Genetic architecture supports mosaic brain evolution and independent brain–body size regulation

The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve indepen...

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Published inNature communications Vol. 3; no. 1; p. 1079
Main Authors Hager, Reinmar, Lu, Lu, Rosen, Glenn D., Williams, Robert W.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 2012
Nature Publishing Group
Subjects
631/181/757
692/698/1688/64
Animals
Biological Evolution
Body size
Body Size - genetics
Body Size - physiology
Brain
Brain - anatomy & histology
Brain - metabolism
Humanities and Social Sciences
Mammals
Mice
multidisciplinary
Organ Size - genetics
Organ Size - physiology
Science
Science (multidisciplinary)
Online AccessGet full text
ISSN2041-1723
2041-1723
DOI10.1038/ncomms2086

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Abstract The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve independent of other parts or overall brain size. However, comparisons among mammals with matched brain weights often reveal greater differences in brain part size, arguing against strong developmental constraints. Here we test these hypotheses using a quantitative genetic approach involving over 10,000 mice. We identify independent loci for size variation in seven key parts of the brain, and observe that brain parts show low or no phenotypic correlation, as is predicted by a mosaic scenario. We also demonstrate that variation in brain size is independently regulated from body size. The allometric relations seen at higher phylogenetic levels are thus unlikely to be the product of strong developmental constraints. It has been controversial whether the sizes of different regions of the brain can evolve independently of each other. This study identifies genetic loci responsible for independent size regulation in different brain regions, and finds brain size to be regulated independently of body size.
AbstractList The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve independent of other parts or overall brain size. However, comparisons among mammals with matched brain weights often reveal greater differences in brain part size, arguing against strong developmental constraints. Here we test these hypotheses using a quantitative genetic approach involving over 10,000 mice. We identify independent loci for size variation in seven key parts of the brain, and observe that brain parts show low or no phenotypic correlation, as is predicted by a mosaic scenario. We also demonstrate that variation in brain size is independently regulated from body size. The allometric relations seen at higher phylogenetic levels are thus unlikely to be the product of strong developmental constraints.
The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve independent of other parts or overall brain size. However, comparisons among mammals with matched brain weights often reveal greater differences in brain part size, arguing against strong developmental constraints. Here we test these hypotheses using a quantitative genetic approach involving over 10,000 mice. We identify independent loci for size variation in seven key parts of the brain, and observe that brain parts show low or no phenotypic correlation, as is predicted by a mosaic scenario. We also demonstrate that variation in brain size is independently regulated from body size. The allometric relations seen at higher phylogenetic levels are thus unlikely to be the product of strong developmental constraints.The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve independent of other parts or overall brain size. However, comparisons among mammals with matched brain weights often reveal greater differences in brain part size, arguing against strong developmental constraints. Here we test these hypotheses using a quantitative genetic approach involving over 10,000 mice. We identify independent loci for size variation in seven key parts of the brain, and observe that brain parts show low or no phenotypic correlation, as is predicted by a mosaic scenario. We also demonstrate that variation in brain size is independently regulated from body size. The allometric relations seen at higher phylogenetic levels are thus unlikely to be the product of strong developmental constraints.
The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is constrained by developmental programs, suggesting that different brain parts are not free to respond individually to selection and evolve independent of other parts or overall brain size. However, comparisons among mammals with matched brain weights often reveal greater differences in brain part size, arguing against strong developmental constraints. Here we test these hypotheses using a quantitative genetic approach involving over 10,000 mice. We identify independent loci for size variation in seven key parts of the brain, and observe that brain parts show low or no phenotypic correlation, as is predicted by a mosaic scenario. We also demonstrate that variation in brain size is independently regulated from body size. The allometric relations seen at higher phylogenetic levels are thus unlikely to be the product of strong developmental constraints. It has been controversial whether the sizes of different regions of the brain can evolve independently of each other. This study identifies genetic loci responsible for independent size regulation in different brain regions, and finds brain size to be regulated independently of body size.
ArticleNumber 1079
Author Williams, Robert W.
Rosen, Glenn D.
Lu, Lu
Hager, Reinmar
AuthorAffiliation 1 Computational and Evolutionary Biology Group, Faculty of Life Sciences, University of Manchester, Oxford Road, Manchester M13 9PT, UK
2 Department of Anatomy and Neurobiology, University of Tennessee Health Science Center, Memphis, TN 38163, USA
4 Department of Neurology, Beth Isreal Deaconess Medical Center, 330 Brookline Ave., Boston, MA 02215, USA
3 Jiangsu Key Laboratory of Neuroregeneration, Nantong University, China
AuthorAffiliation_xml – name: 2 Department of Anatomy and Neurobiology, University of Tennessee Health Science Center, Memphis, TN 38163, USA
– name: 3 Jiangsu Key Laboratory of Neuroregeneration, Nantong University, China
– name: 4 Department of Neurology, Beth Isreal Deaconess Medical Center, 330 Brookline Ave., Boston, MA 02215, USA
– name: 1 Computational and Evolutionary Biology Group, Faculty of Life Sciences, University of Manchester, Oxford Road, Manchester M13 9PT, UK
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  givenname: Reinmar
  surname: Hager
  fullname: Hager, Reinmar
  email: reinmar.hager@manchester.ac.uk
  organization: Computational and Evolutionary Biology Group, Faculty of Life Sciences, University of Manchester
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  givenname: Lu
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  fullname: Lu, Lu
  organization: Department of Anatomy and Neurobiology, University of Tennessee Health Science Center, Jiangsu Key Laboratory of Neuroregeneration, Nantong University
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  givenname: Glenn D.
  surname: Rosen
  fullname: Rosen, Glenn D.
  organization: Department of Neurology, Beth Isreal Deaconess Medical Center
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  givenname: Robert W.
  surname: Williams
  fullname: Williams, Robert W.
  organization: Department of Anatomy and Neurobiology, University of Tennessee Health Science Center
BackLink https://www.ncbi.nlm.nih.gov/pubmed/23011133$$D View this record in MEDLINE/PubMed
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Snippet The mammalian brain consists of distinct parts that fulfil different functions. Finlay and Darlington have argued that evolution of the mammalian brain is...
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SubjectTerms 631/181/757
692/698/1688/64
Animals
Biological Evolution
Body size
Body Size - genetics
Body Size - physiology
Brain
Brain - anatomy & histology
Brain - metabolism
Humanities and Social Sciences
Mammals
Mice
multidisciplinary
Organ Size - genetics
Organ Size - physiology
Science
Science (multidisciplinary)
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Title Genetic architecture supports mosaic brain evolution and independent brain–body size regulation
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