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Urbanization is associated with modifications in DNA methylation in a small passerine bird

Urbanization represents a fierce driver of phenotypic change, yet the molecular mechanisms underlying observed phenotypic patterns are poorly understood. Epigenetic changes are expected to facilitate more rapid adaption to changing or novel environments, such as our towns and cities, compared with s...

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Autores principales: Watson, Hannah, Powell, Daniel, Salmón, Pablo, Jacobs, Arne, Isaksson, Caroline
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7819559/
https://www.ncbi.nlm.nih.gov/pubmed/33519958
http://dx.doi.org/10.1111/eva.13160
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author Watson, Hannah
Powell, Daniel
Salmón, Pablo
Jacobs, Arne
Isaksson, Caroline
author_facet Watson, Hannah
Powell, Daniel
Salmón, Pablo
Jacobs, Arne
Isaksson, Caroline
author_sort Watson, Hannah
collection PubMed
description Urbanization represents a fierce driver of phenotypic change, yet the molecular mechanisms underlying observed phenotypic patterns are poorly understood. Epigenetic changes are expected to facilitate more rapid adaption to changing or novel environments, such as our towns and cities, compared with slow changes in gene sequence. A comparison of liver and blood tissue from great tits Parus major originating from an urban and a forest site demonstrated that urbanization is associated with variation in genome‐wide patterns of DNA methylation. Combining reduced representation bisulphite sequencing with transcriptome data, we revealed habitat differences in DNA methylation patterns that suggest a regulated and coordinated response to the urban environment. In the liver, genomic sites that were differentially methylated between urban‐ and forest‐dwelling birds were over‐represented in regulatory regions of the genome and more likely to occur in expressed genes. DNA methylation levels were also inversely correlated with gene expression at transcription start sites. Furthermore, differentially methylated CpG sites, in liver, were over‐represented in pathways involved in (i) steroid biosynthesis, (ii) superoxide metabolism, (iii) secondary alcohol metabolism, (iv) chylomicron remodelling, (v) cholesterol transport, (vi) reactive oxygen species (ROS) metabolic process and (vii) epithelial cell proliferation. This corresponds with earlier studies identifying diet and exposure to ROS as two of the main drivers of divergence between organisms in urban and nonurban environments. Conversely, in blood, sites that were differentially methylated between urban‐ and forest‐dwelling birds were under‐represented in regulatory regions, more likely to occur in nonexpressed genes and not over‐represented in specific biological pathways. It remains to be determined whether diverging patterns of DNA methylation represent adaptive evolutionary responses and whether the conclusions can be more widely attributed to urbanization.
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spelling pubmed-78195592021-01-29 Urbanization is associated with modifications in DNA methylation in a small passerine bird Watson, Hannah Powell, Daniel Salmón, Pablo Jacobs, Arne Isaksson, Caroline Evol Appl Special Issue Original Articles Urbanization represents a fierce driver of phenotypic change, yet the molecular mechanisms underlying observed phenotypic patterns are poorly understood. Epigenetic changes are expected to facilitate more rapid adaption to changing or novel environments, such as our towns and cities, compared with slow changes in gene sequence. A comparison of liver and blood tissue from great tits Parus major originating from an urban and a forest site demonstrated that urbanization is associated with variation in genome‐wide patterns of DNA methylation. Combining reduced representation bisulphite sequencing with transcriptome data, we revealed habitat differences in DNA methylation patterns that suggest a regulated and coordinated response to the urban environment. In the liver, genomic sites that were differentially methylated between urban‐ and forest‐dwelling birds were over‐represented in regulatory regions of the genome and more likely to occur in expressed genes. DNA methylation levels were also inversely correlated with gene expression at transcription start sites. Furthermore, differentially methylated CpG sites, in liver, were over‐represented in pathways involved in (i) steroid biosynthesis, (ii) superoxide metabolism, (iii) secondary alcohol metabolism, (iv) chylomicron remodelling, (v) cholesterol transport, (vi) reactive oxygen species (ROS) metabolic process and (vii) epithelial cell proliferation. This corresponds with earlier studies identifying diet and exposure to ROS as two of the main drivers of divergence between organisms in urban and nonurban environments. Conversely, in blood, sites that were differentially methylated between urban‐ and forest‐dwelling birds were under‐represented in regulatory regions, more likely to occur in nonexpressed genes and not over‐represented in specific biological pathways. It remains to be determined whether diverging patterns of DNA methylation represent adaptive evolutionary responses and whether the conclusions can be more widely attributed to urbanization. John Wiley and Sons Inc. 2020-11-13 /pmc/articles/PMC7819559/ /pubmed/33519958 http://dx.doi.org/10.1111/eva.13160 Text en © 2020 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Special Issue Original Articles
Watson, Hannah
Powell, Daniel
Salmón, Pablo
Jacobs, Arne
Isaksson, Caroline
Urbanization is associated with modifications in DNA methylation in a small passerine bird
title Urbanization is associated with modifications in DNA methylation in a small passerine bird
title_full Urbanization is associated with modifications in DNA methylation in a small passerine bird
title_fullStr Urbanization is associated with modifications in DNA methylation in a small passerine bird
title_full_unstemmed Urbanization is associated with modifications in DNA methylation in a small passerine bird
title_short Urbanization is associated with modifications in DNA methylation in a small passerine bird
title_sort urbanization is associated with modifications in dna methylation in a small passerine bird
topic Special Issue Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7819559/
https://www.ncbi.nlm.nih.gov/pubmed/33519958
http://dx.doi.org/10.1111/eva.13160
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