%0 Journal Article %A Dmowski, Michał %A Kern-Zdanowicz, Izabela %T Omega (ParB) binding sites together with the RNA polymerase-recognized sequence are essential for centromeric functions of the Pωregion in the partition system of pSM19035 %D 2016 %J Microbiology, %V 162 %N 7 %P 1114-1124 %@ 1465-2080 %R https://doi.org/10.1099/mic.0.000308 %K partition %K centromere %K plasmid pSM19035 %K inc18 %K RNA polymerase %I Microbiology Society, %X Partition systems contribute to stable plasmid inheritance in bacteria through the active separation of DNA molecules to daughter cells, and the centromeric sequence located either upstream or downstream of canonical partition operons plays an important role in this process. A specific DNA-binding protein binds to this sequence and interacts with the motor NTPase protein to form a nucleoprotein complex. The inc18-family plasmid pSM19035 is partitioned by products of δ and ω genes, with δ encoding a Walker-type ATPase and ω encoding a DNA-binding protein. As the two genes are transcribed separately, this system differs from others in its organization; nonetheless, expression of these genes is regulated by Omega, which also regulates the copy number of the plasmid (by controlling copS gene expression). Protein Omega specifically recognizes WATCACW heptad repeats. In this study, we constructed a synthetic δω operon to enable an analysis of the centromeric functions of Omega-binding sites Pδ , Pω and PcopS , discrete from their promoter functions. Our results show that these three regions do not support plasmid stabilization equally. We demonstrate that the Pω site alone can simultaneously drive the expression of partition genes from the synthetic δω operon and act as a unique centromeric sequence to promote the most efficient plasmid partitioning. Moreover, Pω can support the centromeric function in concert with the synthetic δω operon expressed from a heterologous promoter demonstrating that Pω is the main centromeric sequence of the δ–ω partition system. Additionally, the RNA polymerase-recognized sequence in Pω is essential for its centromeric function. %U https://www.microbiologyresearch.org/content/journal/micro/10.1099/mic.0.000308