基因组
微生物群
生物
计算生物学
人类微生物组计划
基因组
阿戈拉
进化生物学
微生物代谢
基因
遗传学
人体微生物群
细菌
计算机科学
程序设计语言
作者
Stefanía Magnúsdóttir,Almut Heinken,Laura Kutt,Dmitry A. Ravcheev,Eugen Bauer,Alberto Noronha,Kacy Greenhalgh,Christian Jäger,Joanna Bagińska,Paul Wilmes,Ronan M. T. Fleming,Ines Thiele
摘要
Genome-scale metabolic models derived from human gut metagenomic data can be used as a framework to elucidate how microbial communities modulate human metabolism and health. We present AGORA (assembly of gut organisms through reconstruction and analysis), a resource of genome-scale metabolic reconstructions semi-automatically generated for 773 human gut bacteria. Using this resource, we identified a defined growth medium for Bacteroides caccae ATCC 34185. We also showed that interactions among modeled species depend on both the metabolic potential of each species and the nutrients available. AGORA reconstructions can integrate either metagenomic or 16S rRNA sequencing data sets to infer the metabolic diversity of microbial communities. AGORA reconstructions could provide a starting point for the generation of high-quality, manually curated metabolic reconstructions. AGORA is fully compatible with Recon 2, a comprehensive metabolic reconstruction of human metabolism, which will facilitate studies of host-microbiome interactions.
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