Archaic introgression contributed to the pre-agriculture adaptation of vitamin B1 metabolism in East Asia

Thiamine (vitamin B1) is an essential micronutrient. Genes involved in thiamine metabolisms, such as SLC19A2, SLC35F3, and SLC35F4, were assumed to be underlying positive selection in East Asians, but the detailed mechanism remains unknown. Here, we analyzed genome data of 3,823 individuals represen...

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Published in:iScience 2022-12, Vol.25 (12), p.105614-105614, Article 105614
Main Authors: Ma, Xixian, Xu, Shuhua
Format: Article
Language:English
Subjects:
Biological sciences
Genetics
Genomics
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Summary:Thiamine (vitamin B1) is an essential micronutrient. Genes involved in thiamine metabolisms, such as SLC19A2, SLC35F3, and SLC35F4, were assumed to be underlying positive selection in East Asians, but the detailed mechanism remains unknown. Here, we analyzed genome data of 3,823 individuals representing 223 global populations and identified the adaptive haplotypes at thiamine genes. Interestingly, the putative adaptive haplotype at SLC35F4 was of Neanderthal ancestry, while that at SLC35F3 was also likely of archaic origins. Leveraging new methods and available ancient DNA data, we further demonstrated that the beneficial haplotypes reached a high frequency at least 10,000 years ago and are maintained persistently in present-day East Asians. We argue that pathogens, rather than agriculture developed ∼10,000 years ago in East Asia, were likely the initial driving force of the putative positive selection. Notably, the first American people did not carry the putative adaptive haplotype at SLC35F4. [Display omitted] •SLC19A2, SLC35F3, and SLC35F4 incurred positive selection at least 10,000 years ago•The putative adaptive haplotype at SLC35F4 is likely of Neanderthal origin•The putative adaptive haplotype at SLC35F3 is of archaic ancestry with unknown origin Biological sciences; Genetics; Genomics
ISSN:2589-0042
2589-0042
DOI:10.1016/j.isci.2022.105614