Abstract
The segregation of bacterial chromosomes follows a precise choreography of spatial organisation. It is initiated by the bipolar migration of the sister copies of the replication origin (ori). Most bacterial chromosomes contain a partition system (Par) with parS sites in close proximity to ori that contribute to the active mobilisation of the ori region towards the old pole. This is thought to result in a longitudinal chromosomal arrangement within the cell. In this study, we followed the duplication frequency and the cellular position of 19 Vibrio cholerae genome loci as a function of cell length. The genome of V. cholerae is divided between two chromosomes, chromosome I and II, which both contain a Par system. The ori region of chromosome I (oriI) is tethered to the old pole, whereas the ori region of chromosome II is found at midcell. Nevertheless, we found that both chromosomes adopted a longitudinal organisation. Chromosome I extended over the entire cell while chromosome II extended over the younger cell half. We further demonstrate that displacing parS sites away from the oriI region rotates the bulk of chromosome I. The only exception was the region where replication terminates, which still localised to the septum. However, the longitudinal arrangement of chromosome I persisted in Par mutants and, as was reported earlier, the ori region still localised towards the old pole. Finally, we show that the Par-independent longitudinal organisation and oriI polarity were perturbed by the introduction of a second origin. Taken together, these results suggest that the Par system is the major contributor to the longitudinal organisation of chromosome I but that the replication program also influences the arrangement of bacterial chromosomes.
Highlights
Bacterial chromosome replication is initiated from a unique origin and progresses bidirectionally
Two patterns of chromosomal organisation can be distinguished in bacteria: a transversal chromosomal arrangement, such as in E. coli, where the origin of replication is positioned at midcell and flanked by the two halves of the chromosome, and a longitudinal arrangement, such as in C. crescentus, where ori is recruited to the pole and the replichores extend side by side along the long axis of the cell
We visualised the position of 19 loci scattered along the two V. cholerae chromosomes
Summary
Bacterial chromosome replication is initiated from a unique origin (oriC) and progresses bidirectionally. The analysis of a single locus in the oriC region and a single locus in the putative Ter region of the two Vibrio cholerae chromosomes suggests a model of replication and segregation that is consistent with monochromosomic bacteria [6,7,8]. Taken together, these observations suggest that the active positioning of the oriC region sets the pace for chromosome segregation, raising questions regarding the underlying mechanism
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