agriculture , Port-Mathurin , Mauritius – name: 5 Institut National de Recherche pour l'Agriculture, la Pêche et l'Environnement , Moroni , Comoros – name: 7 Food and Agricultural Research and Extension Institute , Curepipe , Mauritius – name: 3 Université de la Réunion, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France – name: 1 CIRAD, UMR Peuplements Végétaux et Bioagresseurs en Milieu Tropical , Saint-Pierre , France – name: 10 Association Réunionnaise pour la Modernisation de l'Economie Fruitière, Légumière et HORticole , Saint-Pierre , France |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29312394$$D View this record in MEDLINE/PubMed https://hal.univ-reunion.fr/hal-02272663$$DView record in HAL |
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| Copyright | Attribution Copyright © 2017 Yahiaoui, Chéron, Ravelomanantsoa, Hamza, Petrousse, Jeetah, Jaufeerally-Fakim, Félicité, Fillâtre, Hostachy, Guérin, Cellier, Prior and Poussier. 2017 Yahiaoui, Chéron, Ravelomanantsoa, Hamza, Petrousse, Jeetah, Jaufeerally-Fakim, Félicité, Fillâtre, Hostachy, Guérin, Cellier, Prior and Poussier |
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| Keywords | epidemiology genetic diversity MLST clonal complex Ralstonia solanacearum species complex Southwest Indian Ocean MLSA |
| Language | English |
| License | Attribution: http://creativecommons.org/licenses/by This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by: Brigitte Mauch-Mani, University of Neuchâtel, Switzerland This article was submitted to Plant Microbe Interactions, a section of the journal Frontiers in Plant Science Reviewed by: Weixing Shan, Northwest A&F University, China; Muhammad Ibrahim Tahir, Hazara University, Pakistan |
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| Publisher | Frontiers Frontiers Media S.A |
| Publisher_xml | – name: Frontiers – name: Frontiers Media S.A |
| References | Huson (B43) 2006; 23 Martin (B60) 2010; 26 Sola (B82) 2003; 3 Guidot (B29) 2009; 3 Fegan (B19) 1998 B28 Milling (B61) 2009; 99 Kearse (B46) 2012; 28 Lebeau (B53) 2011; 101 Caruso (B8) 2005; 71 Fargier (B18) 2011; 34 Sikirou (B81) 2015; 99 Gillings (B26) 1994 Hayward (B37) 1994 Coupat (B12) 2008; 66 Peakall (B66) 2012; 28 Huerta (B40) 2015; 81 Hert (B39) 2005; 71 Francisco (B22) 2012; 13 Kim (B51) 2002; 92 Tajima (B84) 1989; 123 Tusiime (B86) 1998 Cellier (B10) 2012; 78 Hale (B33) 2012; 7 Maiden (B57) 2006; 60 Dookun (B14) 2001; 149 Kelman (B47) 1954; 44 Feil (B21) 2004; 186 Kruskal (B52) 1964; 29 Ravelomanantsoa (B73) 2016 N'guessan (B62) 2012; 102 Prior (B72) 2016; 17 Buddenhagen (B5) 1962; 52 Fu (B24) 1993; 133 Khoodoo (B49) 2007; 91 Lin (B55) 2014; 63 Hamza (B34) 2012; 35 Castillo (B9) 2007; 73 Nei (B64) 1986; 3 Mahbou Somo Toukam (B56) 2009; 93 Suga (B83) 2013; 79 Almeida (B3) 2010; 100 Gevers (B25) 2005; 3 Elphinstone (B16) 2005 Poussier (B68); 23 Akiew (B2) 1985 de Vienne (B13) 2007; 23 Janse (B45) 1996; 26 Mansfield (B59) 2012; 13 Yahiaoui (B90) 2016; 100 Posada (B67) 2008; 25 Fegan (B20) 2005 Ravelomanantsoa (B74) 2016; 4 Sagar (B79) 2014; 138 Parkinson (B65) 2013; 79 Safni (B78) 2014; 64 Khoodoo (B50) 2010; 158 Maiden (B58) 1998; 95 Hunter (B41) 1990; 28 Pradhanang (B71) 2000; 49 Librado (B54) 2009; 25 Hayward (B36) 1964; 27 Ah-You (B1) 2009; 59 Roumagnac (B76) 2007 Guindon (B32) 2010; 59 Scally (B80) 2005; 71 French (B23) 1994 He (B38) 1983; 67 Kelman (B48) 1956; 46 Buddenhagen (B6) 1986 Wicker (B88) 2007; 73 Rodrigues (B75) 2012; 94 (B17) 2002 Guinard (B31) 2017; 83 Arwiyanto (B4) 1993; 59 Jacques (B44) 2012; 78 Hunter (B42) 1988; 26 Guidot (B30) 2007; 189 Wicker (B89) 2012; 6 Carstensen (B7) 2017; 66 Champoiseau (B11) 2009; 10 Girard (B27) 1993 N'guessan (B63) 2013; 92 Poussier (B69); 146 Roumagnac (B77) 2006; 314 Hanage (B35) 2005; 187 Edgar (B15) 2004; 32 Torpdahl (B85) 2005; 63 Urwin (B87) 2003; 11 Poussier (B70) 1999; 65 |
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| Snippet | Epidemiological surveillance of plant pathogens based on genotyping methods is mandatory to improve disease management strategies. In the Southwest Indian... |
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| SubjectTerms | epidemiology genetic diversity Genetics Life Sciences MLSA MLST Plant Science Ralstonia solanacearum species complex Southwest Indian Ocean Vegetal Biology |
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| Title | Genetic Diversity of the Ralstonia solanacearum Species Complex in the Southwest Indian Ocean Islands |
| URI | https://www.ncbi.nlm.nih.gov/pubmed/29312394 https://search.proquest.com/docview/1989557182 https://hal.univ-reunion.fr/hal-02272663 https://pubmed.ncbi.nlm.nih.gov/PMC5742265 https://doaj.org/article/f8c655edb3a34c2d85c96d4ca479046e |
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