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基因组和功能的共同多样化印记塑造了非洲人科动物的微生物群,以表明饮食和生活方式的适应性。

Genomic and functional co-diversification imprint African Hominidae microbiomes to signal dietary and lifestyle adaptations.

作者信息

Otani Saria, Louise Jespersen Marie, Brinch Christian, Duus Møller Frederik, Pilgaard Bo, Egholm Bruun Jensen Emilie, Leekitcharoenphon Pimlapas, Aaby Svendsen Christina, Aarestrup Amalie H, Sonda Tolbert, Sylvina Teresa J, Leach Jeff, Piel Alexander, Stewart Fiona, Sapountzis Panagiotis, Kazyoba Paul E, Kumburu Happiness, Aarestrup Frank M

机构信息

Research group for Genomic Epidemiology, National Food Institute, Technical University of Denmark, Lyngby, Denmark.

Novo Nordisk Foundation Center for Protein Research, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.

出版信息

Gut Microbes. 2025 Dec;17(1):2484385. doi: 10.1080/19490976.2025.2484385. Epub 2025 Mar 31.

DOI:10.1080/19490976.2025.2484385
PMID:40164980
原文链接:
https://pmc.ncbi.nlm.nih.gov/articles/PMC11959905/
Abstract

In the diverse landscape of African hominids, the obligate relationship between the host and its microbiome narrates signals of adaptation and co-evolution. Sequencing 546 African hominid metagenomes, including those from indigenous Hadza and wild chimpanzees, identified similar bacterial richness and diversity surpassing those of westernized populations. While hominids share core bacterial communities, they also harbor distinct, population-specific bacterial taxa tailored to specific diets, ecology and lifestyles, differentiating non-indigenous and indigenous humans and chimpanzees. Even amongst shared bacterial communities, several core bacteria have co-diversified to fulfil unique dietary degradation functions within their host populations. These co-evolutionary trends extend to non-bacterial elements, such as mitochondrial DNA, antimicrobial resistance, and parasites. Our findings indicate that microbiome-host co-adaptations have led to both taxonomic and within taxa functional displacements to meet host physiological demands. The microbiome, in turn, transcends its taxonomic interchangeable role, reflecting the lifestyle, ecology and dietary history of its host.

摘要

在非洲原始人类的多样图景中,宿主与其微生物组之间的必然关系诉说着适应与共同进化的信号。对546个非洲原始人类宏基因组进行测序,包括来自哈扎族原住民和野生黑猩猩的宏基因组,发现其细菌丰富度和多样性相似,超过了西方化人群。虽然原始人类共享核心细菌群落,但他们也拥有独特的、特定人群的细菌分类群,这些分类群是根据特定饮食、生态和生活方式量身定制的,这使得非原住民和原住民人类以及黑猩猩有所区别。即使在共享的细菌群落中,一些核心细菌也共同进化,以在其宿主群体中发挥独特的饮食降解功能。这些共同进化趋势延伸到非细菌元素,如线粒体DNA、抗菌素耐药性和寄生虫。我们的研究结果表明,微生物组与宿主的共同适应导致了分类学和分类群内功能的替代,以满足宿主的生理需求。反过来,微生物组超越了其分类学上可互换的角色,反映了其宿主的生活方式、生态和饮食历史。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/38d0/11959905/d27d9e5412ae/KGMI_A_2484385_F0007_OC.jpg
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本文引用的文献

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The keystone gut species boosts gut microbial biomass and voluntary physical activity in mice.关键肠道菌物种可促进肠道微生物生物量和小鼠的自愿体力活动。
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