Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat

Large numbers of inbred laboratory rat strains have been developed for a range of complex disease phenotypes. To gain insights into the evolutionary pressures underlying selection for these phenotypes, we sequenced the genomes of 27 rat strains, including 11 models of hypertension, diabetes, and ins...

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Autores principales: Atanur, Santosh S., Diaz, Ana Garcia, Maratou, Klio, Sarkis, Allison, Rotival, Maxime, Game, Laurence, Tschannen, Michael R., Kaisaki, Pamela J., Otto, Georg W., Ma, Man Chun John, Keane, Thomas M., Hummel, Oliver, Saar, Kathrin, Chen, Wei, Guryev, Victor, Gopalakrishnan, Kathirvel, Garrett, Michael R., Joe, Bina, Citterio, Lorena, Bianchi, Giuseppe, McBride, Martin, Dominiczak, Anna, Adams, David J., Serikawa, Tadao, Flicek, Paul, Cuppen, Edwin, Hubner, Norbert, Petretto, Enrico, Gauguier, Dominique, Kwitek, Anne, Jacob, Howard, Aitman, Timothy J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2013
Materias:
Resource
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3732391/
https://www.ncbi.nlm.nih.gov/pubmed/23890820
http://dx.doi.org/10.1016/j.cell.2013.06.040
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author Atanur, Santosh S.
Diaz, Ana Garcia
Maratou, Klio
Sarkis, Allison
Rotival, Maxime
Game, Laurence
Tschannen, Michael R.
Kaisaki, Pamela J.
Otto, Georg W.
Ma, Man Chun John
Keane, Thomas M.
Hummel, Oliver
Saar, Kathrin
Chen, Wei
Guryev, Victor
Gopalakrishnan, Kathirvel
Garrett, Michael R.
Joe, Bina
Citterio, Lorena
Bianchi, Giuseppe
McBride, Martin
Dominiczak, Anna
Adams, David J.
Serikawa, Tadao
Flicek, Paul
Cuppen, Edwin
Hubner, Norbert
Petretto, Enrico
Gauguier, Dominique
Kwitek, Anne
Jacob, Howard
Aitman, Timothy J.
author_facet Atanur, Santosh S.
Diaz, Ana Garcia
Maratou, Klio
Sarkis, Allison
Rotival, Maxime
Game, Laurence
Tschannen, Michael R.
Kaisaki, Pamela J.
Otto, Georg W.
Ma, Man Chun John
Keane, Thomas M.
Hummel, Oliver
Saar, Kathrin
Chen, Wei
Guryev, Victor
Gopalakrishnan, Kathirvel
Garrett, Michael R.
Joe, Bina
Citterio, Lorena
Bianchi, Giuseppe
McBride, Martin
Dominiczak, Anna
Adams, David J.
Serikawa, Tadao
Flicek, Paul
Cuppen, Edwin
Hubner, Norbert
Petretto, Enrico
Gauguier, Dominique
Kwitek, Anne
Jacob, Howard
Aitman, Timothy J.
author_sort Atanur, Santosh S.
collection PubMed
description Large numbers of inbred laboratory rat strains have been developed for a range of complex disease phenotypes. To gain insights into the evolutionary pressures underlying selection for these phenotypes, we sequenced the genomes of 27 rat strains, including 11 models of hypertension, diabetes, and insulin resistance, along with their respective control strains. Altogether, we identified more than 13 million single-nucleotide variants, indels, and structural variants across these rat strains. Analysis of strain-specific selective sweeps and gene clusters implicated genes and pathways involved in cation transport, angiotensin production, and regulators of oxidative stress in the development of cardiovascular disease phenotypes in rats. Many of the rat loci that we identified overlap with previously mapped loci for related traits in humans, indicating the presence of shared pathways underlying these phenotypes in rats and humans. These data represent a step change in resources available for evolutionary analysis of complex traits in disease models. PAPERCLIP:
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spelling pubmed-37323912013-08-05 Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat Atanur, Santosh S. Diaz, Ana Garcia Maratou, Klio Sarkis, Allison Rotival, Maxime Game, Laurence Tschannen, Michael R. Kaisaki, Pamela J. Otto, Georg W. Ma, Man Chun John Keane, Thomas M. Hummel, Oliver Saar, Kathrin Chen, Wei Guryev, Victor Gopalakrishnan, Kathirvel Garrett, Michael R. Joe, Bina Citterio, Lorena Bianchi, Giuseppe McBride, Martin Dominiczak, Anna Adams, David J. Serikawa, Tadao Flicek, Paul Cuppen, Edwin Hubner, Norbert Petretto, Enrico Gauguier, Dominique Kwitek, Anne Jacob, Howard Aitman, Timothy J. Cell Resource Large numbers of inbred laboratory rat strains have been developed for a range of complex disease phenotypes. To gain insights into the evolutionary pressures underlying selection for these phenotypes, we sequenced the genomes of 27 rat strains, including 11 models of hypertension, diabetes, and insulin resistance, along with their respective control strains. Altogether, we identified more than 13 million single-nucleotide variants, indels, and structural variants across these rat strains. Analysis of strain-specific selective sweeps and gene clusters implicated genes and pathways involved in cation transport, angiotensin production, and regulators of oxidative stress in the development of cardiovascular disease phenotypes in rats. Many of the rat loci that we identified overlap with previously mapped loci for related traits in humans, indicating the presence of shared pathways underlying these phenotypes in rats and humans. These data represent a step change in resources available for evolutionary analysis of complex traits in disease models. PAPERCLIP: Cell Press 2013-08-01 /pmc/articles/PMC3732391/ /pubmed/23890820 http://dx.doi.org/10.1016/j.cell.2013.06.040 Text en © 2013 The Authors https://creativecommons.org/licenses/by/3.0/ Open Access under CC BY 3.0 (https://creativecommons.org/licenses/by/3.0/) license
spellingShingle Resource
Atanur, Santosh S.
Diaz, Ana Garcia
Maratou, Klio
Sarkis, Allison
Rotival, Maxime
Game, Laurence
Tschannen, Michael R.
Kaisaki, Pamela J.
Otto, Georg W.
Ma, Man Chun John
Keane, Thomas M.
Hummel, Oliver
Saar, Kathrin
Chen, Wei
Guryev, Victor
Gopalakrishnan, Kathirvel
Garrett, Michael R.
Joe, Bina
Citterio, Lorena
Bianchi, Giuseppe
McBride, Martin
Dominiczak, Anna
Adams, David J.
Serikawa, Tadao
Flicek, Paul
Cuppen, Edwin
Hubner, Norbert
Petretto, Enrico
Gauguier, Dominique
Kwitek, Anne
Jacob, Howard
Aitman, Timothy J.
Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title_full Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title_fullStr Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title_full_unstemmed Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title_short Genome Sequencing Reveals Loci under Artificial Selection that Underlie Disease Phenotypes in the Laboratory Rat
title_sort genome sequencing reveals loci under artificial selection that underlie disease phenotypes in the laboratory rat
topic Resource
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3732391/
https://www.ncbi.nlm.nih.gov/pubmed/23890820
http://dx.doi.org/10.1016/j.cell.2013.06.040
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