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Abstract
The human gut microbiota is a metabolic organ whose cellular composition is determined
by a dynamic process of selection and competition. To identify microbial genes required
for establishment of human symbionts in the gut, we developed an approach (insertion
sequencing, or INSeq) based on a mutagenic transposon that allows capture of adjacent
chromosomal DNA to define its genomic location. We used massively parallel sequencing
to monitor the relative abundance of tens of thousands of transposon mutants of a
saccharolytic human gut bacterium, Bacteroides thetaiotaomicron, as they established
themselves in wild-type and immunodeficient gnotobiotic mice, in the presence or absence
of other human gut commensals. In vivo selection transforms this population, revealing
functions necessary for survival in the gut: we show how this selection is influenced
by community composition and competition for nutrients (vitamin B(12)). INSeq provides
a broadly applicable platform to explore microbial adaptation to the gut and other
ecosystems.