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Genome-wide analysis of phosphorylated PhoP binding to chromosomal DNA reveals several novel features of the PhoPR-mediated phosphate limitation response in Bacillus subtilis.
- Source :
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Journal of bacteriology [J Bacteriol] 2015 Apr; Vol. 197 (8), pp. 1492-506. Date of Electronic Publication: 2015 Feb 09. - Publication Year :
- 2015
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Abstract
- Unlabelled: The PhoPR two-component signal transduction system controls one of three responses activated by Bacillus subtilis to adapt to phosphate-limiting conditions (PHO response). The response involves the production of enzymes and transporters that scavenge for phosphate in the environment and assimilate it into the cell. However, in B. subtilis and some other Firmicutes bacteria, cell wall metabolism is also part of the PHO response due to the high phosphate content of the teichoic acids attached either to peptidoglycan (wall teichoic acid) or to the cytoplasmic membrane (lipoteichoic acid). Prompted by our observation that the phosphorylated WalR (WalR∼P) response regulator binds to more chromosomal loci than are revealed by transcriptome analysis, we established the PhoP∼P bindome in phosphate-limited cells. Here, we show that PhoP∼P binds to the chromosome at 25 loci: 12 are within the promoters of previously identified PhoPR regulon genes, while 13 are newly identified. We extend the role of PhoPR in cell wall metabolism showing that PhoP∼P binds to the promoters of four cell wall-associated operons (ggaAB, yqgS, wapA, and dacA), although none show PhoPR-dependent expression under the conditions of this study. We also show that positive autoregulation of phoPR expression and full induction of the PHO response upon phosphate limitation require PhoP∼P binding to the 3' end of the phoPR operon.<br />Importance: The PhoPR two-component system controls one of three responses mounted by B. subtilis to adapt to phosphate limitation (PHO response). Here, establishment of the phosphorylated PhoP (PhoP∼P) bindome enhances our understanding of the PHO response in two important ways. First, PhoPR plays a more extensive role in adaptation to phosphate-limiting conditions than was deduced from transcriptome analyses. Among 13 newly identified binding sites, 4 are cell wall associated (ggaAB, yqgS, wapA, and dacA), revealing that PhoPR has an extended involvement in cell wall metabolism. Second, amplification of the PHO response must occur by a novel mechanism since positive autoregulation of phoPR expression requires PhoP∼P binding to the 3' end of the operon.<br /> (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)
- Subjects :
- Amino Acid Sequence
Bacillus subtilis genetics
Bacterial Proteins genetics
Chromosomes, Bacterial genetics
DNA, Bacterial genetics
Gene Expression Regulation, Bacterial physiology
Molecular Sequence Data
Operon
Phosphorylation
Protein Binding
RNA, Bacterial genetics
RNA, Bacterial metabolism
Bacillus subtilis metabolism
Bacterial Proteins metabolism
Chromosomes, Bacterial metabolism
DNA, Bacterial metabolism
Genome, Bacterial
Phosphates metabolism
Subjects
Details
- Language :
- English
- ISSN :
- 1098-5530
- Volume :
- 197
- Issue :
- 8
- Database :
- MEDLINE
- Journal :
- Journal of bacteriology
- Publication Type :
- Academic Journal
- Accession number :
- 25666134
- Full Text :
- https://doi.org/10.1128/JB.02570-14