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Series GSE273522 Query DataSets for GSE273522
Status Public on Jan 29, 2025
Title Competitive behaviours in Serratia marcescens are coordinately regulated by a lifestyle switch frequently inactivated in the clinical environment
Organism Serratia marcescens
Experiment type Expression profiling by high throughput sequencing
Summary Opportunistic bacterial pathogens require effective mechanisms to compete with other bacteria and to switch between host and environment-adapted states. The Type VI secretion system (T6SS) occurs widely in Gram-negative bacteria and mediates efficient killing of neighbouring competitors. Here we describe the distribution of T6SSs across the genus Serratia and report the unexpected discovery that a highly-conserved antibacterial T6SS is differentially active between closely-related clinical isolates of Serratia marcescens. By combining genomic and experimental approaches, we identified a genus-core two-component system which controls T6SS activity and is subject to very frequent inactivating mutations, exclusively in clinically-derived isolates of S. marcescens. This regulatory system controls a number of lifestyle-related traits at transcriptional and post-translational levels, including T6SS activity, antibiotic production, motility and adhesion. Our data support a model whereby this system represents a conserved, modular switch from sessile to pioneering and aggressive behaviour, which is subject to strong selection pressure in the clinical environment.
 
Overall design We observed that near-identical isolates of S. marcescens have different phenotypes relating to anti-bacterial antagonism, motility, and adherence, that correspond with variation in full-length/loss-of-function mutations in betR and reg2. To investigate the role of BetR and Reg2 on S. marcescens, we constructed betR and reg2 mutants from three near-identical isolates in order to compare between full-length and naturally-occuring loss-of-function mutations in these two genes, in otherwise isogenic isolates. Cells were grown for 4.5 hours in liquid LB medium at 37 degrees celcius with shaking, before total RNA was harvested. 4 independent biological replicates for each isolate were performed.
 
Contributor(s) Williams DJ, Coulthurst SJ
Citation(s) 39884275
Submission date Jul 30, 2024
Last update date Apr 30, 2025
Contact name Sarah Coulthurst
Organization name University of Dundee, School of Life Sciences
Street address Dow Street
City Dundee
ZIP/Postal code DD1 5EH
Country United Kingdom
 
Platforms (1)
GPL28573 Illumina NextSeq 500 (Serratia marcescens)
Samples (20)
GSM8431617 1043, liquid culture, 4.5hrs, 37 degrees celcius, rep1
GSM8431618 1043, liquid culture, 4.5hrs, 37 degrees celcius, rep2
GSM8431619 1043, liquid culture, 4.5hrs, 37 degrees celcius, rep3
Relations
BioProject PRJNA1142045

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Supplementary file Size Download File type/resource
GSE273522_RAW.tar 1.9 Mb (http)(custom) TAR (of TSV)
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Raw data are available in SRA
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