Your search keyword '"Chantelle Hooper"' showing total 17 results

1. Comparative genomics of Ascetosporea gives new insight into the evolutionary basis for animal parasitism in Rhizaria

Author

Markus Hiltunen Thorén, Ioana Onuț-Brännström, Anders Alfjorden, Hana Pecková, Fiona Swords, Chantelle Hooper, Astrid S. Holzer, David Bass, and Fabien Burki

Subjects

Genome reduction, Reductive evolution, Evolutionary transition, Phylogeny, Protozoa, Intracellular parasite, Biology (General), QH301-705.5

Abstract

Abstract Background Ascetosporea (Endomyxa, Rhizaria) is a group of unicellular parasites infecting aquatic invertebrates. They are increasingly being recognized as widespread and important in marine environments, causing large annual losses in invertebrate aquaculture. Despite their importance, little molecular data of Ascetosporea exist, with only two genome assemblies published to date. Accordingly, the evolutionary origin of these parasites is unclear, including their phylogenetic position and the genomic adaptations that accompanied the transition from a free-living lifestyle to parasitism. Here, we sequenced and assembled three new ascetosporean genomes, as well as the genome of a closely related amphizoic species, to investigate the phylogeny, origin, and genomic adaptations to parasitism in Ascetosporea. Results Using a phylogenomic approach, we confirm the monophyly of Ascetosporea and show that Paramyxida group with Mikrocytida, with Haplosporida being sister to both groups. We report that the genomes of these parasites are relatively small (12–36 Mb) and gene-sparse (~ 2300–5200 genes), while containing surprisingly high amounts of non-coding sequence (~ 70–90% of the genomes). Performing gene-tree aware ancestral reconstruction of gene families, we demonstrate extensive gene losses at the origin of parasitism in Ascetosporea, primarily of metabolic functions, and little gene gain except on terminal branches. Finally, we highlight some functional gene classes that have undergone expansions during evolution of the group. Conclusions We present important new genomic information from a lineage of enigmatic but important parasites of invertebrates and illuminate some of the genomic innovations accompanying the evolutionary transition to parasitism in this lineage. Our results and data provide a genetic basis for the development of control measures against these parasites.

Published

2024

2. Investigating Non-Native Ribbon Worm Cephalothrix simula as a Potential Source of Tetrodotoxin in British Bivalve Shellfish

Author

Monika Dhanji-Rapkova, Robert G. Hatfield, David I. Walker, Chantelle Hooper, Sarah Alewijnse, Craig Baker-Austin, Andrew D. Turner, and Jennifer M. Ritchie

Subjects

tetrodotoxin, Cephalothrix simula, bivalve shellfish, Pacific oysters, Great Britain, Biology (General), QH301-705.5

Abstract

Tetrodotoxin (TTX) is a potent marine neurotoxin found in several phylogenetically diverse organisms, some of which are sought as seafood. Since 2015, TTX has been reported in bivalve shellfish from several estuarine locations along the Mediterranean and European Atlantic coasts, posing an emerging food safety concern. Although reports on spatial and temporal distribution have increased in recent years, processes leading to TTX accumulation in European bivalves are yet to be described. Here, we explored the hypothesis that the ribbon worm species Cephalothrix simula, known to contain high levels of TTX, could play a role in the trophic transfer of the toxin into shellfish. During a field study at a single location in southern England, we confirmed C. simula DNA in seawater adjacent to trestle-farmed Pacific oysters Magallana gigas (formerly Crassostrea gigas) with a history of TTX occurrence. C. simula DNA in seawater was significantly higher in June and July during the active phase of toxin accumulation compared to periods of either no or continually decreasing TTX concentrations in M. gigas. In addition, C. simula DNA was detected in oyster digestive glands collected on 15 June 2021, the day with the highest recorded C. simula DNA abundance in seawater. These findings show evidence of a relationship between C. simula and TTX occurrence, providing support for the hypothesis that bivalves may acquire TTX through filter-feeding on microscopic life forms of C. simula present in the water column at particular periods each year. Although further evidence is needed to confirm such feeding activity, this study significantly contributes to discussions about the biological source of TTX in European bivalve shellfish.

Published

2024

3. Laboratory Replication of Ostreid Herpes Virus (OsHV-1) Using Pacific Oyster Tissue Explants

Author

Robert W. A. Potts, Tim Regan, Stuart Ross, Kelly Bateman, Chantelle Hooper, Richard Paley, Ross D. Houston, and Tim P. Bean

Subjects

oyster, tissue culture, explants, Microbiology, QR1-502

Abstract

Pacific oysters (Crassostrea or Magallana gigas) are one of the most economically important aquaculture species globally. Over the past two decades, ostreid herpesvirus (OsHV-1) has become a major pathogen of cultured Pacific oysters, resulting in widespread mortality with a global distribution. Experimental use of OsHV-1 is challenging for many reasons, including both complexity of host–pathogen dynamics and a lack of functioning model systems. The goal of this study was to improve the tools available for working with OsHV-1 in both whole animals and in tissue explants established from oysters maintained in controlled laboratory conditions. Tissue explants were taken from oysters originating from two different sources that have different levels of mortality in experimental OsHV-1 infections and were exposed to OsHV-1. A whole-animal infection experiment was run concurrently as a comparison. Quantitative PCR and electron microscopy were used to confirm that the explants were capable of replicating OsHV-1. Furthermore, the quantitative PCR results suggest that the source of the oysters was significant in determining the outcome of infection in the explants, supporting the validity of the explant model for OsHV-1 infection. This tissue explant approach for studying OsHV-1 allows for the control of confounding factors in the disease outcome that is not possible in whole-animal experiments, providing a new tool for the study of OsHV-1 in Pacific oysters.

Published

2024

4. Long amplicons as a tool to identify variable regions of ribosomal RNA for improved taxonomic resolution and diagnostic assay design in microeukaryotes: using ascetosporea as a case study

Author

Chantelle Hooper, Georgia M. Ward, Rachel Foster, Ilze Skujina, Joseph E. Ironside, Cédric Berney, and David Bass

Subjects

protists, systematics, diagnostics, ascetosporea, marteilia, paramarteilia, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

IntroductionThere is no universally appropriate basis for delimiting species in protists, including parasites. Many molecular markers used for species delimitation are part of the ribosomal RNA (rRNA) array, with different regions of the array being used for different parasitic protist taxa. However, little is known about sequence variability across the rRNA in most organisms, and there is no standard threshold at which divergence in the sequence of a particular gene can be used as a basis for species delimitation. MethodsHere we demonstrate a method to generate the full rRNA array of parasitic protists by amplification of the array in two long, overlapping fragments followed by Illumina and Nanopore sequencing to produce high quality assemblies, to determine variations in sequence variability across the array. We apply this approach to two pairs of closely related ascetosporean parasites of crustaceans and molluscs [respectively Paramarteilia canceri/P. orchestiae and Marteilia cochillia/M. cocosarum (Rhizaria; Endomyxa; Ascetosporea)] and Bonamia ostreae and demonstrate how full-length rRNA sequences can be used to determine regions of the rRNA array that are most discriminatory, and robustly differentiate between species in combination with other lines of evidence. ResultsPhylogenetic analyses of the transcribed regions of the rRNA array demonstrate maximal support for, and separation of, all four parasite species. Sliding window global alignment analysis determined the regions of the rRNA array that had the most consistent nucleotide differences between the closely related parasites in a 1 kb region of the array. For Paramarteilia, this region was a combined internal transcribed spacer 1-5.8S-internal transcribed spacer 2 alignment, and for Marteilia, it was the external transcribed spacer. Phylogenetic analysis of these regions were able to recover the respective species, demonstrating that these regions could be used for improved diagnostic PCR assays.DiscussionOur method could be adapted to quickly generate sequence data and determine regions more suitable for diagnostic assays for a wide diversity of parasite groups. It also allows the generation of sequence data for regions of the rRNA not commonly studied (e.g. regions of the intergenic spacer), thus enabling research into their suitability as marker regions.

Published

2023

5. Genome-Wide Association and Genomic Prediction of Growth Traits in the European Flat Oyster (Ostrea edulis)

Author

Carolina Peñaloza, Agustin Barria, Athina Papadopoulou, Chantelle Hooper, Joanne Preston, Matthew Green, Luke Helmer, Jacob Kean-Hammerson, Jennifer C. Nascimento-Schulze, Diana Minardi, Manu Kumar Gundappa, Daniel J. Macqueen, John Hamilton, Ross D. Houston, and Tim P. Bean

Subjects

Ostrea edulis, oyster, GWAS, genomic selection, growth, aquaculture, Genetics, QH426-470

Abstract

The European flat oyster (Ostrea edulis) is a bivalve mollusc that was once widely distributed across Europe and represented an important food resource for humans for centuries. Populations of O. edulis experienced a severe decline across their biogeographic range mainly due to overexploitation and disease outbreaks. To restore the economic and ecological benefits of European flat oyster populations, extensive protection and restoration efforts are in place within Europe. In line with the increasing interest in supporting restoration and oyster farming through the breeding of stocks with enhanced performance, the present study aimed to evaluate the potential of genomic selection for improving growth traits in a European flat oyster population obtained from successive mass-spawning events. Four growth-related traits were evaluated: total weight (TW), shell height (SH), shell width (SW) and shell length (SL). The heritability of the growth traits was in the low-moderate range, with estimates of 0.45, 0.37, 0.22, and 0.32 for TW, SH, SW and SL, respectively. A genome-wide association analysis revealed a largely polygenic architecture for the four growth traits, with two distinct QTLs detected on chromosome 4. To investigate whether genomic selection can be implemented in flat oyster breeding at a reduced cost, the utility of low-density SNP panels was assessed. Genomic prediction accuracies using the full density panel were high (> 0.83 for all traits). The evaluation of the effect of reducing the number of markers used to predict genomic breeding values revealed that similar selection accuracies could be achieved for all traits with 2K SNPs as for a full panel containing 4,577 SNPs. Only slight reductions in accuracies were observed at the lowest SNP density tested (i.e., 100 SNPs), likely due to a high relatedness between individuals being included in the training and validation sets during cross-validation. Overall, our results suggest that the genetic improvement of growth traits in oysters is feasible. Nevertheless, and although low-density SNP panels appear as a promising strategy for applying GS at a reduced cost, additional populations with different degrees of genetic relatedness should be assessed to derive estimates of prediction accuracies to be expected in practical breeding programmes.

Published

2022

6. The first clawed lobster virus Homarus gammarus nudivirus (HgNV n. sp.) expands the diversity of the Nudiviridae

Author

Corey C. Holt, Michelle Stone, David Bass, Kelly S. Bateman, Ronny van Aerle, Carly L. Daniels, Mark van der Giezen, Stuart H. Ross, Chantelle Hooper, and Grant D. Stentiford

Subjects

Medicine, Science

Abstract

Abstract Viral diseases of crustaceans are increasingly recognised as challenges to shellfish farms and fisheries. Here we describe the first naturally-occurring virus reported in any clawed lobster species. Hypertrophied nuclei with emarginated chromatin, characteristic histopathological lesions of DNA virus infection, were observed within the hepatopancreatic epithelial cells of juvenile European lobsters (Homarus gammarus). Transmission electron microscopy revealed infection with a bacilliform virus containing a rod shaped nucleocapsid enveloped in an elliptical membrane. Assembly of PCR-free shotgun metagenomic sequencing produced a circular genome of 107,063 bp containing 97 open reading frames, the majority of which share sequence similarity with a virus infecting the black tiger shrimp: Penaeus monodon nudivirus (PmNV). Multiple phylogenetic analyses confirm the new virus to be a novel member of the Nudiviridae: Homarus gammarus nudivirus (HgNV). Evidence of occlusion body formation, characteristic of PmNV and its closest relatives, was not observed, questioning the horizontal transmission strategy of HgNV outside of the host. We discuss the potential impacts of HgNV on juvenile lobster growth and mortality and present HgNV-specific primers to serve as a diagnostic tool for monitoring the virus in wild and farmed lobster stocks.

Published

2019

7. Identification and Full Characterisation of Two Novel Crustacean Infecting Members of the Family Nudiviridae Provides Support for Two Subfamilies

Author

Kelly S. Bateman, Rose Kerr, Grant D. Stentiford, Tim P. Bean, Chantelle Hooper, Benigna Van Eynde, Daan Delbare, Jamie Bojko, Olivier Christiaens, Clauvis N. T. Taning, Guy Smagghe, Monique M. van Oers, and Ronny van Aerle

Subjects

nudivirus, Crangon crangon, Carcinus maenas, brown shrimp, shore crab, virus classification, Microbiology, QR1-502

Abstract

Multiple enveloped viruses with rod-shaped nucleocapsids have been described, infecting the epithelial cell nuclei within the hepatopancreas tubules of crustaceans. These bacilliform viruses share the ultrastructural characteristics of nudiviruses, a specific clade of viruses infecting arthropods. Using histology, electron microscopy and high throughput sequencing, we characterise two further bacilliform viruses from aquatic hosts, the brown shrimp (Crangon crangon) and the European shore crab (Carcinus maenas). We assembled the full double stranded, circular DNA genome sequences of these viruses (~113 and 132 kbp, respectively). Comparative genomics and phylogenetic analyses confirm that both belong within the family Nudiviridae but in separate clades representing nudiviruses found in freshwater and marine environments. We show that the three thymidine kinase (tk) genes present in all sequenced nudivirus genomes, thus far, were absent in the Crangon crangon nudivirus, suggesting there are twenty-eight core genes shared by all nudiviruses. Furthermore, the phylogenetic data no longer support the subdivision of the family Nudiviridae into four genera (Alphanudivirus to Deltanudivirus), as recently adopted by the International Committee on Taxonomy of Viruses (ICTV), but rather shows two main branches of the family that are further subdivided. Our data support a recent proposal to create two subfamilies within the family Nudiviridae, each subdivided into several genera.

Published

2021

8. A Novel RNA Virus, Macrobrachium rosenbergii Golda Virus (MrGV), Linked to Mass Mortalities of the Larval Giant Freshwater Prawn in Bangladesh

Author

Chantelle Hooper, Partho P. Debnath, Sukumar Biswas, Ronny van Aerle, Kelly S. Bateman, Siddhawartha K. Basak, Muhammad M. Rahman, Chadag V. Mohan, H. M. Rakibul Islam, Stuart Ross, Grant D. Stentiford, David Currie, and David Bass

Subjects

Macrobrachium rosenbergii, freshwater prawns, Nidovirales, Macrobrachium rosenbergii Golda virus, RNA virus, Roniviridae, Microbiology, QR1-502

Abstract

Mass mortalities of the larval stage of the giant freshwater prawn, Macrobrachium rosenbergii, have been occurring in Bangladesh since 2011. Mortalities can reach 100% and have resulted in an 80% decline in the number of hatcheries actively producing M. rosenbergii. To investigate a causative agent for the mortalities, a disease challenge was carried out using infected material from a hatchery experiencing mortalities. Moribund larvae from the challenge were prepared for metatranscriptomic sequencing. De novo virus assembly revealed a 29 kb single-stranded positive-sense RNA virus with similarities in key protein motif sequences to yellow head virus (YHV), an RNA virus that causes mass mortalities in marine shrimp aquaculture, and other viruses in the Nidovirales order. Primers were designed against the novel virus and used to screen cDNA from larvae sampled from hatcheries in the South of Bangladesh from two consecutive years. Larvae from all hatcheries screened from both years were positive by PCR for the novel virus, including larvae from a hatchery that at the point of sampling appeared healthy, but later experienced mortalities. These screens suggest that the virus is widespread in M. rosenbergii hatchery culture in southern Bangladesh, and that early detection of the virus can be achieved by PCR. The hypothesised protein motifs of Macrobrachium rosenbergii golda virus (MrGV) suggest that it is likely to be a new species within the Nidovirales order. Biosecurity measures should be taken in order to mitigate global spread through the movement of post-larvae within and between countries, which has previously been linked to other virus outbreaks in crustacean aquaculture.

Published

2020

9. Diseases of the giant river prawn <scp> Macrobrachium rosenbergii </scp> : A review for a growing industry

Author

Chantelle Hooper, Partho P. Debnath, Grant D. Stentiford, Kelly S. Bateman, Krishna R. Salin, and David Bass

Subjects

Ecology, Management, Monitoring, Policy and Law, Aquatic Science

Published

2022

10. Identification and Full Characterisation of Two Novel Crustacean Infecting Members of the Family Nudiviridae Provides Support for Two Subfamilies

Author

Monique M. van Oers, Clauvis Nji Tizi Taning, Grant D. Stentiford, Rose Kerr, Guy Smagghe, Benigna Van Eynde, Olivier Christiaens, Chantelle Hooper, Kelly S. Bateman, Jamie Bojko, Tim P. Bean, Daan Delbare, and Ronny van Aerle

Subjects

SHRIMP CRANGON-CRANGON, SELECTION, Shore crab, bacilliform virus, Laboratory of Virology, Crangon crangon, SEQUENCE, Genome, Microbiology, DNA sequencing, Laboratorium voor Virologie, Nudivirus, Brown shrimp, Virology, shore crab, Core genes, TOOL, Bacilli-form virus, nudivirus, Virus classifica-tion, Clade, virus classification, Virus classification, Carcinus maenas nudivirus (CmNV), Taxonomy, Comparative genomics, Crangon crangon nudivirus (CcNV), Phylogenetic tree, biology, Biology and Life Sciences, brown shrimp, PE&RC, biology.organism_classification, QR1-502, GENOME, Infectious Diseases, Evolutionary biology, VIRUS, EPS, Carcinus maenas

Abstract

Multiple enveloped viruses with rod-shaped nucleocapsids have been described, infecting the epithelial cell nuclei within the hepatopancreas tubules of crustaceans. These bacilliform viruses share the ultrastructural characteristics of nudiviruses, a specific clade of viruses infecting arthropods. Using histology, electron microscopy and high throughput sequencing, we characterise two further bacilliform viruses from aquatic hosts, the brown shrimp (Crangon crangon) and the European shore crab (Carcinus maenas). We assembled the full double stranded, circular DNA genome sequences of these viruses (~113 and 132 kbp, respectively). Comparative genomics and phylogenetic analyses confirm that both belong within the family Nudiviridae but in separate clades representing nudiviruses found in freshwater and marine environments. We show that the three thymidine kinase (tk) genes present in all sequenced nudivirus genomes, thus far, were absent in the Crangon crangon nudivirus, suggesting there are twenty-eight core genes shared by all nudiviruses. Furthermore, the phylogenetic data no longer support the subdivision of the family Nudiviridae into four genera (Alphanudivirus to Deltanudivirus), as recently adopted by the International Committee on Taxonomy of Viruses (ICTV), but rather shows two main branches of the family that are further subdivided. Our data support a recent proposal to create two subfamilies within the family Nudiviridae, each subdivided into several genera.

Published

2021

11. Discovery of the parasite Marteilia cocosarum sp. nov. In common cockle (Cerastoderma edule) fisheries in Wales, UK and its comparison with Marteilia cochillia

Author

Ilze Skujina, Chantelle Hooper, David Bass, Stephen W. Feist, Kelly S Bateman, Antonio Villalba, María J. Carballal, David Iglesias, Asunción Cao, Georgia M. Ward, David R.G. Ryder, John P. Bignell, Rose Kerr, Stuart Ross, Richard Hazelgrove, Nicolae A. Macarie, Melanie Prentice, Nathan King, Jamie Thorpe, Shelagh K. Malham, Niall J. McKeown, and Joseph E. Ironside

Subjects

Wales, Fisheries, Animals, Parasites, Cardiidae, DNA, Ribosomal, Ecology, Evolution, Behavior and Systematics, Phylogeny, Bivalvia

Abstract

Diseases of bivalve molluscs caused by paramyxid parasites of the genus Marteilia have been linked to mass mortalities and the collapse of commercially important shellfish populations. Until recently, no Marteilia spp. have been detected in common cockle (Cerastoderma edule) populations in the British Isles. Molecular screening of cockles from ten sites on the Welsh coast indicates that a Marteilia parasite is widespread in Welsh C. edule populations, including major fisheries. Phylogenetic analysis of ribosomal DNA (rDNA) gene sequences from this parasite indicates that it is a closely related but different species to Marteilia cochillia, a parasite linked to mass mortality of C. edule fisheries in Spain, and that both are related to Marteilia octospora, for which we provide new rDNA sequence data. Preliminary light and transmission electron microscope (TEM) observations support this conclusion, indicating that the parasite from Wales is located primarily within areas of inflammation in the gills and the connective tissue of the digestive gland, whereas M. cochillia is found mainly within the epithelium of the digestive gland. The impact of infection by the new species, here described as Marteilia cocosarum n. sp., upon Welsh fisheries is currently unknown.

Published

2021

12. A Single-Tube HNB-Based Loop-Mediated Isothermal Amplification for the Robust Detection of the

Author

Maja A, Zaczek-Moczydłowska, Letitia, Mohamed-Smith, Anna, Toldrà, Chantelle, Hooper, Mònica, Campàs, M Dolors, Furones, Tim P, Bean, and Katrina, Campbell

Subjects

oyster, OsHV-1, DNA Helicases, DNA Viruses, Article, colorimetric, POCT, early warning detection, Molecular Diagnostic Techniques, Naphthalenesulfonates, LAMP, Animals, Crassostrea, Nucleic Acid Amplification Techniques, C. gigas

Abstract

The Ostreid herpesvirus 1 species affects shellfish, contributing significantly to high economic losses during production. To counteract the threat related to mortality, there is a need for the development of novel point-of-care testing (POCT) that can be implemented in aquaculture production to prevent disease outbreaks. In this study, a simple, rapid and specific colorimetric loop-mediated isothermal amplification (LAMP) assay has been developed for the detection of Ostreid herpesvirus 1 (OsHV-1) and its variants infecting Crassostrea gigas (C. gigas). The LAMP assay has been optimized to use hydroxynaphthol blue (HNB) for visual colorimetric distinction of positive and negative templates. The effect of an additional Tte UvrD helicase enzyme used in the reaction was also evaluated with an improved reaction time of 10 min. Additionally, this study provides a robust workflow for optimization of primers for uncultured viruses using designed target plasmid when DNA availability is limited.

Published

2020

13. A Single-Tube HNB-Based Loop-Mediated Isothermal Amplification for the Robust Detection of the Ostreid herpesvirus 1

Author

Letitia Mohamed-Smith, Mònica Campàs, Tim P. Bean, Katrina Campbell, M Dolors Furones, Maja A Zaczek-Moczydłowska, Anna Toldrà, Chantelle Hooper, Producció Animal, Aigües Marines i Continentals, Aqüicultura, and Agrosistemes i Medi Ambient

Subjects

0301 basic medicine, C. gigas, Loop-mediated isothermal amplification, 01 natural sciences, Catalysis, POCT, colorimetric, Inorganic Chemistry, Single tube, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Plasmid, LAMP, loop-mediated isothermal amplification (LAMP), Physical and Theoretical Chemistry, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, oyster, biology, OsHV-1, 010401 analytical chemistry, Organic Chemistry, Helicase, General Medicine, Ostreid herpesvirus 1, Virology, 0104 chemical sciences, Computer Science Applications, early warning detection, 030104 developmental biology, Hydroxynaphthol blue, chemistry, lcsh:Biology (General), lcsh:QD1-999, biology.protein, Ostreid herpesvirus 1 (OsHV-1, DNA

Abstract

The Ostreid herpesvirus 1 species affects shellfish, contributing significantly to high economic losses during production. To counteract the threat related to mortality, there is a need for the development of novel point-of-care testing (POCT) that can be implemented in aquaculture production to prevent disease outbreaks. In this study, a simple, rapid and specific colorimetric loop-mediated isothermal amplification (LAMP) assay has been developed for the detection of Ostreid herpesvirus1 (OsHV-1) and its variants infecting Crassostrea gigas (C. gigas). The LAMP assay has been optimized to use hydroxynaphthol blue (HNB) for visual colorimetric distinction of positive and negative templates. The effect of an additional Tte UvrD helicase enzyme used in the reaction was also evaluated with an improved reaction time of 10 min. Additionally, this study provides a robust workflow for optimization of primers for uncultured viruses using designed target plasmid when DNA availability is limited. info:eu-repo/semantics/publishedVersion

Published

2020

14. The first clawed lobster virus Homarus gammarus nudivirus (HgNV n. sp.) expands the diversity of the Nudiviridae

Author

Chantelle Hooper, Stuart Ross, David Bass, Corey C. Holt, Carly L. Daniels, Michelle Stone, Kelly S. Bateman, Grant D. Stentiford, Mark van der Giezen, and Ronny van Aerle

Subjects

0301 basic medicine, animal structures, Science, Zoology, Hepatopancreas, Genome, Viral, Virus, Article, Nudivirus, 03 medical and health sciences, Fish Diseases, 0302 clinical medicine, Homarus gammarus, Microscopy, Electron, Transmission, Penaeidae, Phylogenetics, Animals, Nudiviridae, 14. Life underwater, Shellfish, Phylogeny, Multidisciplinary, biology, Host (biology), DNA virus, biology.organism_classification, Nephropidae, 030104 developmental biology, Medicine, Metagenomics, Pathogens, 030217 neurology & neurosurgery, Horizontal transmission

Abstract

Viral diseases of crustaceans are increasingly recognised as challenges to shellfish farms and fisheries. Here we describe the first naturally-occurring virus reported in any clawed lobster species. Hypertrophied nuclei with emarginated chromatin, characteristic histopathological lesions of DNA virus infection, were observed within the hepatopancreatic epithelial cells of juvenile European lobsters (Homarus gammarus). Transmission electron microscopy revealed infection with a bacilliform virus containing a rod shaped nucleocapsid enveloped in an elliptical membrane. Assembly of PCR-free shotgun metagenomic sequencing produced a circular genome of 107,063 bp containing 97 open reading frames, the majority of which share sequence similarity with a virus infecting the black tiger shrimp: Penaeus monodon nudivirus (PmNV). Multiple phylogenetic analyses confirm the new virus to be a novel member of the Nudiviridae: Homarus gammarus nudivirus (HgNV). Evidence of occlusion body formation, characteristic of PmNV and its closest relatives, was not observed, questioning the horizontal transmission strategy of HgNV outside of the host. We discuss the potential impacts of HgNV on juvenile lobster growth and mortality and present HgNV-specific primers to serve as a diagnostic tool for monitoring the virus in wild and farmed lobster stocks.

Published

2019

15. A Novel RNA Virus, Macrobrachium rosenbergii Golda Virus (MrGV), Linked to Mass Mortalities of the Larval Giant Freshwater Prawn in Bangladesh

Author

Stuart Ross, Ronny van Aerle, Partho Pratim Debnath, David Currie, Grant D. Stentiford, H. M. Rakibul Islam, Siddhawartha K. Basak, Kelly S. Bateman, Muhammad M. Rahman, Sukumar Biswas, Chadag Vishnumurthy Mohan, David Bass, and Chantelle Hooper

Subjects

0301 basic medicine, Nidovirales, RNA virus, Macrobrachium rosenbergii, lcsh:QR1-502, Zoology, freshwater prawns, Fresh Water, Aquaculture, Roniviridae, lcsh:Microbiology, Article, Virus, Open Reading Frames, 03 medical and health sciences, RNA Virus Infections, Virology, Animals, RNA Viruses, Yellow-head virus, emerging disease, Nodaviridae, 14. Life underwater, Phylogeny, 030304 developmental biology, 0303 health sciences, Bangladesh, biology, fungi, 04 agricultural and veterinary sciences, biology.organism_classification, Hatchery, 030104 developmental biology, Infectious Diseases, Macrobrachium rosenbergii Golda virus, Larva, Novel virus, 040102 fisheries, Prawn, 0401 agriculture, forestry, and fisheries, Palaemonidae, Sequence Alignment

Abstract

1AbstractMass mortalities of the larval stage of the giant freshwater prawn, Macrobrachium rosenbergii, have been occurring in Bangladesh since 2011. Mortalities can reach 100% and have resulted in an 80% decline in the number of hatcheries actively producing M. rosenbergii. To investigate a causative agent for the mortalities, a disease challenge was carried out using infected material from a hatchery experiencing mortalities. Moribund larvae from the challenge were prepared for metatranscriptomic sequencing. De novo virus assembly revealed a 29 kb single-stranded positive-sense RNA virus with similarities in key protein motif sequences to yellow head virus (YHV), an RNA virus that causes mass mortalities in marine shrimp aquaculture, and other viruses in the Nidovirales order. Primers were designed against the novel virus and used to screen cDNA from larvae sampled from hatcheries in the South of Bangladesh from two consecutive years. Larvae from all hatcheries screened from both years were positive by PCR for the novel virus, including larvae from a hatchery that at the point of sampling appeared healthy, but later experienced mortalities. These screens suggest that the virus is widespread in M. rosenbergii hatchery culture in southern Bangladesh, and that early detection of the virus can be achieved by PCR. The hypothesised protein motifs of MrGV suggest that it is likely to be a new species within the Nidovirales order. Biosecurity measures should be taken in order to mitigate global spread through the movement of post-larvae within and between countries, which has previously been linked to other virus outbreaks in crustacean aquaculture.

Published

2020

16. A Genome-Wide Association Study for Host Resistance to Ostreid Herpesvirus in Pacific Oysters (Crassostrea gigas)

Author

Ross D. Houston, Tim P. Bean, Chantelle Hooper, Oswald Matika, Pasi Rastas, Matthew B. Sanders, Alejandro P. Gutierrez, Craig A. Stenton, Richard Paley, Michaela Bryrom, and Biosciences

Subjects

Oyster, QTL, Population, FRANCE, Genome-wide association study, Quantitative trait locus, ERRORS, Selective breeding, DISEASE, 03 medical and health sciences, biology.animal, Journal Article, GWAS, 14. Life underwater, education, 030304 developmental biology, Genetics, MICROSATELLITE DNA MARKERS, 0303 health sciences, education.field_of_study, biology, OsHV-1, LINKAGE MAPS, MORTALITY, 0402 animal and dairy science, 1184 Genetics, developmental biology, physiology, food and beverages, 04 agricultural and veterinary sciences, Pacific oyster, biology.organism_classification, 040201 dairy & animal science, linkage map, Genetic marker, SINGLE NUCLEOTIDE POLYMORPHISMS, Crassostrea, VIRUS, oysters, SNP array

Abstract

Ostreid herpesvirus (OsHV) can cause mass mortality events in Pacific oyster aquaculture. While various factors impact on the severity of outbreaks, it is clear that genetic resistance of the host is an important determinant of mortality levels. This raises the possibility of selective breeding strategies to improve the genetic resistance of farmed oyster stocks, thereby contributing to disease control. Traditional selective breeding can be augmented by use of genetic markers, either via marker-assisted or genomic selection. The aim of the current study was to investigate the genetic architecture of resistance to OsHV in Pacific oyster, to identify genomic regions containing putative resistance genes, and to inform the use of genomics to enhance efforts to breed for resistance. To achieve this, a population of ~1,000 juvenile oysters were experimentally challenged with a virulent form of OsHV, with samples taken from mortalities and survivors for genotyping and qPCR measurement of viral load. The samples were genotyped using a recently-developed SNP array, and the genotype data were used to reconstruct the pedigree. Using these pedigree and genotype data, the first high density linkage map was constructed for Pacific oyster, containing 20,353 SNPs mapped to the ten pairs of chromosomes. Genetic parameters for resistance to OsHV were estimated, indicating a significant but low heritability for the binary trait of survival and also for viral load measures (h2 0.12 – 0.25). A genome-wide association study highlighted a region of linkage group 6 containing a significant QTL affecting host resistance. These results are an important step towards identification of genes underlying resistance to OsHV in oyster, and a step towards applying genomic data to enhance selective breeding for disease resistance in oyster aquaculture.

Published

2018

17. A Genome-Wide Association Study for Host Resistance to Ostreid Herpesvirus in Pacific Oysters (

Author

Alejandro P, Gutierrez, Tim P, Bean, Chantelle, Hooper, Craig A, Stenton, Matthew B, Sanders, Richard K, Paley, Pasi, Rastas, Michaela, Bryrom, Oswald, Matika, and Ross D, Houston

Subjects

Genetic Markers, OsHV-1, food and beverages, Chromosome Mapping, Herpesviridae Infections, Viral Load, Investigations, Polymorphism, Single Nucleotide, Survival Analysis, linkage map, Quantitative Trait, Heritable, Animals, GWAS, oysters, Crassostrea, SNP array, Herpesviridae, Disease Resistance, Genome-Wide Association Study

Abstract

Ostreid herpesvirus (OsHV) can cause mass mortality events in Pacific oyster aquaculture. While various factors impact on the severity of outbreaks, it is clear that genetic resistance of the host is an important determinant of mortality levels. This raises the possibility of selective breeding strategies to improve the genetic resistance of farmed oyster stocks, thereby contributing to disease control. Traditional selective breeding can be augmented by use of genetic markers, either via marker-assisted or genomic selection. The aim of the current study was to investigate the genetic architecture of resistance to OsHV in Pacific oyster, to identify genomic regions containing putative resistance genes, and to inform the use of genomics to enhance efforts to breed for resistance. To achieve this, a population of ∼1,000 juvenile oysters were experimentally challenged with a virulent form of OsHV, with samples taken from mortalities and survivors for genotyping and qPCR measurement of viral load. The samples were genotyped using a recently-developed SNP array, and the genotype data were used to reconstruct the pedigree. Using these pedigree and genotype data, the first high density linkage map was constructed for Pacific oyster, containing 20,353 SNPs mapped to the ten pairs of chromosomes. Genetic parameters for resistance to OsHV were estimated, indicating a significant but low heritability for the binary trait of survival and also for viral load measures (h2 0.12 – 0.25). A genome-wide association study highlighted a region of linkage group 6 containing a significant QTL affecting host resistance. These results are an important step toward identification of genes underlying resistance to OsHV in oyster, and a step toward applying genomic data to enhance selective breeding for disease resistance in oyster aquaculture.

Published

2018