基因组
DNA测序
纳米孔测序
基因组
计算生物学
DNA
细菌
细菌基因组大小
遗传多样性
生物
非核糖体肽
基因组学
微生物群
环境DNA
深度测序
门
全基因组测序
基因
遗传学
作者
Ján Burian,Robert E. Boer,Yözen Hernández,Adrián Morales-Amador,Linhai Jiang,Abir Bhattacharjee,Cecilia Panfil,Melinda A. Ternei,Sean F. Brady
标识
DOI:10.1038/s41587-025-02810-w
摘要
Metagenomics provides access to the genetic diversity of uncultured bacteria through analysis of DNA extracted from whole microbial communities. Long-read sequencing is advancing metagenomic discovery by generating larger DNA assemblies than previously possible. However, harnessing the potential of long-read sequencing to access the vast diversity within soil microbiomes is hampered by the challenge of isolating high-quality DNA. Here we introduce a method that can liberate large, high-quality metagenomic DNA fragments from soil bacteria and pair them with optimized nanopore long-read sequencing to generate megabase-sized assemblies. Using this method, we uncover hundreds of complete circular metagenomic genomes from a single soil sample. Through a combination of bioinformatic prediction and chemical synthesis, we convert nonribosomal peptide biosynthetic gene clusters directly into bioactive molecules, identifying antibiotics with rare modes of action and activity against multidrug-resistant pathogens. Our approach advances metagenomic access to the vast genetic diversity of the uncultured bacterial majority and provides a means to convert it to bioactive molecules.
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