Abstract
BACKGROUND: The human gut microbiota exhibits significant diversity across populations, influenced by factors such as geography, diet, and lifestyle, particularly between the Han Chinese and non-Chinese populations. While previous studies have predominantly focused on the taxonomic abundance of the gut microbiome, the impact of single nucleotide polymorphisms (SNPs) in driving population-specific differences remains largely underexplored. RESULTS: In this study, we systematically investigated gut microbial differences between the Han Chinese and non-Chinese populations using the Human Gut Microbiome Reference Genome Catalog (HGMRGC). We observed geography was the primary driver of microbial variation of abundance and SNPs. We identified 689 population-specific genome clusters from the Collinsella genus with functional differences in carbohydrate utilization and 108 species exhibiting distinct prevalence related to vitamin biosynthesis, antibiotic resistance, and carbohydrate metabolism. Beta diversity analysis highlighted significant inter-population differences in both microbial abundance and SNPs, while alpha diversity analysis revealed that non-Chinese populations exhibited higher diversity in microbial abundance, and Han Chinese populations displayed greater diversity in SNPs. CONCLUSIONS: This study offers a comprehensive analysis of gut microbial differences between Han Chinese and non-Chinese populations, highlighting the profound influence of population-specific traits on microbial diversity and function. We also provide a comprehensive human gut microbial reference genome catalog, with a particular focus on the Han Chinese population, laying a foundation for future research on gut microbiota genomic variations.