细菌表观基因组。

The bacterial epigenome.

机构信息

Departamento de Genética, Facultad de Biología, Universidad de Sevilla, Sevilla, Spain.

出版信息

Nat Rev Microbiol. 2020 Jan;18(1):7-20. doi: 10.1038/s41579-019-0286-2. Epub 2019 Nov 14.

Abstract

In all domains of life, genomes contain epigenetic information superimposed over the nucleotide sequence. Epigenetic signals control DNA-protein interactions and can cause phenotypic change in the absence of mutation. A nearly universal mechanism of epigenetic signalling is DNA methylation. In bacteria, DNA methylation has roles in genome defence, chromosome replication and segregation, nucleoid organization, cell cycle control, DNA repair and regulation of transcription. In many bacterial species, DNA methylation controls reversible switching (phase variation) of gene expression, a phenomenon that generates phenotypic cell variants. The formation of epigenetic lineages enables the adaptation of bacterial populations to harsh or changing environments and modulates the interaction of pathogens with their eukaryotic hosts.

摘要

在生命的所有领域中，基因组都包含核苷酸序列上的表观遗传信息。表观遗传信号控制 DNA-蛋白质相互作用，并能在没有突变的情况下引起表型变化。表观遗传信号的一个几乎普遍的机制是 DNA 甲基化。在细菌中，DNA 甲基化在基因组防御、染色体复制和分离、核小体组织、细胞周期控制、DNA 修复和转录调控中发挥作用。在许多细菌物种中，DNA 甲基化控制基因表达的可逆开关（相位变化），这一现象产生了表型细胞变体。表观遗传谱系的形成使细菌种群能够适应恶劣或变化的环境，并调节病原体与其真核宿主的相互作用。

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细菌表观基因组。

The bacterial epigenome.

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