Characterisation of Pectobacterium carotovorum subsp. brasiliense isolates causing blackleg and soft rot diseases of potato in South Africa

Mashavha, Matlou Lebogang

January 2013

Pectobacterium carotovorum subsp. brasiliense (Pcb) is a plant pathogenic bacterium that causes blackleg and tuber soft rot disease of potato worldwide. Pectobacterium spp. are characterized by the secretion of large quantities of plant cell wall degrading enzymes. As the name indicates, Pectobacteria are pectinolytic pathogens, producing enzymes such as pectate lyase, polygalacturonase, and many others that are used to catalyse the breakdown of pectin, the main plant cell wall component. Consequently, virulence of Pectobacteria is highly reliant upon the production and secretion of macerating enzymes. Hence these bacteria are also referred to as “brute-force” pathogens. Infection and disease symptoms on plants commonly result in the development of blackleg disease, a characteristic black-like decay extending on the stems of infected potato plants. Furthermore, the infection of tubers results in the development of soft rot disease. Pcb is of particular interest in that among Pectobacterium spp. such as Pectobacterium atrosepticum (Pa), P. carotovorum subsp. carotovorum (Pcc), and P. wasabiae, Pcb strains are reported to be the most aggressive and virulent pathogens causing blackleg and soft rot disease of potato in many growing regions across the world. The fact that strains of Pcb were recently reported and isolated in South Africa has necessitated that this work be undertaken in order to characterise this newly described important pathogen of potato in regard to its phenotypic, genetic diversity, virulence and host range traits. Therefore in this work Pcb strains were subjected to multilocus phylogenetic analyses (MLSA) in order to investigate and determine whether there is any interspecies and intraspecies genetic diversity among the South African Pcb isolates. It was thus established that there is a significant genetic diversity that exists both on an interspecies and intraspecies level among Pcb isolates. As a result we sought to investigate further if the level of genetic diversity observed can be reflected in terms of the pathogen’s virulence, biochemical, phenotypic as well as host range characteristics. The results of virulence assays on potato tubers and stems indicated that Pcb strains are significantly much more virulent on potato compared to closely related Pectobacterium spp. such as Pa and Pcc. Moreover, the level of intraspecies diversity observed through phylogeny was also evident and reflected on the phenotypic, virulence and host range characteristics of the pathogen. This study also focused on investigating virulence factors employed by Pectobacterium spp. during infection. Such factors include the ability to produce and secrete of various extracellular macerating enzymes, as well as screening for the presence of virulence associated effectors and phytotoxin genes. It was of interest to observe that Pcb strains have the ability to grow and produce substrate-degrading enzymes much more rapidly compared to Pa and Pcc. This phenomenon was also observed in virulence assays where Pcb strains were noted to cause more rapid and most severe maceration symptoms on potato tubers and stems. Thus in agreement with other studies, our results suggests that Pcb is a uniquely sophisticated but diverse plant pathogen which can be considered to be one of the most aggressive causal agents of blackleg and soft rot disease of potato in South Africa. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Microbiology and Plant Pathology / Unrestricted

Pectobacterium carotovorum subsp.

Brasiliense (Pcb)

Multilocus sequence analyses (MLSA)

Blackleg

Soft rot

UCTD

Phenotypic and genotypic characterization and comparison of Edwardsiella ictaluri isolates derived from catfish and ornamental fish species

Divya, Divya

06 August 2021

The gram-negative bacteria Edwardsiella ictaluri causes significant economic losses in aquacultured fish. Generally considered host-specific to catfish, there are reports of E. ictaluri outbreaks from other aquacultured species, including ornamental fish raised in the southeastern U.S. Thus, a comprehensive phenotypic and genotypic characterization of E. ictaluri isolates from catfish and ornamental aquaculture was warranted. Morphological, biochemical, and protein profiles of catfish and ornamental derived isolates were mostly similar. Plasmid profiles of wild-type isolates were consistent within groups. Analysis of putative anti-microbial resistant isolates from catfish revealed the presence of multi-drug resistant plasmids. Genomic comparisons indicated marked differences among host groups, including unique T4SSs and phage elements among ornamental fish-derived E. ictaluri isolates. An optimal MLSA scheme consisting of eight reference genes was defined, revealing isolates from catfish and ornamental aquaculture form two discrete phyletic lineages. This study advances our understanding of E. ictaluri affecting two important agricultural commodities in the U.S.

Edwardsiella ictaluri

Channel catfish

Ornamental fish

Phenotypic characterization

genotypic characterization

MLSA

PCR

genome analysis

Taxonomie et diagnostic des espèces de Xanthomonas associées à la gale bactérienne de la tomate et des Capsicum spp. : situation dans les Îles du Sud Ouest de l'océan Indien

Hamza, Abdou Azali

14 December 2010

La gale bactérienne des Solanées à graines est une maladie répandue dans la plupart des aires de production de tomate et des Capsicum spp. (piment, poivron) du monde. Elle est très sévère dans les régions tropicales et subtropicales et sa présence est récurrente dans la région Sud-Ouest de l'océan Indien. Cette maladie est complexe car cinq taxons sont actuellement reconnus comme agents causaux, X. vesicatoria , X. perforans , X. gardneri , X. euvesicatoria et X. campestris pv. raphani . Néanmoins certaines études récentes suggèrent des synonymies de certaines de ces espèces entre elles et également avec d'autres Xanthomonas. Les objectifs principaux de la thèse étaient (1) l'analyse de la diversité sur une collection mondiale à l'aide des deux techniques moléculaires à haut débit, AFLP et MLSA, avec un accent particulier sur la diversité génétique et pathologique régionale (2) la description des relations phylogénétiques entre ces taxons et les autres Xanthomonas (3) la mise au point d'un outil d'identification rapide qui tienne compte de la diversité de l'agent pathogène et basé sur des marqueurs SCAR identifiés par AFLP. Une absence de congruence entre les topologies d'arbres dérivées des séquences de 4 gènes de ménage étudiés a été mise en évidence, de même que plusieurs évènements de recombinaison sur trois d'entre eux. Un inventaire des espèces trouvées dans les îles SWIO a pu être dressé, mettant à jour une grande diversité dans cette région. Nos données ont confirmé de fortes similarités génétiques entre X. alfalfae , X. euvesicatoria et X. perforans d'une part et de X. cynarae et X. gardneri d'autre part, qui ont probablement le statut d'espèces-synonyme.

Gale bactérienne des solanées

Xanthomonas spp

Diversité génétique

Diagnostics

Région océan Indien

MLSA

AFLP

SCAR