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Abstract Research on chromosome organization and cell cycle progression in spherical bacteria, particularlyStaphylococcus aureus, remains limited and fragmented. In this study, we established a working model to investigate chromosome dynamics inS. aureususing a Fluorescent Repressor-Operator System (FROS), which enabled precise localization of specific chromosomal loci. This approach revealed that theS. aureuscell cycle and chromosome replication cycle are not coupled, with cells exhibiting two segregated origins of replication at the start of the cell cycle. The chromosome has a specific origin-terminus-origin conformation, with origins localizing near the membrane, towards the tip of each hemisphere, or the “cell poles”. We further used this system to assess the role of various proteins with a role inS. aureuschromosome biology, focusing on the ParB-parSand SMC-ScpAB systems. Our results demonstrate that ParB binds fiveparSchromosomal sequences and the resulting complexes influence chromosome conformation, but play a minor role in chromosome compaction and segregation. In contrast, the SMC-ScpAB complex plays a key role inS. aureuschromosome biology, contributing to chromosome compaction, segregation and spatial organization. Additionally, we systematically assessed and compared the impact of proteins linking chromosome segregation to cell division—Noc, FtsK, SpoIIIE and XerC—on origin and terminus number and positioning. This work provides a comprehensive study of the factors governing chromosome dynamics and organization inS. aureus, contributing to our knowledge on chromosome biology of spherical bacteria.
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The DnaA inhibitor SirA acts in the same pathway as Soj (ParA) to facilitate oriC segregation during Bacillus subtilis sporulation: oriC segregation during sporulation
- Award ID(s):
- 1514629
- PAR ID:
- 10025352
- Date Published:
- Journal Name:
- Molecular Microbiology
- Volume:
- 102
- Issue:
- 3
- ISSN:
- 0950-382X
- Page Range / eLocation ID:
- 530 to 544
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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Abstract The bacteriumBacillus subtilisundergoes asymmetric cell division during sporulation, producing a mother cell and a smaller forespore connected by the SpoIIQ-SpoIIIA (or Q-A) channel. The two cells differentiate metabolically, and the forespore becomes dependent on the mother cell for essential building blocks. Here, we investigate the metabolic interactions between mother cell and forespore using genome-scale metabolic and expression models as well as experiments. Our results indicate that nucleotides are synthesized in the mother cell and transported in the form of nucleoside di- or tri-phosphates to the forespore via the Q-A channel. However, if the Q-A channel is inactivated later in sporulation, then glycolytic enzymes can form an ATP and NADH shuttle, providing the forespore with energy and reducing power. Our integrated in silico and in vivo approach sheds light into the intricate metabolic interactions underlying cell differentiation inB. subtilis, and provides a foundation for future studies of metabolic differentiation.more » « less
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1111/mmi.13477
