Transcriptional Response to Acute Thermal Exposure in Juvenile Chinook Salmon Determined by RNAseq

Transcriptional Response to Acute Thermal Exposure in Juvenile Chinook Salmon Determined by RNAseq

Abstract Thermal exposure is a serious and growing challenge facing fish species worldwide. Chinook salmon (Oncorhynchus tshawytscha) living in the southern portion of their native range are particularly likely to encounter warmer water due to a confluence of factors. River alterations have increase...

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Veröffentlicht in:G3 : genes - genomes - genetics 2015-04, Vol.5 (7), p.1335-1349
Hauptverfasser: Tomalty, Katharine M H, Meek, Mariah H, Stephens, Molly R, Rincón, Gonzalo, Fangue, Nann A, May, Bernie P, Baerwald, Melinda R
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Down-Regulation
Fish Proteins - genetics
Gills - metabolism
Investigations
Protein Denaturation
RNA - chemistry
RNA - genetics
RNA - metabolism
Salmon - genetics
Salmon - growth & development
Salmon - metabolism
Sequence Analysis, RNA
Temperature
Transcriptome
Up-Regulation
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container_end_page 1349
container_issue 7
container_start_page 1335
container_title G3 : genes - genomes - genetics
container_volume 5
creator Tomalty, Katharine M H
Meek, Mariah H
Stephens, Molly R
Rincón, Gonzalo
Fangue, Nann A
May, Bernie P
Baerwald, Melinda R
description Abstract Thermal exposure is a serious and growing challenge facing fish species worldwide. Chinook salmon (Oncorhynchus tshawytscha) living in the southern portion of their native range are particularly likely to encounter warmer water due to a confluence of factors. River alterations have increased the likelihood that juveniles will be exposed to warm water temperatures during their freshwater life stage, which can negatively impact survival, growth, and development and pose a threat to dwindling salmon populations. To better understand how acute thermal exposure affects the biology of salmon, we performed a transcriptional analysis of gill tissue from Chinook salmon juveniles reared at 12° and exposed acutely to water temperatures ranging from ideal to potentially lethal (12° to 25°). Reverse-transcribed RNA libraries were sequenced on the Illumina HiSeq2000 platform and a de novo reference transcriptome was created. Differentially expressed transcripts were annotated using Blast2GO and relevant gene clusters were identified. In addition to a high degree of downregulation of a wide range of genes, we found upregulation of genes involved in protein folding/rescue, protein degradation, cell death, oxidative stress, metabolism, inflammation/immunity, transcription/translation, ion transport, cell cycle/growth, cell signaling, cellular trafficking, and structure/cytoskeleton. These results demonstrate the complex multi-modal cellular response to thermal stress in juvenile salmon.
doi_str_mv 10.1534/g3.115.017699
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Chinook salmon (Oncorhynchus tshawytscha) living in the southern portion of their native range are particularly likely to encounter warmer water due to a confluence of factors. River alterations have increased the likelihood that juveniles will be exposed to warm water temperatures during their freshwater life stage, which can negatively impact survival, growth, and development and pose a threat to dwindling salmon populations. To better understand how acute thermal exposure affects the biology of salmon, we performed a transcriptional analysis of gill tissue from Chinook salmon juveniles reared at 12° and exposed acutely to water temperatures ranging from ideal to potentially lethal (12° to 25°). Reverse-transcribed RNA libraries were sequenced on the Illumina HiSeq2000 platform and a de novo reference transcriptome was created. Differentially expressed transcripts were annotated using Blast2GO and relevant gene clusters were identified. 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subjects Animals
Down-Regulation
Fish Proteins - genetics
Gills - metabolism
Investigations
Protein Denaturation
RNA - chemistry
RNA - genetics
RNA - metabolism
Salmon - genetics
Salmon - growth & development
Salmon - metabolism
Sequence Analysis, RNA
Temperature
Transcriptome
Up-Regulation
title Transcriptional Response to Acute Thermal Exposure in Juvenile Chinook Salmon Determined by RNAseq
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