Associations Between Inverted Repeats and the Structural Evolution of Bacterial Genomes

Associations Between Inverted Repeats and the Structural Evolution of Bacterial Genomes

Guillaume Achaz^a, Eric Coissac^a, Pierre Netter^a, and Eduardo P. C. Rocha^c,b
^a Structure et Dynamique des Génomes, Institut Jacques Monod, 75251 Paris, France,
^b Unité GGB, CNRS URA 2171, Institut Pasteur, 75015 Paris, France
^c Atelier de BioInformatique, Université Pierre et Marie Curie, 75005 Paris, France

Corresponding author: Eduardo P. C. Rocha, Université Pierre et Marie Curie, 12 Rue Cuvier, 75005 Paris, France., erocha{at}pasteur.fr (E-mail)

Communicating editor: M. A. F. NOOR

The stability of the structure of bacterial genomes is challengedby recombination events. Since major rearrangements (i.e., inversions)are thought to frequently operate by homologous recombinationbetween inverted repeats, we analyzed the presence and distributionof such repeats in bacterial genomes and their relation to theconservation of chromosomal structure. First, we show that thereis a strong under-representation of inverted repeats, relativeto direct repeats, in most chromosomes, especially among theones regarded as most stable. Second, we show that the avoidanceof repeats is frequently associated with the stability of thegenomes. Closely related genomes reported to differ in termsof stability are also found to differ in the number of invertedrepeats. Third, when using replication strand bias as a proxyfor genome stability, we find a significant negative correlationbetween this strand bias and the abundance of inverted repeats.Fourth, when measuring the recombining potential of invertedrepeats and their eventual impact on different features of thechromosomal structure, we observe a tendency of repeats to belocated in the chromosome in such a way that rearrangementsproduce a smaller strand switch and smaller asymmetries thanexpected by chance. Finally, we discuss the limitations of ouranalysis and the influence of factors such as the nature ofrepeats, e.g., transposases, or the differences in the recombinationmachinery among bacteria. These results shed light on the challengesimposed on the genome structure by the presence of invertedrepeats.

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