Testing for parallel genomic and epigenomic footprints of adaptation to urban life in a passerine bird

dc.contributor.author Caizergues, Aude ca
dc.contributor.author Senar, Juan Carlos ca
dc.contributor.author Perrier, Charles ca
dc.contributor.other Consorci del Museu de Ciències Naturals de Barcelona ca
dc.coverage.spatial Europa ca
dc.date.accessioned 2025-11-05T12:59:40Z
dc.date.available 2025-11-05T12:59:40Z
dc.date.issued 2021-03-26
dc.description.abstract Identifying the molecular mechanisms involved in rapid adaptation to novel environments and determining their predictability are central questions in Evolutionary Biology and pressing issues due to rapid global changes. Complementary to genetic responses to selection, faster epigenetic variations such as modifications of DNA methylation may play a substantial role in rapid adaptation. In the context of rampant urbanization, joint examinations of genomic and epigenomic mechanisms are still lacking. Here, we investigated genomic (SNP) and epigenomic (CpG methylation) responses to urban life in a passerine bird, the Great tit (Parus major). To test whether urban evolution is predictable (i.e parallel) or involves mostly non-parallel molecular processes among cities, we analysed three distinct pairs of city and forest Great tit populations across Europe. Results reveal a polygenic response to urban life, with both many genes putatively under weak divergent selection and multiple differentially methylated regions (DMRs) between forest and city great tits. DMRs mainly overlapped transcription start sites and promotor regions, suggesting their importance in the modulation gene expression. Both genomic and epigenomic outliers were found in genomic regions enriched for genes with biological functions related to nervous system, immunity, behaviour, hormonal and stress responses Interestingly, comparisons across the three pairs of city-forest populations suggested little parallelism in both genetic and epigenetic responses. Our results confirm, at both the genetic and epigenetic levels, hypotheses of polygenic and largely non-parallel mechanisms of rapid adaptation in new environments such as urbanized areas. ca
dc.description.abstract Versió presentada ca
dc.description.abstract Identifying the molecular mechanisms involved in rapid adaptation to novel environments and determining their predictability are central questions in Evolutionary Biology and pressing issues due to rapid global changes. Complementary to genetic responses to selection, faster epigenetic variations such as modifications of DNA methylation may play a substantial role in rapid adaptation. In the context of rampant urbanization, joint examinations of genomic and epigenomic mechanisms are still lacking. Here, we investigated genomic (SNP) and epigenomic (CpG methylation) responses to urban life in a passerine bird, the Great tit (Parus major). To test whether urban evolution is predictable (i.e parallel) or involves mostly non-parallel molecular processes among cities, we analysed three distinct pairs of city and forest Great tit populations across Europe. Results reveal a polygenic response to urban life, with both many genes putatively under weak divergent selection and multiple differentially methylated regions (DMRs) between forest and city great tits. DMRs mainly overlapped transcription start sites and promotor regions, suggesting their importance in the modulation gene expression. Both genomic and epigenomic outliers were found in genomic regions enriched for genes with biological functions related to nervous system, immunity, behaviour, hormonal and stress responses Interestingly, comparisons across the three pairs of city-forest populations suggested little parallelism in both genetic and epigenetic responses. Our results confirm, at both the genetic and epigenetic levels, hypotheses of polygenic and largely non-parallel mechanisms of rapid adaptation in new environments such as urbanized areas. en
dc.description.abstract Versió presentada en
dc.description.abstract Identifying the molecular mechanisms involved in rapid adaptation to novel environments and determining their predictability are central questions in Evolutionary Biology and pressing issues due to rapid global changes. Complementary to genetic responses to selection, faster epigenetic variations such as modifications of DNA methylation may play a substantial role in rapid adaptation. In the context of rampant urbanization, joint examinations of genomic and epigenomic mechanisms are still lacking. Here, we investigated genomic (SNP) and epigenomic (CpG methylation) responses to urban life in a passerine bird, the Great tit (Parus major). To test whether urban evolution is predictable (i.e parallel) or involves mostly non-parallel molecular processes among cities, we analysed three distinct pairs of city and forest Great tit populations across Europe. Results reveal a polygenic response to urban life, with both many genes putatively under weak divergent selection and multiple differentially methylated regions (DMRs) between forest and city great tits. DMRs mainly overlapped transcription start sites and promotor regions, suggesting their importance in the modulation gene expression. Both genomic and epigenomic outliers were found in genomic regions enriched for genes with biological functions related to nervous system, immunity, behaviour, hormonal and stress responses Interestingly, comparisons across the three pairs of city-forest populations suggested little parallelism in both genetic and epigenetic responses. Our results confirm, at both the genetic and epigenetic levels, hypotheses of polygenic and largely non-parallel mechanisms of rapid adaptation in new environments such as urbanized areas. es
dc.description.abstract Versió presentada es
dc.format application/pdf ca
dc.format.extent 53 p. ca
dc.identifier http://hdl.handle.net/2072/481449
dc.identifier.citation bioRxiv (2021) ca
dc.identifier.entitat consorcis ca
dc.identifier.other https://doi.org/10.1101/2021.02.10.430452 ca
dc.identifier.uri http://hdl.handle.net/11703/142885
dc.language eng ca
dc.provenance Recercat (Dipòsit de la Recerca de Catalunya) ca
dc.rights.notes Attribution-NonCommercial-NoDerivatives 4.0 International ca
dc.rights.notes http://creativecommons.org/licenses/by-nc-nd/4.0/ ca
dc.subject Mallerenga carbonera ca
dc.subject ADN ca
dc.subject Passeriformes ca
dc.subject Adaptació animal ca
dc.subject Metilació ca
dc.subject Great tit en
dc.subject DNA en
dc.subject Passeriformes en
dc.subject Animal adaptation en
dc.subject Methylation en
dc.subject Carbonero común es
dc.subject ADN es
dc.subject Passeriformes es
dc.subject Adaptación de los animales es
dc.subject Metilación es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title Testing for parallel genomic and epigenomic footprints of adaptation to urban life in a passerine bird ca
dc.type text ca
dc.type.driver info:eu-repo/semantics/article ca
metadadalocal.dependencia 8008920

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