Selection on noise constrains variation in a eukaryotic promoter
Quantifying activity of cis -regulatory sequences controlling gene expression shows that selection on expression noise has a greater impact on sequence variation than selection on mean expression level. Transcriptional noise a target of natural selection Patricia Wittkopp and colleagues measure and...
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| Published in | Nature (London) Vol. 521; no. 7552; pp. 344 - 347 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
21.05.2015
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0028-0836 1476-4687 1476-4687 |
| DOI | 10.1038/nature14244 |
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| Abstract | Quantifying activity of
cis
-regulatory sequences controlling gene expression shows that selection on expression noise has a greater impact on sequence variation than selection on mean expression level.
Transcriptional noise a target of natural selection
Patricia Wittkopp and colleagues measure and compare the effects of 236 mutations in a
cis
-regulatory region from
Saccharomyces cerevisiae
to the effects of natural polymorphisms observed in the same region among 85 isolates of this species. They find that selection on variability in expression among genetically identical cells appears to have had a greater effect on sequence variation than selection on mean expression level, at their promoter. This may not be because variation in expression noise affects fitness more than variation in mean expression level; rather, it may be due to differences in the distributions of mutational effects for these two phenotypes.
Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection
1
,
2
,
3
,
4
. When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations
2
. Here we investigate how mutation and selection have shaped variation in a
cis
-regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the
TDH3
promoter among 85 strains of
Saccharomyces cerevisiae
and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells
5
) appears to have had a greater impact on sequence variation in the
TDH3
promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise. |
|---|---|
| AbstractList | Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection1-4. When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations2. Here we investigate how mutation and selection have shaped variation in a cis-regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells5) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise. Quantifying activity of cis -regulatory sequences controlling gene expression shows that selection on expression noise has a greater impact on sequence variation than selection on mean expression level. Transcriptional noise a target of natural selection Patricia Wittkopp and colleagues measure and compare the effects of 236 mutations in a cis -regulatory region from Saccharomyces cerevisiae to the effects of natural polymorphisms observed in the same region among 85 isolates of this species. They find that selection on variability in expression among genetically identical cells appears to have had a greater effect on sequence variation than selection on mean expression level, at their promoter. This may not be because variation in expression noise affects fitness more than variation in mean expression level; rather, it may be due to differences in the distributions of mutational effects for these two phenotypes. Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection 1 , 2 , 3 , 4 . When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations 2 . Here we investigate how mutation and selection have shaped variation in a cis -regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells 5 ) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise. Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection. When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations. Here we investigate how mutation and selection have shaped variation in a cis-regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise.Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection. When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations. Here we investigate how mutation and selection have shaped variation in a cis-regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise. Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection. When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations. Here we investigate how mutation and selection have shaped variation in a cis-regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (that is, variability in expression among genetically identical cells) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms. It also provides rare empirical evidence of selection acting on expression noise. Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection, polymorphisms are expected to be a random subset of new mutations; thus, comparing the effects of polymorphisms and new mutations provides a test for selection 1 – 4 . When evidence of selection exists, such comparisons can identify properties of mutations that are most likely to persist in natural populations 2 . Here, we investigate how mutation and selection have shaped variation in a cis -regulatory sequence controlling gene expression by empirically determining the effects of polymorphisms segregating in the TDH3 promoter among 85 strains of Saccharomyces cerevisiae and comparing their effects to a distribution of mutational effects defined by 236 point mutations in the same promoter. Surprisingly, we find that selection on expression noise (i.e., variability in expression among genetically identical cells 5 ) appears to have had a greater impact on sequence variation in the TDH3 promoter than selection on mean expression level. This is not necessarily because variation in expression noise impacts fitness more than variation in mean expression level, but rather because of differences in the distributions of mutational effects for these two phenotypes. This study shows how systematically examining the effects of new mutations can enrich our understanding of evolutionary mechanisms and provides rare empirical evidence of selection acting on expression noise. |
| Author | Yuan, David C. Gruber, Jonathan D. Wittkopp, Patricia J. Metzger, Brian P. H. Duveau, Fabien |
| AuthorAffiliation | 2 Department of Molecular, Cellular, and Developmental Biology, University of Michigan, Ann Arbor, MI 48109 USA 1 Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI 48109 USA |
| AuthorAffiliation_xml | – name: 1 Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, MI 48109 USA – name: 2 Department of Molecular, Cellular, and Developmental Biology, University of Michigan, Ann Arbor, MI 48109 USA |
| Author_xml | – sequence: 1 givenname: Brian P. H. surname: Metzger fullname: Metzger, Brian P. H. organization: Department of Ecology and Evolutionary Biology, University of Michigan – sequence: 2 givenname: David C. surname: Yuan fullname: Yuan, David C. organization: Department of Molecular, Cellular, and Developmental Biology, University of Michigan – sequence: 3 givenname: Jonathan D. surname: Gruber fullname: Gruber, Jonathan D. organization: Department of Ecology and Evolutionary Biology, University of Michigan – sequence: 4 givenname: Fabien surname: Duveau fullname: Duveau, Fabien organization: Department of Ecology and Evolutionary Biology, University of Michigan – sequence: 5 givenname: Patricia J. surname: Wittkopp fullname: Wittkopp, Patricia J. email: wittkopp@umich.edu organization: Department of Ecology and Evolutionary Biology, University of Michigan, Department of Molecular, Cellular, and Developmental Biology, University of Michigan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25778704$$D View this record in MEDLINE/PubMed |
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| CODEN | NATUAS |
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| ContentType | Journal Article |
| Copyright | Springer Nature Limited 2015 Copyright Nature Publishing Group May 21, 2015 |
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cis
-regulatory sequences controlling gene expression shows that selection on expression noise has a greater impact on sequence... Genetic variation segregating within a species reflects the combined activities of mutation, selection, and genetic drift. In the absence of selection,... |
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| SubjectTerms | 13 13/31 38 38/35 38/47 38/70 631/181/2474 631/181/457 631/208/199 631/208/480 Binding sites Evolution, Molecular Gene Expression Regulation, Fungal - genetics Genes Genetic diversity Genetic drift Genomes Glyceraldehyde-3-Phosphate Dehydrogenase (Phosphorylating) - genetics Haplotypes Humanities and Social Sciences letter multidisciplinary Mutation Mutation - genetics Phenotype Polymorphism, Genetic - genetics Promoter Regions, Genetic - genetics Saccharomyces cerevisiae - genetics Saccharomyces cerevisiae Proteins - genetics Science Selection, Genetic - genetics |
| Title | Selection on noise constrains variation in a eukaryotic promoter |
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