Your search keyword '"van West Pieter"' showing total 172 results

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

Author

Verma, Dev Kumar, Peruzza, Luca, Trusch, Franziska, Yadav, Manoj Kumar, Ravindra, Shubin, Sergei V., Morgan, Kenton L., Mohindra, Vindhya, Hauton, Chris, van West, Pieter, Pradhan, P.K., and Sood, Neeraj

Subjects

*CARP, *MOLECULAR recognition, *PHAGOCYTOSIS, *FISH diseases, *GENES, *NATURAL immunity, *DISEASE management

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. • Common carp Cyprinus carpio is resistant to A. invadans infection. • Time course analysis of RNAseq data from head kidney revealed 731 were immune-related DEGs. • Upregulation of MHC class I & II genes contribute to efficient presentation of A. invadans antigens. • There is upregulation of key genes of the FcγR-mediated phagocytosis and chemokine signaling pathway. • DEGs of the NLR signaling pathway are mainly related to the inflammasome activation and signaling transduction. • The study provides information about key mechanisms in resisting A. invadans infection in common carp. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

Iberahim, Nurul Aqilah, Sood, Neeraj, Pradhan, Pravata Kumar, van den Boom, Johannes, van West, Pieter, and Trusch, Franziska

Subjects

*OOMYCETES, *GREATER wax moth, *AGRICULTURAL industries, *ZOOSPORES, *PREVENTIVE medicine, *SECRETION

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. • Description of an RNAi-based silencing protocol for A. invadans. • Galleria mellonella as an infection model for A. invadans. • Virulence factors of Aphanomyces invadans are partially dependent on conventional protein secretion. [ABSTRACT FROM AUTHOR]

Published

2020

153. Saprolegnia infection after vaccination in Atlantic salmon is associated with differential expression of stress and immune genes in the host.

Author

Beckmann, Max J., Saraiva, Marcia, McLaggan, Debbie, Pottinger, Tom G., and van West, Pieter

Subjects

*ATLANTIC salmon, *DEVIATORIC stress (Engineering), *FISH farming, *VACCINATION, *GENE expression, *GENE expression in fishes

Abstract

This study assessed the impact of routine vaccination of Atlantic salmon pre-smolts on gene expression and the possible link to saprolegniosis on Scottish fish farms. Fish were in 4 different groups 1) 'control' – fish without handling or vaccination 2) 'vaccinated' - fish undergoing full vaccination procedure 3) 'non vaccinated' - fish undergoing full vaccination procedure but not vaccinated and 4) 'vaccinated-MH' – fish undergoing vaccination, but procedure involved minimal handling. A strong increase in cortisol and glucose levels was observed after 1 h in all groups relative to the control group. Only in the non-vaccinated group did the level decrease to near control levels by 4 h. Expression levels of six stress marker genes in general for all groups showed down regulation over a 9-day sampling period. In contrast, expression levels for immune response genes in the head kidney showed significant up-regulation for all eight genes tested for both vaccinated groups whereas the non-vaccinated group showed up-regulation for only MHC-II and IL -6b in comparison to the control. Both the vaccination procedure and the administration of the vaccine itself were factors mediating changes in gene expression consistent with fish being susceptible to natural occurring saprolegniosis following vaccination. • Vaccination and handling of pre-smolt salmon trigger stress response. • Routine farm vaccinated fish, but not unvaccinated fish, become infected with Saprolegnia. • Unique stress and inflammatory gene expression changes in young vaccinated salmon. [ABSTRACT FROM AUTHOR]

Published

2020

154. Biological Concepts for the Control of Aquatic Zoosporic Diseases.

Author

Frenken, Thijs, Agha, Ramsy, Schmeller, Dirk S., van West, Pieter, and Wolinska, Justyna

Subjects

*ECOSYSTEM services, *AQUATIC biodiversity, *ECONOMIC activity, *ECOLOGY, *BIOLOGICAL control of fungi

Abstract

Aquatic zoosporic diseases are threatening global biodiversity and ecosystem services, as well as economic activities. Current means of controlling zoosporic diseases are restricted primarily to chemical treatments, which are usually harmful or likely to be ineffective in the long term. Furthermore, some of these chemicals have been banned due to adverse effects. As a result, there is a need for alternative methods with minimal side-effects on the ecosystem or environment. Here, we integrate existing knowledge of three poorly interconnected areas of disease research – amphibian conservation, aquaculture, and plankton ecology – and arrange it into seven biological concepts to control zoosporic diseases. These strategies may be less harmful and more sustainable than chemical approaches. However, more research is needed before safe application is possible. Aquatic zoosporic diseases pose a threat to biodiversity, ecosystem services, and economic activities. Current control methods are based on the use of chemicals that have large negative side-effects. To support the development of alternative biological control strategies, we outline seven general biological concepts to control zoosporic diseases. We discuss some of the research required to successfully apply biological control strategies in the future. [ABSTRACT FROM AUTHOR]

Published

2019

155. Emerging oomycete threats to plants and animals.

Author

Derevnina, Lida, Petre, Benjamin, Kellner, Ronny, Dagdas, Yasin F., Sarowar, Mohammad Nasif, Giannakopoulou, Artemis, De la Concepcion, Juan Carlos, Chaparro-Garcia, Angela, Pennington, Helen G., van West, Pieter, and Kamoun, Sophien

Subjects

*OOMYCETES, *PHYTOPATHOGENIC microorganisms, *PHYTOPHTHORA infestans, *SAPROLEGNIA, *FOOD security

Abstract

Oomycetes, or water moulds, are fungal-like organisms phylogenetically related to algae. They cause devastating diseases in both plants and animals. Here, we describe seven oomycete species that are emerging or re-emerging threats to agriculture, horticulture, aquaculture and natural ecosystems. They include the plant pathogens Phytophthora infestans, Phytophthora palmivora, Phytophthora ramorum, Plasmopara obducens, and the animal pathogens Aphanomyces invadans, Saprolegnia parasitica and Halioticida noduliformans. For each species, we describe its pathology, importance and impact, discuss why it is an emerging threat and briefly review current research activities. [ABSTRACT FROM AUTHOR]

Published

2016

156. Impact of abiotic factors and husbandry on saprolegniosis in salmonid farms.

Author

Tedesco, Perla, Saraiva, Marcia, Sandoval-Sierra, Jose Vladimir, Alves, Mickael Teixeira, Galuppi, Roberta, Dieguez-Uribeondo, Javier, van West, Pieter, Cook, Alastair, Posen, Paulette, Oidtmann, Birgit, and Fioravanti, Marialetizia

Subjects

*FISH farming, *AGRICULTURE, *ATLANTIC salmon, *WATER temperature, *MYCOSES, *SALMON farming

Abstract

Oomycetes of the genus Saprolegnia are widespread in freshwater environment and are among the main pathogens causing economic losses in salmonid aquaculture. Infections by mycotic agents in fish farming are generally considered to result from chronic stress and poor fish condition associated with water quality problems, adverse environmental conditions, frequent/rough/incorrect handling, concurrent infections, physiological changes associated with reproduction and immunocompromised animals. To identify risk factors for Saprolegnia infections in trout and Atlantic salmon farming, longitudinal studies were carried out in different Italian, Spanish, and Scottish fish farms. Prevalence of saprolegniosis and fish mortality were monitored over time and statistically analysed with respect to husbandry and environmental factors. Overall, statistical results by production cycle (trout vs salmon farming) and by country indicate that the prevalence of Saprolegnia may be influenced by peculiarities of the culture system and farming environment. Nevertheless, a specific set of parameters, including lower water temperature, and handling procedures increased Saprolegnia prevalence in all the considered farms. Particularly, in trout farms Saprolegnia infections represented an important contribution to mortality, and prevalence was influenced by water temperature and pH, and by fish density within the tanks. Similarly, temperature and water quality were the main factors influencing the prevalence of Saprolegnia in Atlantic salmon farms. Moreover, molecular analyses confirmed the role of S. parasitica as the main pathogenic oomycete in trout and salmon farming in the considered countries. The identification of risk factors for introduction and increase of Saprolegnia infection in fish farms will allow the correct design of biosecurity and pathogen control strategies. • Lower water temperatures and handling-related stress represent important risk factors for saprolegniosis in salmonid farms • In trout farms, prevalence of Saprolegnia is influenced by water temperature, pH and fish density within the tanks. • In Atlantic salmon farms, prevalence of Saprolegnia is mainly influenced by temperature and water quality • Saprolegniosis is influenced by different factors according to peculiarities of the culture system / farming environment [ABSTRACT FROM AUTHOR]

Published

2022

157. Functional characterization of a tyrosinase gene from the oomycete Saprolegnia parasitica by RNAi silencing.

Author

Saraiva, Marcia, de Bruijn, Irene, Grenville-Briggs, Laura, McLaggan, Debbie, Willems, Ariane, Bulone, Vincent, and van West, Pieter

Subjects

*GENE silencing, *RNA interference, *FUNGI parasites, *PHENOL oxidase, *OOMYCETES, *SAPROLEGNIA

Abstract

Here we describe the first application of transient gene silencing in Saprolegnia parasitica, a pathogenic oomycete that infects a wide range of fish, amphibians, and crustaceans. A gene encoding a putative tyrosinase from S. parasitica, SpTyr, was selected to investigate the suitability of RNA-interference (RNAi) to functionally characterize genes of this economically important pathogen. Tyrosinase is a mono-oxygenase enzyme that catalyses the O -hydroxylation of monophenols and subsequent oxidation of O -diphenols to quinines. These enzymes are widely distributed in nature, and are involved in the melanin biosynthesis. Gene silencing was obtained by delivering in vitro synthesized SpTyr dsRNA into protoplasts. Expression analysis, tyrosinase activity measurements, and melanin content analysis confirmed silencing in individual lines. Silencing of SpTyr resulted in a decrease of tyrosinase activity between 38 % and 60 %, dependent on the level of SpTyr -expression achieved. The SpTyr -silenced lines displayed less pigmentation in developing sporangia and occasionally an altered morphology. Moreover, developing sporangia from individual silenced lines possessed a less electron dense cell wall when compared to control lines, treated with GFP-dsRNA. In conclusion, the tyrosinase gene of S. parasitica is required for melanin formation and transient gene silencing can be used to functionally characterize genes in S. parasitica . [ABSTRACT FROM AUTHOR]

Published

2014

158. A putative serine protease, SpSsp1, from Saprolegnia parasitica is recognised by sera of rainbow trout, Oncorhynchus mykiss.

Author

Minor, Kirsty L., Anderson, Victoria L., Davis, Katie S., Van Den Berg, Albert H., Christie, James S., Löbach, Lars, Faruk, Ali Reza, Wawra, Stephan, Secombes, Chris J., and Van West, Pieter

Subjects

*AQUACULTURE, *SERINE proteinases, *SAPROLEGNIA, *RAINBOW trout, *LIQUID chromatography, *TANDEM mass spectrometry, *ECONOMICS

Abstract

Saprolegniosis, the disease caused by Saprolegnia sp., results in considerable economic losses in aquaculture. Current control methods are inadequate, as they are either largely ineffective or present environmental and fish health concerns. Vaccination of fish presents an attractive alternative to these control methods. Therefore we set out to identify suitable antigens that could help generate a fish vaccine against Saprolegnia parasitica . Unexpectedly, antibodies against S. parasitica were found in serum from healthy rainbow trout, Oncorhynchus mykiss. The antibodies detected a single band in secreted proteins that were run on a one-dimensional SDS-polyacrylamide gel, which corresponded to two protein spots on a two-dimensional gel. The proteins were analysed by liquid chromatography tandem mass spectrometry. Mascot and bioinformatic analysis resulted in the identification of a single secreted protein, SpSsp1, of 481 amino acid residues, containing a subtilisin domain. Expression analysis demonstrated that SpSsp1 is highly expressed in all tested mycelial stages of S. parasitica . Investigation of other non-infected trout from several fish farms in the United Kingdom showed similar activity in their sera towards SpSsp1. Several fish that had no visible saprolegniosis showed an antibody response towards SpSsp1 suggesting that SpSsp1 might be a useful candidate for future vaccination trial experiments. [ABSTRACT FROM AUTHOR]

Published

2014

159. Reprint of: Saprolegnia strains isolated from river insects and amphipods are broad spectrum pathogens.

Author

Sarowar, Mohammad Nasif, van den Berg, Albert Hendrik, McLaggan, Debbie, Young, Mark R., and van West, Pieter

Subjects

*SAPROLEGNIA, *AMPHIPODA, *AQUATIC organisms, *PATHOGENIC microorganisms, *FISH phylogeny, *XENOPUS laevis

Abstract

Saprolegnia species are destructive pathogens to many aquatic organisms and are found in most parts of the world. Reports based on phylogenetic analysis suggest that Saprolegnia strains isolated from aquatic animals such as crustaceans and frogs are close to Saprolegnia strains isolated from infected fish or fish eggs and vice versa . However, it has often been assumed that host specificity occurs for each individual isolate or strain. Here we demonstrate that Saprolegnia spp. can have multiple hosts and are thus capable of infecting different aquatic organisms. Saprolegnia delica , Saprolegnia hypogyna , and 2 strains of Saprolegnia diclina were isolated from aquatic insects and amphipods while S. delica , Saprolegnia ferax , Pythium pachycaule , and a Pythium sp. were isolated from the water of a medium to fast flowing river. The ITS region of the rRNA gene was sequenced for all isolates. In challenge experiments, all four isolates from insects were found to be highly pathogenic to eggs of Atlantic salmon ( Salmo salar ) and embryos of the African clawed frog ( Xenopus laevis ). We found that Saprolegnia spp. isolated from salmon eggs were also able to successfully establish infection in nymphs of stonefly ( Perla bipunctata ) and embryos of X. laevis ). These results suggest that Saprolegnia spp. are capable of infecting multiple hosts, which may give them an advantage during seasonal variation in their natural environments. [ABSTRACT FROM AUTHOR]

Published

2014

160. Evidence of a Natural Hybrid Oomycete Isolated from Ornamental Nursery Stock.

Author

Benavent-Celma C, McLaggan D, van West P, and Woodward S

Abstract

The oomycete genus Phytophthora includes many plant pathogens important in agricultural and environmental systems. Natural interspecific hybridization has been reported several times in Phytophthora , and although the fundamental processes of interspecific hybridization and the consequences of subsequent ecological distribution are poorly understood, reports suggest some hybrids can infect a broader host range and display enhanced virulence compared to the putative parental species. During a survey carried out at the University of Aberdeen in 2014-2015, of oomycetes present in ornamental plants purchased via the internet, a batch of oomycete isolates remained unidentified, showing, in some isolates, features generally related to hybridization. The aim of this study was to determine whether hybridization events had occurred between endemic and introduced oomycetes, probably/possibly facilitated through the international plant trade. The list of isolates examined included a putative hybrid closely related to Phytophthora cryptogea . The putative hybrid isolate was further characterized, and pathogenicity were tests carried out on Eucalyptus globulus , using an isolate of P. cryptogea as a positive control. Cloning of ITS, COXI and β-tubulin genes resulted in different sequence versions of the putative hybrid isolate; after mapping and a polymorphism position comparison, it was concluded that the studied isolate contained genetic information from P. cryptogea , P. erythroseptica , P. kelmanii , P. sansomeana and Phytopythium chamaehyphon . A PCR-RFLP assay, a NEBcutter analysis and flow cytometry analysis (genomes ranged between 0.168 to 0.269 pg/2C) added further evidence of the hybrid nature of this isolate. The putative hybrid presented complex growing patterns ranging from rosaceous to chrysanthemum-like and had an optimum growth temperature of 25 °C. Although the putative hybrid produced visible symptoms of disease on E. globulus seedlings, assessment of the relative susceptibility of E. globulus to P. cryptogea and the putative hybrid indicated that P. cryptogea was significantly more virulent than the putative hybrid, based on mortality, disease severity and foliar symptoms.

Published

2023

161. Development of a 3D spheroid cell culture system from fish cell lines for in vitro infection studies: Evaluation with Saprolegnia parasitica.

Author

Faber MN, Sojan JM, Saraiva M, van West P, and Secombes CJ

Subjects

Animals, Cell Culture Techniques methods, Cell Line, Host-Pathogen Interactions, Infections etiology, Cell Culture Techniques veterinary, Fish Diseases etiology, Infections veterinary, Oncorhynchus mykiss, Saprolegnia physiology

Abstract

Understanding the ways in which pathogens infect host cells is essential to improve and develop new treatment strategies. This study aimed to generate a novel in vitro infection model by establishing a reproducible 3D spheroid cell culture system that may lead to a reduced need for animals in fish disease research. 2D models (commonly cell lines) cannot replicate many key conditions of in vivo infections, but 3D spheroids have the potential to provide bridging technology between in vivo and in vitro systems. 3D spheroids were generated using cells from rainbow trout (Oncorhynchus mykiss) cell lines, RTG-2 and RTS-11. The RTG-2 spheroids were tested for their potential to be infected upon exposure to Saprolegnia parasitica spores. Positive infiltration of mycelia into the spheroids was verified by confocal microscopy. As a closer analogue of in vivo conditions encountered during infection, the straightforward model developed in this study shows promise as an additional tool that can be used to further our understanding of host-pathogen interactions for Saprolegnia and possibly a variety of other fish pathogens., (© 2021 John Wiley & Sons Ltd.)

Published

2021

162. Host and pathogen autophagy are central to the inducible local defences and systemic response of the giant kelp Macrocystis pyrifera against the oomycete pathogen Anisolpidium ectocarpii.

Author

Murúa P, Müller DG, Etemadi M, van West P, and Gachon CMM

Subjects

Autophagy, Ecosystem, Kelp, Macrocystis, Oomycetes

Abstract

Kelps are key primary producers of cold and temperate marine coastal ecosystems and exhibit systemic defences against pathogens. Yet, the cellular mechanisms underpinning their immunity remain to be elucidated. We investigated the time course of infection of the kelp Macrocystis pyrifera by the oomycete Anisolpidium ectocarpii using TEM, in vivo autophagy markers and autophagy inhibitors. Over several infection cycles, A. ectocarpii undergoes sequential physiological shifts sensitive to autophagy inhibitors. Initially lipid-rich, pathogen thalli become increasingly lipid-depleted; they subsequently tend to become entirely abortive, irrespective of their lipid content. Moreover, infected algal cells mount local defences and can directly eliminate the pathogen by xenophagy. Finally, autophagy-dependent plastid recycling is induced in uninfected host cells. We demonstrate the existence of local, inducible autophagic processes both in the pathogen and infected host cells, which result in the restriction of pathogen propagation. We also show the existence of a systemic algal response mediated by autophagy. We propose a working model accounting for all our observations, whereby the outcome of the algal-pathogen interaction (i.e. completion or not of the pathogen life cycle) is dictated by the induction, and possibly the mutual hijacking, of the host and pathogen autophagy machineries., (© 2020 The Authors. New Phytologist © 2020 New Phytologist Trust.)

Published

2020

163. Morphological, genotypic and metabolomic signatures confirm interfamilial hybridization between the ubiquitous kelps Macrocystis (Arthrothamnaceae) and Lessonia (Lessoniaceae).

Author

Murúa P, Edrada-Ebel R, Muñoz L, Soldatou S, Legrave N, Müller DG, Patiño DJ, van West P, Küpper FC, Westermeier R, Ebel R, and Peters AF

Subjects

DNA, Algal genetics, Genotype, Hybridization, Genetic, Plant Breeding, Sporangia physiology, Sympatry, Genotyping Techniques methods, Laminaria physiology, Macrocystis physiology, Metabolomics methods

Abstract

Macrocystis pyrifera and Lessonia spicata are economically and ecologically relevant brown seaweeds that recently have been classified as members of two separated families within Laminariales (kelps). Here we describe for the first time the Macrocystis pyrifera x Lessonia spicata hybridization in the wild (Chiloe Island, Southeastern Pacific), where populations of the two parents exist sympatrically. Externally, this hybrid exhibited typical features of its parents M. pyrifera (cylindrical and flexible distal stipes, serrate frond margins and presence of sporophylls) and L. spicata (rigid and flat main stipe and first bifurcation), as well as intermediate features between them (thick unfused haptera in the holdfast). Histological sections revealed the prevalence of mucilage ducts within stipes and fronds (absent in Lessonia) and fully developed unilocular sporangia in the sporophylls. Molecular analyses confirmed the presence of the two parental genotypes for ITS1 nrDNA and the M. pyrifera genotype for two predominantly maternally inherited cytoplasmic markers (COI and rbcLS spacer) in the tissue of the hybrid. A metabolome-wide approach revealed that this hybrid is more chemically reminiscent to M. pyrifera. Nevertheless, several hits were identified as Lessonia exclusive or more remarkably, not present in any of the parent. Meiospores developed into apparently fertile gametophytes, which gave rise to F1 sporophytes that reached several millimeters before suddenly dying. In-vitro reciprocal crossing of Mar Brava gametophytes from both species revealed that although it is rare, interfamilial hybridization between the two species is possible but mostly overcome by pseudogamy of female gametophytes.

Published

2020

164. Galleria melonella as an experimental in vivo host model for the fish-pathogenic oomycete Saprolegnia parasitica.

Author

Wuensch A, Trusch F, Iberahim NA, and van West P

Subjects

Animals, Larva parasitology, Moths immunology, Phenotype, Protoplasts, Virulence, Disease Models, Animal, Fishes parasitology, Moths parasitology, Saprolegnia pathogenicity

Abstract

Oomycetes are eukaryotic pathogens infecting animals and plants. Amongst them Saprolegnia parasitica is a fish pathogenic oomycete causing devastating losses in the aquaculture industry. To secure fish supply, new drugs are in high demand and since fish experiments are time consuming, expensive and involve animal welfare issues the search for adequate model systems is essential. Galleria mellonella serves as a heterologous host model for bacterial and fungal infections. This study extends the use of G. mellonella for studying infections with oomycetes. Saprolegniales are highly pathogenic to the insects while in contrast, the plant pathogen Phytophthora infestans showed no pathogenicity. Melanisation of hyphae below the cuticle allowed direct macroscopic monitoring of disease progression. However, the melanin response is not systemic as for other pathogens but instead is very local. The mortality of the larvae is dose-dependent and can be induced by cysts or regenerating protoplasts as an alternative source of inoculation., (Copyright © 2018 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2018

165. Maullinia braseltonii sp. nov. (Rhizaria, Phytomyxea, Phagomyxida): A Cyst-forming Parasite of the Bull Kelp Durvillaea spp. (Stramenopila, Phaeophyceae, Fucales).

Author

Murúa P, Goecke F, Westermeier R, van West P, Küpper FC, and Neuhauser S

Subjects

Chile, Falkland Islands, Phylogeny, RNA, Ribosomal, 18S genetics, RNA, Ribosomal, 28S genetics, RNA, Ribosomal, 5.8S genetics, Rhizaria genetics, Sequence Analysis, RNA, Kelp parasitology, RNA, Algal genetics, Rhizaria classification, Rhizaria physiology

Abstract

Phytomyxea are obligate endoparasites of angiosperm plants and Stramenopiles characterised by a complex life cycle. Here Maullinia braseltonii sp. nov., an obligate parasite infecting the bull kelp Durvillaea (Phaeophyceae, Fucales) from the South-Eastern Pacific (Central Chile and Chiloe Island) and South-Western Atlantic (Falkland Islands, UK) is described. M. braseltonii causes distinct hypertrophies (galls) on the host thalli making it easily identifiable in the field. Sequence comparisons based on the partial 18S and the partial 18S-5.8S-28S regions confirmed its placement within the order Phagomyxida (Phytomyxea, Rhizaria), as a sister species of the marine parasite Maullinia ectocarpii, which is also a parasite of brown algae. The development of resting spores in M. braseltonii is described by light and electron microscopy and confirmed by FISH experiments, which visually showed the differential expression of the 28S non-coding gene, strongly in early plasmodia and weakly in late cysts. M. braseltonii is, so far, the only phytomyxean parasite of brown algae for which the formation of resting spores has been reported, and which is widely distributed in Durvillaea stocks from the Southeastern Pacific and Southwestern Atlantic., (Copyright © 2017 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2017

166. The RxLR Motif of the Host Targeting Effector AVR3a of Phytophthora infestans Is Cleaved before Secretion.

Author

Wawra S, Trusch F, Matena A, Apostolakis K, Linne U, Zhukov I, Stanek J, Koźmiński W, Davidson I, Secombes CJ, Bayer P, and van West P

Subjects

Amino Acid Motifs genetics, Amino Acid Motifs physiology, Fungal Proteins genetics, Mass Spectrometry, Phytophthora infestans genetics, Fungal Proteins chemistry, Fungal Proteins metabolism, Phytophthora infestans metabolism, Phytophthora infestans pathogenicity, Solanum tuberosum microbiology

Abstract

When plant-pathogenic oomycetes infect their hosts, they employ a large arsenal of effector proteins to establish a successful infection. Some effector proteins are secreted and are destined to be translocated and function inside host cells. The largest group of translocated proteins from oomycetes is the RxLR effectors, defined by their conserved N-terminal Arg-Xaa-Leu-Arg (RxLR) motif. However, the precise role of this motif in the host cell translocation process is unclear. Here, detailed biochemical studies of the RxLR effector AVR3a from the potato pathogen Phytophthora infestans are presented. Mass spectrometric analysis revealed that the RxLR sequence of native AVR3a is cleaved off prior to secretion by the pathogen and the N terminus of the mature effector was found likely to be acetylated. High-resolution NMR structure analysis of AVR3a indicates that the RxLR motif is well accessible to potential processing enzymes. Processing and modification of AVR3a is to some extent similar to events occurring with the export element (PEXEL) found in malaria effector proteins from Plasmodium falciparum These findings imply a role for the RxLR motif in the secretion of AVR3a by the pathogen, rather than a direct role in the host cell entry process itself., (© 2017 American Society of Plant Biologists. All rights reserved.)

Published

2017

167. Arctic marine phytobenthos of northern Baffin Island.

Author

Küpper FC, Peters AF, Shewring DM, Sayer MD, Mystikou A, Brown H, Azzopardi E, Dargent O, Strittmatter M, Brennan D, Asensi AO, van West P, and Wilce RT

Subjects

Algal Proteins genetics, Arctic Regions, Chlorophyta classification, Chlorophyta genetics, Islands, Nunavut, Phaeophyceae classification, Phaeophyceae genetics, Phylogeny, Rhodophyta classification, Rhodophyta genetics, Seaweed genetics, Sequence Analysis, DNA, Biodiversity, Seaweed classification

Abstract

Global climate change is expected to alter the polar bioregions faster than any other marine environment. This study assesses the biodiversity of seaweeds and associated eukaryotic pathogens of an established study site in northern Baffin Island (72° N), providing a baseline inventory for future work assessing impacts of the currently ongoing changes in the Arctic marine environment. A total of 33 Phaeophyceae, 24 Rhodophyceae, 2 Chlorophyceae, 12 Ulvophyceae, 1 Trebouxiophyceae, and 1 Dinophyceae are reported, based on collections of an expedition to the area in 2009, complemented by unpublished records of Robert T. Wilce and the first-ever photographic documentation of the phytobenthos of the American Arctic. Molecular barcoding of isolates raised from incubated substratum samples revealed the presence of 20 species of brown seaweeds, including gametophytes of kelp and of a previously unsequenced Desmarestia closely related to D. viridis, two species of Pylaiella, the kelp endophyte Laminariocolax aecidioides and 11 previously unsequenced species of the Ectocarpales, highlighting the necessity to include molecular techniques for fully unraveling cryptic algal diversity. This study also includes the first records of Eurychasma dicksonii, a eukaryotic pathogen affecting seaweeds, from the American Arctic. Overall, this study provides both the most accurate inventory of seaweed diversity of the northern Baffin Island region to date and can be used as an important basis to understand diversity changes with climate change., (© 2016 The Authors. Journal of Phycology published by Wiley Periodicals, Inc. on behalf of Phycological Society of America.)

Published

2016

168. New record and phylogenetic affinities of the oomycete Olpidiopsis feldmanni infecting Asparagopsis sp. (Rhodophyta).

Author

Fletcher K, Uljević A, Tsirigoti A, Antolić B, Katsaros C, Nikolić V, van West P, and Küpper FC

Subjects

Microscopy, Electron, Transmission, Oceans and Seas, Phylogeny, Oomycetes classification, Oomycetes genetics, Rhodophyta parasitology

Abstract

A new geographic record of the oomycete Olpidiopsis feldmanni infecting the tetrasporophytic stage of the red alga Asparagopsis sp. from the Adriatic Sea, confirmed through morphological identification, allowed us to expand previous observations of this organism. Ultrastructural investigations of environmental material showed a large central vacuole and a cell wall thicker than previously reported from other basal oomycete pathogens of algae. Phylogenetic analysis closely associates O. feldmanni to O. bostrychiae concurrent with structural observations. This constitutes the first genetic characterisation of an Olpidiopsis species that was initially described before 1960, adding to the genetic data of 3 other marine Olpidiopsis species established and genetically characterised in the last 2 decades. The paper discusses concurrences of the ultrastructural observations made here and in previous studies of the marine Olpidiopsis species with those made on the freshwater species.

Published

2015

169. Development of eukaryotic zoospores within polycyclic aromatic hydrocarbon (PAH)-polluted environments: a set of behaviors that are relevant for bioremediation.

Author

Sungthong R, van West P, Cantos M, and Ortega-Calvo JJ

Subjects

Biodegradation, Environmental, Polycyclic Aromatic Hydrocarbons analysis, Soil Pollutants analysis, Spores, Protozoan growth & development, Environmental Restoration and Remediation methods, Polycyclic Aromatic Hydrocarbons metabolism, Soil Pollutants metabolism, Spores, Protozoan metabolism

Abstract

In this study, we assessed the development (formation, taxis and settlement) of eukaryotic zoospores under different regimes of exposure to polycyclic aromatic hydrocarbons (PAHs), which imitated environmental scenarios of pollution and bioremediation. With this aim, we used an oomycete, Pythium aphanidermatum, as a source of zoospores and two PAH-degrading bacteria (Mycobacterium gilvum VM552 and Pseudomonas putida G7). The oomycete and both bacteria were not antagonistic, and zoospore formation was diminished only in the presence of the highest bacterial cell density (10(8)-10(10) colony-forming units mL(-1)). A negative influence of PAHs on zoospore formation and taxis was observed when PAHs were exposed in combination with organic solutions and polar solvents. Co-exposure of PAHs with non-polar solvents [hexadecane (HD) and 2,2,4,4,6,8,8-heptamethylnonane (HMN)] did not affect zoospore settlement at the interfaces of the organic solvents and water. However, zoospores settled and created mycelial networks only at HD-water interfaces. Both bacteria diminished the toxic influence of PAHs on zoospore formation and taxis, and they did not interrupt zoospore settlement. The results suggest that zoospore development could be applicable for toxicity assessment of PAHs and enhancement of their bioavailability. Microbial interactions during both swimming modes and community formation at pollutant interfaces were revealed as major factors that have potential relevance to bioremediation., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

170. Role of pathogen-derived cell wall carbohydrates and prostaglandin E2 in immune response and suppression of fish immunity by the oomycete Saprolegnia parasitica.

Author

Belmonte R, Wang T, Duncan GJ, Skaar I, Mélida H, Bulone V, van West P, and Secombes CJ

Subjects

Animals, Carbohydrates chemistry, Cell Wall chemistry, Fish Diseases immunology, Gene Expression Regulation, Enzymologic, Gills metabolism, Head Kidney metabolism, Infections immunology, Infections microbiology, Phospholipases chemistry, Phospholipases genetics, Phospholipases metabolism, Saprolegnia genetics, Saprolegnia metabolism, Carbohydrates immunology, Cell Wall immunology, Dinoprostone metabolism, Fish Diseases parasitology, Infections veterinary, Oncorhynchus mykiss, Salmo salar, Saprolegnia cytology, Saprolegnia immunology

Abstract

Saprolegnia parasitica is a freshwater oomycete that is capable of infecting several species of fin fish. Saprolegniosis, the disease caused by this microbe, has a substantial impact on Atlantic salmon aquaculture. No sustainable treatment against saprolegniosis is available, and little is known regarding the host response. In this study, we examined the immune response of Atlantic salmon to S. parasitica infection and to its cell wall carbohydrates. Saprolegnia triggers a strong inflammatory response in its host (i.e., induction of interleukin-1β1 [IL-1β1], IL-6, and tumor necrosis factor alpha), while severely suppressing the expression of genes associated with adaptive immunity in fish, through downregulation of T-helper cell cytokines, antigen presentation machinery, and immunoglobulins. Oomycete cell wall carbohydrates were recognized by fish leukocytes, triggering upregulation of genes involved in the inflammatory response, similar to what is observed during infection. Our data suggest that S. parasitica is capable of producing prostaglandin [corrected] E2 (PGE2) in vitro, a metabolite not previously shown to be produced by oomycetes, and two proteins with homology to vertebrate enzymes known to play a role in prostaglandin biosynthesis have been identified in the oomycete genome. Exogenous PGE2 was shown to increase the inflammatory response in fish leukocytes incubated with cell wall carbohydrates while suppressing genes involved in cellular immunity (gamma interferon [IFN-γ] and the IFN-γ-inducible protein [γ-IP]). Inhibition of S. parasitica zoospore germination and mycelial growth by two cyclooxygenase inhibitors (aspirin and indomethacin) also suggests that prostaglandins may be involved in oomycete development., (Copyright © 2014, American Society for Microbiology. All Rights Reserved.)

Published

2014

171. A putative DEAD-box RNA-helicase is required for normal zoospore development in the late blight pathogen Phytophthora infestans.

Author

Walker CA, Köppe M, Grenville-Briggs LJ, Avrova AO, Horner NR, McKinnon AD, Whisson SC, Birch PR, and van West P

Subjects

Algal Proteins chemistry, Algal Proteins genetics, Algal Proteins metabolism, Amino Acid Sequence, DEAD-box RNA Helicases chemistry, DEAD-box RNA Helicases genetics, Gene Silencing, Microscopy, Electron, Transmission, Molecular Sequence Data, Phenotype, Phylogeny, Phytophthora genetics, Phytophthora physiology, RNA Interference, Spores enzymology, Spores genetics, Spores ultrastructure, DEAD-box RNA Helicases metabolism, Phytophthora enzymology, Phytophthora pathogenicity, Plant Diseases parasitology, Spores growth & development

Abstract

The asexual multinucleated sporangia of Phytophthora infestans can germinate directly through a germ tube or indirectly by releasing zoospores. The molecular mechanisms controlling sporangial cytokinesis or sporangial cleavage, and zoospore release are largely unknown. Sporangial cleavage is initiated by a cold shock that eventually compartmentalizes single nuclei within each zoospore. Comparison of EST representation in different cDNA libraries revealed a putative ATP-dependent DEAD-box RNA-helicase gene in P. infestans, Pi-RNH1, which has a 140-fold increased expression level in young zoospores compared to uncleaved sporangia. RNA interference was employed to determine the role of Pi-RNH1 in zoospore development. Silencing efficiencies of up to 99% were achieved in some transiently-silenced lines. These Pi-RNH1-silenced lines produced large aberrant zoospores that had undergone partial cleavage and often had multiple flagella on their surface. Transmission electron microscopy revealed that cytoplasmic vesicles fused in the silenced lines, resulting in the formation of large vesicles. The Pi-RNH1-silenced zoospores were also sensitive to osmotic pressure and often ruptured upon release from the sporangia. These findings indicate that Pi-RNH1 has a major function in zoospore development and its potential role in cytokinesis is discussed.

Published

2008

172. Proteomic studies of plant-pathogenic oomycetes and fungi.

Author

Bruce CR, Van West P, and Grenville-Briggs LJ

Subjects

Fungal Proteins chemistry, Fungi pathogenicity, Genome, Plant, Plant Diseases microbiology, Plant Proteins chemistry, Oomycetes metabolism, Plants microbiology, Proteomics methods

Published

2006