mEnrich-seq: methylation-guided enrichment sequencing of bacterial taxa of interest from microbiome

基因组 生物 微生物群 DNA甲基化 DNA测序 计算生物学 分类单元 甲基化 遗传学 进化生物学 DNA 基因 生态学 基因表达
作者
Lei Cao,Yimeng Kong,Yu Fan,Mi Ni,Alan Tourancheau,Magdalena Ksiezarek,Edward A. Mead,Tonny Koo,Melissa Gitman,Xue‐Song Zhang,Gang Fang
出处
期刊:Nature Methods [Nature Portfolio]
卷期号:21 (2): 236-246 被引量:12
标识
DOI:10.1038/s41592-023-02125-1
摘要

Metagenomics has enabled the comprehensive study of microbiomes. However, many applications would benefit from a method that sequences specific bacterial taxa of interest, but not most background taxa. We developed mEnrich-seq (in which 'm' stands for methylation and seq for sequencing) for enriching taxa of interest from metagenomic DNA before sequencing. The core idea is to exploit the self versus nonself differentiation by natural bacterial DNA methylation and rationally choose methylation-sensitive restriction enzymes, individually or in combination, to deplete host and background taxa while enriching targeted taxa. This idea is integrated with library preparation procedures and applied in several applications to enrich (up to 117-fold) pathogenic or beneficial bacteria from human urine and fecal samples, including species that are hard to culture or of low abundance. We assessed 4,601 bacterial strains with mapped methylomes so far and showed broad applicability of mEnrich-seq. mEnrich-seq provides microbiome researchers with a versatile and cost-effective approach for selective sequencing of diverse taxa of interest. mEnrich-seq leverages DNA methylation differences between bacteria to enrich taxa of interest from metagenomic samples for selective sequencing.
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