The Study of the Regulon of OxyR in Escherichia coli and Porphyromonas gingivalis

Pham, Christopher K

01 January 2016

The facultative anaerobe, Escherichia coli and the obligate anaerobe, Porphyromonas gingivalis are two bacteria that reside in our body. Although they reside in separate environments, they are both subject to hydrogen peroxide stress and have mechanisms to regulate the stress. OxyR is the primary transcriptional regulator/sensor of oxidative stress response caused by hydrogen peroxide. OxyR in P. gingivalis is not well-characterized compared to OxyR in E. coli. We sought to characterize and compare the two forms of OxyR in order to gain a better understanding of the protein. We determined the oligomeric state of both proteins: primarily a tetramer for E. coli and primarily a tetramer for P. gingivalis OxyR.. We demonstrated DNA binding with E. coli OxyR, indicating purification of the functional form of E. coli OxyR.Through pulldown assays we discovered potential novel binding targets, mobB for E. coli OxyR and PG1209 for P. gingivalis OxyR. Many of the other targets corresponded to intergenic regions within genes, which may pertain to small RNAs or small proteins. These results show that OxyR in E. coli and P. gingivalis has novel function and properties indicating an expanded role in addition to the well-characterized oxidative stress response.

Escherichia coli

Porphyromonas gingivalis

OxyR

regulon

Biochemistry

Oral Biology and Oral Pathology

Role of Ime4 Protein in PHO Regulon of S.cerevisiae.

Ghimire, Jenisha

11 August 2015

In the yeast Saccharomyces cerevisiae, the IME4 methyltransferase, interacts genetically with methyl binding protein, Pho92, to affect the expression of PHO regulon target genes. Cells mutant in IME4 or PHO92 show increases in the RNA abundance of PHO regulon target genes. The increase in the RNA abundance of the PHO regulon target genes is not additive in the cells double mutant in IME4 and PHO92. Hence, Ime4 and Pho92 interact in a single pathway in PHO regulon. Surprisingly, cells overexpressing IME4 and MUM2 shows increase in some PHO regulon target genes, indicating that IME4 affects the PHO regulon target genes through multiple mechanisms in different conditions. A promoter swap experiment revealed that one of the PHO regulon mRNAs that codes for phosphatase, PHO5, is a direct target of Ime4. Further experiments are required to examine whether the same is true for all PHO regulon mRNAs.

Biochemistry

Integrative Biology

Molecular Biology

La formation de biofilm des Escherichia coli producteurs de Shiga-toxines : caractérisation et rôle du régulon Pho

Vogeleer, Philippe

03 1900

No description available.

Biofilm

STEC

Phosphate

LPS

Régulon Pho

Pho regulon

Elucidation of Transcriptional Regulatory Mechanisms from Single-cell RNA-Sequencing Data

Ma, Anjun

January 2020

No description available.

Bioinformatics

Transcription factor binding distribution and properties in prokaryotes

Lyubetskaya, Anna

12 March 2016

The canonical model of transcriptional regulation in prokaryotes restricted binding site locations to promoter regions and suggested that the binding sequences serve as the main determinants of binding. In this dissertation, I challenge these assumptions. As a member of the TB Systems Biology Consortium, I analyzed and validated ChIP-Seq and microarray experiments for over 100 transcription factors (TFs). In order to study the transcriptional functions of predicted binding sites, I integrated binding and expression data and assigned potential regulatory roles to 20% of the binding sites. Stronger binding sites were more often associated with regulation than weaker sites, suggesting a correlation between binding strength and regulatory impact. Seventy-six percent of the sites fell into annotated coding regions and a significant proportion was assigned to regulatory functions. To study the importance of binding sequences, I compared experimental sites with computational motif predictions. Although a conservative binding motif was found for most TFs, only a fraction of the observed motifs appeared bound in the experiment. Some low-affinity binding sites appeared occupied by the corresponding TF while many high-affinity binding sites were not. Interestingly, I found exactly the same nucleotide sequences (up to 15 residues long) bound in one area of the genome but not bound in another area, pointing to DNA accessibility as an important factor for in vivo binding. To investigate the evolutionary conservation of binding-site occupancy, sequence, and transcriptional impact, I analyzed ChIP-Seq and expression experiments for five conserved TFs for two-to-four Mycobacterial relatives. The regulon composition showed significantly less conservation than expected from the overall gene conservation level across Mycobacteria. Despite expectations, sequence conservation did not serve as a good indicator of whether or not a computationally predicted motif was bound experimentally; and in some cases, a fully conserved motif was bound in one relative but not in the other. Conservation of genic binding sites was higher than expected from the random model, adding to the evidence that at least some genic sites are functional. Understanding the evolutionary story of binding sites allowed me to explain unusual site configurations, some of which indicated a role for DNA looping.

Bioinformatics

ChIP-seq

Binding site

Prokaryotes

Regulon evolution

Transcriptional regulation

Transcription factor

Comparative Functional Analysis and Identification of Regulatory Control in Gene Networks Using the Leucine-Responsive Regulatory protein and its Regulon as a Model System

Lintner, Robert E.

14 May 2007

No description available.

Comparative Analysis

Lrp Regulon

Proteus mirabilis

Vibrio Cholerne

Gene Regulation

Regulatory Networks

Investigation of the quorum-sensing regulon in the corn pathogen Pantoea stewartii

Ramachandran, Revathy

18 April 2014

Pantoea stewartii subsp. stewartii is a bacterium that causes Stewart’s wilt disease in corn plants. The bacteria are transmitted to the plants via an insect vector, the corn flea beetle Chaetocnema pulicaria. Once in the plant, the bacteria migrate to the xylem and grow to high cell densities, forming a biofilm by secreting excess capsular exopolysaccharide, which blocks water transport and causes wilting. The timing of virulence factor synthesis is regulated by the cell-density dependent quorum sensing (QS) system. Such temporal regulation is crucial in establishing infection and is orchestrated by the QS-dependent transcriptional regulator EsaR. EsaR represses expression of capsular exopolysaccharide at low cell densities. At high cell densities, an acylated homoserine lactone (AHL) molecule produced during growth by the cognate AHL-synthase EsaI accumulates. The AHL binds to and inactivates EsaR, causing derepression of capsule production. EsaR is a member of the LuxR family of QS-dependent transcriptional factors. Most LuxR homologs are unstable and/or insoluble in the absence of AHL which has hindered structural studies. Chapter Two describes the changes in the structure of EsaR due to binding of AHL ligand as determined through biochemical methods. EsaR was found to be stable and retain its multimeric state in the absence or presence of AHL, but intra- and inter-domain changes occurred that affect its DNA-binding capacity. Apart from repressing expression of capsule at low cell-densities, EsaR represses its own expression and activates production of a small RNA, EsaS, with unknown function. In Chapter Three a proteomic approach was used to identify an additional 30 QS-controlled proteins. Genes encoding three of these proteins are directly regulated by EsaR and the EsaR binding sites in the respective promoters were defined. In Chapter Four, a high-throughput RNA-Seq method identified even more genes in the QS regulon that the proteomic approach overlooked. RNA-Seq analysis of rRNA-depleted RNA from two strains of P. stewartii was used as a screen to help identify 11 promoters, subsequently shown to be directly regulated by EsaR in vitro. Most of the genes controlled by QS grouped into three major physiological responses, capsule & cell wall production, surface motility & adhesion and stress response. In Chapter Five, the role of two QS regulated genes, dkgA (encoding 2, 5-diketo-D-gluconate) and lrhA (encoding a repressor of chemotaxis, adhesion and motility), in plant virulence were examined. These studies have better characterized the QS regulator EsaR and its interaction with the AHL ligand, and shown that QS has a more global response in P. stewartii than previously recognized. Further characterization of the genes identified in this study could facilitate identification of factors crucial in plant pathogenesis or insect-vector symbiosis and aid in the development of molecular-based approaches for possible disease intervention. / Ph. D.

quorum sensing

Pantoea stewartii

Stewart's wilt

EsaR

regulon

transcription regulation

RNA-Seq

phytopathogen

Purification and Characterization of glpX-Encoded Fructose 1,6-Bisphosphatase, a New Enzyme of the Glycerol 3-Phosphate Regulon of Escherichia coli

Donahue, Janet Lee

01 May 2000

In Escherichia coli, the utilization of glycerol and sn-glycerol 3-phosphate is mediated by gene products of the glp regulon. The regulon encompasses five operons, including the glpFKX operon. Although glpF and glpK encode glycerol diffusion facilitator and glycerol kinase,respectively, the function of glpX was unknown. In the present work, we show that glpX encodes a fructose 1,6-bisphosphatase (FBPase), which catalyzes the hydrolysis of fructose 1,6-bisphosphate to fructose 6-phosphate and phosphate. The purified FBPase was dimeric, dependent on Mn2+ for activity and exhibited an apparent Km of 35 μM for fructose 1,6-bisphosphate. The enzyme was inhibited by ADP, ATP and phosphate and activated by PEP. The attributes of the glpX-encoded FBPase were different from those of the previously characterized E. coli FBPase encoded by fbp. Mutants deleted in fbp (Δfbp) display a growthnegative phenotype on gluconeogenic carbon sources such as glycerol, indicating the inability of chromosomal glpX+ to complement Δfbp. However, a Δfbp mutation was complemented by overexpression of glpX+. In contrast, a glpX mutant exhibited a growth-positive phenotype on glycerol, glucose or fructose media. Surprisingly, a double mutant strain glpX pfkA (6-phosphofructokinase I) was more inhibited in growth on glucose and glycerol media than the pfkA parent. Carbohydrate metabolism in the pfkA background may be affected by the glpXmediated change in fructose 6-phosphate/fructose 1,6-bisphosphate levels. FBPase activities of soluble proteins separated by non-denaturing PAGE were visualized, showing a novel (third) FBPase, perhaps encoded by the glpX homolog, yggF. / Master of Science

fructose 6-phosphate

carbon metabolism

6-bisphosphatase

fructose 1

glycerol 3-phosphate regulon

Regulation of Fructose 1,6-bisphosphatase II (GlpX) Gene Expression in Escherichia coli

Col, Bekir

22 October 2004

The glpX gene of Escherichia coli encodes fructose 1,6-bisphosphatase II (FBPase II), an enzyme that would appear to be redundant with FBPase I, encoded by fbp. However, glpX mutants have no apparent phenotype, while fbp mutants are unable to grow on gluconeogenic substrates as sole carbon sources, suggesting that GlpX function is insufficient for growth of fbp mutants under these conditions. To gain insight into the physiological functions of the FBPases, regulation of glpX expression was investigated. It was found that glpX is transcribed as part of a complex glpFKX operon containing promoters upstream of glpF, glpK and glpX (PglpF, PglpK, PglpX, respectively). Transcription start sites of PglpX were found at -24 and -41 relative to the ATG translation initiation site using primer extension analysis. Unlike PglpF, these newly found promoters were not subject to regulation by GlpR or cAMP-CRP. Cra (Catabolite Repressor/Activator) positively regulated expression from PglpK and PglpX by increasing transcription approximately 2 fold. Western analysis using GlpX polyclonal antibodies revealed that GlpX levels were higher in cultures grown on glycerol compared with levels in maltose- or glucose-grown cultures (glycerol>maltose>glucose). Various strains and growth conditions were used to show that GlpX levels are regulated by GlpR, suggesting that PglpF can give rise to expression of glpX. GlpX protein was present in a strain containing a polar insertion in glpK, indicating that PglpX can also give rise to expression of glpX. Strains deficient in FBPase I or CsrA (carbon starvation regulator) did not reveal any difference in GlpX levels with respect to the wild type. All of these data indicate that glpX expression is achieved by its own promoter as well as the operon promoter, PglpF. Finally, the results show that the delta-fbp phenotype is not due to the absence of GlpX. / Ph. D.

glp regulon

gluconeogenesis

carbon metabolism

fructose 1 6-bisphosphatase

glpFKX operon

Análise do metabolismo de polifosfato e do operon pst em Pseudomonas aeruginosa. / Analysis of the metabolism of polyphosphate and of the pst operon in Pseudomonas aeruginosa.

Munevar, Nicolas Federico Villamil

06 August 2015

O operon pst de P. aeruginosa codifica um transportador de fosfato de alta afinida-de e também a proteína PhoU que, em conjunto, atuam como repressores da ex-pressão do regulon Pho dessa espécie. A atividade de PhoU está também associada ao metabolismo de polifosfato (poliP), dado que mutantes phoU nulos apresentam um vasto acúmulo do biopolímero. Ensaios de β-galactosidase mostraram uma alteração na expressão dos genes ppk e ppx, envolvidos no metabolismo de poliP, no mutante phoU. Observou-se que na cepa selvagem, a transcrição de ppk e de ppx não responde às limitações de Pi ou de nitrogênio, sendo esses genes altamente expressos em condições normais de crescimento. Além disso, determinou-se que ppk é co-transcrito com o gene hemB, os quais formam, portanto, um operon. O operon pst também foi analisado. Foi identificado por ensaios de northern blot o transcrito do primeiro gene do operon, pstS, que codifica uma proteína periplasmática. Também, foi identificado um promotor imediatamente a montante de phoU, o gene mais distal do operon, que permitiria sua expressão em condições normais do crescimento bacteriano. Por fim, determinou-se por ensaios de EMSA que as duas sequências consenso Pho box presentes no operon pst são completamente funcionais. / The pst operon in P. aeruginosa encodes a high-affinity phosphate transporter and the PhoU protein, which together act as repressors of Pho regulon of this species. The PhoU activity is also related with polyphosphate (polyP) metabolism, since phoU null mutants have a large accumulation of the biopolymer. β-galactosidase assays allowed to confirm a change in the expression of ppk and ppx genes, in-volved in PolyP metabolism, in the phoU mutant. It was also evidenced that in the wild type strain, the ppk and ppx transcription does not respond to Pi or nitrogen starvation, and that these genes are highly expressed under conditions of normal growth. In addition, it was determined that ppk is co-transcribed with hemB, a gene involved in the synthesis of porphyrins, and they constitute therefore an operon. The pst operon was also examined. Was identified by northern blot the transcript of the first gene in the operon, pstS, which encodes a periplasmic protein. Also, a promoter was identified immediately upstream of phoU, the most distal gene in the operon, allowing its expression in normal conditions of bacterial growth. Finally, it was determined by EMSA that the two consensus sequences Pho box present in the pst operon are fully functional.

phoU

phoU

ppk

ppk

ppx

ppx

Pseudomonas aeruginosa

Pseudomonas aeruginosa

pst operon

Fosfato

Gene regulation

Operon

Operon

Operon pst

Pho box

Pho box

Pho regulon

Polifosfato

Polyphosphate

Pst transporter

Regulação gênica

Regulon Pho

Transportador Pst