Temporal dynamics of gut biosynthetic gene clusters link persistent colonization and engraftment in fecal microbiota transplantation.

The human gut microbiome carries a large array of biosynthetic gene clusters (BGCs) that encode the production of secondary metabolites, yet their temporal dynamics and role during microbial colonization remain largely unexplored. Here, we tracked BGCs profile over time in a cohort of healthy adults, and identified two distinct groups: persistent, which are stable over time, and transient, which are more sporadic. Functional annotations indicated persistent gene clusters are enriched in antibiotic resistance mechanisms, while transient ones more frequently carry virulence-associated genes. We then examined colonization of these two groups in the context of fecal microbiome transplantation. Our results show that persistent gene clusters exhibit higher colonization rates than transient ones. These findings contribute to our understanding of how microbial metabolites influence host health, potentially guiding future therapeutic strategies targeting the microbiome.