Your search keyword '"Verdier Valérie"' showing total 15 results

1. Functional analysis of African Xanthomonas oryzae pv. oryzae TALomes reveals a new susceptibility gene in bacterial leaf blight of rice.

Author

Tran TT, Pérez-Quintero AL, Wonni I, Carpenter SCD, Yu Y, Wang L, Leach JE, Verdier V, Cunnac S, Bogdanove AJ, Koebnik R, Hutin M, and Szurek B

Subjects

Disease Susceptibility, Gene Expression Regulation, Plant, Genome, Bacterial, Host-Pathogen Interactions, Oryza genetics, Oryza growth & development, Phylogeny, Plant Diseases genetics, Transcription Factors genetics, Bacterial Proteins genetics, Disease Resistance genetics, Oryza microbiology, Plant Diseases microbiology, Plant Proteins genetics, Transcription Factors metabolism, Xanthomonas genetics

Abstract

Most Xanthomonas species translocate Transcription Activator-Like (TAL) effectors into plant cells where they function like plant transcription factors via a programmable DNA-binding domain. Characterized strains of rice pathogenic X. oryzae pv. oryzae harbor 9-16 different tal effector genes, but the function of only a few of them has been decoded. Using sequencing of entire genomes, we first performed comparative analyses of the complete repertoires of TAL effectors, herein referred to as TALomes, in three Xoo strains forming an African genetic lineage different from Asian Xoo. A phylogenetic analysis of the three TALomes combined with in silico predictions of TAL effector targets showed that African Xoo TALomes are highly conserved, genetically distant from Asian ones, and closely related to TAL effectors from the bacterial leaf streak pathogen Xanthomonas oryzae pv. oryzicola (Xoc). Nine clusters of TAL effectors could be identified among the three TALomes, including three showing higher levels of variation in their repeat variable diresidues (RVDs). Detailed analyses of these groups revealed recombination events as a possible source of variation among TAL effector genes. Next, to address contribution to virulence, nine TAL effector genes from the Malian Xoo strain MAI1 and four allelic variants from the Burkinabe Xoo strain BAI3, thus representing most of the TAL effector diversity in African Xoo strains, were expressed in the TAL effector-deficient X. oryzae strain X11-5A for gain-of-function assays. Inoculation of the susceptible rice variety Azucena lead to the discovery of three TAL effectors promoting virulence, including two TAL effectors previously reported to target the susceptibility (S) gene OsSWEET14 and a novel major virulence contributor, TalB. RNA profiling experiments in rice and in silico prediction of EBEs were carried out to identify candidate targets of TalB, revealing OsTFX1, a bZIP transcription factor previously identified as a bacterial blight S gene, and OsERF#123, which encodes a subgroup IXc AP2/ERF transcription factor. Use of designer TAL effectors demonstrated that induction of either gene resulted in greater susceptibility to strain X11-5A. The induction of OsERF#123 by BAI3Δ1, a talB knockout derivative of BAI3, carrying these designer TAL effectors increased virulence of BAI3Δ1, validating OsERF#123 as a new, bacterial blight S gene., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

2. An operon for production of bioactive gibberellin A 4 phytohormone with wide distribution in the bacterial rice leaf streak pathogen Xanthomonas oryzae pv. oryzicola.

Author

Nagel R, Turrini PC, Nett RS, Leach JE, Verdier V, Van Sluys MA, and Peters RJ

Subjects

Biosynthetic Pathways genetics, Geography, Gibberellins chemistry, Xanthomonas isolation & purification, Gibberellins biosynthesis, Operon genetics, Oryza microbiology, Plant Diseases microbiology, Plant Growth Regulators biosynthesis, Plant Leaves microbiology, Xanthomonas genetics

Abstract

Phytopathogens have developed elaborate mechanisms to attenuate the defense response of their host plants, including convergent evolution of complex pathways for production of the GA phytohormones, which were actually first isolated from the rice fungal pathogen Gibberella fujikuroi. The rice bacterial pathogen Xanthomonas oryzae pv. oryzicola (Xoc) has been demonstrated to contain a biosynthetic operon with cyclases capable of producing the universal GA precursor ent-kaurene. Genetic (knock-out) studies indicate that the derived diterpenoid serves as a virulence factor for this rice leaf streak pathogen, serving to reduce the jasmonic acid-mediated defense response. Here the functions of the remaining genes in the Xoc operon are elucidated and the distribution of the operon in X. oryzae is investigated in over 100 isolates. The Xoc operon leads to production of the bioactive GA 4 , an additional step beyond production of the penultimate precursor GA 9 mediated by the homologous operons recently characterized from rhizobia. Moreover, this GA biosynthetic operon was found to be widespread in Xoc (> 90%), but absent in the other major X. oryzae pathovar. These results indicate selective pressure for production of GA 4 in the distinct lifestyle of Xoc, and the importance of GA to both fungal and bacterial pathogens of rice., (© 2017 The Authors. New Phytologist © 2017 New Phytologist Trust.)

Published

2017

3. Characterization of the Xanthomonas translucens Complex Using Draft Genomes, Comparative Genomics, Phylogenetic Analysis, and Diagnostic LAMP Assays.

Author

Langlois PA, Snelling J, Hamilton JP, Bragard C, Koebnik R, Verdier V, Triplett LR, Blom J, Tisserat NA, and Leach JE

Subjects

DNA Primers genetics, Nucleic Acid Amplification Techniques, Phylogeny, Sensitivity and Specificity, Species Specificity, Xanthomonas genetics, Xanthomonas isolation & purification, Genome, Bacterial genetics, Genomics, Plant Diseases microbiology, Xanthomonas classification

Abstract

Prevalence of Xanthomonas translucens, which causes cereal leaf streak (CLS) in cereal crops and bacterial wilt in forage and turfgrass species, has increased in many regions in recent years. Because the pathogen is seedborne in economically important cereals, it is a concern for international and interstate germplasm exchange and, thus, reliable and robust protocols for its detection in seed are needed. However, historical confusion surrounding the taxonomy within the species has complicated the development of accurate and reliable diagnostic tools for X. translucens. Therefore, we sequenced genomes of 15 X. translucens strains representing six different pathovars and compared them with additional publicly available X. translucens genome sequences to obtain a genome-based phylogeny for robust classification of this species. Our results reveal three main clusters: one consisting of pv. cerealis, one consisting of pvs. undulosa and translucens, and a third consisting of pvs. arrhenatheri, graminis, phlei, and poae. Based on genomic differences, diagnostic loop-mediated isothermal amplification (LAMP) primers were developed that clearly distinguish strains that cause disease on cereals, such as pvs. undulosa, translucens, hordei, and secalis, from strains that cause disease on noncereal hosts, such as pvs. arrhenatheri, cerealis, graminis, phlei, and poae. Additional LAMP assays were developed that selectively amplify strains belonging to pvs. cerealis and poae, distinguishing them from other pathovars. These primers will be instrumental in diagnostics when implementing quarantine regulations to limit further geographic spread of X. translucens pathovars.

Published

2017

4. Using Ecology, Physiology, and Genomics to Understand Host Specificity in Xanthomonas.

Author

Jacques MA, Arlat M, Boulanger A, Boureau T, Carrère S, Cesbron S, Chen NW, Cociancich S, Darrasse A, Denancé N, Fischer-Le Saux M, Gagnevin L, Koebnik R, Lauber E, Noël LD, Pieretti I, Portier P, Pruvost O, Rieux A, Robène I, Royer M, Szurek B, Verdier V, and Vernière C

Subjects

Xanthomonas genetics, Genome, Bacterial, Host Specificity, Plant Diseases microbiology, Xanthomonas physiology

Abstract

How pathogens coevolve with and adapt to their hosts are critical to understanding how host jumps and/or acquisition of novel traits can lead to new disease emergences. The Xanthomonas genus includes Gram-negative plant-pathogenic bacteria that collectively infect a broad range of crops and wild plant species. However, individual Xanthomonas strains usually cause disease on only a few plant species and are highly adapted to their hosts, making them pertinent models to study host specificity. This review summarizes our current understanding of the molecular basis of host specificity in the Xanthomonas genus, with a particular focus on the ecology, physiology, and pathogenicity of the bacterium. Despite our limited understanding of the basis of host specificity, type III effectors, microbe-associated molecular patterns, lipopolysaccharides, transcriptional regulators, and chemotactic sensors emerge as key determinants for shaping host specificity.

Published

2016

5. Sensitive detection of Xanthomonas oryzae Pathovars oryzae and oryzicola by loop-mediated isothermal amplification.

Author

Lang JM, Langlois P, Nguyen MH, Triplett LR, Purdie L, Holton TA, Djikeng A, Vera Cruz CM, Verdier V, and Leach JE

Subjects

DNA Primers genetics, DNA, Bacterial genetics, Sensitivity and Specificity, Xanthomonas classification, Xanthomonas genetics, Nucleic Acid Amplification Techniques methods, Oryza microbiology, Plant Diseases microbiology, Xanthomonas isolation & purification

Abstract

Molecular diagnostics for crop diseases can enhance food security by enabling the rapid identification of threatening pathogens and providing critical information for the deployment of disease management strategies. Loop-mediated isothermal amplification (LAMP) is a PCR-based tool that allows the rapid, highly specific amplification of target DNA sequences at a single temperature and is thus ideal for field-level diagnosis of plant diseases. We developed primers highly specific for two globally important rice pathogens, Xanthomonas oryzae pv. oryzae, the causal agent of bacterial blight (BB) disease, and X. oryzae pv. oryzicola, the causal agent of bacterial leaf streak disease (BLS), for use in reliable, sensitive LAMP assays. In addition to pathovar distinction, two assays that differentiate X. oryzae pv. oryzae by African or Asian lineage were developed. Using these LAMP primer sets, the presence of each pathogen was detected from DNA and bacterial cells, as well as leaf and seed samples. Thresholds of detection for all assays were consistently 10(4) to 10(5) CFU ml(-1), while genomic DNA thresholds were between 1 pg and 10 fg. Use of the unique sequences combined with the LAMP assay provides a sensitive, accurate, rapid, simple, and inexpensive protocol to detect both BB and BLS pathogens.

Published

2014

6. A MLVA genotyping scheme for global surveillance of the citrus pathogen Xanthomonas citri pv. citri suggests a worldwide geographical expansion of a single genetic lineage.

Author

Pruvost O, Magne M, Boyer K, Leduc A, Tourterel C, Drevet C, Ravigné V, Gagnevin L, Guérin F, Chiroleu F, Koebnik R, Verdier V, and Vernière C

Subjects

Bacterial Typing Techniques, Genome, Bacterial, Genotype, Sequence Analysis, DNA, Tandem Repeat Sequences, Citrus microbiology, Genes, Bacterial, Genetic Variation, Plant Diseases microbiology, Xanthomonas genetics

Abstract

MultiLocus Variable number of tandem repeat Analysis (MLVA) has been extensively used to examine epidemiological and evolutionary issues on monomorphic human pathogenic bacteria, but not on bacterial plant pathogens of agricultural importance albeit such tools would improve our understanding of their epidemiology, as well as of the history of epidemics on a global scale. Xanthomonas citri pv. citri is a quarantine organism in several countries and a major threat for the citrus industry worldwide. We screened the genomes of Xanthomonas citri pv. citri strain IAPAR 306 and of phylogenetically related xanthomonads for tandem repeats. From these in silico data, an optimized MLVA scheme was developed to assess the global diversity of this monomorphic bacterium. Thirty-one minisatellite loci (MLVA-31) were selected to assess the genetic structure of 129 strains representative of the worldwide pathological and genetic diversity of X. citri pv. citri. Based on Discriminant Analysis of Principal Components (DAPC), four pathotype-specific clusters were defined. DAPC cluster 1 comprised strains that were implicated in the major geographical expansion of X. citri pv. citri during the 20th century. A subset of 12 loci (MLVA-12) resolved 89% of the total diversity and matched the genetic structure revealed by MLVA-31. MLVA-12 is proposed for routine epidemiological identification of X. citri pv. citri, whereas MLVA-31 is proposed for phylogenetic and population genetics studies. MLVA-31 represents an opportunity for international X. citri pv. citri genotyping and data sharing. The MLVA-31 data generated in this study was deposited in the Xanthomonas citri genotyping database (http://www.biopred.net/MLVA/).

Published

2014

7. Genome sequence of Xanthomonas fuscans subsp. fuscans strain 4834-R reveals that flagellar motility is not a general feature of xanthomonads.

Author

Darrasse A, Carrère S, Barbe V, Boureau T, Arrieta-Ortiz ML, Bonneau S, Briand M, Brin C, Cociancich S, Durand K, Fouteau S, Gagnevin L, Guérin F, Guy E, Indiana A, Koebnik R, Lauber E, Munoz A, Noël LD, Pieretti I, Poussier S, Pruvost O, Robène-Soustrade I, Rott P, Royer M, Serres-Giardi L, Szurek B, van Sluys MA, Verdier V, Vernière C, Arlat M, Manceau C, and Jacques MA

Subjects

Base Sequence, Evolution, Molecular, Fabaceae genetics, Fabaceae growth & development, Fabaceae microbiology, Flagella physiology, Genome, Bacterial, Phylogeny, Plant Diseases genetics, Seeds genetics, Seeds microbiology, Sequence Analysis, DNA, Xanthomonas classification, Xanthomonas pathogenicity, Flagella genetics, Genetic Fitness, Plant Diseases microbiology, Xanthomonas genetics

Abstract

Background: Xanthomonads are plant-associated bacteria responsible for diseases on economically important crops. Xanthomonas fuscans subsp. fuscans (Xff) is one of the causal agents of common bacterial blight of bean. In this study, the complete genome sequence of strain Xff 4834-R was determined and compared to other Xanthomonas genome sequences., Results: Comparative genomics analyses revealed core characteristics shared between Xff 4834-R and other xanthomonads including chemotaxis elements, two-component systems, TonB-dependent transporters, secretion systems (from T1SS to T6SS) and multiple effectors. For instance a repertoire of 29 Type 3 Effectors (T3Es) with two Transcription Activator-Like Effectors was predicted. Mobile elements were associated with major modifications in the genome structure and gene content in comparison to other Xanthomonas genomes. Notably, a deletion of 33 kbp affects flagellum biosynthesis in Xff 4834-R. The presence of a complete flagellar cluster was assessed in a collection of more than 300 strains representing different species and pathovars of Xanthomonas. Five percent of the tested strains presented a deletion in the flagellar cluster and were non-motile. Moreover, half of the Xff strains isolated from the same epidemic than 4834-R was non-motile and this ratio was conserved in the strains colonizing the next bean seed generations., Conclusions: This work describes the first genome of a Xanthomonas strain pathogenic on bean and reports the existence of non-motile xanthomonads belonging to different species and pathovars. Isolation of such Xff variants from a natural epidemic may suggest that flagellar motility is not a key function for in planta fitness.

Published

2013

8. Identification of non-TAL effectors in Xanthomonas oryzae pv. oryzae Chinese strain 13751 and analysis of their role in the bacterial virulence.

Author

Zhao S, Mo WL, Wu F, Tang W, Tang JL, Szurek B, Verdier V, Koebnik R, and Feng JX

Subjects

Capsicum microbiology, China, Cloning, Molecular, DNA, Bacterial chemistry, DNA, Bacterial genetics, Gene Deletion, Genes, Bacterial, Molecular Sequence Data, Oryza microbiology, Plant Leaves microbiology, Ricinus microbiology, Sequence Analysis, DNA, Virulence, Virulence Factors genetics, Xanthomonas genetics, Xanthomonas isolation & purification, Plant Diseases microbiology, Virulence Factors metabolism, Xanthomonas metabolism, Xanthomonas pathogenicity

Abstract

Xanthomonas oryzae pv. oryzae (Xoo) is the causal agent of rice bacterial leaf blight, one of the most important rice bacterial diseases in China and many other countries. The upstream portions of 41 candidate genes encoding non-transcription activator-like effectors of Xoo Chinese strain 13751 were fused with the coding sequence of AvrBs159-445 in a broad host-range vector. The constructed plasmids were respectively introduced into Xoo strain 13751 and avrBs1 deletion mutant of X. campestris pv. campestris strain 8004 by tri-parental conjugation. The resultant transconjugants were respectively tested for hypersensitive response (HR) elicitation on pepper ECW-10R. Nine strains were able to elicit HR on pepper, indicating that the nine genes (XOO0037, XOO0103, XOO0110, XOO0315, XOO1488, XOO2875, XOO3150, XOO3222 and XOO4134) encoded effectors. Among them, xopAE 13751 (XOO0110), expressed in Xoo strain 13751 growing in rice leaves, was a new experimentally confirmed effector gene. XopAE13751 contains 11 leucine rich repeats. Furthermore, mutants for the nine effector genes were created in Xoo strain 13751 and subsequently tested for virulence in rice. As a result, only the xopR 13751 (XOO4134) deletion mutant GXMxopR showed a significant reduction in virulence in hybrid rice cv. Teyou63 compared to the wild type. However, the growth of GXMxopR in host plant rice was not affected. These results indicated that xopR 13751 was required for full virulence of Xoo strain 13751 by inducing rice disease tolerance.

Published

2013

9. Controlling rice bacterial blight in Africa: needs and prospects.

Author

Verdier V, Vera Cruz C, and Leach JE

Subjects

Africa, Agriculture, Biotechnology, Breeding, Disease Resistance, Food Supply, Oryza, Plant Diseases immunology, Plant Diseases prevention & control, Xanthomonas

Abstract

Rice cultivation has drastically increased in Africa over the last decade. During this time, the region has also seen a rise in the incidence of rice bacterial blight caused by the pathogen Xanthomonas oryzae pv. oryzae. The disease is expanding to new rice production areas and threatens food security in the region. Yield losses caused by X. oryzae pv. oryzae range from 20 to 30% and can be as high as 50% in some areas. Employing resistant cultivars is the most economical and effective way to control this disease. To facilitate development and strategic deployment of rice cultivars with resistance to bacterial blight, biotechnology tools and approaches, including marker-assisted breeding, gene combinations for disease control, and multiplex-PCR for pathogen diagnosis, have been developed. Although these technologies are routinely used elsewhere, their application in Africa remains limited, usually due to high cost and advanced technical skills required. To combat this problem, developers of the technologies at research institutions need to work with farmers from an early stage to create and promote the integration of successful, low cost applications of research biotech products. Here, we review the current knowledge and biotechnologies available to improve bacterial blight control. We will also discuss how to facilitate their application in Africa and delivery to the field., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

10. Colonization of rice leaf blades by an African strain of Xanthomonas oryzae pv. oryzae depends on a new TAL effector that induces the rice nodulin-3 Os11N3 gene.

Author

Yu Y, Streubel J, Balzergue S, Champion A, Boch J, Koebnik R, Feng J, Verdier V, and Szurek B

Subjects

Amino Acid Sequence, Bacterial Proteins chemistry, Bacterial Proteins genetics, Base Sequence, Down-Regulation, Gene Expression Regulation, Bacterial, Glucuronidase, Molecular Sequence Data, Mutation, Oligonucleotide Array Sequence Analysis, Oryza microbiology, Phylogeny, Plant Diseases microbiology, Promoter Regions, Genetic genetics, Sequence Analysis, DNA, Transcriptome, Up-Regulation, Virulence, Xanthomonas metabolism, Xanthomonas pathogenicity, Bacterial Proteins metabolism, Membrane Proteins genetics, Oryza genetics, Plant Diseases genetics, Plant Proteins genetics, Xanthomonas genetics

Abstract

African strains of Xanthomonas oryzae pv. oryzae contain fewer TAL effectors than Asian strains, and their contribution to pathogenicity is unknown. Systematic mutagenesis of tal genes was used to decipher the contribution of each of the eight TAL effector paralogs to pathogenicity of African X. oryzae pv. oryzae BAI3. A strain mutated in talC was severely affected in the production of disease symptoms. Analysis of growth in planta upon leaf-clip inoculation showed that mutant bacteria multiplied only at the site of inoculation at the apex of the leaf, suggesting a requirement for talC during colonization of vascular tissues. Such tissue-specific effect of a tal mutant is a novel phenotype, which has not yet been characterized in other xanthomonads. Microarray experiments comparing the host response of rice leaves challenged with BAI3(R) vs. BAI3(R)ΔtalC were performed to identify genes targeted by TalC. A total of 120 upregulated and 21 downregulated genes were identified, among them Os11N3, which is a member of the MtN3/saliva family. Based on semiquantitative reverse transcription-polymerase chain reaction and β-glucuronidase reporter assays, we show that Os11N3 is directly upregulated by TalC and identify a TalC DNA target box within the Os11N3 upstream sequence.

Published

2011

11. Mapping EST-derived SSRs and ESTs involved in resistance to bacterial blight in Manihot esculenta.

Author

López CE, Quesada-Ocampo LM, Bohórquez A, Duque MC, Vargas J, Tohme J, and Verdier V

Subjects

Alleles, Base Sequence, Biomarkers, Genes, Plant, Genotype, Manihot microbiology, Plant Diseases genetics, Polymorphism, Restriction Fragment Length, Polymorphism, Single Nucleotide genetics, Quantitative Trait, Heritable, Chromosome Mapping, Expressed Sequence Tags, Manihot genetics, Minisatellite Repeats, Plant Diseases immunology, Quantitative Trait Loci, Xanthomonas

Abstract

Cassava (Manihot esculenta Crantz) is a major root crop widely grown in the tropics. Cassava bacterial blight, caused by Xanthomonas axonopodis pv. manihotis (Xam), is an important disease in Latin America and Africa resulting in significant losses. The preferred control method is the use of resistant genotypes. Mapping expressed sequence tags (ESTs) and determining their co-localization with quantitative trait loci (QTLs) may give additional evidence of the role of the corresponding genes in resistance or defense. Twenty-one EST-derived simple sequence repeats (SSRs) were mapped in 16 linkage groups. ESTs showing similarities with candidate resistance genes or defense genes were also mapped using strategies such as restriction fragment length polymorphisms, cleaved amplified polymorphic sequences, and allele-specific primers. In total, 10 defense-related genes and 2 bacterial artificial chromosomes (BACs) containing resistance gene candidates (RGCs) were mapped in 11 linkage groups. Two new QTLs associated with resistance to Xam strains CIO121 and CIO151 were detected in linkage groups A and U, respectively. The QTL in linkage group U explained 61.6% of the phenotypic variance and was associated with an RGC-containing BAC. No correlation was found between the new EST-derived SSRs or other mapped ESTs and the new or previously reported QTLs.

Published

2007

12. Recent progress in the characterization of molecular determinants in the Xanthomonas axonopodis pv. manihotis-cassava interaction.

Author

Verdier V, Restrepo S, Mosquera G, Jorge V, and Lopez C

Subjects

Chromosome Mapping, Chromosomes, Plant genetics, Expressed Sequence Tags, Gene Expression Regulation, Plant, Genes, Plant genetics, Genetic Variation, Manihot growth & development, Manihot virology, Plant Diseases virology, Quantitative Trait Loci genetics, Transcription, Genetic genetics, Virulence genetics, Xanthomonas genetics, Xanthomonas pathogenicity, Manihot genetics, Plant Diseases genetics, Xanthomonas growth & development

Abstract

Cassava bacterial blight, caused by Xanthomonas axonopodis pv. manihotis (Xam), is a widespread disease that affects cassava (Manihot esculenta Crantz). Studies on the pathogen population structure, pathogen diagnosis, identification and expression of plant genes involved in resistance have been carried out. Different molecular techniques were developed to assess the genetic diversity among the Xampopulations. Characterization of Xam population dynamics over time had enable us to determine the different factors that are associated with resistance breakdown and those that influence the genetic structure or virulence phenotypes of the pathogen's population. Methods for detecting the pathogen in vegetative planting materials and true seeds were developed and contributed to reduce the impact of the disease. To better understand the genetics of resistance a quantitative trait loci (QTLs) approach was developed. Using a PCR-based strategy with degenerate primers we isolated two resistance gene candidates in cassava. We also characterized a region of a chromosome rich in R-gene like sequence. In this review we also report the main results obtained by transcript profiling methodologies, cDNA-AFLP and ESTs developed by the authors to characterize the genes involved in disease resistance. All together these techniques allowed the identification of molecular markers either associated to CBB resistance or that may represent putative genes involved in disease resistance. This article reviews current knowledge on the molecular cassava-Xam interactions.

Published

2004

13. Genetic structure and population dynamics of Xanthomonas axonopodis pv. manihotis in Colombia from 1995 to 1999.

Author

Restrepo S, Velez CM, Duque MC, and Verdier V

Subjects

Bacterial Proteins genetics, Colombia, Genetic Variation, Haplotypes, Virulence, Xanthomonas genetics, Xanthomonas physiology, Manihot microbiology, Plant Diseases microbiology, Polymorphism, Restriction Fragment Length, Xanthomonas classification, Xanthomonas pathogenicity

Abstract

Restriction fragment length polymorphisms (RFLPs) were used to study the population genetics and temporal dynamics of the cassava bacterial pathogen Xanthomonas axonopodis pv. manihotis. The population dynamics were addressed by comparing samples collected from 1995 to 1999 from six locations, spanning four different edaphoclimatic zones (ECZs). Forty-five different X. axonopodis pv. manihotis RFLP types or haplotypes were identified between 1995 and 1999. High genetic diversity of the X. axonopodis pv. manihotis strains was evident within most of the fields sampled. In all but one site, diversity decreased over time within fields. Haplotype frequencies significantly differed over the years in all but one location. Studies of the rate of change of X. axonopodis pv. manihotis populations during the cropping cycle in two sites showed significant changes in the haplotype frequencies but not composition. However, variations in pathotype composition were observed from one year to the next at a single site in ECZs 1 and 2 and new pathotypes were described after 1997 in these ECZs, thus revealing the dramatic change in the pathogen population structure of X. axonopodis pv. manihotis. Disease incidence was used to show the progress of cassava bacterial blight in Colombia during the 5-year period in different ecosystems. Low disease incidence values were correlated with low rainfall in 1997 in ECZ 1.

Published

2004

14. Multilocus sequence analysis and type III effector repertoire mining provide new insights into the evolutionary history and virulence of Xanthomonas oryzae.

Author

HAJRI, AHMED, BRIN, CHRYSTELLE, ZHAO, SHUAI, DAVID, PERRINE, FENG, JIA-XUN, KOEBNIK, RALF, SZUREK, BORIS, VERDIER, VALÉRIE, BOUREAU, TRISTAN, and POUSSIER, STEPHANE

Subjects

RICE disease & pest resistance, PLANT diseases, XANTHOMONAS, POLYMERASE chain reaction, PLANT hybridization, PLANT genetics

Abstract

SUMMARY Multilocus sequence analysis (MLSA) and type III effector (T3E) repertoire mining were performed to gain new insights into the genetic relatedness of Xanthomonas oryzae pv. oryzae ( Xoo) and Xanthomonas oryzae pv. oryzicola ( Xoc), two major bacterial pathogens of rice. Based on a collection of 45 African and Asian strains, we first sequenced and analysed three housekeeping genes by MLSA, Bayesian clustering and a median-joining network approach. Second, we investigated the distribution of 32 T3E genes, which are known to be major virulence factors of plant pathogenic bacteria, in all selected strains, by polymerase chain reaction and dot-blot hybridization methods. The diversity observed within housekeeping genes, as well as within T3E repertoires, clearly showed that both pathogens belong to closely related, but distinct, phylogenetic groups. Interestingly, these evolutionary groups are differentiated according to the geographical origin of the strains, suggesting that populations of Xoo and Xoc might be endemic in Africa and Asia, and thus have evolved separately. We further revealed that T3E gene repertoires of both pathogens comprise core and variable gene suites that probably have distinct roles in pathogenicity and different evolutionary histories. In this study, we carried out a functional analysis of xopO, a differential T3E gene between Xoo and Xoc, to determine the involvement of this gene in tissue specificity. Altogether, our data contribute to a better understanding of the evolutionary history of Xoo and Xoc in Africa and Asia, and provide clues for functional studies aiming to understand the virulence, host and tissue specificity of both rice pathogens. [ABSTRACT FROM AUTHOR]

Published

2012

15. Genomic comparison between Xanthomonas oryzae pv. oryzae and Xanthomonas oryzae pv. oryzicola, using suppression-subtractive hybridization.

Author

Soto-Suárez, Mauricio, González, Carolina, Piégu, Benoît, Tohme, Joe, and Verdier, Valérie

Subjects

XANTHOMONAS, NUCLEIC acid hybridization, PSEUDOMONADACEAE, BACTERIAL diseases of plants, RICE diseases & pests, GENOMES, PATHOGENIC bacteria, PROTEINS, PLANT diseases

Abstract

Xanthomonas oryzae pathovar oryzae ( Xoo) and X. oryzae pv. oryzicola ( Xoc) cause bacterial diseases in rice: leaf blight and leaf streak, respectively. Although both the Asian and the African strains of Xoo induce similar symptoms, they are genetically different, with the African Xoo strains being more closely related to the Asian Xoc. To identify the sequences responsible for differences between African and Asian Xoo strains and their relatedness to Xoc strains, a suppression-subtractive hybridization (SSH) procedure was performed, using the African Xoo MAI1 strain as a tester and the Philippine Xoo PXO86 strain and Xoc BLS256 strain as drivers. A nonredundant set of 134 sequences from MAI1 was generated. Several DNA fragments isolated by SSH were similar to genes of unknown function, hypothetical proteins, genes related to the type III secretion system, and other pathogenicity-related genes. The specificity of various fragments was validated by Southern blot analysis. SSH sequences were compared with several xanthomonad genomes. In silico analysis revealed SSH sequences as specific to strain MAI1, revealing their potential as specific markers for further epidemiological and diagnostic studies. SSH proved to be a useful method for rapidly identifying specific genes among closely related X. oryzae strains. [ABSTRACT FROM AUTHOR]

Published

2010