Abstract
Regulated organization of the chromosome is essential for faithful propagation of genetic information. In the model bacterium Caulobacter crescentus, the replication terminus of the chromosome is spatially arranged in close proximity to the cytokinetic Z-ring during the cell cycle. Although the Z-ring-associated proteins ZapA and ZauP interact with the terminus recognition protein ZapT, the molecular functions of the complex that physically links the terminus and the Z-ring remain obscure. In this study, we found that the physical linkage helps to organize the terminus DNA into a clustered structure. Neither ZapA nor ZauP was required for ZapT binding to the terminus DNA, but clustering of the ZapT-DNA complexes over the Z-ring was severely compromised in cells lacking ZapA or ZauP. Biochemical characterization revealed that ZapT, ZauP, and ZapA interacted directly to form a highly ordered ternary complex. Moreover, multiple ZapT molecules were sequestered by each ZauP oligomer. Investigation of the functional structure of ZapT revealed that the C terminus of ZapT specifically interacted with ZauP and was essential for timely positioning of the Z-ring in vivo Based on these findings, we propose that ZauP-dependent oligomerization of ZapT-DNA complexes plays a distinct role in organizing the replication terminus and the Z-ring. The C termini of ZapT homologs share similar chemical properties, implying a common mechanism for the physical linkage between the terminus and the Z-ring in bacteria.IMPORTANCE Rapidly growing bacteria experience dynamic changes in chromosome architecture during chromosome replication and segregation, reflecting the importance of mechanisms that organize the chromosome globally and locally within a cell to maintain faithful transmission of genetic material across generations. During cell division in the model bacterium Caulobacter crescentus, the replication terminus of the chromosome is physically linked to the cytokinetic Z-ring at midcell. However, the functions of this physical linkage are not fully understood. We adopted biochemical and cell-biological techniques to characterize the linkage, including the terminus-binding protein ZapT and the Z-ring-associated protein ZauP. We obtained evidence that the Z-ring organizes the chromosome terminus into a compact structure at midcell via specific interaction between ZapT and ZauP oligomers. Because these proteins are conserved in diverse Gram-negative bacteria, our findings highlight a novel and conserved role for the linker complex in regulated organization of the chromosome terminus.
Highlights
Regulated organization of the chromosome is essential for faithful propagation of genetic information
ZapA and ZauP are dispensable for the DNA-binding activity of ZapT, arguing against the idea that formation of ZapT complexes with ZapA and ZauP is a prerequisite for the ZapT-terminus DNA interaction
We found that ZapT and divisome components ZauP and ZapA interact directly, mbio.asm.org 10
Summary
Regulated organization of the chromosome is essential for faithful propagation of genetic information. Investigation of the functional structure of ZapT revealed that the C terminus of ZapT interacted with ZauP and was essential for timely positioning of the Z-ring in vivo Based on these findings, we propose that ZauP-dependent oligomerization of ZapT-DNA complexes plays a distinct role in organizing the replication terminus and the Z-ring. Accurate positioning of chromosomes enables cells to coordinate chromosome replication and segregation with cell division to ensure faithful transmission of genetic material over generations [4,5,6] To achieve these goals, diverse DNA-binding proteins in complex with distinct chromosomal loci are localized at specific times and subcellular sites. In the G1 phase, the origin of chromosome replication is located at the flagellated cell pole, the site of future stalk mbio.asm.org 2
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