Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.

Gene expression variation is a major contributor to phenotypic diversity within species and is thought to play an important role in adaptation. However, examples of adaptive regulatory polymorphism are rare, especially those that have been characterized at both the molecular genetic level and the or...

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Main Authors: Amanda Glaser-Schmitt, John Parsch
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2018-01-01
Series:PLoS Biology
Online Access:http://europepmc.org/articles/PMC5783415?pdf=render
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spelling doaj-502a83d9dc4b4806b44e9770411a2d0c2021-07-02T01:15:31ZengPublic Library of Science (PLoS)PLoS Biology1544-91731545-78852018-01-01161e200453810.1371/journal.pbio.2004538Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.Amanda Glaser-SchmittJohn ParschGene expression variation is a major contributor to phenotypic diversity within species and is thought to play an important role in adaptation. However, examples of adaptive regulatory polymorphism are rare, especially those that have been characterized at both the molecular genetic level and the organismal level. In this study, we perform a functional analysis of the Drosophila melanogaster CG9509 enhancer, a cis-regulatory element that shows evidence of adaptive evolution in populations outside the species' ancestral range in sub-Saharan Africa. Using site-directed mutagenesis and transgenic reporter gene assays, we determined that 3 single nucleotide polymorphisms are responsible for the difference in CG9509 expression that is observed between sub-Saharan African and cosmopolitan populations. Interestingly, while 2 of these variants appear to have been the targets of a selective sweep outside of sub-Saharan Africa, the variant with the largest effect on expression remains polymorphic in cosmopolitan populations, suggesting it may be subject to a different mode of selection. To elucidate the function of CG9509, we performed a series of functional and tolerance assays on flies in which CG9509 expression was disrupted. We found that CG9509 plays a role in larval growth and influences adult body and wing size, as well as wing loading. Furthermore, variation in several of these traits was associated with variation within the CG9509 enhancer. The effect on growth appears to result from a modulation of active ecdysone levels and expression of growth factors. Taken together, our findings suggest that selection acted on 3 sites within the CG9509 enhancer to increase CG9509 expression and, as a result, reduce wing loading as D. melanogaster expanded out of sub-Saharan Africa.http://europepmc.org/articles/PMC5783415?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Amanda Glaser-Schmitt
John Parsch
spellingShingle Amanda Glaser-Schmitt
John Parsch
Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
PLoS Biology
author_facet Amanda Glaser-Schmitt
John Parsch
author_sort Amanda Glaser-Schmitt
title Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
title_short Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
title_full Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
title_fullStr Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
title_full_unstemmed Functional characterization of adaptive variation within a cis-regulatory element influencing Drosophila melanogaster growth.
title_sort functional characterization of adaptive variation within a cis-regulatory element influencing drosophila melanogaster growth.
publisher Public Library of Science (PLoS)
series PLoS Biology
issn 1544-9173
1545-7885
publishDate 2018-01-01
description Gene expression variation is a major contributor to phenotypic diversity within species and is thought to play an important role in adaptation. However, examples of adaptive regulatory polymorphism are rare, especially those that have been characterized at both the molecular genetic level and the organismal level. In this study, we perform a functional analysis of the Drosophila melanogaster CG9509 enhancer, a cis-regulatory element that shows evidence of adaptive evolution in populations outside the species' ancestral range in sub-Saharan Africa. Using site-directed mutagenesis and transgenic reporter gene assays, we determined that 3 single nucleotide polymorphisms are responsible for the difference in CG9509 expression that is observed between sub-Saharan African and cosmopolitan populations. Interestingly, while 2 of these variants appear to have been the targets of a selective sweep outside of sub-Saharan Africa, the variant with the largest effect on expression remains polymorphic in cosmopolitan populations, suggesting it may be subject to a different mode of selection. To elucidate the function of CG9509, we performed a series of functional and tolerance assays on flies in which CG9509 expression was disrupted. We found that CG9509 plays a role in larval growth and influences adult body and wing size, as well as wing loading. Furthermore, variation in several of these traits was associated with variation within the CG9509 enhancer. The effect on growth appears to result from a modulation of active ecdysone levels and expression of growth factors. Taken together, our findings suggest that selection acted on 3 sites within the CG9509 enhancer to increase CG9509 expression and, as a result, reduce wing loading as D. melanogaster expanded out of sub-Saharan Africa.
url http://europepmc.org/articles/PMC5783415?pdf=render
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