The sheep (Ovis aries) muscle proteome: Decoding the mechanisms of tolerance to Seasonal Weight Loss using label-free proteomics

Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle proteome changes as a consequence of SWL in meat producing sheep, using a label-free proteomics approach. We compare three breeds: the Australian...

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Published inJournal of proteomics Vol. 161; pp. 57 - 67
Main Authors Ferreira, Ana M., Grossmann, Jonas, Fortes, Claudia, Kilminster, Tanya, Scanlon, Tim, Milton, John, Greeff, Johan, Oldham, Chris, Nanni, Paolo, Almeida, André M.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 24.05.2017
Subjects
Adaptation, Physiological
Animals
Apoferritins - analysis
Biomarkers - analysis
catalase
Dorper
farmers
Fatty Acid Synthases - analysis
fatty-acid synthase
ferritin
Gene Expression Profiling
glutathione transferase
Glutathione Transferase - analysis
Immunoglobulin Variable Region - analysis
immunoglobulins
Isoenzymes - analysis
meat
meat production
Merino
Microfilament Proteins - analysis
Muscle Proteins - analysis
muscles
Muscles - metabolism
pastures
Proteome
Proteome - analysis
Proteome - metabolism
proteomics
Proteomics - methods
Seasonal Weight Loss
Seasons
Sheep
Sheep - physiology
Skeletal muscle
Species Specificity
tropics
Weight Loss
Sheep
Seasonal Weight Loss
Proteome
Skeletal muscle
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Abstract Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle proteome changes as a consequence of SWL in meat producing sheep, using a label-free proteomics approach. We compare three breeds: the Australian Merino (SWL susceptible), the Damara (SWL tolerant) and the Dorper (SWL intermediate tolerance). We identified 668 proteins of the sheep proteome, 95 with differential regulation. Also we observe that the more vulnerable to SWL a breed is, the more differential abundance proteins we find. Protein binding was the most frequently altered molecular function identified. We suggest 6 putative markers for restricted nutritional conditions independently of breed: ferritin heavy-chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Moreover, we suggest as related to SWL tolerance: S100-A10 Serpin A3-5-like and Catalase, subject however to necessary validation assays. The identification of SWL-tolerance related proteins using proteomics will lead to increased stock productivity of relevant interest to animal production, particularly if identified at the muscle level, the tissue of economic importance in meat production. Seasonal Weight Loss (SWL) is the most pressing issue in animal production in the tropics and the Mediterranean. To counter SWL, farmers often use animal breeds that have a natural ability to withstand pasture scarcity. Here we study the sheep muscle proteome at the muscle level, the tissue of economic importance in meat production. Furthermore, the identification of proteins that change their abundance in response to SWL using proteomics can contribute to increased stock productivity of relevant interest to animal production. We identified 668 proteins of the sheep proteome. We demonstrate that the following proteins are affected by restricted nutritional conditions: ferritin heavy chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Furthermore, S100-A10, Serpin A3-5-like and Catalase are proteins that changed their abundance in response to SWL. Nevertheless, it is important to highlight that Catalase values for the merino breed were close to significance and therefore catalase validation is of utmost importance. [Display omitted] •Search for proteins with different abundance in response to Seasonal Weight Loss in meat producing sheep.•Differential abundance proteins (restricted feeding): ferritin heavy-chain; immunoglobulin V; transgelin; FA synthase.•Differential abundance proteins (SWL): S100-A10, Serpin A3-5-like and Catalase.
AbstractList Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle proteome changes as a consequence of SWL in meat producing sheep, using a label-free proteomics approach. We compare three breeds: the Australian Merino (SWL susceptible), the Damara (SWL tolerant) and the Dorper (SWL intermediate tolerance). We identified 668 proteins of the sheep proteome, 95 with differential regulation. Also we observe that the more vulnerable to SWL a breed is, the more differential abundance proteins we find. Protein binding was the most frequently altered molecular function identified. We suggest 6 putative markers for restricted nutritional conditions independently of breed: ferritin heavy-chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Moreover, we suggest as related to SWL tolerance: S100-A10 Serpin A3-5-like and Catalase, subject however to necessary validation assays. The identification of SWL-tolerance related proteins using proteomics will lead to increased stock productivity of relevant interest to animal production, particularly if identified at the muscle level, the tissue of economic importance in meat production.Seasonal Weight Loss (SWL) is the most pressing issue in animal production in the tropics and the Mediterranean. To counter SWL, farmers often use animal breeds that have a natural ability to withstand pasture scarcity. Here we study the sheep muscle proteome at the muscle level, the tissue of economic importance in meat production. Furthermore, the identification of proteins that change their abundance in response to SWL using proteomics can contribute to increased stock productivity of relevant interest to animal production. We identified 668 proteins of the sheep proteome. We demonstrate that the following proteins are affected by restricted nutritional conditions: ferritin heavy chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Furthermore, S100-A10, Serpin A3-5-like and Catalase are proteins that changed their abundance in response to SWL. Nevertheless, it is important to highlight that Catalase values for the merino breed were close to significance and therefore catalase validation is of utmost importance.
Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle proteome changes as a consequence of SWL in meat producing sheep, using a label-free proteomics approach. We compare three breeds: the Australian Merino (SWL susceptible), the Damara (SWL tolerant) and the Dorper (SWL intermediate tolerance). We identified 668 proteins of the sheep proteome, 95 with differential regulation. Also we observe that the more vulnerable to SWL a breed is, the more differential abundance proteins we find. Protein binding was the most frequently altered molecular function identified. We suggest 6 putative markers for restricted nutritional conditions independently of breed: ferritin heavy-chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Moreover, we suggest as related to SWL tolerance: S100-A10 Serpin A3-5-like and Catalase, subject however to necessary validation assays. The identification of SWL-tolerance related proteins using proteomics will lead to increased stock productivity of relevant interest to animal production, particularly if identified at the muscle level, the tissue of economic importance in meat production. Seasonal Weight Loss (SWL) is the most pressing issue in animal production in the tropics and the Mediterranean. To counter SWL, farmers often use animal breeds that have a natural ability to withstand pasture scarcity. Here we study the sheep muscle proteome at the muscle level, the tissue of economic importance in meat production. Furthermore, the identification of proteins that change their abundance in response to SWL using proteomics can contribute to increased stock productivity of relevant interest to animal production. We identified 668 proteins of the sheep proteome. We demonstrate that the following proteins are affected by restricted nutritional conditions: ferritin heavy chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Furthermore, S100-A10, Serpin A3-5-like and Catalase are proteins that changed their abundance in response to SWL. Nevertheless, it is important to highlight that Catalase values for the merino breed were close to significance and therefore catalase validation is of utmost importance. [Display omitted] •Search for proteins with different abundance in response to Seasonal Weight Loss in meat producing sheep.•Differential abundance proteins (restricted feeding): ferritin heavy-chain; immunoglobulin V; transgelin; FA synthase.•Differential abundance proteins (SWL): S100-A10, Serpin A3-5-like and Catalase.
Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle proteome changes as a consequence of SWL in meat producing sheep, using a label-free proteomics approach. We compare three breeds: the Australian Merino (SWL susceptible), the Damara (SWL tolerant) and the Dorper (SWL intermediate tolerance). We identified 668 proteins of the sheep proteome, 95 with differential regulation. Also we observe that the more vulnerable to SWL a breed is, the more differential abundance proteins we find. Protein binding was the most frequently altered molecular function identified. We suggest 6 putative markers for restricted nutritional conditions independently of breed: ferritin heavy-chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Moreover, we suggest as related to SWL tolerance: S100-A10 Serpin A3-5-like and Catalase, subject however to necessary validation assays. The identification of SWL-tolerance related proteins using proteomics will lead to increased stock productivity of relevant interest to animal production, particularly if identified at the muscle level, the tissue of economic importance in meat production. Seasonal Weight Loss (SWL) is the most pressing issue in animal production in the tropics and the Mediterranean. To counter SWL, farmers often use animal breeds that have a natural ability to withstand pasture scarcity. Here we study the sheep muscle proteome at the muscle level, the tissue of economic importance in meat production. Furthermore, the identification of proteins that change their abundance in response to SWL using proteomics can contribute to increased stock productivity of relevant interest to animal production. We identified 668 proteins of the sheep proteome. We demonstrate that the following proteins are affected by restricted nutritional conditions: ferritin heavy chain; immunoglobulin V lambda chain; transgelin; fatty acid synthase; glutathione S-transferase A2; dihydrodiol dehydrogenase 3-like. Furthermore, S100-A10, Serpin A3-5-like and Catalase are proteins that changed their abundance in response to SWL. Nevertheless, it is important to highlight that Catalase values for the merino breed were close to significance and therefore catalase validation is of utmost importance.
Author Grossmann, Jonas
Ferreira, Ana M.
Almeida, André M.
Milton, John
Greeff, Johan
Nanni, Paolo
Kilminster, Tanya
Fortes, Claudia
Scanlon, Tim
Oldham, Chris
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  organization: Functional Genomics Center Zurich, ETH/UZH, Zurich, Switzerland
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  surname: Fortes
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  organization: Functional Genomics Center Zurich, ETH/UZH, Zurich, Switzerland
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  surname: Kilminster
  fullname: Kilminster, Tanya
  organization: Department of Agriculture and Food Western Australia, Perth, WA, Australia
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  organization: Department of Agriculture and Food Western Australia, Perth, WA, Australia
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  fullname: Greeff, Johan
  organization: Department of Agriculture and Food Western Australia, Perth, WA, Australia
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  fullname: Oldham, Chris
  organization: Department of Agriculture and Food Western Australia, Perth, WA, Australia
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  orcidid: 0000-0001-8429-3557
  surname: Nanni
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  organization: Functional Genomics Center Zurich, ETH/UZH, Zurich, Switzerland
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  givenname: André M.
  surname: Almeida
  fullname: Almeida, André M.
  email: aalmeida@isa.ulisboa.pt
  organization: IBET – Instituto de Biologia Experimental e Tecnológica, Oeiras, Portugal
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Keywords Sheep
Seasonal Weight Loss
Proteome
Skeletal muscle
Language English
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Snippet Seasonal Weight Loss (SWL) is one of the most pressing issues in animal production in the tropics and Mediterranean. This work aims to characterize muscle...
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SubjectTerms Adaptation, Physiological
Animals
Apoferritins - analysis
Biomarkers - analysis
catalase
Dorper
farmers
Fatty Acid Synthases - analysis
fatty-acid synthase
ferritin
Gene Expression Profiling
glutathione transferase
Glutathione Transferase - analysis
Immunoglobulin Variable Region - analysis
immunoglobulins
Isoenzymes - analysis
meat
meat production
Merino
Microfilament Proteins - analysis
Muscle Proteins - analysis
muscles
Muscles - metabolism
pastures
Proteome
Proteome - analysis
Proteome - metabolism
proteomics
Proteomics - methods
Seasonal Weight Loss
Seasons
Sheep
Sheep - physiology
Skeletal muscle
Species Specificity
tropics
Weight Loss
Title The sheep (Ovis aries) muscle proteome: Decoding the mechanisms of tolerance to Seasonal Weight Loss using label-free proteomics
URI https://dx.doi.org/10.1016/j.jprot.2017.03.020
https://www.ncbi.nlm.nih.gov/pubmed/28366878
https://www.proquest.com/docview/2000480682
Volume 161
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