Curation Information

Publication
Global position analysis of the Pseudomonas aeruginosa quorum-sensing transcription factor LasR.;Gilbert KB, Kim TH, Gupta R, Greenberg EP, Schuster M;Molecular microbiology 2009 Sep; 73(6):1072-85 [19682264]
TF
LasR [P25084, view regulon]
Reported TF sp.
Pseudomonas aeruginosa PAO1
Reported site sp.
Pseudomonas aeruginosa PAO1
Created by
Erill Lab
Curation notes
-

Experimental Process

ChIP-chip analysis with LasR. ChIP on w-t and lasR rhlR mutant. Sites identified by motif discovery (CONSENSUS) and statistical validation (PATSER) on significantly enriched ChIP peaks. Expression data inferred from previous DNA array from same authors (PubMed: 12644476). Binding confirmed by EMSA.

ChIP assay conditions
LasR_Paur: We employed ChIP-chip to identify direct targets of LasR in vivo. We used early-stationary phase P. aeruginosa cultures grown in buffered Lennox LB. These conditions are identical to our previous transcriptome analysis, allowing direct comparison of data sets, and they result in high-level induction of QS target genes (Schuster et al., 2003). We chose the wild type strain expressing lasR in its native context to capture protein-DNA interactions under physiologically relevant condition
ChIP notes
Cells were inoculated from mid-logarithmic phase cultures to initial optical densities of 0.01. The experimental strain was P. aeruginosa PAO1, and the nonspecific control strain was an isogenic lasR, rhlR double mutant.Ten ml aliquots were cross- Gilbert et al. Page 8 Mol Microbiol. Author manuscript; available in PMC 2010 September 1. NIH-PA Author Manuscript NIH-PA Author Manuscript NIH-PA Author Manuscript linked by the addition of formaldehyde to a final concentration of 1% and incubation at room temperature for 15 min with gentle agitation. The cross-linking reaction was quenched by the addition of fresh glycine to a final concentration of 125 mM and incubation at room temperature for 10 min. Next, the cells were washed twice in 10 ml of cold 1xTBS (20 mM Tris-HCL, pH 7.5, 150 mM NaCl) and the pellets were frozen at −80°C. After thawing, cells were resuspended in 1 ml immunoprecipitation (IP) buffer (50 mM Tris-HCl, pH 7.5, 150 mM NaCl, 1 mM EDTA, 1% Triton X-100, 0.1% deoxycholic acid) supplemented with 250x diluted Protease Inhibitor Cocktail (Set III, Novagen) and 1 mg/ml lysozyme. The suspension was incubated at 37°C for 15 minutes. Samples were chilled on ice and sonicated three times for 10 seconds each using a Branson microtip sonicator at an output of 0.4 with no pulse. A 25 μl aliquot from the cleared lysate was set aside as the total DNA control. P. aeruginosa whole-genome microarrays, including all intergenic regions, were custommade by Nimblegen and consisted of 60-mers tiled with a spacing of 30 bp. The ChIP DNA and control input DNA were differentially labeled, hybridized to one array, and scanned. Separate arrays were used for wild type (specific) and lasR rhlR mutant (non-specific) samples. Intensity data (signals) were normalized within each array and also across all arrays, using Loess normalization. This procedure resulted in comparable array signals for the entire data set in terms of mean signal and variance. After this two-step normaliza

Transcription Factor Binding Sites


CTAGCAAATGAGATAG
CTAAGATAGCTATCAC
GCGTCAGATTTCCTCG
GAAAGGGATAGGCTAG
CTTCGCAACCTCCCAG
CTTACAAATCTGTTAG
CTATCACTTGGAGTAG
CCTGCTTTTCTGCTAG
CTATCAATTGTATTAG
CTACCAGAACTGGTAG
CTGGCATAACAGATAG
TGAGCAGTTCAGATAG
CTGGCAGAACTGACAG
CTACCCACCCTGTTCG
CACCCTGTTCGTATCT
CTCGATCTTCTGATAG
TTTTCAGTTGGACTCG
TAGCGAAAACATATCG
CTAGCAAATGAGATAG
CTAAGATAGCTATCAC
GCGTCAGATTTCCTCG
GAAAGGGATAGGCTAG
CTTCGCAACCTCCCAG
CTTACAAATCTGTTAG
CTATCACTTGGAGTAG
CCTGCTTTTCTGCTAG
CTATCAATTGTATTAG
CTACCAGAACTGGTAG
CTGGCATAACAGATAG
TGAGCAGTTCAGATAG
CTGGCAGAACTGACAG
CTACCCACCCTGTTCG
CACCCTGTTCGTATCT
CTCGATCTTCTGATAG
TTTTCAGTTGGACTCG
TAGCGAAAACATATCG

Quantitative data format: ChIP enrichment. Ratio w-t vs. lasR/rhlR mutant. Range: 2.1-12

CTAGCAAATGAGATAG 7.8
CTAAGATAGCTATCAC 2.1
GCGTCAGATTTCCTCG 2.1
GAAAGGGATAGGCTAG 3.2
CTTCGCAACCTCCCAG 3.2
CTTACAAATCTGTTAG 5.6
CTATCACTTGGAGTAG 4.8
CCTGCTTTTCTGCTAG 3.2
CTATCAATTGTATTAG 6.6
CTACCAGAACTGGTAG 3.0
CTGGCATAACAGATAG 7.8
TGAGCAGTTCAGATAG 8.5
CTGGCAGAACTGACAG 3.8
CTACCCACCCTGTTCG 3.2
CACCCTGTTCGTATCT 3.2
CTCGATCTTCTGATAG 7.0
TTTTCAGTTGGACTCG 5.3
TAGCGAAAACATATCG 5.3

Gene Regulation

Regulated genes for each binding site are displayed below. Gene regulation diagrams show binding sites, positively-regulated genes, negatively-regulated genes, both positively and negatively regulated genes, genes with unspecified type of regulation. For each indvidual site, experimental techniques used to determine the site are also given.

Site sequence Regulated genes Gene diagram Experimental techniques TF function TF type
CTAGCAAATGAGATAG lasI, rsaL,
... ... lasI rsaL PA1434 PA1433 lasR
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTAAGATAGCTATCAC pslL, pslK, pslJ, pslI, pslH, pslG, pslF, pslE, pslD, pslC, pslB, pslA,
... ... pslL pslK pslJ pslI pslH pslG pslF pslE pslD pslC pslB pslA PA2229 PA2230
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
GCGTCAGATTTCCTCG pslL, pslK, pslJ, pslI, pslH, pslG, pslF, pslE, pslD, pslC, pslB, pslA,
... ... pslL pslK pslJ pslI pslH pslG pslF pslE pslD pslC pslB pslA PA2229 PA2230
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
GAAAGGGATAGGCTAG cueR,
... ... cueR PA4773 PA4774 PA4775 pmrA pmrB
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTTCGCAACCTCCCAG cueR,
... ... cueR PA4773 PA4774 PA4775 pmrA pmrB
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTTACAAATCTGTTAG PA3326,
... ... PA3326 PA3331 PA3330 PA3329 PA3328 PA3327 PA3340 plpD PA3338 rfaD PA3336 PA3335 PA3334 fabH2 PA3332
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTATCACTTGGAGTAG PA4677,
... ... PA4677 PA4679 rimI PA4675 PA4676
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CCTGCTTTTCTGCTAG lasB,
... ... lasB PA3732 PA3731 PA3730 PA3729 PA3728 PA3727 PA3726 recJ
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTATCAATTGTATTAG ambE, ambD, ambC, ambB,
... ... ambE ambD ambC ambB PA2310 PA2309 PA2308 PA2307 ambA PA2301
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTACCAGAACTGGTAG PA2592, PA2591,
... ... PA2592 PA2591 PA2588 PA2589 PA2590
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTGGCATAACAGATAG rhlR,
... ... rhlR rhlA rhlB
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
TGAGCAGTTCAGATAG PA3908, PA3907, PA3906, PA3905, PA3904,
... ... PA3908 PA3907 PA3906 PA3905 PA3904 prfC
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTGGCAGAACTGACAG PA1245, aprD, aprE, aprF,
... ... PA1245 aprD aprE aprF PA1244
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTACCCACCCTGTTCG PA1914,
... ... PA1914 PA1913 femI femR PA1915 PA1916 PA1917 PA1918
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CACCCTGTTCGTATCT PA1914,
... ... PA1914 PA1913 femI femR PA1915 PA1916 PA1917 PA1918
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
CTCGATCTTCTGATAG pqsH, PA2588,
... ... pqsH PA2588 PA2589 PA2590 PA2591
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
TTTTCAGTTGGACTCG PA1159,
... ... PA1159 PA1158 PA1160 rrmA dapE ndvB
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer
TAGCGAAAACATATCG PA1159,
... ... PA1159 PA1158 PA1160 rrmA dapE ndvB
Experimental technique details ChIP-chip (ECO:0006007) - Experimental technique details DNA-array expression analysis (ECO:0005525) - Experimental technique details EMSA (ECO:0001807) - Experimental technique details Motif-discovery (ECO:0005558) - activator dimer