Network rewiring: physiological consequences of reciprocally exchanging the physical locations and growth-phase-dependent expression patterns of the Salmonella fis and dps genes
Citation:
Bogue MM, Mogre A, Beckett MC, Thomson NR, Dorman CJ, Network rewiring: physiological consequences of reciprocally exchanging the physical locations and growth-phase-dependent expression patterns of the Salmonella fis and dps genes, mBio, 11, 5, 2020, e02128-20Download Item:
Abstract:
The Fis nucleoid-associated protein controls the expression of a large and diverse regulon of genes in Gram-negative bacteria. Fis production is normally maximal in bacteria during the early exponential phase of batch culture growth, becoming almost undetectable by the onset of stationary phase. We tested the effect on the Fis regulatory network in Salmonella of moving the complete fis gene from its usual location near the origin of chromosomal replication to the position normally occupied by the dps gene in the right macrodomain of the chromosome, and vice versa, creating the gene exchange (GX) strain. In a parallel experiment, we tested the effect of rewiring the Fis regulatory network by placing the fis open reading frame under the control of the stationary-phase-activated dps promoter at the dps genetic location within the right macrodomain, and vice versa, creating the open reading frame exchange (OX) strain. Chromatin immunoprecipitation sequencing (ChIP-seq) was used to measure global Fis protein binding levels and to determine gene expression patterns. Strain GX showed few changes compared with the wild type, although we did detect increased Fis binding at Ter, accompanied by reduced binding at Ori. Strain OX displayed a more pronounced version of this distorted Fis protein-binding pattern together with numerous alterations in the expression of genes in the Fis regulon. OX, but not GX, had a reduced ability to infect cultured mammalian cells. These findings illustrate the inherent robustness of the Fis regulatory network with respect to the effects of rewiring based on gene repositioning alone and emphasize the importance of fis expression signals in phenotypic determination.
Sponsor
Grant Number
Wellcome Trust
206194
Science Foundation Ireland (SFI)
13/1A/1875
Author's Homepage:
http://people.tcd.ie/cjdormanDescription:
PUBLISHED
Author: Dorman, Charles
Type of material:
Journal ArticleCollections
Series/Report no:
mBio11
5
Availability:
Full text availableKeywords:
Nucleoid-associated protein, Fis, Dps, ChIP-seq, RNA-seq, Transcriptome, Salmonella enterica serovar Typhimurim, VirulenceSubject (TCD):
Genes & Society , Immunology, Inflammation & InfectionDOI:
http://dx.doi.org/10.1128/mBio.02128-20Metadata
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