Developmental Nonlinearity Drives Phenotypic Robustness

Rebecca M. Green; Jennifer L. Fish; Nathan M. Young; Francis J. Smith; Benjamin Roberts; Katie Dolan; Irene Choi; Courtney L. Leach; Paul Gordon; James M. Cheverud; Charles C. Roseman; Trevor J. Williams; Ralph S. Marcucio; Benedikt Hallgrímsson

doi:10.1038/s41467-017-02037-7

Developmental Nonlinearity Drives Phenotypic Robustness

Rebecca M. Green, Jennifer L. Fish, Nathan M. Young, Francis J. Smith, Benjamin Roberts, Katie Dolan, Irene Choi, Courtney L. Leach, Paul Gordon, James M. Cheverud, Charles C. Roseman, Trevor J. Williams, Ralph S. Marcucio, Benedikt Hallgrímsson

Department of Biology

Research output: Contribution to journal › Article › peer-review

Abstract

Robustness to perturbation is a fundamental feature of complex organisms. Mutations are the raw material for evolution, yet robustness to their effects is required for species survival. The mechanisms that produce robustness are poorly understood. Nonlinearities are a ubiquitous feature of development that may link variation in development to phenotypic robustness. Here, we manipulate the gene dosage of a signaling molecule, Fgf8 , a critical regulator of vertebrate development. We demonstrate that variation in Fgf8 expression has a nonlinear relationship to phenotypic variation, predicting levels of robustness among genotypes. Differences in robustness are not due to gene expression variance or dysregulation, but emerge from the nonlinearity of the genotype–phenotype curve. In this instance, embedded features of development explain robustness differences. How such features vary in natural populations and relate to genetic variation are key questions for unraveling the origin and evolvability of this feature of organismal development.

Original language	American English
Journal	History: Faculty Publications and Other Works
Volume	8
Issue number	1970
DOIs	https://doi.org/10.1038/s41467-017-02037-7
State	Published - Dec 6 2017

Keywords

Mutation
Evolution
Robustness
Species Survival
Phenotypic Robustness
Genotype Nonlinearity

Disciplines

Biology

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title = "Developmental Nonlinearity Drives Phenotypic Robustness",

abstract = " Robustness to perturbation is a fundamental feature of complex organisms. Mutations are the raw material for evolution, yet robustness to their effects is required for species survival. The mechanisms that produce robustness are poorly understood. Nonlinearities are a ubiquitous feature of development that may link variation in development to phenotypic robustness. Here, we manipulate the gene dosage of a signaling molecule, Fgf8 , a critical regulator of vertebrate development. We demonstrate that variation in Fgf8 expression has a nonlinear relationship to phenotypic variation, predicting levels of robustness among genotypes. Differences in robustness are not due to gene expression variance or dysregulation, but emerge from the nonlinearity of the genotype–phenotype curve. In this instance, embedded features of development explain robustness differences. How such features vary in natural populations and relate to genetic variation are key questions for unraveling the origin and evolvability of this feature of organismal development.",

keywords = "Mutation, Evolution, Robustness, Species Survival, Phenotypic Robustness, Genotype Nonlinearity",

author = "Green, {Rebecca M.} and Fish, {Jennifer L.} and Young, {Nathan M.} and Smith, {Francis J.} and Benjamin Roberts and Katie Dolan and Irene Choi and Leach, {Courtney L.} and Paul Gordon and Cheverud, {James M.} and Roseman, {Charles C.} and Williams, {Trevor J.} and Marcucio, {Ralph S.} and Benedikt Hallgr{\'i}msson",

year = "2017",

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doi = "10.1038/s41467-017-02037-7",

language = "American English",

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T1 - Developmental Nonlinearity Drives Phenotypic Robustness

AU - Green, Rebecca M.

AU - Fish, Jennifer L.

AU - Young, Nathan M.

AU - Smith, Francis J.

AU - Roberts, Benjamin

AU - Dolan, Katie

AU - Choi, Irene

AU - Leach, Courtney L.

AU - Gordon, Paul

AU - Cheverud, James M.

AU - Roseman, Charles C.

AU - Williams, Trevor J.

AU - Marcucio, Ralph S.

AU - Hallgrímsson, Benedikt

PY - 2017/12/6

Y1 - 2017/12/6

N2 - Robustness to perturbation is a fundamental feature of complex organisms. Mutations are the raw material for evolution, yet robustness to their effects is required for species survival. The mechanisms that produce robustness are poorly understood. Nonlinearities are a ubiquitous feature of development that may link variation in development to phenotypic robustness. Here, we manipulate the gene dosage of a signaling molecule, Fgf8 , a critical regulator of vertebrate development. We demonstrate that variation in Fgf8 expression has a nonlinear relationship to phenotypic variation, predicting levels of robustness among genotypes. Differences in robustness are not due to gene expression variance or dysregulation, but emerge from the nonlinearity of the genotype–phenotype curve. In this instance, embedded features of development explain robustness differences. How such features vary in natural populations and relate to genetic variation are key questions for unraveling the origin and evolvability of this feature of organismal development.

AB - Robustness to perturbation is a fundamental feature of complex organisms. Mutations are the raw material for evolution, yet robustness to their effects is required for species survival. The mechanisms that produce robustness are poorly understood. Nonlinearities are a ubiquitous feature of development that may link variation in development to phenotypic robustness. Here, we manipulate the gene dosage of a signaling molecule, Fgf8 , a critical regulator of vertebrate development. We demonstrate that variation in Fgf8 expression has a nonlinear relationship to phenotypic variation, predicting levels of robustness among genotypes. Differences in robustness are not due to gene expression variance or dysregulation, but emerge from the nonlinearity of the genotype–phenotype curve. In this instance, embedded features of development explain robustness differences. How such features vary in natural populations and relate to genetic variation are key questions for unraveling the origin and evolvability of this feature of organismal development.

KW - Mutation

KW - Evolution

KW - Robustness

KW - Species Survival

KW - Phenotypic Robustness

KW - Genotype Nonlinearity

UR - https://ecommons.luc.edu/biology_facpubs/84

U2 - 10.1038/s41467-017-02037-7

DO - 10.1038/s41467-017-02037-7

M3 - Article

VL - 8

JO - History: Faculty Publications and Other Works

JF - History: Faculty Publications and Other Works

IS - 1970

ER -

Developmental Nonlinearity Drives Phenotypic Robustness

Abstract

Keywords

Disciplines

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