Your search keyword '"Aphanomyces pathogenicity"' showing total 45 results

1. High variation of virulence in Aphanomyces astaci strains lacks association with pathogenic traits and mtDNA haplogroups.

Author

Francesconi C, Boštjančić LL, Bonassin L, Schardt L, Rutz C, Makkonen J, Schwenk K, Lecompte O, and Theissinger K

Subjects

Virulence genetics, Animals, Haplotypes, Astacoidea microbiology, Europe, North America, Aphanomyces pathogenicity, Aphanomyces genetics, Aphanomyces physiology, DNA, Mitochondrial genetics

Abstract

Introduced into Europe from North America 150 years ago alongside its native crayfish hosts, the invasive pathogen Aphanomyces astaci is considered one of the main causes of European crayfish population decline. For the past two centuries, this oomycete pathogen has been extensively studied, with the more recent efforts focused on containing and monitoring its spread across the continent. However, after the recent introduction of new strains, the newly-discovered diversity of A. astaci in North America and several years of coevolution with its European host, a new assessment of the traits linked to the pathogen's virulence is much needed. To fill this gap, we investigated the presence of phenotypic patterns (i.e., in vitro growth and sporulation rates) possibly associated with the pathogen's virulence (i.e., induced mortality in crayfish) in a collection of 14 A. astaci strains isolated both in North America and in Europe. The results highlighted a high variability in virulence, growth rate and motile spore production among the different strains, while the total-sporulation rate was more similar across strains. Surprisingly, growth and sporulation rates were not significantly correlated with virulence. Furthermore, none of the analysed parameters, including virulence, was significantly different among the major A. astaci haplogroups. These results indicate that each strain is defined by a characteristic combination of pathogenic features, specifically assembled for the environment and host faced by each strain. Thus, canonical mitochondrial markers, often used to infer the pathogen's virulence, are not accurate tools to deduce the phenotype of A. astaci strains. As the diversity of A. astaci strains in Europe is bound to increase due to translocations of new carrier crayfish species from North America, there is an urgent need to deepen our understanding of A. astaci's virulence variability and its ability to adapt to new hosts and environments., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

2. Lytic Polysaccharide Monooxygenases as Chitin-Specific Virulence Factors in Crayfish Plague.

Author

Sabbadin F, Henrissat B, Bruce NC, and McQueen-Mason SJ

Subjects

Animals, Chitin metabolism, Animal Diseases microbiology, Aphanomyces enzymology, Aphanomyces pathogenicity, Astacoidea microbiology, Infections microbiology, Infections veterinary, Mixed Function Oxygenases metabolism, Virulence Factors metabolism

Abstract

The oomycete pathogen Aphanomyces astaci , also known as "crayfish plague", is an obligate fungal-like parasite of freshwater crustaceans and is considered responsible for the ongoing decline of native European crayfish populations. A. astaci is thought to secrete a wide array of effectors and enzymes that facilitate infection, however their molecular mechanisms have been poorly characterized. Here, we report the identification of AA15 lytic polysaccharide monooxygenases (LPMOs) as a new group of secreted virulence factors in A. astaci . We show that this enzyme family has greatly expanded in A. astaci compared to all other oomycetes, and that it may facilitate infection through oxidative degradation of crystalline chitin, the most abundant polysaccharide found in the crustacean exoskeleton. These findings reveal new roles for LPMOs in animal-pathogen interactions, and could help inform future strategies for the protection of farmed and endangered species.

Published

2021

3. A Comprehensive Review on Crustaceans' Immune System With a Focus on Freshwater Crayfish in Relation to Crayfish Plague Disease.

Author

Bouallegui Y

Subjects

Animals, Aphanomyces immunology, Astacoidea immunology, Astacoidea metabolism, Fresh Water, Hemocytes immunology, Hemocytes metabolism, Hemocytes parasitology, Host-Parasite Interactions, Immune System immunology, Immune System metabolism, Infections immunology, Infections metabolism, Infections parasitology, Receptors, Pattern Recognition metabolism, Signal Transduction, Aphanomyces pathogenicity, Astacoidea parasitology, Immune System parasitology, Immunity, Innate, Infections veterinary

Abstract

Freshwater crayfish immunity has received great attention due to the need for urgent conservation. This concern has increased the understanding of the cellular and humoral defense systems, although the regulatory mechanisms involved in these processes need updating. There are, however, aspects of the immune response that require clarification and integration. The particular issues addressed in this review include an overall description of the oomycete Aphanomyces astaci , the causative agent of the pandemic plague disease, which affects freshwater crayfish, and an overview of crustaceans' immunity with a focus on freshwater crayfish. It includes a classification system of hemocyte sub-types, the molecular factors involved in hematopoiesis and the differential role of the hemocyte subpopulations in cell-mediated responses, including hemocyte infiltration, inflammation, encapsulation and the link with the extracellular trap cell death pathway (ETosis). In addition, other topics discussed include the identity and functions of hyaline cells, the generation of neoplasia, and the emerging topic of the role of sessile hemocytes in peripheral immunity. Finally, attention is paid to the molecular execution of the immune response, from recognition by the pattern recognition receptors (PRRs), the role of the signaling network in propagating and maintaining the immune signals, to the effector elements such as the putative function of the Down syndrome adhesion molecules (Dscam) in innate immune memory., Competing Interests: The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bouallegui.)

Published

2021

4. Transcriptome analysis reveals immune pathways underlying resistance in the common carp Cyprinus carpio against the oomycete Aphanomyces invadans.

Author

Verma DK, Peruzza L, Trusch F, Yadav MK, Ravindra, Shubin SV, Morgan KL, Mohindra V, Hauton C, van West P, Pradhan PK, and Sood N

Subjects

Animals, Aphanomyces pathogenicity, Carps immunology, Carps microbiology, Chemokines genetics, Chemokines metabolism, Fish Diseases immunology, Fish Proteins genetics, Fish Proteins metabolism, Histocompatibility Antigens Class I genetics, Histocompatibility Antigens Class I metabolism, Infections immunology, Phagocytosis, Carps genetics, Disease Resistance genetics, Fish Diseases genetics, Infections genetics, Transcriptome

Abstract

Infection with Aphanomyces invadans is a serious fish disease with major global impacts. Despite affecting over 160 fish species, some of the species like the common carp Cyprinus carpio are resistant to A. invadans infection. In the present study, we investigated the transcriptomes of head kidney of common carp experimentally infected with A. invadans. In time course analysis, 5288 genes were found to be differentially expressed (DEGs), of which 731 were involved in 21 immune pathways. The analysis of immune-related DEGs suggested that efficient processing and presentation of A. invadans antigens, enhanced phagocytosis, recognition of pathogen-associated molecular patterns, and increased recruitment of leukocytes to the sites of infection contribute to resistance of common carp against A. invadans. Herein, we provide a systematic understanding of the disease resistance mechanisms in common carp at molecular level as a valuable resource for developing disease management strategies for this devastating fish-pathogenic oomycete., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

5. The chaperone Lhs1 contributes to the virulence of the fish-pathogenic oomycete Aphanomyces invadans.

Author

Iberahim NA, Sood N, Pradhan PK, van den Boom J, van West P, and Trusch F

Subjects

Animals, Proteomics, Aphanomyces pathogenicity, Fish Diseases microbiology, Molecular Chaperones physiology, Virulence

Abstract

Oomycetes are fungal-like eukaryotes and many of them are pathogens that threaten natural ecosystems and cause huge financial losses for the aqua- and agriculture industry. Amongst them, Aphanomyces invadans causes Epizootic Ulcerative Syndrome (EUS) in fish which can be responsible for up to 100% mortality in aquaculture. As other eukaryotic pathogens, in order to establish and promote an infection, A. invadans secretes proteins, which are predicted to overcome host defence mechanisms and interfere with other processes inside the host. We investigated the role of Lhs1 which is part of an ER-resident complex that generally promotes the translocation of proteins from the cytoplasm into the ER for further processing and secretion. Interestingly, proteomic studies reveal that only a subset of virulence factors are affected by the silencing of AiLhs1 in A. invadans indicating various secretion pathways for different proteins. Importantly, changes in the secretome upon silencing of AiLhs1 significantly reduces the virulence of A. invadans in the infection model Galleriamellonella. Furthermore, we show that AiLhs1 is important for the production of zoospores and their cluster formation. This renders proteins required for protein ER translocation as interesting targets for the potential development of alternative disease control strategies in agri- and aquaculture., (Copyright © 2020 British Mycological Society. Published by Elsevier Ltd. All rights reserved.)

Published

2020

6. Molecular insights into the mechanisms of susceptibility of Labeo rohita against oomycete Aphanomyces invadans.

Author

Pradhan PK, Verma DK, Peruzza L, Gupta S, Haq SA, Shubin SV, Morgan KL, Trusch F, Mohindra V, Hauton C, van West P, and Sood N

Subjects

Animals, Cyprinidae genetics, Cyprinidae immunology, Disease Susceptibility, Fish Diseases etiology, Fish Diseases immunology, Fish Proteins immunology, Head Kidney physiology, Reproducibility of Results, Reverse Transcriptase Polymerase Chain Reaction, Transcriptome, Aphanomyces pathogenicity, Cyprinidae microbiology, Fish Diseases microbiology, Fish Proteins genetics, Mycoses veterinary

Abstract

Aphanomyces invadans, the causative agent of epizootic ulcerative syndrome, is one of the most destructive pathogens of freshwater fishes. To date, the disease has been reported from over 160 fish species in 20 countries and notably, this is the first non-salmonid disease that has resulted in major impacts globally. In particular, Indian major carps (IMCs) are highly susceptible to this disease. To increase our knowledge particularly with regards to host immune response against A. invadans infection in a susceptible host, the gene expression profile in head kidney of A. invadans-infected and control rohu, Labeo rohita was investigated using RNA sequencing. Time course analysis of RNA-Seq data revealed 5608 differentially expressed genes, involved among others in Antigen processing and presentation, Leukocyte transendothelial migration, IL-17 signaling, Chemokine signaling, C-type lectin receptor signaling and Toll-like receptor signaling pathways. In the affected pathways, a number of immune genes were found to be downregulated, suggesting an immune evasion strategy of A. invadans in establishing the infection. The information generated in this study offers first systematic mechanistic understanding of the host-pathogen interaction that might underpin the development of new management strategies for this economically devastating fish-pathogenic oomycete A. invadans.

Published

2020

7. A local score approach improves GWAS resolution and detects minor QTL: application to Medicago truncatula quantitative disease resistance to multiple Aphanomyces euteiches isolates.

Author

Bonhomme M, Fariello MI, Navier H, Hajri A, Badis Y, Miteul H, Samac DA, Dumas B, Baranger A, Jacquet C, and Pilet-Nayel ML

Subjects

Chromosome Mapping, Chromosomes, Plant genetics, Disease Resistance genetics, Genetic Linkage genetics, Genome-Wide Association Study, Linkage Disequilibrium, Medicago truncatula microbiology, Phenotype, Plant Diseases genetics, Plant Diseases microbiology, Plant Roots growth & development, Plant Roots microbiology, Polymorphism, Single Nucleotide genetics, Aphanomyces pathogenicity, Medicago truncatula genetics, Plant Roots genetics, Quantitative Trait Loci genetics

Abstract

Quantitative trait loci (QTL) with small effects, which are pervasive in quantitative phenotypic variation, are difficult to detect in genome-wide association studies (GWAS). To improve their detection, we propose to use a local score approach that accounts for the surrounding signal due to linkage disequilibrium, by accumulating association signals from contiguous single markers. Simulations revealed that, in a GWAS context with high marker density, the local score approach outperforms single SNP p-value-based tests for detecting minor QTL (heritability of 5-10%) and is competitive with regard to alternative methods, which also aggregate p-values. Using more than five million SNPs, this approach was applied to identify loci involved in Quantitative Disease Resistance (QDR) to different isolates of the plant root rot pathogen Aphanomyces euteiches, from a GWAS performed on a collection of 174 accessions of the model legume Medicago truncatula. We refined the position of a previously reported major locus, underlying MYB/NB-ARC/tyrosine kinase candidate genes conferring resistance to two closely related A. euteiches isolates belonging to pea pathotype I. We also discovered a diversity of minor resistance QTL, not detected using p-value-based tests, some of which being putatively shared in response to pea (pathotype I and III) and/or alfalfa (race 1 and 2) isolates. Candidate genes underlying these QTL suggest pathogen effector recognition and plant proteasome as key functions associated with M. truncatula resistance to A. euteiches. GWAS on any organism can benefit from the local score approach to uncover many weak-effect QTL.

Published

2019

8. Mapping 15 years of crayfish plague in the Iberian Peninsula: The impact of two invasive species on the endangered native crayfish.

Author

Martín-Torrijos L, Kokko H, Makkonen J, Jussila J, and Diéguez-Uribeondo J

Subjects

Animals, Aphanomyces metabolism, Disease Outbreaks, Fresh Water, Haplotypes immunology, Introduced Species economics, Portugal, Spain, Aphanomyces pathogenicity, Astacoidea immunology, Astacoidea microbiology

Abstract

Crayfish plague, caused by the pathogen Aphanomyces astaci, is one of the main factors responsible for the decimation of the native European crayfish species Austropotamobius pallipes. In Spain, two North American freshwater crayfish species, Procambarus clarkii and Pacifastacus leniusculus, were intentionally introduced during the 1970s for aquaculture and fishery purposes. Since then, incidences of crayfish plague have been continually reported. In this work, we evaluated more than 50 diagnosed cases of crayfish plague that have occurred in the Iberian Peninsula since 2004 by performing a microscopic examination of infected specimens and by molecularly identifying and haplotyping the pathogen. Our results showed that (i) the pathogen A. astaci has been active 45 years since the first introductions of the invasive North American crayfish species in the Iberian Peninsula, and (ii) P. clarkii and P. leniusculus are chronic reservoirs of the crayfish plague pathogen. Moreover, our data confirmed a correspondence between pathogen origin and spread and the specific haplotypes carried by the North American invasive crayfish located in the vicinity of each outbreak. We generated a crayfish plague incidence map of the Iberian Peninsula that shows (i) a northern area, mainly inhabited by alien P. leniusculus, where crayfish plague cases are associated with the b-haplotype specific to P. leniusculus, and (ii) southern, central and eastern areas that are basically inhabited by alien P. clarkii, where crayfish plague cases are associated with the d1- and d2-haplotypes specific to P. clarkii. The results presented here are evidence of the long standing and negative impact of the two invasive crayfish species on the native species, indicating the need for more extensive control measures., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

9. A comparative transcriptome approach for identification of molecular changes in Aphanomyces invadans infected Channa striatus.

Author

Kumaresan V, Pasupuleti M, Arasu MV, Al-Dhabi NA, Arshad A, Amin SMN, Yusoff FM, and Arockiaraj J

Subjects

Animals, Aphanomyces pathogenicity, Asia, Base Sequence, Fish Diseases genetics, Fish Proteins genetics, Fishes genetics, RNA, Messenger genetics, Transcriptome genetics, Aphanomyces genetics, Gene Expression Profiling methods, Perciformes genetics

Abstract

Snakehead murrel, Channa striatus is an economically important aquatic species in Asia and are widely cultured and captured because of its nutritious and medicinal values. Their growth is predominantly affected by epizootic ulcerative syndrome (EUS) which is primarily caused by an oomycete fungus, Aphanomyces invadans. However, the molecular mechanism of immune response in murrel against this infection is still not clear. In this study, transcriptome technique was used to understand the molecular changes involved in C. striatus during A. invadans infection. RNA from the control (CF) and infected fish (IF) groups were sequenced using Illumina Hi-seq sequencing technology. For control group, 28,952,608 clean reads were generated and de novo assembly was performed to produce 60,753 contigs. For fungus infected group, 25,470,920 clean reads were obtained and assembled to produce 58,654 contigs. Differential gene expression analysis revealed that a total of 146 genes were up-regulated and 486 genes were down regulated. Most of the differentially expressed genes were involved in innate immune mechanism such as pathogen recognition, signalling and antimicrobial mechanisms. Interestingly, few adaptive immune genes, especially immunoglobulins were also significantly up regulated during fungal infection. Also, the results were validated by qRT-PCR analysis. These results indicated the involvement of various immune genes involved in both innate and adaptive immune mechanism during fungal infection in C. striatus which provide new insights into murrel immune mechanisms against A. invadans.

Published

2018

10. Editing the genome of Aphanomyces invadans using CRISPR/Cas9.

Author

Majeed M, Soliman H, Kumar G, El-Matbouli M, and Saleh M

Subjects

Animals, Aphanomyces enzymology, Aphanomyces pathogenicity, CRISPR-Cas Systems, Fish Diseases parasitology, Gene Targeting, Genome, Perciformes parasitology, Ribonucleoproteins genetics, Serine Proteases genetics, Aphanomyces genetics

Abstract

Background: The clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) system is increasingly being used for genome editing experiments. It is a system to add, delete and/or replace parts of a gene in situ in a time- and cost-efficient manner. The genome of many organisms has been edited using this system. We tested the CRISPR/Cas9 system in Aphanomyces invadans, an oomycete, which is the causative agent of epizootic ulcerative syndrome (EUS) in many fish species. Extracellular proteases produced by this oomycete are believed to play a role in EUS virulence., Methods: We designed three single guide-RNAs (gRNA) to target A. invadans serine protease gene. These gRNAs were individually combined with the Cas9 to form ribo-nucleo-protein (RNP) complex. A. invadans protoplasts were then transfected with RNP complexes. After the transfection, the target gene was amplified and subjected to sequencing. Zoospores of A. invadans were also transfected with the RNP complex. Three groups of dwarf gourami (Trichogaster lalius) were then experimentally inoculated with (i) non-treated A. invadans zoospores; (ii) RNP-treated A. invadans zoospores; and (iii) autoclaved pond water as negative control, to investigate the effect of edited serine protease gene on the virulence of A. invadans in vivo., Results: Fluorescence microscopy showed sub-cellular localization of RNP complex in A. invadans protoplasts and zoospores. Sequencing results from the protoplast DNA revealed a point mutation in the target gene. A matching mutation was also detected in zoospores after similar treatment with the same RNP complex. In vivo results showed that the CRISPR/Cas9-treated A. invadans zoospores did not produce EUS clinical signs in the fish. These results were then confirmed by histopathological staining of the muscle sections using Gomori's methenamine silver nitrate and hematoxylin and eosin stains., Conclusions: Results obtained in this study indicate that the RNP complex caused effective mutation in the target gene. This hindered the production of serine protease, which ultimately impeded the manifestation of EUS in the fish. Our methods thus establish a promising approach for functional genomics studies in A. invadans and provide novel avenues to develop effective strategies to control this pathogen.

Published

2018

11. Genomics analysis of Aphanomyces spp. identifies a new class of oomycete effector associated with host adaptation.

Author

Gaulin E, Pel MJC, Camborde L, San-Clemente H, Courbier S, Dupouy MA, Lengellé J, Veyssiere M, Le Ru A, Grandjean F, Cordaux R, Moumen B, Gilbert C, Cano LM, Aury JM, Guy J, Wincker P, Bouchez O, Klopp C, and Dumas B

Subjects

Acclimatization genetics, Acclimatization physiology, Animals, Aphanomyces genetics, Oomycetes genetics, Oomycetes pathogenicity, Plant Diseases microbiology, Aphanomyces pathogenicity, Genomics methods

Abstract

Background: Oomycetes are a group of filamentous eukaryotic microorganisms that have colonized all terrestrial and oceanic ecosystems, and they include prominent plant pathogens. The Aphanomyces genus is unique in its ability to infect both plant and animal species, and as such exemplifies oomycete versatility in adapting to different hosts and environments. Dissecting the underpinnings of oomycete diversity provides insights into their specificity and pathogenic mechanisms., Results: By carrying out genomic analyses of the plant pathogen A. euteiches and the crustacean pathogen A. astaci, we show that host specialization is correlated with specialized secretomes that are adapted to the deconstruction of the plant cell wall in A. euteiches and protein degradation in A. astaci. The A. euteiches genome is characterized by a large repertoire of small secreted protein (SSP)-encoding genes that are highly induced during plant infection, and are not detected in other oomycetes. Functional analysis revealed an SSP from A. euteiches containing a predicted nuclear-localization signal which shuttles to the plant nucleus and increases plant susceptibility to infection., Conclusion: Collectively, our results show that Aphanomyces host adaptation is associated with evolution of specialized secretomes and identify SSPs as a new class of putative oomycete effectors.

Published

2018

12. Nitrogen modulation of Medicago truncatula resistance to Aphanomyces euteiches depends on plant genotype.

Author

Thalineau E, Fournier C, Gravot A, Wendehenne D, Jeandroz S, and Truong HN

Subjects

Gene Expression Regulation, Plant, Genotype, Nitrates metabolism, Plant Proteins genetics, Aphanomyces pathogenicity, Medicago truncatula metabolism, Medicago truncatula microbiology, Nitrogen metabolism, Plant Proteins metabolism

Abstract

Nitrogen (N) availability can impact plant resistance to pathogens by the regulation of plant immunity. To better understand the links between N nutrition and plant defence, we analysed the impact of N availability on Medicago truncatula resistance to the root pathogen Aphanomyces euteiches. This oomycete is considered to be the most limiting factor for legume production. Ten plant genotypes were tested in vitro for their resistance to A. euteiches in either complete or nitrate-deficient medium. N deficiency led to enhanced or reduced susceptibility depending on the plant genotype. Focusing on four genotypes displaying contrasting responses, we determined the impact of N deficiency on plant growth and shoot N concentration, and performed expression analyses on N- and defence-related genes, as well as the quantification of soluble phenolics and different amino acids in roots. Our analyses suggest that N modulation of plant resistance is not linked to plant response to N deprivation or to mechanisms previously identified to be involved in plant resistance. Furthermore, our studies highlight a role of glutamine in mediating the susceptibility to A. euteiches in M. truncatula., (© 2017 BSPP AND JOHN WILEY & SONS LTD.)

Published

2018

13. Recent acute crayfish mortality reveals Aphanomyces astaci presence in Bosnia and Herzegovina.

Author

Mrugała A, Šanda R, Petrusek A, Marić D, and Vukić J

Subjects

Animals, Bosnia and Herzegovina, Host-Pathogen Interactions, Infections microbiology, Aphanomyces pathogenicity, Astacoidea microbiology, Infections veterinary

Abstract

Although the introduction of the crayfish plague pathogen Aphanomyces astaci to Europe is responsible for substantial declines in native crayfish populations throughout the whole continent, its presence has never been officially confirmed in many European regions, including most of the Balkan Peninsula. We demonstrate that the recent crayfish mortality observed in Bosnia and Herzegovina (Mostarsko blato karst field, Neretva river drainage) was caused by A. astaci. The causative strain is known only from European crayfish, indicating that A. astaci poses a threat to native species in this region, even in the absence of its main vectors, the North American crayfish., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

14. Aphanomyces astaci isolate from latently infected stone crayfish (Austropotamobius torrentium) population is virulent.

Author

Jussila J, Vrezec A, Jaklič T, Kukkonen H, Makkonen J, and Kokko H

Subjects

Animals, Virulence, Aphanomyces isolation & purification, Aphanomyces pathogenicity, Astacoidea microbiology, Infections microbiology

Abstract

Aphanomyces astaci infection is the cause of crayfish plague in European crayfish. Here the virulence of an A. astaci As strain isolated from apparently healthy stone crayfish (Austropotamobius torrentium) from Slovenia was compared to that of the Psl-Puujärvi A. astaci isolate in 3 crayfish species: noble crayfish (Astacus astacus), signal crayfish (Pacifastacus leniusculus) from Finland and stone crayfish from Slovenia. All 3 crayfish species were challenged with PsI-Puujärvi A. astaci and succumbed to crayfish plague, with both noble crayfish and stone crayfish showing 100% mortality, while 25% of the signal crayfish died during the challenge. In comparison, the As-Slovenia A. astaci isolate was pathogenic for noble crayfish but not for signal crayfish or stone crayfish. This finding suggests that A. astaci virulence could be species specific and a strain from latent A. astaci infection in one native European crayfish species could be detrimental to other native European crayfish species., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

15. Apparent interspecific transmission of Aphanomyces astaci from invasive signal to virile crayfish in a sympatric wild population.

Author

James J, Mrugała A, Oidtmann B, Petrusek A, and Cable J

Subjects

Animals, United Kingdom, Virulence, Aphanomyces pathogenicity, Astacoidea microbiology, Fish Diseases transmission, Infections transmission

Abstract

The crayfish plague pathogen (Aphanomyces astaci) causes mass mortalities of European crayfish when transmitted from its original North American crayfish hosts. Little is known, however, about interspecific transmission of the pathogen between different American crayfish species, although evidence from trade of ornamental crayfish suggests this may happen in captivity. We screened signal and virile crayfish for A. astaci at allopatric and sympatric sites in a UK river. Whilst the pathogen was detected in signal crayfish from both sites, infected virile crayfish were only found in sympatry. Genotyping of A. astaci from virile crayfish suggested the presence of a strain related to one infecting British signal crayfish. We conclude that virile crayfish likely contracted A. astaci interspecifically from infected signal crayfish. Interspecific transmission of A. astaci strains differing in virulence between American carrier species may influence the spread of this pathogen in open waters with potential exacerbated effects on native European crayfish., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

16. Oomycete Species Associated with Soybean Seedlings in North America-Part II: Diversity and Ecology in Relation to Environmental and Edaphic Factors.

Author

Rojas JA, Jacobs JL, Napieralski S, Karaj B, Bradley CA, Chase T, Esker PD, Giesler LJ, Jardine DJ, Malvick DK, Markell SG, Nelson BD, Robertson AE, Rupe JC, Smith DL, Sweets LE, Tenuta AU, Wise KA, and Chilvers MI

Subjects

Aphanomyces classification, Aphanomyces isolation & purification, Aphanomyces pathogenicity, Ecology, Environment, High-Throughput Nucleotide Sequencing, Oomycetes classification, Oomycetes pathogenicity, Phytophthora classification, Phytophthora isolation & purification, Phytophthora pathogenicity, Plant Diseases prevention & control, Plant Roots parasitology, Pythium classification, Pythium isolation & purification, Pythium pathogenicity, Seedlings parasitology, Seeds parasitology, Sequence Analysis, DNA, Virulence, Genetic Variation, Oomycetes isolation & purification, Plant Diseases parasitology, Glycine max parasitology

Abstract

Soybean (Glycine max (L.) Merr.) is produced across a vast swath of North America, with the greatest concentration in the Midwest. Root rot diseases and damping-off are a major concern for production, and the primary causal agents include oomycetes and fungi. In this study, we focused on examination of oomycete species distribution in this soybean production system and how environmental and soil (edaphic) factors correlate with oomycete community composition at early plant growth stages. Using a culture-based approach, 3,418 oomycete isolates were collected from 11 major soybean-producing states and most were identified to genus and species using the internal transcribed spacer region of the ribosomal DNA. Pythium was the predominant genus isolated and investigated in this study. An ecology approach was taken to understand the diversity and distribution of oomycete species across geographical locations of soybean production. Metadata associated with field sample locations were collected using geographical information systems. Operational taxonomic units (OTU) were used in this study to investigate diversity by location, with OTU being defined as isolate sequences with 97% identity to one another. The mean number of OTU ranged from 2.5 to 14 per field at the state level. Most OTU in this study, classified as Pythium clades, were present in each field in every state; however, major differences were observed in the relative abundance of each clade, which resulted in clustering of states in close proximity. Because there was similar community composition (presence or absence) but differences in OTU abundance by state, the ordination analysis did not show strong patterns of aggregation. Incorporation of 37 environmental and edaphic factors using vector-fitting and Mantel tests identified 15 factors that correlate with the community composition in this survey. Further investigation using redundancy analysis identified latitude, longitude, precipitation, and temperature as factors that contribute to the variability observed in community composition. Soil parameters such as clay content and electrical conductivity also affected distribution of oomycete species. The present study suggests that oomycete species composition across geographical locations of soybean production is affected by a combination of environmental and edaphic conditions. This knowledge provides the basis to understand the ecology and distribution of oomycete species, especially those able to cause diseases in soybean, providing cues to develop management strategies.

Published

2017

17. Oomycete Species Associated with Soybean Seedlings in North America-Part I: Identification and Pathogenicity Characterization.

Author

Alejandro Rojas J, Jacobs JL, Napieralski S, Karaj B, Bradley CA, Chase T, Esker PD, Giesler LJ, Jardine DJ, Malvick DK, Markell SG, Nelson BD, Robertson AE, Rupe JC, Smith DL, Sweets LE, Tenuta AU, Wise KA, and Chilvers MI

Subjects

Aphanomyces classification, Aphanomyces isolation & purification, Aphanomyces pathogenicity, Geography, Oomycetes classification, Oomycetes pathogenicity, Phylogeny, Phytophthora classification, Phytophthora isolation & purification, Phytophthora pathogenicity, Plant Diseases prevention & control, Plant Roots parasitology, Pythium classification, Pythium isolation & purification, Pythium pathogenicity, Seedlings parasitology, Seeds parasitology, Virulence, Oomycetes isolation & purification, Plant Diseases parasitology, Glycine max parasitology

Abstract

Oomycete pathogens are commonly associated with soybean root rot and have been estimated to reduce soybean yields in the United States by 1.5 million tons on an annual basis. Limited information exists regarding the frequency and diversity of oomycete species across the major soybean-producing regions in North America. A survey was conducted across 11 major soybean-producing states in the United States and the province of Ontario, Canada. In 2011, 2,378 oomycete cultures were isolated from soybean seedling roots on a semiselective medium (CMA-PARPB) and were identified by sequencing of the internal transcribed spacer region of rDNA. Sequence results distinguished a total of 51 Pythium spp., three Phytophthora spp., three Phytopythium spp., and one Aphanomyces sp. in 2011, with Pythium sylvaticum (16%) and P. oopapillum (13%) being the most prevalent. In 2012, the survey was repeated, but, due to drought conditions across the sampling area, fewer total isolates (n = 1,038) were collected. Additionally, in 2012, a second semiselective medium (V8-RPBH) was included, which increased the Phytophthora spp. isolated from 0.7 to 7% of the total isolates. In 2012, 54 Pythium spp., seven Phytophthora spp., six Phytopythium spp., and one Pythiogeton sp. were recovered, with P. sylvaticum (14%) and P. heterothallicum (12%) being recovered most frequently. Pathogenicity and virulence were evaluated with representative isolates of each of the 84 species on soybean cv. Sloan. A seed-rot assay identified 13 and 11 pathogenic species, respectively, at 13 and 20°C. A seedling-root assay conducted at 20°C identified 43 species as pathogenic, having a significantly detrimental effect on the seedling roots as compared with the noninoculated control. A total of 15 species were pathogenic in both the seed and seedling assays. This study provides a comprehensive characterization of oomycete species present in soybean seedling roots in the major production areas in the United States and Ontario, Canada and provides a basis for disease management and breeding programs.

Published

2017

18. Development and characterization of microsatellite markers for the oomyceta Aphanomyces euteiches.

Author

Mieuzet L, Quillévéré A, Pilet ML, and Le May C

Subjects

Alleles, Aphanomyces pathogenicity, Chromosome Mapping, Pisum sativum genetics, Plant Diseases genetics, Plant Diseases microbiology, Plant Roots genetics, Plant Roots microbiology, Aphanomyces genetics, Microsatellite Repeats genetics, Pisum sativum microbiology

Abstract

Aphanomyces euteiches Drechsler is a serious pathogen of leguminous crops that causes devastating root rot of pea worldwide. Given that A. euteiches is a diploid organism, robust, codominant markers are needed for population genetics studies. We have developed and screened a microsatellite-enriched small-insert genomic library for identification of A. euteiches SSR containing sequences. Fourteen out of the 48 primer pairs designed to amplify SSR, produced unambiguous polymorphic products in our test population of 94 isolates. The number of alleles at each locus ranged from one to four. The identification of new markers would enhance the ability to evaluate the genetic structure of A. euteiches populations, and pathogen evolution., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

19. Variation in the hyphal growth rate and the virulence of two genotypes of the crayfish plague organism Aphanomyces astaci.

Author

Viljamaa-Dirks S, Heinikainen S, Virtala AM, Torssonen H, and Pelkonen S

Subjects

Animals, Aphanomyces genetics, Aphanomyces growth & development, Aphanomyces pathogenicity, Genotype, Aphanomyces physiology, Astacoidea microbiology, Host-Pathogen Interactions

Abstract

Crayfish plague, a devastating disease of freshwater crayfish, is caused by an oomycete organism, Aphanomyces astaci. Currently five genotypes of A. astaci are known, but variable features between the strains or genotypes have not been studied extensively. This study analysed 28 isolates of the As genotype and 25 isolates of the Ps1 genotype and reveals that the radial growth rate is significantly (P < 0.001) different between these two genotypes, although highly variable inside the genotype As. Two Ps1 genotype isolates and two As genotype isolates with different radial growth rates were tested in an infection trial. Clear differences were detected in the development of mortality in the test groups. The representatives of the Ps1 genotype caused total mortality within a short time span. The As genotype isolates were much less virulent. The slow-growing As isolate showed higher virulence than the As isolate with a high growth capacity. Although slow growth could be one survival strategy of the pathogen, several other mechanisms are involved in the pathogenicity and warrant further studies., (© 2015 John Wiley & Sons Ltd.)

Published

2016

20. Innate immune response against an oomycete pathogen Aphanomyces invadans in common carp (Cyprinus carpio), a fish resistant to epizootic ulcerative syndrome.

Author

Yadav MK, Pradhan PK, Sood N, Chaudhary DK, Verma DK, Chauhan UK, Punia P, and Jena JK

Subjects

Animals, Aphanomyces pathogenicity, Fisheries, Fresh Water, India, Infections immunology, Aphanomyces immunology, Carps immunology, Fish Diseases immunology, Immunity, Innate immunology, Infections veterinary

Abstract

Infection with Aphanomyces invadans, also known as epizootic ulcerative syndrome, is a destructive disease of freshwater and brackishwater fishes. Although more than 130 species of fish have been confirmed to be susceptible to this disease, some of the commercially important fish species like common carp, milk fish and tilapia are reported to be resistant. Species that are naturally resistant to a particular disease, provide a potential model to study the mechanisms of resistance against that disease. In the present study, following experimental infection with A. invadans in common carp Cyprinus carpio, sequential changes in various innate immune parameters and histopathological alterations were monitored. Some of the studied innate immunity parameters viz. respiratory burst, alternative complement and total antiproteases activities of the infected common carp were higher compared to control fish, particularly at early stages of infection. On the other hand, some parameters such as myeloperoxidase, lysozyme and alpha-2 macroglobulin activities were not altered. Histopathological examination of the muscle at the site of injection revealed well developed granulomas at 12 days post infection, with subsequent regeneration of muscle fibers. From the results, it could be inferred that innate defense mechanisms of common carp are able to neutralize the virulence factors secreted by A. invadans, thereby, preventing its invasive spread and containing the infection. The results obtained here will help to better understand the mechanisms underlying resistance against A. invadans infection., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016

21. Effect of experimental exposure to differently virulent Aphanomyces astaci strains on the immune response of the noble crayfish Astacus astacus.

Author

Becking T, Mrugała A, Delaunay C, Svoboda J, Raimond M, Viljamaa-Dirks S, Petrusek A, Grandjean F, and Braquart-Varnier C

Subjects

Animals, Aphanomyces genetics, Aphanomyces pathogenicity, Astacoidea parasitology, Blood Cell Count, Genotype, Hemocytes, Monophenol Monooxygenase metabolism, Reactive Oxygen Species metabolism, Virulence, Aphanomyces immunology, Astacoidea immunology, Immunity, Innate

Abstract

European crayfish are sensitive to the crayfish plague pathogen, Aphanomyces astaci, carried by North American crayfish species due to their less effective immune defence mechanisms against this disease. During a controlled infection experiment with a susceptible crayfish species Astacus astacus using three A. astaci strains (representing genotype groups A, B, and E), we investigated variation in their virulence and in crayfish immune defence indicators (haemocyte density, phenoloxidase activity, and production of reactive oxygen species). Experimental crayfish were exposed to two dosages of A. astaci spores (1 and 10 spores mL(-1)). The intensity and timing of the immune response differed between the strains as well as between the spore concentrations. Stronger and faster change in each immune parameter was observed in crayfish infected with two more virulent strains, indicating a relationship between crayfish immune response and A. astaci virulence. Similarly, the immune response was stronger and was observed earlier for the higher spore concentration. For the first time, the virulence of a strain of the genotype group E (isolated from Orconectes limosus) was experimentally tested. Total mortality was reached after 10 days for the two higher spore dosages (10 and 100 spores mL(-1)), and after 16 days for the lowest (1 spore mL(-1)), revealing equally high and rapid mortality as caused by the genotype group B (from Pacifastacus leniusculus). No mortality occurred after infection with genotype group A during 60 days of the experimental trial., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

22. Validation of QTL for resistance to Aphanomyces euteiches in different pea genetic backgrounds using near-isogenic lines.

Author

Lavaud C, Lesné A, Piriou C, Le Roy G, Boutet G, Moussart A, Poncet C, Delourme R, Baranger A, and Pilet-Nayel ML

Subjects

Alleles, Aphanomyces pathogenicity, Crosses, Genetic, DNA, Plant genetics, Genetic Markers, Genotype, Inbreeding, Pisum sativum microbiology, Phenotype, Plant Breeding, Plant Diseases microbiology, Disease Resistance genetics, Genetic Background, Pisum sativum genetics, Plant Diseases genetics, Quantitative Trait Loci

Abstract

Key Message: Marker-assisted backcrossing was used to generate pea NILs carrying individual or combined resistance alleles at main Aphanomyces resistance QTL. The effects of several QTL were successfully validated depending on genetic backgrounds. Quantitative trait loci (QTL) validation is an important and often overlooked step before subsequent research in QTL cloning or marker-assisted breeding for disease resistance in plants. Validation of QTL controlling partial resistance to Aphanomyces root rot, one of the most damaging diseases of pea worldwide, is of major interest for the future development of resistant varieties. The aim of this study was to validate, in different genetic backgrounds, the effects of various resistance alleles at seven main resistance QTL recently identified. Five backcross-assisted selection programs were developed. In each, resistance alleles at one to three of the seven main Aphanomyces resistance QTL were transferred into three genetic backgrounds, including two agronomically important spring (Eden) and winter (Isard) pea cultivars. The subsequent near-isogenic lines (NILs) were evaluated for resistance to two reference strains of the main A. euteiches pathotypes under controlled conditions. The NILs carrying resistance alleles at the major-effect QTL Ae-Ps4.5 and Ae-Ps7.6, either individually or in combination with resistance alleles at other QTL, showed significantly reduced disease severity compared to NILs without resistance alleles. Resistance alleles at some minor-effect QTL, especially Ae-Ps2.2 and Ae-Ps5.1, were also validated for their individual or combined effects on resistance. QTL × genetic background interactions were observed, mainly for QTL Ae-Ps7.6, the effect of which increased in the winter cultivar Isard. The pea NILs are a novel and valuable resource for further understanding the mechanisms underlying QTL and their integration in breeding programs.

Published

2015

23. Experimental Infection of the Mayan Cichlid Cichlasoma urophthalmus with the Oomycete Aphanomyces invadans.

Author

Aguirre-Ayala D and Vidal-Martínez VM

Subjects

Animals, Cyprinidae parasitology, Fish Diseases transmission, Gills parasitology, Infections parasitology, Infections transmission, Muscles parasitology, Skin Ulcer parasitology, Skin Ulcer veterinary, Aphanomyces pathogenicity, Cichlids parasitology, Fish Diseases parasitology, Infections veterinary

Abstract

This study aimed to determine the susceptibility of the Mayan cichlid Cichlasoma urophthalmus to infection with the fungus Aphanomyces invadans (also known as epizootic ulcerative syndrome [EUS]). A total of 27 C. urophthalmus were exposed to the original A. Invadans 2006/86/EC strain by intramuscularly injecting the fish with 25,000 zoospores/ml or exposing the fish to a suspension of 25,000 zoospores/ml in 6-L aquaria for 30 days. To assess the infectious capacity of A. invadans, 3 golden barbs (Puntius semifasciolatus) were infected intramuscularly with 200,000 zoospores/ml. A second experiment using 100 C. urophthalmus was performed for 60 days with 50 fish in each treatment group. A polymerase chain reaction (PCR)-based diagnostic method was used; muscle and gills were the target tissues. In the first experiment, none of the exposed C. urophthalmus developed skin lesions related to A. invadans infection. However, PCR analysis revealed that infection had occurred. For the intramuscular treatment, there were significant differences between the controls and the muscle samples (Fisher's exact test; P < 0.05) but not between the controls and the gill samples (P > 0.05). All golden barbs became infected, as indicated by PCR, and developed skin lesions typical of A. invadans infection. We concluded that C. urophthalmus was infected with A. invadans but was an asymptomatic carrier because skin lesions did not develop. In the second experiment, all fish were negative, suggesting that the fish had cleared the infection by the end of the experiment.

Published

2015

24. The CRE1 cytokinin pathway is differentially recruited depending on Medicago truncatula root environments and negatively regulates resistance to a pathogen.

Author

Laffont C, Rey T, André O, Novero M, Kazmierczak T, Debellé F, Bonfante P, Jacquet C, and Frugier F

Subjects

Aphanomyces pathogenicity, Cytokinins genetics, Glomeromycota pathogenicity, Medicago truncatula growth & development, Mutation, Nitrogen metabolism, Phenotype, Plant Proteins genetics, Plant Roots drug effects, Plant Roots growth & development, Plant Roots metabolism, Signal Transduction drug effects, Sodium Chloride pharmacology, Symbiosis, Transcriptome drug effects, Cytokinins metabolism, Medicago truncatula metabolism, Plant Proteins metabolism

Abstract

Cytokinins are phytohormones that regulate many developmental and environmental responses. The Medicago truncatula cytokinin receptor MtCRE1 (Cytokinin Response 1) is required for the nitrogen-fixing symbiosis with rhizobia. As several cytokinin signaling genes are modulated in roots depending on different biotic and abiotic conditions, we assessed potential involvement of this pathway in various root environmental responses. Phenotyping of cre1 mutant roots infected by the Gigaspora margarita arbuscular mycorrhizal (AM) symbiotic fungus, the Aphanomyces euteiches root oomycete, or subjected to an abiotic stress (salt), were carried out. Detailed histological analysis and quantification of cre1 mycorrhized roots did not reveal any detrimental phenotype, suggesting that MtCRE1 does not belong to the ancestral common symbiotic pathway shared by rhizobial and AM symbioses. cre1 mutants formed an increased number of emerged lateral roots compared to wild-type plants, a phenotype which was also observed under non-stressed conditions. In response to A. euteiches, cre1 mutants showed reduced disease symptoms and an increased plant survival rate, correlated to an enhanced formation of lateral roots, a feature previously linked to Aphanomyces resistance. Overall, we showed that the cytokinin CRE1 pathway is not only required for symbiotic nodule organogenesis but also affects both root development and resistance to abiotic and biotic environmental stresses.

Published

2015

25. Emergency animal diseases bulletin: crayfish plague.

Author

Herbert B

Subjects

Animals, Australia, Bacterial Infections diagnosis, Bacterial Infections physiopathology, Diagnosis, Differential, Ecosystem, Aphanomyces pathogenicity, Astacoidea microbiology, Bacterial Infections veterinary

Published

2014

26. Molecular detection and genotyping of Aphanomyces astaci directly from preserved crayfish samples uncovers the Norwegian crayfish plague disease history.

Author

Vrålstad T, Strand DA, Grandjean F, Kvellestad A, Håstein T, Knutsen AK, Taugbøl T, and Skaar I

Subjects

Animals, Aphanomyces classification, Aphanomyces pathogenicity, Genotype, Genotyping Techniques, History, 20th Century, History, 21st Century, Microsatellite Repeats, Norway, Real-Time Polymerase Chain Reaction, Aphanomyces genetics, Astacoidea parasitology, DNA genetics

Abstract

Aphanomyces astaci causes crayfish plague in European freshwater crayfish, but most historical epizootics lack agent isolation and identification. Although declared as crayfish plague outbreaks by the Norwegian Competent Authorities, only presumptive diagnoses without agent isolation exist from Norwegian epizootics until 2005. Molecular methods now allow both A. astaci detection and genotype determination from preserved samples. We therefore aimed to (1) investigate molecularly if A. astaci was involved in a selection of mass-mortality events in Norwegian noble crayfish populations from 1971 to 2004, and (2) determine the eventually involved A. astaci genotype groups both from these historical and also more recent mass-mortality events. DNA was extracted directly from presumptively infected crayfish tissues, and screened by A. astaci specific qPCR. A representative selection of positive samples was confirmed by ITS-sequencing. Finally, genotype determination was performed with microsatellite markers that distinguish all known A. astaci genotype groups. The molecular examination detected A. astaci in crayfish materials from all examined mass-mortality events. The first event in 1971-1974 was caused by the A. astaci genotype group A, presumably the first genotype group that entered Europe more than 150 years ago. All later outbreaks were caused by the A. astaci genotype group B which was introduced to Europe by importation of signal crayfish in the 1960s. The results suggest that molecular methods can verify the involvement of A. astaci in the vast majority of observed crayfish mass mortalities in Europe whenever preserved materials exist. Moreover, microsatellite genotyping can reveal at least parts of the underlying epidemiology., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

27. Dose-dependent mortality of the noble crayfish (Astacus astacus) to different strains of the crayfish plague (Aphanomyces astaci).

Author

Makkonen J, Kokko H, Vainikka A, Kortet R, and Jussila J

Subjects

Animals, Genotype, Aphanomyces genetics, Aphanomyces pathogenicity, Astacoidea parasitology, Virulence genetics

Abstract

Several reports of the European crayfish species carrying a latent infection of the crayfish plague (Aphanomyces astaci) have emerged and the discussion has focused especially on the lowered virulence of As-genotypes behind decreased mortality. The aim of this study was to compare the killing rate of different A. astaci strains in controlled infection experiments. Two separate infection experiments with three A. astaci strains (UEFT2B (As), Evira6462/06 (As) and UEF8866-2 (PsI)) were made to compare the noble crayfish populations from the Lake Viitajärvi, Tervo, (Expt I) and the Lake Mikitänjärvi, Hyrynsalmi (Expt II). In the Expt III, the Lake Koivujärvi population noble crayfish were infected with A. astaci strains UEF8866-2 (PsI) and Evira6462/06 (As) using different dosages (1, 10, 100 and 1000sporesml(-1)) of A. astaci zoospores. The results confirmed that PsI-genotype strain is highly virulent and kills all the crayfish within a few days. The tested two As-genotype strains caused the mortalities more slowly, and part of the challenged crayfish survived until the end of the follow-up period. Our results also confirmed the variance of virulence among A. astaci strains within the As-genotype and demonstrated that the mortality is dependent on the number of zoospores used in the infections. It also appeared, that some noble crayfish populations show increased resistance towards the crayfish plague, especially against the As-genotype of A. astaci., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2014

28. NFP, a LysM protein controlling Nod factor perception, also intervenes in Medicago truncatula resistance to pathogens.

Author

Rey T, Nars A, Bonhomme M, Bottin A, Huguet S, Balzergue S, Jardinaud MF, Bono JJ, Cullimore J, Dumas B, Gough C, and Jacquet C

Subjects

Aphanomyces pathogenicity, Aphanomyces physiology, Disease Resistance genetics, Gene Expression Profiling, Gene Expression Regulation, Plant, Medicago truncatula genetics, Mutation, Plant Diseases genetics, Plant Diseases microbiology, Plant Proteins genetics, Plant Roots metabolism, Plant Roots microbiology, Plants, Genetically Modified, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases metabolism, Symbiosis physiology, Colletotrichum pathogenicity, Host-Pathogen Interactions, Medicago truncatula metabolism, Medicago truncatula microbiology, Plant Proteins metabolism

Abstract

Plant LysM proteins control the perception of microbial-derived N-acetylglucosamine compounds for the establishment of symbiosis or activation of plant immunity. This raises questions about how plants, and notably legumes, can differentiate friends and foes using similar molecular actors and whether any receptors can intervene in both symbiosis and resistance. To study this question, nfp and lyk3 LysM-receptor like kinase mutants of Medicago truncatula that are affected in the early steps of nodulation, were analysed following inoculation with Aphanomyces euteiches, a root oomycete. The role of NFP in this interaction was further analysed by overexpression of NFP and by transcriptome analyses. nfp, but not lyk3, mutants were significantly more susceptible than wildtype plants to A. euteiches, whereas NFP overexpression increased resistance. Transcriptome analyses on A. euteiches inoculation showed that mutation in the NFP gene led to significant changes in the expression of c. 500 genes, notably involved in cell dynamic processes previously associated with resistance to pathogen penetration. nfp mutants also showed an increased susceptibility to the fungus Colletotrichum trifolii. These results demonstrate that NFP intervenes in M. truncatula immunity, suggesting an unsuspected role for NFP in the perception of pathogenic signals., (© 2013 The Authors. New Phytologist © 2013 New Phytologist Trust.)

Published

2013

29. Differing virulence of Aphanomyces astaci isolates and elevated resistance of noble crayfish Astacus astacus against crayfish plague.

Author

Makkonen J, Jussila J, Kortet R, Vainikka A, and Kokko H

Subjects

Animals, Finland, Host-Pathogen Interactions, Polymerase Chain Reaction veterinary, Population Dynamics, Virulence, Aphanomyces pathogenicity, Astacoidea microbiology

Abstract

Crayfish plague epidemics (caused by Aphanomyces astaci) have been causing population collapses among native European crayfish stocks since the late 1800s. Recent indirect and direct evidence has shown that its virulence has been variable, with native European crayfish even acting as carriers. We tested the differences in A. astaci virulence under experimental conditions using both PsI- and As-genotypes with 3 Finnish noble crayfish Astacus astacus populations. We infected crayfish with adjusted quantities of A. astaci zoospores and monitored the symptoms and mortality of the crayfish. The PsI-genotype isolate caused rapid and total mortality among the tested populations, while the As-genotype isolates expressed more variable virulence. In some cases, mortality among the As-genotype-infected crayfish did not exceed the mortality level of the control group. All of the tested noble crayfish stocks showed lower mortality towards the As-genotype of A. astaci isolated from the River Kemijoki epidemic. We conclude that there are clear differences in virulence between different A. astaci genotypes and also differences in virulence within As-genotypes. Furthermore, we observed clear signs of increased resistance in different populations of noble crayfish towards some of the tested strains belonging to the As-genotype of A. astaci.

Published

2012

30. Detection of Aphanomyces invadans and epizootic ulcerative syndrome in the Murray-Darling drainage.

Author

Go J, Marsh I, Gabor M, Saunders V, Reece RL, Frances J, Boys C, and Gabor LJ

Subjects

Animals, Australia epidemiology, Fish Diseases diagnosis, Fishes, Infections diagnosis, Infections epidemiology, New South Wales, Rivers, Syndrome, Ulcer epidemiology, Aphanomyces pathogenicity, Fish Diseases epidemiology, Infections veterinary, Ulcer veterinary

Abstract

Epizootic ulcerative syndrome was diagnosed, and the presence of Aphanomyces invadans confirmed, from an outbreak of clinical disease in wild-caught bony bream (Nematalosa erebi) from the Darling River near Bourke, in New South Wales, Australia, during 2008. This confirms a significant extension of the agent beyond its historical range., (© 2012 The Authors. Australian Veterinary Journal © 2012 Australian Veterinary Association.)

Published

2012

31. Repeated leaf wounding alters the colonization of Medicago truncatula roots by beneficial and pathogenic microorganisms.

Author

Landgraf R, Schaarschmidt S, and Hause B

Subjects

Aphanomyces pathogenicity, Gene Expression Regulation, Plant, Intramolecular Oxidoreductases genetics, Intramolecular Oxidoreductases metabolism, Mycorrhizae physiology, Plant Proteins genetics, Plant Proteins metabolism, Sinorhizobium meliloti physiology, Cyclopentanes pharmacology, Medicago truncatula microbiology, Oxylipins pharmacology, Plant Leaves physiology, Plant Roots microbiology

Abstract

In nature, plants are subject to various stresses that are often accompanied by wounding of the aboveground tissues. As wounding affects plants locally and systemically, we investigated the impact of leaf wounding on interactions of Medicago truncatula with root-colonizing microorganisms, such as the arbuscular mycorrhizal (AM) fungus Glomus intraradices, the pathogenic oomycete Aphanomyces euteiches and the nitrogen-fixing bacterium Sinorhizobium meliloti. To obtain a long-lasting wound response, repeated wounding was performed and resulted in locally and systemically increased jasmonic acid (JA) levels accompanied by the expression of jasmonate-induced genes, among them the genes encoding allene oxide cyclase 1 (MtAOC1) and a putative cell wall-bound invertase (cwINV). After repeated wounding, colonization with the AM fungus was increased, suggesting a role of jasmonates as positive regulators of mycorrhization, whereas the interaction with the rhizobacterium was not affected. In contrast, wounded plants appeared to be less susceptible to pathogens which might be caused by JA-induced defence mechanisms. The effects of wounding on mycorrhization and pathogen infection could be partially mimicked by foliar application of JA. In addition to JA itself, the positive effect on mycorrhization might be mediated by systemically induced cwINV, which was previously shown to exhibit a regulatory function on interaction with AM fungi., (© 2012 Blackwell Publishing Ltd.)

Published

2012

32. Review of biological factors relevant to import risk assessments for epizootic ulcerative syndrome (Aphanomyces invadans).

Author

Oidtmann B

Subjects

Animals, Aphanomyces growth & development, Fishes, Infections diagnosis, Infections epidemiology, Infections microbiology, Infections transmission, Risk Assessment, Aphanomyces pathogenicity, Fish Diseases diagnosis, Fish Diseases epidemiology, Fish Diseases microbiology, Fish Diseases transmission, Infections veterinary

Abstract

Epizootic ulcerative syndrome (EUS) is a disease affecting both wild and farmed fish in freshwater and estuarine environments. After it was first described in Japan in 1971, the disease has spread widely across Asia and to some regions of Australia, North America and Africa. In Asia and Africa, the spread of the disease has substantially affected livelihoods of fish farmers and fishermen. No reports are yet published showing the presence of the disease in Europe or South America. Given its epizootic nature and its broad susceptible fish species range, it would appear that the disease has the potential for further spread. This study provides a review of the scientific literature on several biological factors of the pathogen, Aphanomyces invadans, associated with the disease EUS and aspects of the disease that are relevant to undertaking import risk assessments (IRA) covering (i) Life cycle and routes of transmission; (ii) Minimum infectious dose; (iii) Tissue localization and pathogen load; (iv) Predisposing factors for infection and factors influencing expression of disease; (v) Carrier state in fish; (vi) Diagnostic methods; (vii) Survival in the environment; (viii) Permissive temperature range; (ix) Stability of the agent in aquatic animal products; (x) Prevalence of infection; and (xi) Affected life stages. Much of the biological information presented is relevant to a broad range of risk questions. Areas where data are lacking were identified, and the information provided is put into context with other aspects that need to be addressed in an IRA., (© 2011 Crown copyright.)

Published

2012

33. Spiny-cheek crayfish Orconectes limosus carry a novel genotype of the crayfish plague pathogen Aphanomyces astaci.

Author

Kozubíková E, Viljamaa-Dirks S, Heinikainen S, and Petrusek A

Subjects

Animals, Aphanomyces classification, Aphanomyces pathogenicity, Astacoidea physiology, DNA, Fungal analysis, Genetic Variation, Genotype, Host-Pathogen Interactions, Phylogeny, Random Amplified Polymorphic DNA Technique, Species Specificity, Aphanomyces genetics, Astacoidea microbiology, Infections veterinary

Abstract

The oomycete Aphanomyces astaci causes mass mortalities of European crayfish. Different species of North American crayfish, original hosts of this parasite, seem to carry different strains of A. astaci. So far, four distinct genotype groups have been recognised using Random Amplification of Polymorphic DNA (RAPD-PCR). We succeeded in isolating A. astaci from the spiny-cheek crayfish Orconectes limosus, a widespread invader in Europe, and confirmed that this species carries a novel A. astaci genotype. Improving knowledge on the diversity of this parasite may facilitate identification of genotypes in mass mortalities of European crayfish, thus tracing the sources of infection., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

34. New consistent QTL in pea associated with partial resistance to Aphanomyces euteiches in multiple French and American environments.

Author

Hamon C, Baranger A, Coyne CJ, McGee RJ, Le Goff I, L'anthoëne V, Esnault R, Rivière JP, Klein A, Mangin P, McPhee KE, Roux-Duparque M, Porter L, Miteul H, Lesné A, Morin G, Onfroy C, Moussart A, Tivoli B, Delourme R, and Pilet-Nayel ML

Subjects

Chromosome Mapping, Chromosomes, Plant, Crosses, Genetic, France, Genetic Linkage, Genotype, Immunity, Innate, Pisum sativum immunology, Pisum sativum microbiology, Phenotype, United States, Aphanomyces pathogenicity, Pisum sativum genetics, Plant Diseases genetics, Plant Diseases immunology, Plant Roots genetics, Plant Roots immunology, Plant Roots microbiology, Quantitative Trait Loci

Abstract

Partial resistances, often controlled by quantitative trait loci (QTL), are considered to be more durable than monogenic resistances. Therefore, a precursor to developing efficient breeding programs for polygenic resistance to pathogens should be a greater understanding of genetic diversity and stability of resistance QTL in plants. In this study, we deciphered the diversity and stability of resistance QTL to Aphanomyces euteiches in pea towards pathogen variability, environments and scoring criteria, from two new sources of partial resistance (PI 180693 and 552), effective in French and USA infested fields. Two mapping populations of 178 recombinant inbred lines each, derived from crosses between 552 or PI 180693 (partially resistant) and Baccara (susceptible), were used to identify QTL for Aphanomyces root rot resistance in controlled and in multiple French and USA field conditions using several resistance criteria. We identified a total of 135 additive-effect QTL corresponding to 23 genomic regions and 13 significant epistatic interactions associated with partial resistance to A. euteiches in pea. Among the 23 additive-effect genomic regions identified, five were consistently detected, and showed highly stable effects towards A. euteiches strains, environments, resistance criteria, condition tests and RIL populations studied. These results confirm the complexity of inheritance of partial resistance to A. euteiches in pea and provide good bases for the choice of consistent QTL to use in marker-assisted selection schemes to increase current levels of resistance to A. euteiches in pea breeding programs.

Published

2011

35. Pathogenicity and oxidative stress in Nile tilapia caused by Aphanomyces laevis and Phoma herbarum isolated from farmed fish.

Author

Ali EH, Hashem M, and Al-Salahy MB

Subjects

Animals, Aquaculture, Biomarkers, Fish Diseases pathology, Infections pathology, Mycoses pathology, Oxidative Stress, Aphanomyces pathogenicity, Ascomycota pathogenicity, Cichlids, Fish Diseases parasitology, Infections veterinary, Mycoses veterinary

Abstract

Identified (n = 17) and unidentified (n = 1) fish-pathogenic fungal species from 10 genera of Oomycetes and soil fungi were isolated from 40 infected freshwater fish samples of the species Oreochromis niloticus niloticus (Nile tilapia) and Clarias gariepinus (African catfish). Samples were collected from various fish farms in the Nile Delta, Egypt. Nile tilapia were tested in aquaria for their susceptibility to the commonest Oomycetes species, Aphanomyces laevis and Achlya klebsiana, and also against the 2 most prevalent pathogenic soil fungi, Paecilomyces lilacinus and Phoma herbarum. Two techniques were used: water bath exposure and intramuscular (subcutaneous) injection. Water bath exposure to the 2 species of Oomycetes caused greater mortalities of O. niloticus niloticus than intramuscular injection, but the reverse was true of the soil fungal species. Regardless of the infection method, the 2 Oomycetes species were more potent pathogens than the soil fungal species. In both gills and mytomal muscles of fish infected by A. laevis and P. herbarum, we measured and compared with controls the oxidative stress parameters total peroxide (TP), lipid peroxidation (LPO) and nitric oxide (NO), as well as levels of the antioxidants vitamin E and glutathione (GSH), and superoxide dismutase (SOD) and catalase (CAT) activities. Infection by these 2 fungal species through either spore suspension or spore injection significantly increased oxidative damage in gills and induced marked decrease in most studied antioxidants. In addition, both routes showed similar effects and A. laevis depressed the antioxidants CAT, vitamin E and GSH more than P. herbarum.

Published

2011

36. A complex genetic network involving a broad-spectrum locus and strain-specific loci controls resistance to different pathotypes of Aphanomyces euteiches in Medicago truncatula.

Author

Hamon C, Baranger A, Miteul H, Lecointe R, Le Goff I, Deniot G, Onfroy C, Moussart A, Prosperi JM, Tivoli B, Delourme R, and Pilet-Nayel ML

Subjects

Chromosome Mapping, Chromosomes, Plant, Crosses, Genetic, Epistasis, Genetic, Gene Expression Regulation, Plant, Genes, Plant, Genetic Linkage, Genetic Markers, Molecular Sequence Data, Phenotype, Plant Diseases immunology, Aphanomyces pathogenicity, Gene Regulatory Networks, Genetic Loci, Immunity, Innate genetics, Medicago truncatula genetics, Medicago truncatula immunology, Medicago truncatula parasitology, Plant Diseases genetics

Abstract

A higher understanding of genetic and genomic bases of partial resistance in plants and their diversity regarding pathogen variability is required for a more durable management of resistance genetic factors in sustainable cropping systems. In this study, we investigated the diversity of genetic factors involved in partial resistance to Aphanomyces euteiches, a very damaging pathogen on pea and alfalfa, in Medicago truncatula. A mapping population of 178 recombinant inbred lines, from the cross F83005.5 (susceptible) and DZA045.5 (resistant), was used to identify quantitative trait loci for resistance to four A. euteiches reference strains belonging to the four main pathotypes currently known on pea and alfalfa. A major broad-spectrum genomic region, previously named AER1, was localized to a reduced 440 kb interval on chromosome 3 and was involved in complete or partial resistance, depending on the A. euteiches strain. We also identified 21 additive and/or epistatic genomic regions specific to one or two strains, several of them being anchored to the M. truncatula physical map. These results show that, in M. truncatula, a complex network of genetic loci controls partial resistance to different pea and alfalfa pathotypes of A. euteiches, suggesting a diversity of molecular mechanisms underlying partial resistance.

Published

2010

37. Genotoxicity of two pathogenic strains of zoosporic fungi (Achlya klebsiana and Aphanomyces laevis) on erythrocytes of Nile tilapia Oreochromis niloticus niloticus.

Author

Osman A, Ali E, Hashem M, Mostafa M, and Mekkawy I

Subjects

Animals, Cell Nucleus pathology, Cichlids blood, Comet Assay, Micronucleus Tests, Achlya pathogenicity, Aphanomyces pathogenicity, Cichlids genetics, DNA Damage, Environmental Monitoring methods, Erythrocytes ultrastructure

Abstract

In the present work we have described the genotoxic potential of two pathogenic strains of zoosporic fungi (Achlya klebsiana and Aphanomyces laevis) on erythrocytes of Nile tilapia Oreochromis niloticus niloticus for the first time by three complementary tests: micronucleus test (MN), nuclear lesions (NL) and comet assay (CA). The groups exposed to the zoosporic fungi subjected to the MN and NL test showed statistically significant differences in MN and NL frequencies with respect to the control one. Also, a significant increase (p<0.001) in micronuclei and nuclear lesions frequencies were recorded with the increase in exposure time. A correlation was observed between the frequencies of MN and NL, suggesting the importance for recording this anomaly in order to improve the information obtained with the MN test. Therefore, our results suggest that the nuclear lesions found here should be considered indicators of genotoxicity, in addition to the typical micronuclei forms. The result of the comet assay showed a significant difference in the percentages of the damaged DNA in the comet tail (%TDNA) of the treated groups comparing to the control. A significant (p<0.001) increase in the DNA damage of the treated groups with the increase in exposure time was recorded, confirming the results of the MN and the NL tests. The results of the current study will be useful for future work involving the biomonitoring of regions where Nile tilapia survive. These data allow us to consider O. niloticus niloticus as a good bioindicator of the effects of genotoxic agents that might be present in the aquatic habitat.

Published

2010

38. Secondary metabolites from nonhost plants affect the motility and viability of phytopathogenic Aphanomyces cochlioides zoospores.

Author

Islam MT

Subjects

Aphanomyces cytology, Bangladesh, Cell Movement physiology, Cell Survival, Herbal Medicine, Magnetic Resonance Spectroscopy, Plant Diseases microbiology, Spectrophotometry, Spectrum Analysis, Aphanomyces pathogenicity, Aphanomyces physiology, Plants metabolism, Plants microbiology

Abstract

The motile zoospores of the damping-off pathogen Aphanomyces cochlioides aggregate on host plants (e.g., sugar beet, spinach) guided by the host-specific plant signal cochliophilin A before infection. To assess the potential role of secondary metabolites in nonhost resistance, acetone extracts of 200 nonhost traditional medicinal plants from Chinese and Bangladeshi origins were tested for the motility behaviour of A. cochlioides zoospores using a particle bioassay method. Nearly one third of the tested plant extracts exhibited diverse deleterious activities such as repellent, stimulant, motility halting and lysis against A. cochlioides zoospores. Among these active plants, an extract of the Chinese medicinal plant Dalbergia odorifera displayed potent repellent activity toward zoospores. Chromatographic separation of D. odorifera constituents revealed that the repellent activity was regulated by the cumulative effect of three motility-affecting isoflavonoids, viz. (+/-)-medicarpin (repellent at 150 microg/ml), (-)-claussequinone (stimulant at 100 microg/ml) and formononetin (stimulant and attractant at 50 microg/ml). A mixture (1:1:1, w/w/w) of these three compounds exhibited only repellent activity toward zoospores at a concentration lower than 50 microg/ml. These results suggest that nonhost plants might possess potential bioactive secondary metabolites to ward off zoosporic phytopathogens.

Published

2008

39. Sugar beet-associated bacterial and fungal communities show a high indigenous antagonistic potential against plant pathogens.

Author

Zachow C, Tilcher R, and Berg G

Subjects

Aphanomyces growth & development, Aphanomyces pathogenicity, Ascomycota growth & development, Ascomycota pathogenicity, Molecular Sequence Data, Plant Leaves microbiology, Plant Roots microbiology, Polymorphism, Single-Stranded Conformational, Pythium growth & development, Pythium pathogenicity, RNA, Ribosomal, 16S genetics, Rhizoctonia growth & development, Rhizoctonia pathogenicity, Sequence Analysis, DNA, Antibiosis, Bacteria classification, Bacteria genetics, Bacteria growth & development, Bacteria isolation & purification, Beta vulgaris microbiology, Ecosystem, Fungi classification, Fungi genetics, Fungi growth & development, Fungi isolation & purification, Plant Diseases microbiology

Abstract

The aim of this study was to analyze microbial communities in/on sugar beet with special focus on antagonists toward plant pathogens. For this purpose, the composition of microorganisms isolated from the rhizosphere, phyllosphere, endorhiza, and endosphere of field-grown sugar beet plants was analyzed by a multiphasic approach at three different plant development stages at six locations in Europe. The analysis of microbial communities by Single Strand Conformation Polymorphism (SSCP) of 16S/18S rRNA clearly revealed the existence of discrete microenvironment- and site-specific patterns. A total of 1952 bacterial and 1344 fungal isolates screened by dual testing for antagonism toward the pathogens Aphanomyces cochlioides, Phoma betae, Pythium ultimum, and Rhizoctonia solani resulted in 885 bacterial (=45%) and 437 fungal (=33%) antagonists. In general, the indigenous antagonistic potential was very high and influenced by (a) the location, (b) the plant developmental stage, and (3) the microenvironment. Furthermore, we showed for the first time that the antagonistic potential was highly specific for each target pathogen. The majority of antagonistic microorganisms suppressed only one pathogen (bacteria: 664 = 75%; fungi: 256 = 59%), whereas the minority showed a broad host range (bacteria: 4 = 0.5%; fungi: 7 = 1.6%). The bacterial communities harbored the highest antagonistic potential against P. ultimum, whereas the fungal communities contained more antagonists against A. cochlioides and R. solani. In contrast to their high proportion, only a low diversity of antagonists at genotypic and species level was found. Novel antagonistic species, e.g., Subtercola pratensis or Microbacterium testaceum were found in the internal part of the sugar beet body.

Published

2008

40. Pathogenicity studies with the fungi Aphanomyces invadans, Achlya bisexualis, and Phialemonium dimorphosporum: induction of skin ulcers in striped mullet.

Author

Sosa ER, Landsberg JH, Kiryu Y, Stephenson CM, Cody TT, Dukeman AK, Wolfe HP, Vandersea MW, and Litaker RW

Subjects

Animals, Colony Count, Microbial veterinary, Fish Diseases mortality, Infections microbiology, Infections mortality, Infections veterinary, Mycoses microbiology, Mycoses mortality, Mycoses veterinary, Skin Ulcer microbiology, Skin Ulcer mortality, Spores, Fungal isolation & purification, Spores, Fungal pathogenicity, Achlya pathogenicity, Aphanomyces pathogenicity, Ascomycota pathogenicity, Fish Diseases microbiology, Skin Ulcer veterinary, Smegmamorpha microbiology

Abstract

Based on isolations from naturally infected fish in Florida, we investigated the role of the fungi Aphanomyces invadans, Achlya bisexualis, and Phialemonium dimorphosporum in the etiology of ulcerative mycosis (UM) in striped mullet Mugil cephalus. We injected healthy striped mullet subcutaneously with secondary zoospores of four oomycete isolates: two concentrations (50 and 115 zoospores/mL) of SJR (an endemic isolate of Aphanomyces invadans in American shad Alosa sapidissima from the St. Johns River); two concentrations each of CAL (25 and 65 zoospores/mL) and ACH (1,400 and 2,000 zoospores/mL; endemic isolates of Aphanomyces invadans and Achlyva bisexualis, respectively, in striped mullet from the Caloosahatchee River); and two concentrations of the ascomycete culture MTZ (2,500 and 3,500 zoospores/mL; endemic isolate of P. dimorphosporum from whirligig mullet M. gyrans in the Matanzas Inlet). All fish injected with either concentration of SJR developed granulomatous ulcers after 8 d and died within 21 d. Eighty percent (8/10) of fish injected with the high dose of CAL developed ulcers after 13 d and died within 28 d, but only 30% (3/10) of fish injected with the low dose of CAL developed ulcers. Four of the ulcerated fish died within 28 d, and the remaining fish were terminated after 32 d. Fish injected with zoospores of Aphanomyces invadans developed ulcers that were grossly and histologically similar to those observed in naturally infected striped mullet with UM from several estuaries or rivers in Florida. These hemorrhagic skin ulcers were characterized by myonecrosis and the presence of mycotic granulomas. None of the fish injected with ACH, MTZ, or sterile water developed ulcers. This study fulfilled Koch's postulates and demonstrated that ulcers could be experimentally induced in striped mullet after exposure via injection to secondary zoospores of an endemic Florida strain of Aphanomyces invadans.

Published

2007

41. Aphanomyces invadans and ulcerative mycosis in estuarine and freshwater fish in Florida.

Author

Sosa ER, Landsberg JH, Stephenson CM, Forstchen AB, Vandersea MW, and Litaker RW

Subjects

Animals, Aphanomyces isolation & purification, DNA, Fungal genetics, Fish Diseases microbiology, Fish Diseases pathology, Fishes, Florida epidemiology, Infections epidemiology, Infections microbiology, Infections pathology, Mycoses epidemiology, Mycoses microbiology, Mycoses pathology, Polymerase Chain Reaction methods, Polymerase Chain Reaction veterinary, Prevalence, Skin Ulcer epidemiology, Skin Ulcer microbiology, Skin Ulcer pathology, Species Specificity, Aphanomyces pathogenicity, Fish Diseases epidemiology, Infections veterinary, Mycoses veterinary, Skin Ulcer veterinary

Abstract

In the spring of 1998, the Florida Fish and Wildlife Research Institute received numerous reports of lesioned or ulcerated fish primarily from the St. Lucie Estuary on the southeast coast of Florida, an area known since the late 1970s for lesions of the ulcerative mycosis (UM) type. From these and archived reports, as well as others received from different areas of Florida, we documented that diseased specimens had randomly distributed skin ulcers (usually reddened or hemorrhagic) with raised irregular margins and, in some cases, deeply penetrating hyphae in the surrounding muscle tissue. Since 1998, 256 fish (comprising 18 species) with ulcerative lesions (from 15 different locations) were confirmed with hyphae in fresh squash preparation or by histological evaluation. Squash preparations revealed nonseptate, sparsely branching, thick-walled hyphae; histological sections revealed mycotic granulomas in the dermis that occasionally penetrated into the skeletal muscle. These pathological characteristics were consistent with UM caused by the oomycete Aphanomyces invadans in Southeast Asia, Japan, Australia, and the United States. For specific identification, six isolates from ulcerated fish were cultured and prepared for molecular characterization using established diagnostic methods. Ribosomal RNA gene sequence analysis identified three isolates as Aphanomyces invadans, one as the oomycete Achlya bisexualis, and two as the ascomycete Phialemonium dimorphosporum. A more extensive survey of 67 ulcerated skin samples from fish collected between 1998 and 2003 was performed using a polymerase chain reaction assay specific for Aphanomyces invadans. Of these, 26 (38.8%) samples from seven fish species and nine collection locations were positive. Confirmation of UM associated with Aphanomyces invadans represents new host records in Florida for the sheepshead Archosargus probatocephalus, striped mullet Mugil cephalus, white mullet Mugil curema, silver perch Bairdiella chrysoura, black drum Pogonias cromis, largemouth bass Micropterus salmoides, and American shad Alosa sapidissima.

Published

2007

42. Phenolic constituents of Celosia cristata L. susceptible to spinach root rot pathogen Aphanomyces cochlioides.

Author

Wen Y, Islam MT, and Tahara S

Subjects

Flavones physiology, Flavonoids isolation & purification, Isoflavones isolation & purification, Plant Roots microbiology, Seedlings chemistry, Aphanomyces pathogenicity, Celosia chemistry, Phenols analysis, Plant Diseases microbiology

Abstract

Cochliophilin A (5-hydroxy-6,7-methylenedioxyflavone, 1), known as a host-specific attractant towards the zoospores of Aphanomyces cochlioides, a cause of root rot and damping-off diseases of Chenopodiaceae, was found in the Amaranthaceae plant, Celosia cristata, that is susceptible to the pathogen. The content of 1 in Celosia seedlings was quantified as 1.4 microg/g fresh weight. A new isoflavone, cristatein (5-hydroxy-6-hydroxymethyl-7,2'-dimethoxyisoflavone, 2), and five known flavonoids were also identified.

Published

2006

43. Detection of Aphanomyces astaci in North American crayfish by polymerase chain reaction.

Author

Oidtmann B, Geiger S, Steinbauer P, Culas A, and Hoffmann RW

Subjects

Animals, Aphanomyces genetics, Aphanomyces pathogenicity, DNA Primers chemistry, DNA, Ribosomal Spacer genetics, Polymerase Chain Reaction methods, Sensitivity and Specificity, Sequence Alignment, Spores, Fungal genetics, Spores, Fungal isolation & purification, Aphanomyces isolation & purification, Astacoidea microbiology, Polymerase Chain Reaction veterinary

Abstract

We present a PCR based method to detect Aphanomyces astaci in North American crayfish. Primers were designed to specifically amplify parts of the internal transcribed spacer (ITS) regions and the 5.8 rRNA gene of A. astaci. A single round and a semi-nested assay were tested for their sensitivity and specificity. Specificity of the PCR assays was tested against several closely related Aphanomyces species, other Oomycetes and some non-A. astaci DNA that might be found in or on crayfish. The single round assay was fully specific against all DNA tested. In the semi-nested assay, cross-reaction was seen when the equivalent of 40,000 or more genomic units of A. invadans or A. frigidophilus were entered into the PCR reaction. The lower detection limit of both assays lies around 1 genomic unit of A. astaci. Investigation of various parts of the exoskeleton of 3 North American crayfish species revealed that for O. limosus and P. leniusculus the telson and soft abdominal cuticle yielded a positive PCR reaction most frequently. For the third species, Procambarus clarkii, only 1 individual tested positive, so no conclusion as to preferred infestation site(s) could be drawn.

Published

2006

44. Molecular assays for detecting Aphanomyces invadans in ulcerative mycotic fish lesions.

Author

Vandersea MW, Litaker RW, Yonnish B, Sosa E, Landsberg JH, Pullinger C, Moon-Butzin P, Green J, Morris JA, Kator H, Noga EJ, and Tester PA

Subjects

Animals, Aphanomyces pathogenicity, Base Sequence, DNA, Fungal genetics, Fishes, In Situ Hybridization, Fluorescence methods, Molecular Sequence Data, Mycoses microbiology, Polymerase Chain Reaction methods, Skin Ulcer microbiology, Skin Ulcer veterinary, Species Specificity, Aphanomyces genetics, Aphanomyces isolation & purification, Fish Diseases microbiology, In Situ Hybridization, Fluorescence veterinary, Mycoses veterinary, Polymerase Chain Reaction veterinary

Abstract

The pathogenic oomycete Aphanomyces invadans is the primary etiological agent in ulcerative mycosis, an ulcerative skin disease caused by a fungus-like agent of wild and cultured fish. We developed sensitive PCR and fluorescent peptide nucleic acid in situ hybridization (FISH) assays to detect A. invadans. Laboratory-challenged killifish (Fundulus heteroclitus) were first tested to optimize and validate the assays. Skin ulcers of Atlantic menhaden (Brevoortia tyrannus) from populations found in the Pamlico and Neuse River estuaries in North Carolina were then surveyed. Results from both assays indicated that all of the lesioned menhaden (n = 50) collected in September 2004 were positive for A. invadans. Neither the FISH assay nor the PCR assay cross-reacted with other closely related oomycetes. These results provided strong evidence that A. invadans is the primary oomycete pathogen in ulcerative mycosis and demonstrated the utility of the assays. The FISH assay is the first molecular assay to provide unambiguous visual confirmation that hyphae in the ulcerated lesions were exclusively A. invadans.

Published

2006

45. Larvicidal activity of the fungus Aphanomyces (oomycetes : Saprolegniales) against Culex quinquefasciatus.

Author

Patwardhan A, Gandhe R, Ghole V, and Mourya D

Subjects

Animals, Aphanomyces isolation & purification, Culex, Female, India, Aphanomyces pathogenicity, Mosquito Control methods

Abstract

Several species of fungi are currently being considered for operational use in the microbial control of mosquito larvae. The oomycetous fungi are the prominent ones amongst them because of their ability to complete life cycle in water. During our studies on zoosporic fungi from riverine waters of Mula and Mutha flowing through Pune City, Maharashtra, India, Aphanomyces laevis de Bary (Oomycetes: Saprolegniales) was isolated from polluted waters. After critical observations it was found to be mosquito larvicidal. Sporulating hemp seed cultures when inoculated under laboratory conditions revealed that it causes 80%/ mortality after seven days to Culex quinquefasciatus larvae. Laboratory assays were conducted to determine the effects of water quality on the ability of the isolate to infect mosquito larvae in varying degrees of pollution levels. In all the experiments, a non sexual strain of Aphanomyces (zoospores) was found to be the pathogenic agent for the Culex larvae.

Published

2005