The epigenetic basis of evolution

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-03-01 DOI:10.1016/j.pbiomolbio.2023.01.005

Corrado Spadafora

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引用次数: 4

Abstract

An increasing body of data are revealing key roles of epigenetics in evolutionary processes. The scope of this manuscript is to assemble in a coherent frame experimental evidence supporting a role of epigenetic factors and networks, active during embryogenesis, in orchestrating variation-inducing phenomena underlying evolution, seen as a global process. This process unfolds over two crucial levels: i) a flow of RNA-based information - predominantly small regulatory RNAs released from somatic cells exposed to environmental stimuli – taken up by spermatozoa and delivered to oocytes at fertilization and ii) the highly permissive and variation-prone environments offered by zygotes and totipotent early embryos. Totipotent embryos provide a variety of biological tools favouring the emergence of evolutionarily significant phenotypic novelties driven by RNA information.

Under this light, neither random genomic mutations, nor the sieving role of natural selection are required, as the sperm-delivered RNA cargo conveys specific information and acts as “phenotypic-inducer” of defined environmentally acquired traits.

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进化的表观遗传学基础

越来越多的数据揭示了表观遗传学在进化过程中的关键作用。这篇手稿的范围是在一个连贯的框架中收集实验证据，支持在胚胎发生过程中活跃的表观遗传因子和网络在协调进化背后的变异诱导现象中的作用，这被视为一个全球过程。这一过程在两个关键层面上展开：i）基于RNA的信息流——主要是从暴露于环境刺激的体细胞中释放的小调控RNA——被精子吸收并在受精时传递给卵母细胞；ii）受精卵和全能早期胚胎提供的高度宽松和易变异的环境。全能胚胎提供了多种生物工具，有利于RNA信息驱动的进化上显著的表型新颖性的出现。在这种情况下，既不需要随机的基因组突变，也不需要自然选择的筛选作用，因为精子递送的RNA货物传递特定信息，并充当定义的环境获得性状的“表型诱导剂”。

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