Abstract

Insertion sequences are the most common mobile genetic elements found in bacterial genomes, and hence they significantly impact bacterial evolution. We observe insertion sequence movement at the center of large-scale deletions and duplications that occurred during laboratory evolution experiments with Escherichia coli and Pseudomonas fluorescens, involving three distinct types of transposase. We raise the possibility that the transposase does not mediate DNA cleavage but instead inserts into existing DNA breaks. Our research highlights the importance of insertion sequences for the generation of large-scale genomic rearrangements and raises questions concerning the mechanistic basis of these mutations.

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