DNA 甲基化在两种鸣禽及其自然发生的 F 杂种中的调控和进化影响。

Regulatory and evolutionary impact of DNA methylation in two songbird species and their naturally occurring F hybrids.

机构信息

Department of Ecology and Genetics (IEG), Division of Evolutionary Biology, Uppsala University, Norbyvägen 18D, Uppsala, SE-752 36, Sweden.

Department of Ecology and Genetics (IEG), Division of Animal Ecology, Uppsala University, Norbyvägen 18D, Uppsala, SE-752 36, Sweden.

出版信息

BMC Biol. 2024 May 29;22(1):124. doi: 10.1186/s12915-024-01920-2.

DOI:10.1186/s12915-024-01920-2

PMID:38807214

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11134931/

Abstract

BACKGROUND

Regulation of transcription by DNA methylation in 5'-CpG-3' context is a widespread mechanism allowing differential expression of genetically identical cells to persist throughout development. Consequently, differences in DNA methylation can reinforce variation in gene expression among cells, tissues, populations, and species. Despite a surge in studies on DNA methylation, we know little about the importance of DNA methylation in population differentiation and speciation. Here we investigate the regulatory and evolutionary impact of DNA methylation in five tissues of two Ficedula flycatcher species and their naturally occurring F hybrids.

RESULTS

We show that the density of CpG in the promoters of genes determines the strength of the association between DNA methylation and gene expression. The impact of DNA methylation on gene expression varies among tissues with the brain showing unique patterns. Differentially expressed genes between parental species are predicted by genetic and methylation differentiation in CpG-rich promoters. However, both these factors fail to predict hybrid misexpression suggesting that promoter mismethylation is not a main determinant of hybrid misexpression in Ficedula flycatchers. Using allele-specific methylation estimates in hybrids, we also determine the genome-wide contribution of cis- and trans effects in DNA methylation differentiation. These distinct mechanisms are roughly balanced in all tissues except the brain, where trans differences predominate.

CONCLUSIONS

Overall, this study provides insight on the regulatory and evolutionary impact of DNA methylation in songbirds.

摘要

背景

在 5'-CpG-3' 环境中，通过 DNA 甲基化来调控转录是一种广泛存在的机制，它允许遗传上相同的细胞在整个发育过程中保持差异表达。因此，DNA 甲基化的差异可以增强细胞、组织、种群和物种之间基因表达的变异性。尽管关于 DNA 甲基化的研究激增，但我们对 DNA 甲基化在种群分化和物种形成中的重要性知之甚少。在这里，我们研究了两个金翅雀雀种及其自然发生的 F 杂种的五个组织中 DNA 甲基化的调节和进化作用。

结果

我们表明，基因启动子中 CpG 的密度决定了 DNA 甲基化与基因表达之间关联的强度。DNA 甲基化对基因表达的影响因组织而异，大脑表现出独特的模式。在 CpG 丰富的启动子中，种间差异表达的基因可通过遗传和甲基化分化来预测。然而，这两个因素都未能预测杂种的错误表达，这表明启动子的错误甲基化并不是金翅雀杂种错误表达的主要决定因素。通过在杂种中使用等位基因特异性甲基化估计值，我们还确定了 DNA 甲基化分化中顺式和反式效应的全基因组贡献。除了大脑，这些不同的机制在所有组织中大致平衡，而在大脑中，反式差异占主导地位。

结论

总的来说，这项研究为研究 DNA 甲基化在鸣禽中的调节和进化作用提供了新的视角。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fdae/11134931/1ed0f3f2cea6/12915_2024_1920_Fig1_HTML.jpg

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DNA 甲基化在两种鸣禽及其自然发生的 F 杂种中的调控和进化影响。

Regulatory and evolutionary impact of DNA methylation in two songbird species and their naturally occurring F hybrids.

机构信息

Department of Ecology and Genetics (IEG), Division of Evolutionary Biology, Uppsala University, Norbyvägen 18D, Uppsala, SE-752 36, Sweden.

Department of Ecology and Genetics (IEG), Division of Animal Ecology, Uppsala University, Norbyvägen 18D, Uppsala, SE-752 36, Sweden.