生物
基因组
微生物群
表观遗传学
基因组
DNA甲基化
适应(眼睛)
遗传学
相位变化
计算生物学
肠道菌群
宿主适应
细菌基因组大小
基因
进化生物学
毒力
基因表达
免疫学
神经科学
作者
Mi Ni,Yu Fan,Yujie Liu,Yangmei Li,Wanjin Qiao,Lauren Davey,Xue‐Song Zhang,Magdalena Ksiezarek,Edward A. Mead,Alan Tourancheau,Wenyan Jiang,Martin J. Blaser,Raphael H. Valdivia,Gang Fang
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-01-12
被引量:7
标识
DOI:10.1101/2025.01.11.632565
摘要
Abstract The human gut microbiome within the gastrointestinal tract continuously adapts to variations in diet, medications, and host physiology. A strategy for bacterial genetic adaptation is epigenetic phase variation (ePV) mediated by bacterial DNA methylation, which can regulate gene expression, enhance clonal heterogeneity, and enable a single bacterial strain to exhibit variable phenotypic states. Genome-wide and site-specific ePVs have been characterized in human pathogens’ antigenic variation and virulence factor production. However, the role of ePV in facilitating adaptation within the human microbiome remains poorly understood. Here, we comprehensively cataloged genome-wide and site-specific ePV in human infant and adult gut microbiomes. First, using long-read metagenomic sequencing, we detected genome-wide ePV mediated by complex structural variations of DNA methyltransferases, highlighting those associated with antibiotics or fecal microbiota transplantation. Second, we analyzed a collection of public short-read metagenomic sequencing datasets, uncovering a great prevalence of genome-wide ePV in the human gut microbiome. Third, we quantitatively detected site-specific ePVs using single-molecule methylation analysis to identify dynamic variation associated with antibiotic treatment or probiotic engraftment. Finally, we performed an in-depth assessment of an Akkermansia muciniphila isolate from an infant, highlighting that ePVs can regulate gene expression and enhance the bacterial adaptive capacity by employing a bet-hedging strategy to increase tolerance to differing antibiotics. Our findings indicate that epigenetic modifications are a common strategy used by gut bacteria to adapt to the fluctuating environment.
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