Andrey Höglund scite author profile

Domestication is one of the strongest examples of artificial selection, and has produced some of the most extreme within-species phenotypic variation known. In the case of the chicken, it has been hypothesised that DNA methylation may play a mechanistic role in the domestication response. By inter-crossing wild-derived Red Junglefowl with domestic chickens we mapped Quantitative Trait Loci for hypothalamic methylation (methQTL), gene expression (eQTL) and behaviour. We find large, stable methylation differences, with 6179 cis and 2973 trans methQTL identified. Over 46% of the trans effects were genotypically controlled by five loci, mainly associated with increased methylation in the Junglefowl genotype. In a third of eQTL we find that there is a correlation between gene expression and methylation, whilst statistical causality analysis reveals multiple instances where methylation is driving gene expression, as well as the reverse. We also show that methylation is correlated to some aspects of behavioural variation in the intercross. In conclusion, our data suggest a role of methylation in the regulation of gene expression underlying the domesticated phenotype of the chicken.

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The role of pleiotropy and linkage in genes affecting a sexual ornament and bone allocation in the chicken

Johnsson

Rubin

Höglund

et al. 2014

Molecular Ecology

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Sexual selection and the ornaments that inform such choices have been extensively studied, particularly from a phenotypic perspective. Although more is being revealed about the genetic architecture of sexual ornaments, much still remains to be discovered. The comb of the chicken is one of the most widely recognized sexual ornaments, which has been shown to be correlated with both fecundity and bone allocation. In this study, we use a combination of multiple intercrosses between White Leghorn populations and wild-derived Red Junglefowl to, first, map quantitative trait loci (QTL) for bone allocation and, second, to identify expression QTL that correlate and colocalize with comb mass. These candidate quantitative genes were then assessed for potential pleiotropic effects on bone tissue and fecundity traits. We identify genes that correlate with both relative comb mass and bone traits suggesting a combination of both pleiotropy and linkage mediates gene regulatory variation in these traits.

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The evolution of Sex-linked barring alleles in chickens involves both regulatory and coding changes in CDKN2A

et al. 2017

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Sex-linked barring is a fascinating plumage pattern in chickens recently shown to be associated with two non-coding and two missense mutations affecting the ARF transcript at the CDKN2A tumor suppressor locus. It however remained a mystery whether all four mutations are indeed causative and how they contribute to the barring phenotype. Here, we show that Sex-linked barring is genetically heterogeneous, and that the mutations form three functionally different variant alleles. The B0 allele carries only the two non-coding changes and is associated with the most dilute barring pattern, whereas the B1 and B2 alleles carry both the two non-coding changes and one each of the two missense mutations causing the Sex-linked barring and Sex-linked dilution phenotypes, respectively. The data are consistent with evolution of alleles where the non-coding changes occurred first followed by the two missense mutations that resulted in a phenotype more appealing to humans. We show that one or both of the non-coding changes are cis-regulatory mutations causing a higher CDKN2A expression, whereas the missense mutations reduce the ability of ARF to interact with MDM2. Caspase assays for all genotypes revealed no apoptotic events and our results are consistent with a recent study indicating that the loss of melanocyte progenitors in Sex-linked barring in chicken is caused by premature differentiation and not apoptosis. Our results show that CDKN2A is a major locus driving the differentiation of avian melanocytes in a temporal and spatial manner.

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Characterization of the GPI-anchored lipid transfer proteins in the moss Physcomitrella patens

Edstam

Laurila

Höglund

et al. 2014

Plant Physiology and Biochemistry

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Genetical genomics of growth in a chicken model

et al. 2018

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BackgroundThe genetics underlying body mass and growth are key to understanding a wide range of topics in biology, both evolutionary and developmental. Body mass and growth traits are affected by many genetic variants of small effect. This complicates genetic mapping of growth and body mass. Experimental intercrosses between individuals from divergent populations allows us to map naturally occurring genetic variants for selected traits, such as body mass by linkage mapping. By simultaneously measuring traits and intermediary molecular phenotypes, such as gene expression, one can use integrative genomics to search for potential causative genes.ResultsIn this study, we use linkage mapping approach to map growth traits (N = 471) and liver gene expression (N = 130) in an advanced intercross of wild Red Junglefowl and domestic White Leghorn layer chickens. We find 16 loci for growth traits, and 1463 loci for liver gene expression, as measured by microarrays. Of these, the genes TRAK1, OSBPL8, YEATS4, CEP55, and PIP4K2B are identified as strong candidates for growth loci in the chicken. We also show a high degree of sex-specific gene-regulation, with almost every gene expression locus exhibiting sex-interactions. Finally, several trans-regulatory hotspots were found, one of which coincides with a major growth locus.ConclusionsThese findings not only serve to identify several strong candidates affecting growth, but also show how sex-specificity and local gene-regulation affect growth regulation in the chicken.Electronic supplementary materialThe online version of this article (10.1186/s12864-018-4441-3) contains supplementary material, which is available to authorized users.

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Andrey Höglund

The methylation landscape and its role in domestication and gene regulation in the chicken

The role of pleiotropy and linkage in genes affecting a sexual ornament and bone allocation in the chicken

The evolution of Sex-linked barring alleles in chickens involves both regulatory and coding changes in CDKN2A

Characterization of the GPI-anchored lipid transfer proteins in the moss Physcomitrella patens

Genetical genomics of growth in a chicken model

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