Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf

The Pacific oyster is a globally important aquaculture species inhabiting the intertidal environment, which experiences great temperature variation. Mass deaths in the summer pose a major challenge for the oyster industry. We initiated an artificial selection breeding program in 2017 using acute hea...

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Bibliographic Details
Main Authors: Yulong Tan (417012), Rihao Cong (10684134), Haigang Qi (736159), Luping Wang (7069874), Guofan Zhang (126339), Ying Pan (90050), Li Li (14993)
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
Pacific oyster
artificial selection
thermotolerance
constitutive difference of gene expression
gene structure
Pacific
Online Access:https://doi.org/10.3389/fphys.2021.663023.s005
id ftsmithonian:oai:figshare.com:article/14463798
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/14463798 2023-05-15T17:54:18+02:00 Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf Yulong Tan (417012) Rihao Cong (10684134) Haigang Qi (736159) Luping Wang (7069874) Guofan Zhang (126339) Ying Pan (90050) Li Li (14993) 2021-04-22T05:05:16Z https://doi.org/10.3389/fphys.2021.663023.s005 unknown https://figshare.com/articles/figure/Image_5_Transcriptomics_Analysis_and_Re-sequencing_Reveal_the_Mechanism_Underlying_the_Thermotolerance_of_an_Artificial_Selection_Population_of_the_Pacific_Oyster_pdf/14463798 doi:10.3389/fphys.2021.663023.s005 CC BY 4.0 CC-BY Physiology Exercise Physiology Nutritional Physiology Reproduction Cell Physiology Systems Physiology Animal Physiology - Biophysics Animal Physiology - Cell Animal Physiology - Systems Comparative Physiology Physiology not elsewhere classified Pacific oyster artificial selection thermotolerance constitutive difference of gene expression gene structure Image Figure 2021 ftsmithonian https://doi.org/10.3389/fphys.2021.663023.s005 2021-05-05T17:48:06Z The Pacific oyster is a globally important aquaculture species inhabiting the intertidal environment, which experiences great temperature variation. Mass deaths in the summer pose a major challenge for the oyster industry. We initiated an artificial selection breeding program in 2017 using acute heat shock treatments of the parents to select for thermotolerance in oysters. In this study, we compared the respiration rate, summer survival rate, gene expression, and gene structure of F 2 selected oysters and non-selected wild oysters. A transcriptional analysis revealed global divergence between the selected and control groups at the larval stage, including 4764 differentially expressed genes, among which 79 genes were heat-responsive genes. Five heat shock proteins were enriched, and four of the six genes (five heat stock genes in the enriched GO terms and KEGG pathways and BAG4) were differentially expressed in 1-year-old oysters. Integration of the transcriptomic and re-sequencing data of the selected and the control groups revealed 1090 genes that differentiated in both gene structure and expression. Two SNPs (single nucleotide polymorphism) that may mediate the expression of CGI_10022585 and CGI_10024709 were validated. In addition, the respiration rate of 1-year-old oysters varied significantly between the selected group and the control group at room temperature (20°C). And the summer survival rate of the selected population was significantly improved. This study not only shows that artificial selection has a significant effect on the gene structure and expression of oysters, but it also helps reveal the mechanism underlying their tolerance of high temperature as well as the ability of oysters to adapt to climate change. Still Image Pacific oyster Unknown Pacific
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
Pacific oyster
artificial selection
thermotolerance
constitutive difference of gene expression
gene structure
spellingShingle Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
Pacific oyster
artificial selection
thermotolerance
constitutive difference of gene expression
gene structure
Yulong Tan (417012)
Rihao Cong (10684134)
Haigang Qi (736159)
Luping Wang (7069874)
Guofan Zhang (126339)
Ying Pan (90050)
Li Li (14993)
Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
topic_facet Physiology
Exercise Physiology
Nutritional Physiology
Reproduction
Cell Physiology
Systems Physiology
Animal Physiology - Biophysics
Animal Physiology - Cell
Animal Physiology - Systems
Comparative Physiology
Physiology not elsewhere classified
Pacific oyster
artificial selection
thermotolerance
constitutive difference of gene expression
gene structure
description The Pacific oyster is a globally important aquaculture species inhabiting the intertidal environment, which experiences great temperature variation. Mass deaths in the summer pose a major challenge for the oyster industry. We initiated an artificial selection breeding program in 2017 using acute heat shock treatments of the parents to select for thermotolerance in oysters. In this study, we compared the respiration rate, summer survival rate, gene expression, and gene structure of F 2 selected oysters and non-selected wild oysters. A transcriptional analysis revealed global divergence between the selected and control groups at the larval stage, including 4764 differentially expressed genes, among which 79 genes were heat-responsive genes. Five heat shock proteins were enriched, and four of the six genes (five heat stock genes in the enriched GO terms and KEGG pathways and BAG4) were differentially expressed in 1-year-old oysters. Integration of the transcriptomic and re-sequencing data of the selected and the control groups revealed 1090 genes that differentiated in both gene structure and expression. Two SNPs (single nucleotide polymorphism) that may mediate the expression of CGI_10022585 and CGI_10024709 were validated. In addition, the respiration rate of 1-year-old oysters varied significantly between the selected group and the control group at room temperature (20°C). And the summer survival rate of the selected population was significantly improved. This study not only shows that artificial selection has a significant effect on the gene structure and expression of oysters, but it also helps reveal the mechanism underlying their tolerance of high temperature as well as the ability of oysters to adapt to climate change.
format Still Image
author Yulong Tan (417012)
Rihao Cong (10684134)
Haigang Qi (736159)
Luping Wang (7069874)
Guofan Zhang (126339)
Ying Pan (90050)
Li Li (14993)
author_facet Yulong Tan (417012)
Rihao Cong (10684134)
Haigang Qi (736159)
Luping Wang (7069874)
Guofan Zhang (126339)
Ying Pan (90050)
Li Li (14993)
author_sort Yulong Tan (417012)
title Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
title_short Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
title_full Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
title_fullStr Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
title_full_unstemmed Image_5_Transcriptomics Analysis and Re-sequencing Reveal the Mechanism Underlying the Thermotolerance of an Artificial Selection Population of the Pacific Oyster.pdf
title_sort image_5_transcriptomics analysis and re-sequencing reveal the mechanism underlying the thermotolerance of an artificial selection population of the pacific oyster.pdf
publishDate 2021
url https://doi.org/10.3389/fphys.2021.663023.s005
geographic Pacific
geographic_facet Pacific
genre Pacific oyster
genre_facet Pacific oyster
op_relation https://figshare.com/articles/figure/Image_5_Transcriptomics_Analysis_and_Re-sequencing_Reveal_the_Mechanism_Underlying_the_Thermotolerance_of_an_Artificial_Selection_Population_of_the_Pacific_Oyster_pdf/14463798
doi:10.3389/fphys.2021.663023.s005
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fphys.2021.663023.s005
_version_ 1766162043216330752

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