Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF

The gill of teleost fish is a multifunctional organ involved in many physiological processes such as gas exchange, osmotic and ionic regulation, acid-base balance and excretion of nitrogenous waste. Due to its extensive interface with the environment, the gill plays a key role as a primary mucosal d...

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Main Authors: Elżbieta Król, Patricia Noguera, Sophie Shaw, Eoin Costelloe, Karina Gajardo, Victoria Valdenegro, Ralph Bickerdike, Alex Douglas, Samuel A. M. Martin
Format: Dataset
Language:unknown
Published: 2020
Subjects:
Genetics
Genetic Engineering
Biomarkers
Developmental Genetics (incl. Sex Determination)
Epigenetics (incl. Genome Methylation and Epigenomics)
Gene Expression (incl. Microarray and other genome-wide approaches)
Genome Structure and Regulation
Genomics
Genetically Modified Animals
Livestock Cloning
Gene and Molecular Therapy
proliferative gill disease
gene expression
RNA-seq
immune response
gill inflammation
aquaculture
climate change
Atlantic salmon
Salmo salar
Online Access:https://doi.org/10.3389/fgene.2020.00610.s001
https://figshare.com/articles/Data_Sheet_1_Integration_of_Transcriptome_Gross_Morphology_and_Histopathology_in_the_Gill_of_Sea_Farmed_Atlantic_Salmon_Salmo_salar_Lessons_From_Multi-Site_Sampling_PDF/12511937
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record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/12511937 2023-05-15T15:31:29+02:00 Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF Elżbieta Król Patricia Noguera Sophie Shaw Eoin Costelloe Karina Gajardo Victoria Valdenegro Ralph Bickerdike Alex Douglas Samuel A. M. Martin 2020-06-19T04:18:18Z https://doi.org/10.3389/fgene.2020.00610.s001 https://figshare.com/articles/Data_Sheet_1_Integration_of_Transcriptome_Gross_Morphology_and_Histopathology_in_the_Gill_of_Sea_Farmed_Atlantic_Salmon_Salmo_salar_Lessons_From_Multi-Site_Sampling_PDF/12511937 unknown doi:10.3389/fgene.2020.00610.s001 https://figshare.com/articles/Data_Sheet_1_Integration_of_Transcriptome_Gross_Morphology_and_Histopathology_in_the_Gill_of_Sea_Farmed_Atlantic_Salmon_Salmo_salar_Lessons_From_Multi-Site_Sampling_PDF/12511937 CC BY 4.0 CC-BY Genetics Genetic Engineering Biomarkers Developmental Genetics (incl. Sex Determination) Epigenetics (incl. Genome Methylation and Epigenomics) Gene Expression (incl. Microarray and other genome-wide approaches) Genome Structure and Regulation Genomics Genetically Modified Animals Livestock Cloning Gene and Molecular Therapy proliferative gill disease gene expression RNA-seq immune response gill inflammation aquaculture climate change Dataset 2020 ftfrontimediafig https://doi.org/10.3389/fgene.2020.00610.s001 2020-06-24T22:55:36Z The gill of teleost fish is a multifunctional organ involved in many physiological processes such as gas exchange, osmotic and ionic regulation, acid-base balance and excretion of nitrogenous waste. Due to its extensive interface with the environment, the gill plays a key role as a primary mucosal defense tissue against pathogens, as manifested by the presence of the gill-associated lymphoid tissue (GIALT). In recent years, the prevalence of multifactorial gill pathologies has increased significantly, causing substantial losses in Atlantic salmon aquaculture. The transition from healthy to unhealthy gill phenotypes and the progression of multifactorial gill pathologies, such as proliferative gill disease (PGD), proliferative gill inflammation (PGI) and complex gill disorder (CGD), are commonly characterized by epithelial hyperplasia, lamellar fusion and inflammation. Routine monitoring for PGD relies on visual inspection and non-invasive scoring of the gill tissue (gross morphology), coupled with histopathological examination of gill sections. To explore the underlying molecular events that are associated with the progression of PGD, we sampled Atlantic salmon from three different marine production sites in Scotland and examined the gill tissue at three different levels of organization: gross morphology with the use of PGD scores (macroscopic examination), whole transcriptome (gene expression by RNA-seq) and histopathology (microscopic examination). Our results strongly suggested that the changes in PGD scores of the gill tissue were not associated with the changes in gene expression or histopathology. In contrast, integration of the gill RNA-seq data with the gill histopathology enabled us to identify common gene expression patterns associated with multifactorial gill disease, independently from the origin of samples. We demonstrated that the gene expression patterns associated with multifactorial gill disease were dominated by two processes: a range of immune responses driven by pro-inflammatory cytokines and ... Dataset Atlantic salmon Salmo salar Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Genetics
Genetic Engineering
Biomarkers
Developmental Genetics (incl. Sex Determination)
Epigenetics (incl. Genome Methylation and Epigenomics)
Gene Expression (incl. Microarray and other genome-wide approaches)
Genome Structure and Regulation
Genomics
Genetically Modified Animals
Livestock Cloning
Gene and Molecular Therapy
proliferative gill disease
gene expression
RNA-seq
immune response
gill inflammation
aquaculture
climate change
spellingShingle Genetics
Genetic Engineering
Biomarkers
Developmental Genetics (incl. Sex Determination)
Epigenetics (incl. Genome Methylation and Epigenomics)
Gene Expression (incl. Microarray and other genome-wide approaches)
Genome Structure and Regulation
Genomics
Genetically Modified Animals
Livestock Cloning
Gene and Molecular Therapy
proliferative gill disease
gene expression
RNA-seq
immune response
gill inflammation
aquaculture
climate change
Elżbieta Król
Patricia Noguera
Sophie Shaw
Eoin Costelloe
Karina Gajardo
Victoria Valdenegro
Ralph Bickerdike
Alex Douglas
Samuel A. M. Martin
Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
topic_facet Genetics
Genetic Engineering
Biomarkers
Developmental Genetics (incl. Sex Determination)
Epigenetics (incl. Genome Methylation and Epigenomics)
Gene Expression (incl. Microarray and other genome-wide approaches)
Genome Structure and Regulation
Genomics
Genetically Modified Animals
Livestock Cloning
Gene and Molecular Therapy
proliferative gill disease
gene expression
RNA-seq
immune response
gill inflammation
aquaculture
climate change
description The gill of teleost fish is a multifunctional organ involved in many physiological processes such as gas exchange, osmotic and ionic regulation, acid-base balance and excretion of nitrogenous waste. Due to its extensive interface with the environment, the gill plays a key role as a primary mucosal defense tissue against pathogens, as manifested by the presence of the gill-associated lymphoid tissue (GIALT). In recent years, the prevalence of multifactorial gill pathologies has increased significantly, causing substantial losses in Atlantic salmon aquaculture. The transition from healthy to unhealthy gill phenotypes and the progression of multifactorial gill pathologies, such as proliferative gill disease (PGD), proliferative gill inflammation (PGI) and complex gill disorder (CGD), are commonly characterized by epithelial hyperplasia, lamellar fusion and inflammation. Routine monitoring for PGD relies on visual inspection and non-invasive scoring of the gill tissue (gross morphology), coupled with histopathological examination of gill sections. To explore the underlying molecular events that are associated with the progression of PGD, we sampled Atlantic salmon from three different marine production sites in Scotland and examined the gill tissue at three different levels of organization: gross morphology with the use of PGD scores (macroscopic examination), whole transcriptome (gene expression by RNA-seq) and histopathology (microscopic examination). Our results strongly suggested that the changes in PGD scores of the gill tissue were not associated with the changes in gene expression or histopathology. In contrast, integration of the gill RNA-seq data with the gill histopathology enabled us to identify common gene expression patterns associated with multifactorial gill disease, independently from the origin of samples. We demonstrated that the gene expression patterns associated with multifactorial gill disease were dominated by two processes: a range of immune responses driven by pro-inflammatory cytokines and ...
format Dataset
author Elżbieta Król
Patricia Noguera
Sophie Shaw
Eoin Costelloe
Karina Gajardo
Victoria Valdenegro
Ralph Bickerdike
Alex Douglas
Samuel A. M. Martin
author_facet Elżbieta Król
Patricia Noguera
Sophie Shaw
Eoin Costelloe
Karina Gajardo
Victoria Valdenegro
Ralph Bickerdike
Alex Douglas
Samuel A. M. Martin
author_sort Elżbieta Król
title Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
title_short Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
title_full Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
title_fullStr Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
title_full_unstemmed Data_Sheet_1_Integration of Transcriptome, Gross Morphology and Histopathology in the Gill of Sea Farmed Atlantic Salmon (Salmo salar): Lessons From Multi-Site Sampling.PDF
title_sort data_sheet_1_integration of transcriptome, gross morphology and histopathology in the gill of sea farmed atlantic salmon (salmo salar): lessons from multi-site sampling.pdf
publishDate 2020
url https://doi.org/10.3389/fgene.2020.00610.s001
https://figshare.com/articles/Data_Sheet_1_Integration_of_Transcriptome_Gross_Morphology_and_Histopathology_in_the_Gill_of_Sea_Farmed_Atlantic_Salmon_Salmo_salar_Lessons_From_Multi-Site_Sampling_PDF/12511937
genre Atlantic salmon
Salmo salar
genre_facet Atlantic salmon
Salmo salar
op_relation doi:10.3389/fgene.2020.00610.s001
https://figshare.com/articles/Data_Sheet_1_Integration_of_Transcriptome_Gross_Morphology_and_Histopathology_in_the_Gill_of_Sea_Farmed_Atlantic_Salmon_Salmo_salar_Lessons_From_Multi-Site_Sampling_PDF/12511937
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fgene.2020.00610.s001
_version_ 1766362005597323264

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