The human gut microbiome is losing biodiversity, due to the "microbiome modernization process" that occurs with urbanization. To keep track of it, here we applied shotgun metagenomics to the gut micro- biome of the Baka, a group of forager-horticulturalists from Cameroon, who combine hunting and gathering with growing a few crops and working for neighboring Bantu-speaking farmers. We analyzed the gut microbiome of individuals with different access to and use of wild plant and processed foods, to explore the variation of their gut microbiome along the cline from hunter-gatherer to agricultural subsis- tence patterns. We found that 26 species-level genome bins from our cohort were pivotal for the degra- dation of the wild plant food substrates. These microbes include Old Friend species and are encoded for genes that are no longer present in industrialized gut microbiome. Our results highlight the potential relevance of these genes to human biology and health, in relation to lifestyle.
Rampelli, S., Gallois, S., D’Amico, F., Turroni, S., Fabbrini, M., Scicchitano, D., et al. (2024). The gut microbiome of Baka forager-horticulturalists from Cameroon is optimized for wild plant foods. ISCIENCE, 27(3), 1-21 [10.1016/j.isci.2024.109211].
The gut microbiome of Baka forager-horticulturalists from Cameroon is optimized for wild plant foods
Rampelli, Simone;D’Amico, Federica;Turroni, Silvia;Fabbrini, Marco;Scicchitano, Daniel;Candela, Marco;
2024
Abstract
The human gut microbiome is losing biodiversity, due to the "microbiome modernization process" that occurs with urbanization. To keep track of it, here we applied shotgun metagenomics to the gut micro- biome of the Baka, a group of forager-horticulturalists from Cameroon, who combine hunting and gathering with growing a few crops and working for neighboring Bantu-speaking farmers. We analyzed the gut microbiome of individuals with different access to and use of wild plant and processed foods, to explore the variation of their gut microbiome along the cline from hunter-gatherer to agricultural subsis- tence patterns. We found that 26 species-level genome bins from our cohort were pivotal for the degra- dation of the wild plant food substrates. These microbes include Old Friend species and are encoded for genes that are no longer present in industrialized gut microbiome. Our results highlight the potential relevance of these genes to human biology and health, in relation to lifestyle.File | Dimensione | Formato | |
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