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1. Genetic dissection of the tissue‐specific roles of type III effectors and phytotoxins in the pathogenicity of Pseudomonas syringae pv. syringae to cherry

Author

Vadillo‐Dieguez, Andrea, primary, Zeng, Ziyue, additional, Mansfield, John W., additional, Grinberg, Nastasiya F., additional, Lynn, Samantha C., additional, Gregg, Adam, additional, Connell, John, additional, Harrison, Richard J., additional, Jackson, Robert W., additional, and Hulin, Michelle T., additional

Published
2024
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7. Genomic and functional analysis of phage-mediated horizontal gene transfer in Pseudomonas syringae on the plant surface

Author

Hulin, Michelle T., Rabiey, Mojgan, Zeng, Ziyue, Vadillo Dieguez, Andrea, Bellamy, Sophia, Swift, Phoebe, Mansfield, John W., Jackson, Robert W., Harrison, Richard J., Hulin, Michelle T., Rabiey, Mojgan, Zeng, Ziyue, Vadillo Dieguez, Andrea, Bellamy, Sophia, Swift, Phoebe, Mansfield, John W., Jackson, Robert W., and Harrison, Richard J.

Abstract

Many strains of Pseudomonas colonise plant surfaces, including the cherry canker pathogens, Pseudomonas syringae pathovars syringae and morsprunorum. We have examined the genomic diversity of P. syringae in the cherry phyllosphere and focused on the role of prophages in transfer of genes encoding Type 3 secreted effector (T3SE) proteins contributing to the evolution of virulence. Phylogenomic analysis was carried out on epiphytic pseudomonads in the UK orchards. Significant differences in epiphytic populations occurred between regions. Nonpathogenic strains were found to contain reservoirs of T3SE genes. Members of P. syringae phylogroups 4 and 10 were identified for the first time from Prunus. Using bioinformatics, we explored the presence of the gene encoding T3SE HopAR1 within related prophage sequences in diverse P. syringae strains including cherry epiphytes and pathogens. Results indicated that horizontal gene transfer (HGT) of this effector between phylogroups may have involved phage. Prophages containing hopAR1 were demonstrated to excise, circularise and transfer the gene on the leaf surface. The phyllosphere provides a dynamic environment for prophage-mediated gene exchange and the potential for the emergence of new more virulent pathotypes. Our results suggest that genome-based epidemiological surveillance of environmental populations will allow the timely application of control measures to prevent damaging diseases.

Published
2023

10. Identifying resistance in wild and ornamental cherry towards bacterial canker caused by Pseudomonas syringae

Author

Hulin, Michelle T., Vadillo Dieguez, Andrea, Cossu, Francesca, Lynn, Samantha, Russell, Karen, Neale, Helen C., Jackson, Robert W., Arnold, Dawn L., Mansfield, John W., Harrison, Richard J., Hulin, Michelle T., Vadillo Dieguez, Andrea, Cossu, Francesca, Lynn, Samantha, Russell, Karen, Neale, Helen C., Jackson, Robert W., Arnold, Dawn L., Mansfield, John W., and Harrison, Richard J.

Abstract

Bacterial canker is a major disease of stone fruits and is a critical limiting factor to sweet cherry (Prunus avium) production worldwide. One important strategy for disease control is the development of resistant varieties. Partial varietal resistance in sweet cherry is discernible using shoot or whole tree inoculations; however, these quantitative differences in resistance are not evident in detached leaf assays. To identify novel sources of resistance to canker, we used a rapid leaf pathogenicity test to screen a range of wild cherry, ornamental Prunus species and sweet cherry × ornamental cherry hybrids with the canker pathogens, Pseudomonas syringae pvs syringae, morsprunorum races 1 and 2, and avii. Several Prunus accessions exhibited limited symptom development following inoculation with each of the pathogens, and this resistance extended to 16 P. syringae strains pathogenic on sweet cherry and plum. Resistance was associated with reduced bacterial multiplication after inoculation, a phenotype similar to that of commercial sweet cherry towards nonhost strains of P. syringae. Progeny resulting from a cross of a resistant ornamental species Prunus incisa with susceptible sweet cherry (P. avium) exhibited resistance indicating it is an inherited trait. Identification of accessions with resistance to the major bacterial canker pathogens is the first step towards characterizing the underlying genetic mechanisms of resistance and introducing these traits into commercial germplasm.

Published
2022

14. Cherry picking by pseudomonads : After a century of research on canker, genomics provides insights into the evolution of pathogenicity towards stone fruits

Author

Hulin, Michelle T., Jackson, Robert W., Harrison, Richard J., Mansfield, John W., Hulin, Michelle T., Jackson, Robert W., Harrison, Richard J., and Mansfield, John W.

Abstract

Bacterial canker disease is a major limiting factor in the growing of cherry and other Prunus species worldwide. At least five distinct clades within the bacterial species complex Pseudomonas syringae are known to be causal agents of the disease. The different pathogens commonly coexist in the field. Reducing canker is a challenging prospect as the efficacy of chemical controls and host resistance may vary against each of the diverse clades involved. Genomic analysis has revealed that the pathogens use a variable repertoire of virulence factors to cause the disease. Significantly, strains of P. syringae pv. syringae possess more genes for toxin biosynthesis and fewer encoding type III effector proteins. There is also a shared pool of key effector genes present on mobile elements such as plasmids and prophages that may have roles in virulence. By contrast, there is evidence that absence or truncation of certain effector genes, such as hopAB, is characteristic of cherry pathogens. Here we highlight how recent research, underpinned by the earlier epidemiological studies, is allowing significant progress in our understanding of the canker pathogens. This fundamental knowledge, combined with emerging insights into host genetics, provides the groundwork for development of precise control measures and informed approaches to breed for disease resistance.

Published
2020

15. NopB, a type III secreted protein of Rhizobium sp. strain NGR234, is associated with pilus-like surface appendages

Author

Saad, Maged M., Kobayashi, Hajime, Marie, Corinne, Brown, Ian R., Mansfield, John W., Broughton, William J., and Deakin, William J.

Subjects
Bacteriology -- Research, Rhizobium -- Research, Biological sciences
Abstract

Rhizobium sp. strain NGR234 possesses a functional type three secretion system (TTSS), through which a number of proteins, called nodulation outer proteins (Nops), are delivered to the outside of the cell. A major constraint to the identification of Nops is their low abundance in the supernatants of NGR234 strains grown in culture. To overcome this limitation, a more sensitive proteomics-based strategy was developed. Secreted proteins from wild-type NGR234 were separated by two-dimensional gel electrophoresis, and the gel was compared to similar gels containing the proteins from a TTSS mutant (NGR[OMEGA]rhcN). To identify the proteins, spots unique to the NGR234 gels were analyzed by matrix-assisted laser desorption ionization-time of flight mass spectrometry and the data were compared to the sequence of the symbiotic plasmid of NGR234. A nonpolar mutant of one of these proteins was generated called NopB. NopB is required for Nop secretion but inhibits the interaction with Pachyrhizus tuberosus and augments nodulation of Tephrosia vogelii. Flavonoids and a functional TTSS are required for the formation of some surface appendages on NGR234. In situ immunogold labeling and isolation of these pili showed that they contain NopB.

Published
2005

17. Highly conserved sequences flank avirulence genes: isolation of novel avirulence genes from Pseudomonas syringae pv. pisi

Author

Arnold, Dawn L., Jackson, Robert W., Fillingham, A. Jane, Goss, Susan C., Taylor, John D., Mansfield, John W., and Vivian, Alan

Subjects
Microbiological research -- Reports, Cytochemistry -- Research, Polymerase chain reaction -- Usage, Pseudomonas syringae -- Genetic aspects, DNA -- Research, Plasmids -- Genetic aspects, Cell death -- Genetic aspects, Plant-pathogen relationships -- Molecular aspects, Biological sciences
Abstract

Isolation of novel avirulence genes from Pseudomonas syringae pv. pisi is discussed. Highly conserved sequences were found to flank avirulence genes, meaning implications for the horizontal transfer of avirulence and virulence genes exist.

Published
2001

25. A rapid and robust method for simultaneously measuring changes in the phytohormones ABA, JA and SA in plants following biotic and abiotic stress

Author

Mansfield John W, Bennett Mark H, Forcat Silvia, and Grant Murray R

Subjects
Plant culture, SB1-1110, Biology (General), QH301-705.5
Abstract

Abstract We describe an efficient method for the rapid quantitative determination of the abundance of three acidic plant hormones from a single crude extract directly by LC/MS/MS. The method exploits the sensitivity of MS and uses multiple reaction monitoring and isotopically labelled samples to quantify the phytohormones abscisic acid, jasmonic acid and salicylic acid in Arabidopsis leaf tissue.

Published
2008
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26. Comparative genomics of Pseudomonas syringae reveals convergent gene gain and loss associated with specialization onto cherry (Prunus avium)

Author

Hulin, Michelle T., Armitage, Andrew D., Vicente, Joana G., Holub, Eric B., Baxter, Laura, Bates, Helen J., Mansfield, John W., Jackson, Robert W., Harrison, Richard J., Hulin, Michelle T., Armitage, Andrew D., Vicente, Joana G., Holub, Eric B., Baxter, Laura, Bates, Helen J., Mansfield, John W., Jackson, Robert W., and Harrison, Richard J.

Abstract

Genome-wide analyses of the effector- and toxin-encoding genes were used to examine the phylogenetics and evolution of pathogenicity amongst diverse strains of Pseudomonas syringae causing bacterial canker of cherry (Prunus avium), including pathovars P. syringae pv morsprunorum (Psm) races 1 and 2, P. syringae pv syringae (Pss) and P. syringae pv avii. Phylogenetic analyses revealed Psm races and P. syringae pv avii clades were distinct and were each monophyletic, whereas cherry-pathogenic strains of Pss were interspersed amongst strains from other host species. A maximum likelihood approach was used to predict effectors associated with pathogenicity on cherry. Pss possesses a smaller repertoire of type III effectors but has more toxin biosynthesis clusters than Psm and P. syringae pv avii. Evolution of cherry pathogenicity was correlated with gain of genes such as hopAR1 and hopBB1 through putative phage transfer and horizontal transfer respectively. By contrast, loss of the avrPto/hopAB redundant effector group was observed in cherry-pathogenic clades. Ectopic expression of hopAB and hopC1 triggered the hypersensitive reaction in cherry leaves, confirming computational predictions. Cherry canker provides a fascinating example of convergent evolution of pathogenicity that is explained by the mix of effector and toxin repertoires acting on a common host.

Published
2018

28. Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host

Author

Rufián, José S., Sánchez Romero, María Antonia, López Márquez, Diego, Macho, Alberto P., Mansfield, John W., Arnold, Dawn L., Ruiz Albert, Javier, Casadesús Pursals, Josep, Beuzón, Carmen R., and Universidad de Sevilla. Departamento de Genética

Subjects
bacteria, biochemical phenomena, metabolism, and nutrition
Abstract

Bacterial microcolonies with heterogeneous sizes are formed during colonization of Phaseolus vulgaris by Pseudomonas syringae. Heterogeneous expression of structural and regulatory components of the P. syringae type III secretion system (T3SS), essential for colonization of the host apoplast and disease development, is likewise detected within the plant apoplast. T3SS expression is bistable in the homogeneous environment of nutrient-limited T3SS-inducing medium, suggesting that subpopulation formation is not a response to different environmental cues. T3SS bistability is reversible, indicating a non-genetic origin, and the T3SSHIGH and T3SSLOW subpopulations show differences in virulence. T3SS bistability requires the transcriptional activator HrpL, the double negative regulatory loop established by HrpV and HrpG, and may be enhanced through a positive feedback loop involving HrpA, the main component of the T3SS pilus. To our knowledge, this is the first example of phenotypic heterogeneity in the expression of virulence determinants during colonization of a non-mammalian host. Ministerio de Ciencia e Innovación BIO2009-11516, AGL2010-22287-C02-2 Ministerio de Economía y Competitividad BIO2012-35641, BIO2015-64391- R

Published
2016

31. Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host

Author

Universidad de Sevilla. Departamento de Genética, Rufián, José S., Sánchez Romero, María Antonia, López Márquez, Diego, Macho, Alberto P., Mansfield, John W., Arnold, Dawn L., Ruiz Albert, Javier, Casadesús Pursals, Josep, Beuzón, Carmen R., Universidad de Sevilla. Departamento de Genética, Rufián, José S., Sánchez Romero, María Antonia, López Márquez, Diego, Macho, Alberto P., Mansfield, John W., Arnold, Dawn L., Ruiz Albert, Javier, Casadesús Pursals, Josep, and Beuzón, Carmen R.

Abstract

Bacterial microcolonies with heterogeneous sizes are formed during colonization of Phaseolus vulgaris by Pseudomonas syringae. Heterogeneous expression of structural and regulatory components of the P. syringae type III secretion system (T3SS), essential for colonization of the host apoplast and disease development, is likewise detected within the plant apoplast. T3SS expression is bistable in the homogeneous environment of nutrient-limited T3SS-inducing medium, suggesting that subpopulation formation is not a response to different environmental cues. T3SS bistability is reversible, indicating a non-genetic origin, and the T3SSHIGH and T3SSLOW subpopulations show differences in virulence. T3SS bistability requires the transcriptional activator HrpL, the double negative regulatory loop established by HrpV and HrpG, and may be enhanced through a positive feedback loop involving HrpA, the main component of the T3SS pilus. To our knowledge, this is the first example of phenotypic heterogeneity in the expression of virulence determinants during colonization of a non-mammalian host.

Published
2016

32. Hrp[Z.sub.Psph] from the plant pathogen Pseudomonas syringae pv. phaseolicola binds to lipid bilayers and forms an ion-conducting pore in vitro

Author

Lee, Justin, Klusener, Birgit, Tsiamis, George, Stevens, Conrad, Neyt, Cecile, Tampakaki, Anastasia P., Panopoulos, Nickolas J., Noller, Joachim, Weiler, Elmar W., Cornelis, Guy R., Mansfield, John W., and Nurnberger, Thorsten

Subjects
Bacteria, Pathogenic -- Genetic aspects, Bacterial genetics -- Research, Science and technology
Abstract

The hrp gene clusters of plant pathogenic bacteria control pathogenicity on their host plants and ability to elicit the hypersensitive reaction in resistant plants. Some hrp gene products constitute elements of the type III secretion system, by which effector proteins are exported and delivered into plant cells. Here, we show that the hrpZ gene product from the bean halo-blight pathogen, Pseudomonas syringae pv. phaseolicola (Hrp[Z.sub.Psph]), is secreted in an hrp-dependent manner in P. syringae pv. phaseolicola and exported by the type III secretion system in the mammalian pathogen Yersinia enterocolitica. Hrp[Z.sub.Psph] was found to associate stably with liposomes and synthetic bilayer membranes. Under symmetric ionic conditions, addition of 2 nM of purified recombinant Hrp[Z.sub.Psph] to the cis compartment of planar lipid bilayers provoked an ion current with a large unitary conductivity of 207 pS. Hrp[Z.sub.Psph]-related proteins from P. syringae pv. tomato or syringae triggered ion currents similar to those stimulated by Hrp[Z.sub.Psph]. The Hrp[Z.sub.Psph]-mediated ion-conducting pore was permeable for cations but did not mediate fluxes of [Cl.sup.-]. Such pore-forming activity may allow nutrient release and/or delivery of virulence factors during bacterial colonization of host plants.

Published
2001

33. Rapid, automated detection of stem canker symptoms in woody perennials using artificial neural network analysis

Author

Li, Bo, Hulin, Michelle T., Brain, Philip, Mansfield, John W., Jackson, Robert W., Harrison, Richard J., Li, Bo, Hulin, Michelle T., Brain, Philip, Mansfield, John W., Jackson, Robert W., and Harrison, Richard J.

Abstract

Background: Pseudomonas syringae can cause stem necrosis and canker in a wide range of woody species including cherry, plum, peach, horse chestnut and ash. The detection and quantification of lesion progression over time in woody tissues is a key trait for breeders to select upon for resistance. Results: In this study a general, rapid and reliable approach to lesion quantification using image recognition and an artificial neural network model was developed. This was applied to screen both the virulence of a range of P. syringae pathovars and the resistance of a set of cherry and plum accessions to bacterial canker. The method developed was more objective than scoring by eye and allowed the detection of putatively resistant plant material for further study. Conclusions: Automated image analysis will facilitate rapid screening of material for resistance to bacterial and other phytopathogens, allowing more efficient selection and quantification of resistance responses.

Published
2015

35. Confocal microscopy reveals <italic>in planta</italic> dynamic interactions between pathogenic, avirulent and non‐pathogenic <italic>Pseudomonas syringae</italic> strains.

Author

Rufián, José S., Macho, Alberto P., Corry, David S., Mansfield, John W., Ruiz‐Albert, Javier, Arnold, Dawn L., and Beuzón, Carmen R.

Subjects
PHYTOPATHOGENIC microorganisms, PSEUDOMONAS syringae, PLANT genomes, BACTERIAL population, CONFOCAL microscopy, COMPUTATIONAL complexity
Abstract

Summary: Recent advances in genomics and single‐cell analysis have demonstrated the extraordinary complexity reached by microbial populations within their hosts. Communities range from complex multispecies groups to homogeneous populations differentiating into lineages through genetic or non‐genetic mechanisms. Diversity within bacterial populations is recognized as a key driver of the evolution of animal pathogens. In plants, however, little is known about how interactions between different pathogenic and non‐pathogenic variants within the host impact on defence responses, or how the presence within a mixture may affect the development or the fate of each variant. Using confocal fluorescence microscopy, we analysed the colonization of the plant apoplast by individual virulence variants of Pseudomonas syringae within mixed populations. We found that non‐pathogenic variants can proliferate and even spread beyond the inoculated area to neighbouring tissues when in close proximity to pathogenic bacteria. The high bacterial concentrations reached at natural entry points promote such interactions during the infection process. We also found that a diversity of interactions take place at a cellular level between virulent and avirulent variants, ranging from dominant negative effects on proliferation of virulent bacteria to in trans suppression of defences triggered by avirulent bacteria. Our results illustrate the spatial dynamics and complexity of the interactions found within mixed infections, and their potential impact on pathogen evolution. [ABSTRACT FROM AUTHOR]

Published
2018
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37. Pseudomonas syringae pv. phaseolicola: from ‘has bean’ to supermodel

Author

ARNOLD, DAWN L., LOVELL, HELEN C., JACKSON, ROBERT W., and MANSFIELD, JOHN W.

Subjects
Pathogen Profiles, food and beverages, Pseudomonas syringae, Fabaceae, Gene Expression Regulation, Bacterial, Plant Diseases
Abstract

Pseudomonas syringae pv. phaseolicola causes halo blight of the common bean, Phaseolus vulgaris, worldwide and remains difficult to control. Races of the pathogen cause either disease symptoms or a resistant hypersensitive response on a series of differentially reacting bean cultivars. The molecular genetics of the interaction between P. syringae pv. phaseolicola and bean, and the evolution of bacterial virulence, have been investigated in depth and this research has led to important discoveries in the field of plant–microbe interactions. In this review, we discuss several of the areas of study that chart the rise of P. syringae pv. phaseolicola from a common pathogen of bean plants to a molecular plant‐pathogen supermodel bacterium. Taxonomy: Bacteria; Proteobacteria, gamma subdivision; order Pseudomonadales; family Pseudomonadaceae; genus Pseudomonas; species Pseudomonas syringae; Genomospecies 2; pathogenic variety phaseolicola. Microbiological properties: Gram‐negative, aerobic, motile, rod‐shaped, 1.5 µm long, 0.7–1.2 µm in diameter, at least one polar flagellum, optimal temperatures for growth of 25–30 °C, oxidase negative, arginine dihydrolase negative, levan positive and elicits the hypersensitive response on tobacco. Host range: Major bacterial disease of common bean (Phaseolus vulgaris) in temperate regions and above medium altitudes in the tropics. Natural infections have been recorded on several other legume species, including all members of the tribe Phaseoleae with the exception of Desmodium spp. and Pisum sativum. Disease symptoms: Water‐soaked lesions on leaves, pods, stems or petioles, that quickly develop greenish‐yellow haloes on leaves at temperatures of less than 23 °C. Infected seeds may be symptomless, or have wrinkled or buttery‐yellow patches on the seed coat. Seedling infection is recognized by general chlorosis, stunting and distortion of growth. Epidemiology: Seed borne and disseminated from exudation by water‐splash and wind occurring during rainfall. Bacteria invade through wounds and natural openings (notably stomata). Weedy and cultivated alternative hosts may also harbour the bacterium. Disease control: Some measure of control is achieved with copper formulations and streptomycin. Pathogen‐free seed and resistant cultivars are recommended. Useful websites: Pseudomonas–plant interaction http://www.pseudomonas‐syringae.org/; PseudoDB http://xbase.bham.ac.uk/pseudodb/; Plant Associated and Environmental Microbes Database (PAMDB) http://genome.ppws.vt.edu/cgi‐bin/MLST/home.pl; PseudoMLSA Database http://www.uib.es/microbiologiaBD/Welcome.html

Published
2011

38. In planta conditions induce genomic changes in Pseudomonas syringae pv. phaseolicola

Author

LOVELL, HELEN C., JACKSON, ROBERT W., MANSFIELD, JOHN W., GODFREY, SCOTT A. C., HANCOCK, JOHN T., DESIKAN, RADHIKA, and ARNOLD, DAWN L.

Subjects
Phaseolus, Genomic Islands, fungi, Arabidopsis, food and beverages, Pseudomonas syringae, Cell Count, Replication Origin, Original Articles, Electrophoresis, Gel, Pulsed-Field, Phenotype, Host-Pathogen Interactions, Tobacco, Cloning, Molecular, Genome, Bacterial, Plasmids
Abstract

The co-evolution of bacterial plant pathogens and their hosts is a complex and dynamic process. Plant resistance can impose stress on invading pathogens that can lead to, and select for, beneficial changes in the bacterial genome. The Pseudomonas syringae pv. phaseolicola (Pph) genomic island PPHGI-1 carries an effector gene, avrPphB (hopAR1), which triggers the hypersensitive reaction in bean plants carrying the R3 resistance gene. Interaction between avrPphB and R3 generates an antimicrobial environment within the plant, resulting in the excision of PPHGI-1 and its loss from the genome. The loss of PPHGI-1 leads to the generation of a Pph strain able to cause disease in the plant. In this study, we observed that lower bacterial densities inoculated into resistant bean (Phaseolus vulgaris) plants resulted in quicker PPHGI-1 loss from the population, and that loss of the island was strongly influenced by the type of plant resistance encountered by the bacteria. In addition, we found that a number of changes occurred in the bacterial genome during growth in the plant, whether or not PPHGI-1 was lost. We also present evidence that the circular PPHGI-1 episome is able to replicate autonomously when excised from the genome. These results shed more light onto the plasticity of the bacterial genome as it is influenced by in planta conditions.

Published
2010

39. In vitro antimicrobial activity and fungitoxicity of camalexin from Arabidopsis thaliana against Botrytis cinerea

Author

Chong, Khim Phin, Mansfield, John W., Bennett, Mark H. R., Rossiter, J. F., Chong, Khim Phin, Mansfield, John W., Bennett, Mark H. R., and Rossiter, J. F.

Abstract

The antimicrobial activity and fungitoxicity of phytoalexin from Arabidopsis thaliana, camalexin against Botrytis cinerea had been studied in vitro. In a series of experiments, the activity of camalexin had been measured against spores and various types of germ tubes of B. cinerea. Activities were assessed based on the percentage of germination and mortality of germ tube besides germ tube development after challenged by camalexin. We found ungerminated conidia were more susceptible than older sporelings to the fungitoxic and inhibitory effects of camalexin. Higher concentrations of camalexin tested, produced significantly higher percentage of mortality and found to be more inhibitory compared to other lower concentrations tested for both conidia and germ tube. © Global Science Publications.

Published
2007

40. Rapid, automated detection of stem canker symptoms in woody perennials using artificial neural network analysis.

Author

Bo Li, Hulin, Michelle T., Brain, Philip, Mansfield, John W., Jackson, Robert W., and Harrison, Richard J.

Subjects
CANKER (Plant disease), PERENNIALS, SYMPTOMS, ARTIFICIAL neural networks, PHYTOPATHOGENIC microorganisms
Abstract

Background: Pseudomonas syringae can cause stem necrosis and canker in a wide range of woody species including cherry, plum, peach, horse chestnut and ash. The detection and quantification of lesion progression over time in woody tissues is a key trait for breeders to select upon for resistance. Results: In this study a general, rapid and reliable approach to lesion quantification using image recognition and an artificial neural network model was developed. This was applied to screen both the virulence of a range of P. syringae pathovars and the resistance of a set of cherry and plum accessions to bacterial canker. The method developed was more objective than scoring by eye and allowed the detection of putatively resistant plant material for further study. Conclusions: Automated image analysis will facilitate rapid screening of material for resistance to bacterial and other phytopathogens, allowing more efficient selection and quantification of resistance responses. [ABSTRACT FROM AUTHOR]

Published
2015
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