Insertion sequence driven evolution of the microbiota revealed by a novel metagenomics pipeline

Abstract

AbstractInsertion sequence (IS) elements are mobile genetic elements in bacterial genomes that support adaptation. We developed a database of IS elements coupled to a computational pipeline that identifies IS element insertions in the microbiota. We discovered that diverse IS elements insert into the genomes of intestinal bacteria regardless of human host lifestyle. These insertions targeted bacterial accessory genes that aid in their adaptation to unique environmental conditions. Using IS element expansion inBacteroides, we show that IS element activity leads to insertion “hot spots” in accessory genes. We show that IS element insertions are stable and can be transferred between humans. Extreme environmental perturbations force IS element insertions to fall out of the microbiota and many fail to rebound following homeostasis. Our work shows that IS elements drive bacterial genome diversification within the microbiota and establishes a framework for understanding how strain level variation within the microbiota impacts human health.