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  • 11
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    Dietary- and host-derived metabolites are used by diverse gut bacteria for anaerobic respiration (2024)
    Springer Nature
    In:  EPIC3Nature Microbiology, Springer Nature, 9(1), pp. 55-69, ISSN: 2058-5276
    Details
    Publication Date: 2024-04-03
    Description: Respiratory reductases enable microorganisms to use molecules present in anaerobic ecosystems as energy-generating respiratory electron acceptors. Here we identify three taxonomically distinct families of human gut bacteria (Burkholderiaceae, Eggerthellaceae and Erysipelotrichaceae) that encode large arsenals of tens to hundreds of respiratory-like reductases per genome. Screening species from each family (Sutterella wadsworthensis, Eggerthella lenta and Holdemania filiformis), we discover 22 metabolites used as respiratory electron acceptors in a species-specific manner. Identified reactions transform multiple classes of dietary- and host-derived metabolites, including bioactive molecules resveratrol and itaconate. Products of identified respiratory metabolisms highlight poorly characterized compounds, such as the itaconate-derived 2-methylsuccinate. Reductase substrate profiling defines enzyme–substrate pairs and reveals a complex picture of reductase evolution, providing evidence that reductases with specificities for related cinnamate substrates independently emerged at least four times. These studies thus establish an exceptionally versatile form of anaerobic respiration that directly links microbial energy metabolism to the gut metabolome.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , peerRev
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  • 12
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    Microbial-enrichment method enables high-throughput metagenomic characterization from host-rich samples (2023)
    Springer Nature
    In:  EPIC3Nature Methods, Springer Nature, 20(11), pp. 1672-1682, ISSN: 1548-7091
    Details
    Publication Date: 2024-04-03
    Description: Host–microbe interactions have been linked to health and disease states through the use of microbial taxonomic profiling, mostly via 16S ribosomal RNA gene sequencing. However, many mechanistic insights remain elusive, in part because studying the genomes of microbes associated with mammalian tissue is difficult due to the high ratio of host to microbial DNA in such samples. Here we describe a microbial-enrichment method (MEM), which we demonstrate on a wide range of sample types, including saliva, stool, intestinal scrapings, and intestinal mucosal biopsies. MEM enabled high-throughput characterization of microbial metagenomes from human intestinal biopsies by reducing host DNA more than 1,000-fold with minimal microbial community changes (roughly 90% of taxa had no significant differences between MEM-treated and untreated control groups). Shotgun sequencing of MEM-treated human intestinal biopsies enabled characterization of both high- and low-abundance microbial taxa, pathways and genes longitudinally along the gastrointestinal tract. We report the construction of metagenome-assembled genomes directly from human intestinal biopsies for bacteria and archaea at relative abundances as low as 1%. Analysis of metagenome-assembled genomes reveals distinct subpopulation structures between the small and large intestine for some taxa. MEM opens a path for the microbiome field to acquire deeper insights into host–microbe interactions by enabling in-depth characterization of host-tissue-associated microbial communities.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , peerRev
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  • 13
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    A cryptic plasmid is among the most numerous genetic elements in the human gut (2024)
    Elsevier
    In:  EPIC3Cell, Elsevier, 187(5), pp. 1206-1222.e16, ISSN: 0092-8674
    Details
    Publication Date: 2024-04-03
    Description: Plasmids are extrachromosomal genetic elements that often encode fitness-enhancing features. However, many bacteria carry “cryptic” plasmids that do not confer clear beneficial functions. We identified one such cryptic plasmid, pBI143, which is ubiquitous across industrialized gut microbiomes and is 14 times as numerous as crAssphage, currently established as the most abundant extrachromosomal genetic element in the human gut. The majority of mutations in pBI143 accumulate in specific positions across thousands of metagenomes, indicating strong purifying selection. pBI143 is monoclonal in most individuals, likely due to the priority effect of the version first acquired, often from one's mother. pBI143 can transfer between Bacteroidales, and although it does not appear to impact bacterial host fitness in vivo, it can transiently acquire additional genetic content. We identified important practical applications of pBI143, including its use in identifying human fecal contamination and its potential as an alternative approach to track human colonic inflammatory states.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , peerRev
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