Cheese has been consumed globally over millennia and serves as a natural reservoir of diverse microorganisms. Chinese traditional cheeses rely on natural fermentation and have unique physiochemical and microbial characteristics compared to European cheeses. However, there is a major knowledge gap in the understanding of Chinese cheese microbiome. Here, we present a curated Cheese microbiome catalog (cCMC) consisting of 3327 high-quality metagenome-assembled genomes, recovered from metagenomic sequencing of 235 Chinese cheese samples covering all traditional artisanal cheese-producing regions in China, together with 198 publicly available non-Chinese cheese metagenomic datasets. This catalog represents 395 nonredundant species spanning 50 families, including 85 putative novel species. We identified six lactic acid bacteria species enriched in Chinese cheeses, and confirmed that the unique presence of Acetobacteraceae contributes to improving the nutritional quality of Chinese cheese. A total of 8851 biosynthetic gene clusters were detected from cCMC, with over 57% classified as novel. We demonstrated that SNP-level variations among different Lactobacillus helveticus strains are associated with differences in β-galactosidase thermostability. Using the cCMC database, we developed a synthetic microbial community as the starter culture for Qula, a yak milk-based Chinese cheese produced by the Tibetans. Overall, the cCMC provides a comprehensive resource of cheese to enable future attempts on large-scale industrial production of naturally fermented cheeses with distinctive ethnic features. While cheese is enjoyed globally, most of the known physiochemical and microbial characteristics are from western cheeses. Here, the authors expand the global catalogue of cheeses by investigating 235 Chinese samples and compiling over 3000 metagenomic datasets.
Liu et al. (Thu,) studied this question.