A supergene underlies linked variation in color and morphology in a Holarctic songbird

Erik R. Funk; Nicholas A. Mason; Snæbjörn Pálsson; Tomáš Albrecht; Jeff A. Johnson; Scott A. Taylor

doi:10.1038/s41467-021-27173-z

A supergene underlies linked variation in color and morphology in a Holarctic songbird

Erik R. Funk
, Nicholas A. Mason
, Snæbjörn Pálsson
, Tomáš Albrecht
, Jeff A. Johnson
, Scott A. Taylor

Faculty of Life and Environmental Sciences

University of Iceland

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

Abstract

The genetic architecture of a phenotype can have considerable effects on the evolution of a trait or species. Characterizing genetic architecture provides insight into the complexity of a given phenotype and, potentially, the role of the phenotype in evolutionary processes like speciation. We use genome sequences to investigate the genetic basis of phenotypic variation in redpoll finches (Acanthis spp.). We demonstrate that variation in redpoll phenotype is broadly controlled by a ~55-Mb chromosomal inversion. Within this inversion, we find multiple candidate genes related to melanogenesis, carotenoid coloration, and bill shape, suggesting the inversion acts as a supergene controlling multiple linked traits. A latitudinal gradient in ecotype distribution suggests supergene driven variation in color and bill morphology are likely under environmental selection, maintaining supergene haplotypes as a balanced polymorphism. Our results provide a mechanism for the maintenance of ecotype variation in redpolls despite a genome largely homogenized by gene flow.

Original language	English
Article number	6833
Pages (from-to)	6833
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-27173-z
Publication status	Published - 25 Nov 2021

Bibliographical note

Other keywords

Animals
Chromosome Inversion
Classification
Ecotype
Evolution, Molecular
Finches/genetics
Gene Flow
Genetic Variation
Genome
Genotype
Haplotypes
Passeriformes/classification
Phenotype
Polymorphism, Genetic
Recombination, Genetic
Selection, Genetic

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10.1038/s41467-021-27173-z

Cite this

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title = "A supergene underlies linked variation in color and morphology in a Holarctic songbird",

abstract = "The genetic architecture of a phenotype can have considerable effects on the evolution of a trait or species. Characterizing genetic architecture provides insight into the complexity of a given phenotype and, potentially, the role of the phenotype in evolutionary processes like speciation. We use genome sequences to investigate the genetic basis of phenotypic variation in redpoll finches (Acanthis spp.). We demonstrate that variation in redpoll phenotype is broadly controlled by a \textasciitilde{}55-Mb chromosomal inversion. Within this inversion, we find multiple candidate genes related to melanogenesis, carotenoid coloration, and bill shape, suggesting the inversion acts as a supergene controlling multiple linked traits. A latitudinal gradient in ecotype distribution suggests supergene driven variation in color and bill morphology are likely under environmental selection, maintaining supergene haplotypes as a balanced polymorphism. Our results provide a mechanism for the maintenance of ecotype variation in redpolls despite a genome largely homogenized by gene flow.",

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AU - Funk, Erik R.

AU - Mason, Nicholas A.

AU - Pálsson, Snæbjörn

AU - Albrecht, Tomáš

AU - Johnson, Jeff A.

AU - Taylor, Scott A.

PY - 2021/11/25

Y1 - 2021/11/25

N2 - The genetic architecture of a phenotype can have considerable effects on the evolution of a trait or species. Characterizing genetic architecture provides insight into the complexity of a given phenotype and, potentially, the role of the phenotype in evolutionary processes like speciation. We use genome sequences to investigate the genetic basis of phenotypic variation in redpoll finches (Acanthis spp.). We demonstrate that variation in redpoll phenotype is broadly controlled by a ~55-Mb chromosomal inversion. Within this inversion, we find multiple candidate genes related to melanogenesis, carotenoid coloration, and bill shape, suggesting the inversion acts as a supergene controlling multiple linked traits. A latitudinal gradient in ecotype distribution suggests supergene driven variation in color and bill morphology are likely under environmental selection, maintaining supergene haplotypes as a balanced polymorphism. Our results provide a mechanism for the maintenance of ecotype variation in redpolls despite a genome largely homogenized by gene flow.

AB - The genetic architecture of a phenotype can have considerable effects on the evolution of a trait or species. Characterizing genetic architecture provides insight into the complexity of a given phenotype and, potentially, the role of the phenotype in evolutionary processes like speciation. We use genome sequences to investigate the genetic basis of phenotypic variation in redpoll finches (Acanthis spp.). We demonstrate that variation in redpoll phenotype is broadly controlled by a ~55-Mb chromosomal inversion. Within this inversion, we find multiple candidate genes related to melanogenesis, carotenoid coloration, and bill shape, suggesting the inversion acts as a supergene controlling multiple linked traits. A latitudinal gradient in ecotype distribution suggests supergene driven variation in color and bill morphology are likely under environmental selection, maintaining supergene haplotypes as a balanced polymorphism. Our results provide a mechanism for the maintenance of ecotype variation in redpolls despite a genome largely homogenized by gene flow.

KW - Animals

KW - Chromosome Inversion

KW - Classification

KW - Ecotype

KW - Evolution, Molecular

KW - Finches/genetics

KW - Gene Flow

KW - Genetic Variation

KW - Genome

KW - Genotype

KW - Haplotypes

KW - Passeriformes/classification

KW - Phenotype

KW - Polymorphism, Genetic

KW - Recombination, Genetic

KW - Selection, Genetic

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DO - 10.1038/s41467-021-27173-z

M3 - Article

C2 - 34824228

SN - 2041-1723

VL - 12

SP - 6833

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 6833

ER -

A supergene underlies linked variation in color and morphology in a Holarctic songbird

Abstract

Bibliographical note

Other keywords

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