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About:
Isolation of the Fathead Minnow Nidovirus from Muskellunge Experiencing Lingering Mortality
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An Entity of Type :
schema:ScholarlyArticle
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covidontheweb.inria.fr
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Type:
Academic Article
research paper
schema:ScholarlyArticle
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type
Academic Article
research paper
schema:ScholarlyArticle
isDefinedBy
Covid-on-the-Web dataset
has title
Isolation of the Fathead Minnow Nidovirus from Muskellunge Experiencing Lingering Mortality
Creator
Faisal, Mohamed
Standish, Isaac
Loch, Thomas
Winters, Andrew
Baird, Ashley
Bochsler, Phil
Gunn, Michelle
Hennings, Ann
Hsu, Hui-Min
Marcquenski, Sue
Millard, Elena
Warg, Janet
Source
Medline; PMC
abstract
In 2011, the Fathead Minnow nidovirus (FHMNV; Genus Bafinivirus, Family Coronaviridae, Order Nidovirales) was isolated from pond‐raised juvenile Muskellunge Esox masquinongy suffering from lingering mortality at the Wild Rose Hatchery in Wild Rose, Wisconsin. Moribund Muskellunge exhibited tubular necrosis in the kidneys as well as multifocal coalescing necrotizing hepatitis. The FHMNV was also isolated from apparently healthy juvenile Muskellunge at the Wolf Lake State Fish Hatchery in Mattawan, Michigan. The identity of the two syncytia‐forming viruses (designated MUS‐WR and MUS‐WL from Wild Rose Hatchery and Wolf Lake State Fish Hatchery, respectively) as strains of FHMNV was determined based on multiple‐gene sequencing and phylogenetic analyses. The pathogenicity of the MUS‐WL FHMNV strain was determined by experimentally infecting naive juvenile Muskellunge through intraperitoneal injection with two viral concentrations (63 and 6.3 × 10(3) TCID(50)/fish). Both doses resulted in 100% mortality in experimentally infected fish, which exhibited severely pale gills and petechial hemorrhaging in eyes, fins, and skin. Histopathological alterations in experimentally infected fish were observed mainly in the hematopoietic tissues in the form of focal areas of necrosis. Phylogenetic analysis of concatenated partial spike glycoprotein and helicase gene sequences revealed differences between the MUS‐WL FHMNV, MUS‐WR FHMNV, and two other FHMNV originally isolated from moribund Fathead Minnows Pimephales promelas including the index FHMNV strain (GU002364). Based on a partial helicase gene sequence, a reverse transcriptase PCR assay was developed that is specific to FHMNV. These results give evidence that the risks posed to Muskellunge by FHMNV should be taken seriously. Received May 1, 2015; accepted February 8, 2016
has issue date
2016-05-26
(
xsd:dateTime
)
bibo:doi
10.1080/08997659.2016.1159620
bibo:pmid
27230033
has license
no-cc
sha1sum (hex)
553179bd13187a3456f7b7be3a89d37b23285458
schema:url
https://doi.org/10.1080/08997659.2016.1159620
resource representing a document's title
Isolation of the Fathead Minnow Nidovirus from Muskellunge Experiencing Lingering Mortality
has PubMed Central identifier
PMC7159395
has PubMed identifier
27230033
schema:publication
J Aquat Anim Health
resource representing a document's body
covid:553179bd13187a3456f7b7be3a89d37b23285458#body_text
is
schema:about
of
named entity 'Isolation'
named entity 'Fathead Minnow'
named entity 'isolated'
named entity 'Family'
named entity 'viral hemorrhagic septicemia virus'
named entity 'RT-PCR'
named entity 'petechial hemorrhages'
named entity 'gene'
named entity 'gene sequencing'
named entity 'glycoprotein'
named entity 'pathogenicity'
named entity 'genetic relationship'
named entity 'gene'
named entity 'Valencia, California'
named entity 'Muskellunge'
named entity 'sequenced'
named entity 'intraperitoneal'
named entity 'Lansing, Michigan'
named entity 'helicase'
named entity 'cytopathic effects'
named entity 'Motile'
named entity 'negative control'
named entity 'virus isolation'
named entity 'helicase'
named entity 'phylogenetic analysis'
named entity 'positive-sense RNA'
named entity 'helicase'
named entity 'Fathead Minnow'
named entity 'Promega'
named entity 'RT-PCR'
named entity 'Muskellunge'
named entity 'Bayesian analysis'
named entity 'microbial'
named entity 'baitfish'
named entity 'internal organs'
named entity 'glycoprotein'
named entity 'cDNA'
named entity 'abdominal cavity'
named entity 'gene'
named entity 'Bafinivirus'
named entity 'primers'
named entity 'RNA'
named entity 'GenBank'
named entity 'data set'
named entity 'Muskellunge'
named entity 'immune responses'
named entity 'phylogenetic'
named entity 'virus'
named entity 'infection'
named entity 'baitfish'
named entity 'Syncytia'
named entity 'Muskellunge'
named entity 'Muskellunge'
named entity 'Muskellunge'
named entity 'cell line'
named entity 'Yersinia ruckeri'
named entity 'Longview, Washington'
named entity 'petechial hemorrhages'
named entity 'transcription'
named entity 'Poma'
named entity 'cell line'
named entity 'genome'
named entity 'L-glutamine'
named entity 'helicase'
named entity 'Muskellunge'
named entity 'dead fish'
named entity 'infection'
named entity 'fetal bovine serum'
named entity 'Muskellunge'
named entity 'pathogenicity'
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