Rapid evolution and strain turnover in the infant gut microbiome

Although the ecological dynamics of the infant gut microbiome have been intensely studied, relatively little is known about evolutionary dynamics in the infant gut microbiome. Here we analyze longitudinal fecal metagenomic data from more than 700 infants and their mothers over the first year of life and find that the evolutionary dynamics in infant gut microbiomes are distinct from those of adults. We find evidence for more than a 10-fold increase in the rate of evolution and strain turnover in the infant gut compared with healthy adults, with the mother-infant transition at delivery being a particularly dynamic period in which gene loss dominates. Within a few months after birth, these dynamics stabilize, and gene gains become increasingly frequent as the microbiome matures. We furthermore find that evolutionary changes in infants show signatures of being seeded by a mixture of de novo mutations and transmissions of pre-evolved lineages from the broader family. Several of these evolutionary changes occur in parallel across infants, highlighting candidate genes that may play important roles in the development of the infant gut microbiome. Our results point to a picture of a volatile infant gut microbiome characterized by rapid evolutionary and ecological change in the early days of life.

Automated summary

By analyzing longitudinal fecal metagenomic data from over 700 infants and their mothers, this study reveals distinct evolutionary dynamics in the infant gut microbiome compared to adults. The rate of evolution and strain turnover in the infant gut is significantly higher than in healthy adults, with gene loss dominating during the mother-infant transition at delivery. These dynamics stabilize within a few months after birth, with an increase in gene gains as the microbiome matures.