Your search keyword '"Gene expression -- Research"' showing total 1,178 results

1. Molecular cloning, expression, and characterization of a [Ca.sup.2+] -dependent, membrane-associated nuclease of Mycoplasma genitalium

Author

Li, Linbo, Krishnan, Manickam, Baseman, Joel B., and Kannan, T.R.

Subjects

Nucleases -- Genetic aspects, Nucleases -- Identification and classification, Nucleases -- Chemical properties, Cloning -- Research, Gene expression -- Research, Mycoplasma genitalium -- Genetic aspects, Mycoplasma genitalium -- Chemical properties, Biological sciences

Abstract

In this study, we identified and characterized the enzymatic properties of MG_186, a calcium-dependent Mycoplasma genitalium nuclease. MG_186 displays the hallmarks of nucleases, as indicated by its amino acid sequence similarity to other nueleases. We cloned, UGA corrected, expressed, purified, and demonstrated that recombinant MG_186 (rMG_186) exhibits uuclease activity similar to that of typical sugar-nonspecific endonucleases and exonucleases. Biochemical characterization indicated that [Ca.sup.2+] alone enhances its activity, which was inhibited by divalent cations, such as [Zn.sup.2+] and [Mn.sup.2+]. Chelating agents EGTA and EDTA also inhibited nuclease activity. Mycoplasma membrane fractionation and Triton X-114 phase separation showed that MG_186 was a membrane-associated lipoprotein, and electron microscopy revealed its surface membrane location. Incubation of purified human endometrial cell nuclei with rMG_186 resulted in DNA degradation and morphological changes typical of apoptosis. Further, immunofluorescenee analysis of rMG_186-treated nuclei indicated that morphological changes were linked to the disintegration of lamin and the internalization of rMG_186. Since M. genitalium has the capacity to invade eukaryotic cells and localize to the perinuclear and nuclear region of parasitized target cells, MG_186 has the potential to provide M. genitalium, which possesses the smallest genome of any self-replicating cell, with the ability to degrade host nucleic acids both as a source of nucleotide precursors for growth and for pathogenic purposes. doi: 10.1128/JB.00401-10

Published

2010

2. Expressed genome of Methylobacillus flagellatus as defined through comprehensive proteomics and new insights into methylotrophy

Author

Hendrickson, Erik L., Beck, David A.C., Wang, Tiansong, Lidstrom, Mary E., Hackett, Murray, and Chistoserdova, Ludmila

Subjects

Proteomics -- Research, Genomes -- Identification and classification, Methylotrophs -- Genetic aspects, Gene expression -- Research, Anaerobic bacteria -- Genetic aspects, Biological sciences

Abstract

In recent years, techniques have been developed and perfected for high-throughput identification of proteins and their accurate partial sequencing by shotgun nano-liquid chromatography--tandem mass spectrometry (nano-LC-MS/MS), making it feasible to assess global protein expression profiles in organisms with sequenced genomes. We implemented comprehensive proteomics to assess the expressed portion of the genome of Methylobacillus flagellatus during methylotrophic growth. We detected a total of 1,671 proteins (64% of the inferred proteome), including all the predicted essential proteins. Nonrandom patterns observed with the nondetectable proteins appeared to correspond to silent genomic islands, as inferred through functional profiling and genome localization. The protein contents in methylamine- and methanol-grown cells showed a significant overlap, confirming the commonality of methylotrophic metabolism downstream of the primary oxidation reactions. The new insights into methylotrophy include detection of proteins for the N-methylglutamate methylamine oxidation pathway that appears to be auxiliary and detection of two alternative enzymes for both the 6-phosphogluconate dehydrogenase reaction (GndA and GndB) and the formate dehydrogenase reaction (FDHI and FDH4). Mutant analysis revealed that GndA and FDH4 are crucial for the organism's fitness, while GndB and FDH1 are auxiliary. doi: 10.1128/JB.00512-10

Published

2010

3. The LysR-type nitrogen assimilation control protein forms complexes with both long and short DNA binding sites in the absence of coeffectors

Author

Rosario, Christopher J., Frisch, Ryan L., and Bender, Robert A.

Subjects

DNA -- Chemical properties, Gene expression -- Research, Binding proteins -- Chemical properties, DNA-ligand interactions -- Research, Nitrogen in the body -- Chemical properties, Nitrogen in the body -- Genetic aspects, Biological sciences

Abstract

Most LysR-type transcriptional regulators (LTTRs) function as tetramers when regulating gene expression. The nitrogen assimilation control protein (NAC) generally functions as a dimer when binding to DNA and activating transcription. However, at some sites, NAC binds as a tetramer. Like many LTTRs, NAC tetramers can recognize sites with long footprints (74 bp for the site at nac) with a substantial DNA bend or short footprints (56 bp for the site at cod) with less DNA bending. However, unlike other LTTRs, NAC can recognize both types of sites in the absence of physiologically relevant coeffectors, suggesting that the two conformers of the NAC tetramer (extended and compact) are interchangeable without the need for any modification to induce or stabilize the change. In order for NAC to bind as a tetramer, three interactions must exist: an interaction between the two NAC dimers and an interaction between each NAC dimer and its corresponding binding site. The interaction between one dimer and its DNA site can be weak (recognizing a half-site rather than a full dimer-binding site), but the other two interactions must be strong. Since the conformation of the NAC tetramer (extended or compact) is determined by the nature of the DNA site without the intervention of a small molecule, we argue that the coeffector that determines the conformation of the NAC tetramer is the DNA site to which it binds. doi: 10.1128/JB.00968-09

Published

2010

4. Posttranscriptional regulation of glutamine synthetase in the filamentous cyanobacterium Anabaena sp. PCC 7120: differential expression between vegetative cells and heterocysts

Author

Galmozzi, Carla V., Saelices, Lorena, Florencio, Francisco J., and Muro-Pastor, M. Isabel

Subjects

Genetic transcription -- Research, Ligases -- Genetic aspects, Cyanobacteria -- Genetic aspects, Gene expression -- Research, Glutamine -- Genetic aspects, Biological sciences

Abstract

Genes homologous to those implicated in glutamine synthetase (GS) regulation by protein-protein interaction in the cyanobacterium Synechocystis sp. strain PCC 6803 are conserved in several cyanobacterial sequenced genomes. We investigated this GS regulatory mechanism in Anabaena sp. strain PCC 7120. In this strain the system operates with only one GS inactivation factor (inactivation factor 7A [IF7A]), encoded by open reading frame (ORF) asl2329 (gifA). Following addition of ammonium, expression of gifA is derepressed, leading to the synthesis of IF7A, and consequently, GS is inactivated. Upon ammonium removal, the GS activity returns to the initial level and IF7A becomes undetectable. The global nitrogen control protein NtcA binds to the gifA promoter. Constitutive high expression levels of gifA were found in an Anabaena ntcA mutant (CSE2), indicating a repressor role for NtcA. In vitro studies demonstrate that Anabaena GS is not inactivated by Synechocystis IFs (IF7 and IFI7), indicating the specificity of the system. We constructed an Anabaena strain expressing a second inactivating factor, containing the amino-terminal part of IF17 from Synechocystis fused to IF7A. GS inactivation in this strain is more effective than that in the wild type (WT) and resembles that observed in Synechocystis. Finally we found differential expression of the IF system between heterocysts and vegetative cells of Anabaena. doi: 10.1128/JB.00222-10

Published

2010

5. Expression of tropodithietic acid biosynthesis is controlled by a novel autoinducer

Author

Geng, Haifeng and Belas, Robert

Subjects

Gene expression -- Research, Symbiosis -- Genetic aspects, Bacterial genetics -- Research, Biological sciences

Abstract

The interactions between marine prokaryotic and eukaryotic microorganisms are crucial to many biological and biogeochemical processes in the oceans. Often the interactions are mutualistic, as in the symbiosis between phytoplankton, e.g., the dinoflagellate Pfiesteria piscicida and Silicibacter sp. TM1040, a member of the Roseobacter taxonomic lineage. It is hypothesized that an important component of this symbiosis is bacterial production of tropodithietic acid (TDA), a biologically active tropolone compound whose synthesis requires the expression of tdaABCDEF (tdaA-F), as well as six additional genes (cysI, malY, paaIJK, and tdaH). The factors controlling tda gene expression are not known, although growth in laboratory standing liquid cultures drastically increases TDA levels. In this report, we measured the transcription of tda genes to gain a greater understanding of the factors controlling their expression. While the expression of tdaAB was constitutive, tdaCDE and tdaF mRNA increased significantly (3.7- and 17.4-fold, respectively) when cells were grown in standing liquid broth compared to their levels with shaking liquid culturing. No transcription of tdaC was detected when a tdaCp::lacZ transcriptional fusion was placed in 11 of the 12 [Tda.sup.-] mutant backgrounds, with cysI being the sole exception. The expression of tdaC could be restored to 9 of the remaining 11 [Tda.sup.-] mutants--tdaA and tdaH failed to respond--by placing wild-type ([Tda.sup.+]) strains in close proximity or by supplying exogenous TDA to the mutant, suggesting that TDA induces tda gene expression. These results indicate that TDA acts as an autoinducer of its own synthesis and suggest that roseobacters may use TDA as a quorum signal. doi: 10.1128/JB.00410-10

Published

2010

6. Changes in DnaA-dependent gene expression contribute to the transcriptional and developmental response of Bacillus subtilis to manganese limitation in Luria-Bertani medium

Author

Hoover, Sharon E., Xu, Weihong, Xiao, Wenzhong, and Burkholder, William F.

Subjects

DNA replication -- Research, Bacterial genetics -- Research, Gene expression -- Research, Bacillus subtilis -- Genetic aspects, DNA damage -- Research, Biological sciences

Abstract

The SOS response to DNA damage in bacteria is a well-known component of the complex transcriptional responses to genotoxic environmental stresses such as exposure to reactive oxygen species, alkylating agents, and many of the antibiotics targeting DNA replication. However, bacteria such as Bacillus subtilis also respond to conditions that perturb DNA replication via a transcriptional response mediated by the replication initiation protein DnaA. In addition to regulating the initiation of DNA replication, DnaA directly regulates the transcription of specific genes. Conditions that perturb DNA replication can trigger the accumulation of active DnaA, activating or repressing the transcription of genes in the DnaA regulon. We report here that simply growing B. subtilis in LB medium altered DnaA-dependent gene expression in a manner consistent with the accumulation of active DnaA and that this was part of a general transcriptional response to manganese limitation. The SOS response to DNA damage was not induced under these conditions. One of the genes positively regulated by DnaA in Bacillus subtilis encodes a protein that inhibits the initiation of sporulation, Sda. Sda expression was induced as cells entered stationary phase in LB medium but not in LB medium supplemented with manganese, and the induction of Sda inhibited sporalation-specific gene expression and the onset of spore morphogenesis. In the absence of Sda, manganese-limited cells initiated spore development but failed to form mature spores. These data highlight that DnaA-dependent gene expression may influence the response of bacteria to a range of environmental conditions, including conditions that are not obviously associated with genotoxic stress. doi: 10.1128/JB.00210-10

Published

2010

7. Heterogeneous rpoS and rhlR mRNA levels and 16S rRNA/rDNA (rRNA gene) ratios within Pseudomonas aeruginosa biofilms, sampled by laser capture microdissection

Author

Perez-Osorio, Ailyn C., Williamson, Kerry S., and Franklin, Michael J.

Subjects

Pseudomonas aeruginosa -- Genetic aspects, Pseudomonas aeruginosa -- Research, Bacterial genetics -- Research, Messenger RNA -- Genetic aspects, Messenger RNA -- Research, Microbial mats -- Genetic aspects, Microbial mats -- Analysis, Gene expression -- Research, Polymerase chain reaction -- Usage, Biological sciences

Abstract

The local environmental conditions in biofilms are dependent on the impinging aqueous solution, chemical diffusion, and the metabolic activities of cells within the biofilms. Chemical gradients established in biofilms lead to physiological heterogeneities in bacterial gene expression. Previously, we used laser capture microdissection (LCM) and quantitative reverse transcription (RT)-PCR to target defined biofilm subpopulations for gene expression studies. Here, we combined this approach with quantitative PCR of bacterial DNA to normalize the amount of gene expression per cell. By comparing the ratio of 16S rRNA to 16S rDNA (rRNA gene), we demonstrated that cells at the top of thick Pseudomonas aeruginosa biofilms have 16S rRNA/genome ratios similar to those of cells in a transition from the exponential phase to the stationary phase. Cells in the middle and bottom layers of these biofilms have ratios that are not significantly different from those of stationary-phase planktonic cultures. Since much of each biofilm appeared to be in a stationary-phase-like state, we analyzed the local amounts of the stationary-phase sigma factor rpoS gene and the quorum-sensing regulator rhlR gene per ceil. Surprisingly, the amount of rpoS mRNA was largest at the top of the biofilms at the air-biofilm interface. Less than one rpoS mRNA transcript per cell was observed in the middle or base of the biofilms. The rhlR mRNA content was also greatest at the top of the biofilms, and there was little detectable rhlR expression at the middle or bottom of the biofilms. While the cell density was slightly greater at the bottom of the biofilms, expression of the quorum-sensing regulator occurred primarily at the top of the biofilms, where the cell metabolic activity was greatest, as indicated by local expression of the housekeeping gene acpP and by expression from a constitutive [P.sub.trc] promoter. The results indicate that in thick P. aeruginosa biofilms, cells in the 30 [micro]m adjacent to the air-biofilm interface actively express genes associated with stationary phase, while cells in the interior portions do not express these genes and therefore are in a late-stationary-phase-like state and may be dormant. doi: 10.1128/JB.01598-09

Published

2010

8. A systemic network for Chlamydia pneumoniae entry into human cells

Author

Wang, Anyou, Johnston, S. Claiborne, Chou, Joyce, and Dean, Deborah

Subjects

Chlamydia infections -- Development and progression, Chlamydia infections -- Genetic aspects, Chlamydia infections -- Research, Cell adhesion -- Genetic aspects, Cell adhesion -- Research, Gene expression -- Research, Bacterial proteins -- Research, Biological sciences

Abstract

Bacterial entry is a multistep process triggering a complex network, yet the molecular complexity of this network remains largely unsolved. By employing a systems biology approach, we reveal a systemic bacterial-entry network initiated by Chlamydia pneumoniae, a widespread opportunistic pathogen. The network consists of nine functional modules (i.e., groups of proteins) associated with various cellular functions, including receptor systems, cell adhesion, transcription, and endocytosis. The peak levels of gene expression for these modules change rapidly during C. pneumoniae entry, with cell adhesion occurring at 5 min postinfection, receptor and actin activity at 25 min, and endocytosis at 2 h. A total of six membrane proteins (chemokine C-X-C motif receptor 7 [CXCR7], integrin beta 2 [ITGB2], platelet-derived growth factor beta polypeptide [PDGFB], vascular endothelial growth factor [VEGF], vascular cell adhesion molecule 1 [VCAM1], and GTP binding protein overexpressed in skeletal muscle [GEM]) play a key role during C. pneumoniae entry, but none alone is essential to prevent entry. The combination knockdown of three genes (coding for CXCR7, ITGB2, and PDGFB) significantly inhibits C. pneumoniae entry, but the entire network is resistant to the six-gene depletion, indicating a resilient network. Our results reveal a complex network for C. pneumoniae entry involving at least six key proteins. doi: 10.1128/JB.01462-09

Published

2010

9. In vitro and in vivo characterization of the Pseudomonas aeruginosa cyclic AMP (cAMP) phosphodiesterase CpdA, required for cAMP homeostasis and virulence factor regulation

Author

Fuchs, Erin L., Brutinel, Evan D., Klem, Erich R., Fehr, Anthony R., Yahr, Timothy L., and Wolfgang, Matthew C.

Subjects

Pseudomonas aeruginosa -- Genetic aspects, Pseudomonas aeruginosa -- Physiological aspects, Pseudomonas aeruginosa -- Research, Cyclic adenylic acid -- Physiological aspects, Cyclic adenylic acid -- Genetic aspects, Cyclic adenylic acid -- Research, Virulence (Microbiology) -- Genetic aspects, Virulence (Microbiology) -- Research, Gene expression -- Research, Biological sciences

Abstract

Cyclic AMP (cAMP) is an important second messenger signaling molecule that controls a wide variety of eukaryotic and prokaryotic responses to extracellular cues. For cAMP-dependent signaling pathways to be effective, the intracellular cAMP concentration is tightly controlled at the level of synthesis and degradation. In the opportunistic human pathogen Pseudomonas aeruginosa, cAMP is a key regulator of virulence gene expression. To better understand the role of cAMP homeostasis in this organism, we identified and characterized the enzyme CpdA, a putative cAMP phosphodiesterase. We demonstrate that CpdA possesses 3',5'-cAMP phosphodiesterase activity in vitro and that it utilizes an iron-dependent catalytic mechanism. Deletion of cpdA results in the accumulation of intracellular cAMP and altered regulation of P. aeruginosa virulence traits. Further, we demonstrate that the cAMP-dependent transcription factor Vfr directly regulates cpdA expression in response to intracellular cAMP accumulation, thus providing a feedback mechanism for controlling cAMP levels and fine-tuning virulence factor expression. doi: 10.1128/JB.00168-10

Published

2010

10. Increased expression of the type IV secretion system in piliated Neisseria gonorrhoeae variants

Author

Salgado-Pabon, Wilmara, Du, Ying, Hackett, Kathleen T., Lyons, Katelynn M., Arvidson, Cindy Grove, and Dillard, Joseph P.

Subjects

Neisseria gonorrhoeae -- Genetic aspects, Bacterial genetics -- Research, Gene expression -- Research, Biological sciences

Abstract

Neisseria gonorrhoeae produces a type IV secretion system that secretes chromosomal DNA. The secreted DNA is active in the transformation of other gonococci in the population and may act to transfer antibiotic resistance genes and variant alleles for surface antigens, as well as other genes. We observed that gonococcal variants that produced type IV pili secreted more DNA than variants that were nonpiliated, suggesting that the process may be regulated. Using microarray analysis, we found that a piliated strain showed increased expression of the gene for the putative type IV secretion coupling protein TraD, whereas a nonpiliated variant showed increased expression of genes for transcriptional and translational machinery, consistent with its higher growth rate compared to that of the piliated strain. These results suggested that type IV secretion might be controlled by either traD expression or growth rate. A mutant with a deletion in traD was found to be deficient in DNA secretion. Further mutation and complementation analysis indicated that traD is transcriptionally and translationally coupled to traI, which encodes the type IV secretion relaxase. We were able to increase DNA secretion in a nonpiliated strain by inserting a gene cassette with a strong promoter to drive the expression of the putative operon containing traI and traD. Together, these data suggest a model in which the type IV secretion system apparatus is made constitutively, while its activity is controlled through regulation of traD and traI. doi:10.1128/JB.01357-09

Published

2010

11. FimR and fimS: biofilm formation and gene expression in Porphyromonas gingivalis

Author

Lo, Alvin, Seers, Christine, Dashper, Stuart, Butler, Catherine, Walker, Glenn, Walsh, Katrina, Catmull, Deanne, Hoffmann, Brigitte, Cleal, Steven, Lissel, Patricia, Boyce, John, and Reynolds, Eric

Subjects

Anaerobic bacteria -- Genetic aspects, Anaerobic bacteria -- Research, Cellular signal transduction -- Research, Microbial mats -- Research, Gene expression -- Research, Biological sciences

Abstract

Porphyromonas gingivalis is a late-colonizing bacterium of the subgingival dental plaque biofilm associated with periodontitis. Two P. gingivalis genes, fimR and rimS, are predicted to encode a two-component signal transduction system comprising a response regulator (FimR) and a sensor histidine kinase (FimS). In this study, we show that rimS and fimR, although contiguous on the genome, are not part of an operon. We inactivated fimR and rimS in both the afimbriated strain W50 and the fimbriated strain ATCC 33277 and demonstrated that both mutants formed significantly less biofilm than their respective wild-type strains. Quantitative reverse transcription--real-time PCR showed that expression of fimbriation genes was reduced in both the fimS and fimR mutants of strain ATCC 33277. The mutations had no effect, in either strain, on the P. gingivalis growth rate or on the response to hydrogen peroxide or growth at pH 9, at 41[degrees]C, or at low hemin availability. Transcriptome analysis using DNA microarrays revealed that inactivation of fimS resulted in the differential expression of 10% of the P. gingivalis genome (>1.5-fold; P < 0.05). Notably genes encoding seven different transcriptional regulators, including the fimR gene and three extracytoplasmic sigma factor genes, were differentially expressed in the fimS mutant. doi: 10.1128/JB.01211-09

Published

2010

12. The receiver domain of hybrid histidine kinase VirA: an enhancing factor for vir gene expression in Agrobacterium tumefaciens

Author

Wise, Arlene A., Fang, Fang, Lin, Yi-Han, He, Fanglian, Lynn, David G., and Binns, Andrew N.

Subjects

Agrobacterium tumefaciens -- Genetic aspects, Agrobacterium tumefaciens -- Research, Virulence (Microbiology) -- Genetic aspects, Virulence (Microbiology) -- Research, Gene expression -- Research, DNA-ligand interactions -- Genetic aspects, DNA-ligand interactions -- Research, Histidine -- Physiological aspects, Histidine -- Genetic aspects, Histidine -- Research, Biological sciences

Abstract

The plant pathogen Agrobacterium tumefaciens expresses virulence (vir) genes in response to chemical signals found at the site of a plant wound. VirA, a hybrid histidine kinase, and its cognate response regulator, VirG, regulate vir gene expression. The receiver domain at the carboxyl end of VirA has been described as an inhibitory element because its removal increased vir gene expression relative to that of full-length VirA. However, experiments that characterized the receiver region as an inhibitory element were performed in the presence of constitutively expressed virG. We show here that VirA's receiver domain is an activating factor if virG is expressed from its native promoter on the Ti plasmid. When virAAR was expressed from a multicopy plasmid, both sugar and the phenolic inducer were essential for vir gene expression. Replacement of wild-type virA on pTi with virAAR precluded vir gene induction, and the cells did not accumulate VirG or induce transcription of a virG-lacZ fusion in response to acetosyringone. These phenotypes were corrected if the virG copy number was increased. In addition, we show that the VirA receiver domain can interact with the VirG DNA-binding domain. doi: 10.1128/JB.01007-09

Published

2010

13. Identification and regulation of the N-acetylglucosamine utilization pathway of the plant pathogenic bacterium Xanthomonas campestris pv. campestris

Author

Boulanger, Alice, Dejean, Guillaume, Lautier, Martine, Glories, Marie, Zischek, Claudine, Arlat, Matthieu, and Lauber, Emmanuelle

Subjects

Glucosamine -- Genetic aspects, Glucosamine -- Research, Quantitative trait loci -- Research, Gene expression -- Research, Biological sciences

Abstract

Xanthomonas campestris pv. campestris, the causal agent of black rot disease of brassicas, is known for its ability to catabolize a wide range of plant compounds. This ability is correlated with the presence of specific carbohydrate utilization loci containing TonB-dependent transporters (CUT loci) devoted to scavenging specific carbohydrates. In this study, we demonstrate that there is an X. campestris pv. campestris CUT system involved in the import and catabolism of N-acetylglucosamine (GlcNAc). Expression of genes belonging to this GIcNAc CUT system is under the control of GlcNAc via the LacI family NagR and GntR family NagQ regulators. Analysis of the NagR and NagQ regulons confirmed that GlcNAc utilization involves NagA and NagB-II enzymes responsible for the conversion of GlcNAc-6-phosphate to fructose-6-phosphate. Mutants with mutations in the corresponding genes are sensitive to GlcNAc, as previously reported for Escherichia coli. This GlcNAc sensitivity and analysis of the NagQ and NagR regulons were used to dissect the X. campestris pv. campestris GIcNAc utilization pathway. This analysis revealed specific features, including the fact that uptake of GlcNAc through the inner membrane occurs via a major facilitator superfamily transporter and the fact that this amino sugar is phosphorylated by two proteins belonging to the glucokinase family, NagK-IIA and NagK-IIB. However, NagK-IIA seems to play a more important role in GlcNAc utilization than NagK-IIB under our experimental conditions. The X. campestris pv. campestris GlcNAc NagR regulon includes four genes encoding TonB-dependent active transporters (TBDTs). However, the results of transport experiments suggest that GlcNAc passively diffuses through the bacterial envelope, an observation that calls into question whether GlcNAc is a natural substrate for these TBDTs and consequently is the source of GlcNAc for this nonchitinolytic plant-associated bacterium. doi: 10.1128/JB.01418-09

Published

2010

14. Functional analysis of the three TATA binding protein homologs in Methanosarcina acetivorans

Author

Reichlen, Matthew J., Murakami, Katsuhiko S., and Ferry, James G.

Subjects

Methanobacteriaceae -- Genetic aspects, Methanobacteriaceae -- Physiological aspects, Methanobacteriaceae -- Research, Binding proteins -- Physiological aspects, Binding proteins -- Genetic aspects, Binding proteins -- Research, Gene expression -- Research, Biological sciences

Abstract

The roles of three TATA binding protein (TBP) homologs (TBP1, TBP2, and TBP3) in the archaeon Methanosarcina acetivorans were investigated by using genetic and molecular approaches. Although tbp2 and tbp3 deletion mutants were readily obtained, a tbp1 mutant was not obtained, and the growth of a conditional tbp1 expression strain was tetracycline dependent, indicating that TBP1 is essential. Transcripts of tbp1 were 20-fold more abundant than transcripts of tbp2 and 100-to 200-fold more abundant than transcripts of tbp3, suggesting that TBP1 is the primary TBP utilized during growth. Accordingly, tbp1 is strictly conserved in the genomes of Methanosarcina species. [DELTA]tbp3 and [DELTA]tbp2 strains exhibited an extended lag phase compared with the wild type, although the lag phase for the [DELTA]tbp2 strain was less pronounced when this strain was transitioning from growth on methylotrophic substrates to growth on acetate. Acetate-adapted Atbp3 cells exhibited growth rates, final growth yields, and lag times that were significantly reduced compared with those of the wild type when the organisms were cultured with growth-limiting concentrations of acetate, and the acetate-adapted [DELTA]tbp2 strain exhibited a final growth yield that was reduced compared with that of the wild type when the organisms were cultured with growth-limiting acetate concentrations. DNA microarray analyses identified 92 and 77 genes with altered transcription in the [DELTA]tbp2 and [DELTA]tbp3 strains, respectively, which is consistent with a role for TBP2 and TBP3 in optimizing gene expression. Together, the results suggest that TBP2 and TBP3 are required for efficient growth under conditions similar to the conditions in the native environment of M. acetivorans. doi: 10.1128/JB.01165-09

Published

2010

15. Genome sequence of the fleming strain of micrococcus luteus, a simple free-living actinobacterium

Author

Young, Michael, Artsatbanov, Vladislav, Beller, Harry R., Chandra, Govind, Chater, Keith F., Dover, Lynn G., Goh, Ee-Been, Kahan, Tamar, Kaprelyants, Arseny S., Kyrpides, Nikos, Lapidus, Alla, Lowry, Stephen R., Lykidis, Athanasios, Mahillon, Jacques, Markowitz, Victor, Mavromatis, Konstantinos, Mukamolova, Galina V., Oren, Aharon, Rokem, J. Stefan, Smith, Margaret C.M., Young, Danielle I., and Greenblatt, Charles L.

Subjects

Binding proteins -- Research, Actinomycetes -- Genetic aspects, Actinomycetes -- Research, Gene expression -- Research, Glucokinase -- Physiological aspects, Glucokinase -- Genetic aspects, Glucokinase -- Research, Biological sciences

Abstract

Micrococcus luteus (NCTC2665, 'Fleming strain') has one of the smallest genomes of free-living actinobacteria sequenced to date, comprising a single circular chromosome of 2,501,097 bp (G+C content, 73%) predicted to encode 2,403 proteins. The genome shows extensive synteny with that of the closely related organism, Kocuria rhizophila, from which it was taxonomically separated relatively recently. Despite its small size, the genome harbors 73 insertion sequence (IS) elements, almost all of which are closely related to elements found in other actinobacteria. An IS element is inserted into the rrs gene of one of only two rrn operons found in M. luteus. The genome encodes only four sigma factors and 14 response regulators, a finding indicative of adaptation to a rather strict ecological niche (mammalian skin). The high sensitivity of M. luteus to [beta]-lactam antibiotics may result from the presence of a reduced set of penicillin-binding proteins and the absence of a wblC gene, which plays an important role in the antibiotic resistance in other actinobacteria. Consistent with the restricted range of compounds it can use as a sole source of carbon for energy and growth, M. luteus has a minimal complement of genes concerned with carbohydrate transport and metabolism and its inability to utilize glucose as a sole carbon source may be due to the apparent absence of a gene encoding glucokinase. Uniquely among characterized bacteria, M. luteus appears to be able to metabolize glycogen only via trehalose and to make trehalose only via glycogen. It has very few genes associated with secondary metabolism. In contrast to most other actinobacteria, M. luteus encodes only one resuscitation-promoting factor (Rpf) required for emergence from dormancy, and its complement of other dormancy-related proteins is also much reduced. M. luteus is capable of long-chain alkene biosynthesis, which is of interest for advanced biofuel production; a three-gene cluster essential for this metabolism has been identified in the genome. doi: 10.1128/JB.01254-09

Published

2010

16. Global regulation of gene expression and cell differentiation in Caulobacter crescentus in response to nutrient availability

Author

England, Jennifer C., Perchuk, Barrett S., Laub, Michael T., and Gober, James W.

Subjects

Caulobacter -- Genetic aspects, Caulobacter -- Research, Gene expression -- Research, Nitrogen in the body -- Research, Cell differentiation -- Research, Biological sciences

Abstract

In a developmental strategy designed to efficiently exploit and colonize sparse oligotrophic environments, Caulobacter crescentus cells divide asymmetrically, yielding a motile swarmer cell and a sessile stalked cell. After a relatively fixed time period under typical culture conditions, the swarmer cell differentiates into a replicative stalked cell. Since differentiation into the stalked cell type is irreversible, it is likely that environmental factors such as the availability of essential nutrients would influence the timing of the decision to abandon motility and adopt a sessile lifestyle. We measured two different parameters in nutrient-limited chemostat cultures, biomass concentration and the ratio of nonstalked to stalked cells, over a range of flow rates and found that nitrogen limitation significantly extended the swarmer cell life span. The transcriptional profiling experiments described here generate the first comprehensive picture of the global regulatory strategies used by an oligotroph when confronted with an environment where key macronutrients are sparse. The pattern of regulated gene expression in nitrogen- and carbon-limited cells shares some features in common with most copiotrophic organisms, but critical differences suggest that Caulobacter, and perhaps other oligotrophs, have evolved regulatory strategies to deal distinctly with their natural environments. We hypothesize that nitrogen limitation extends the swarmer cell lifetime by delaying the onset of a sequence of differentiation events, which when initiated by the correct combination of external environmental cues, sets the swarmer cell on a path to differentiate into a stalked cell within a fixed time period. doi: 10.1128/JB.01240-09

Published

2010

17. Genome-wide transposon mutagenesis identifies a role for host neuroendocrine stress hormones in regulating the expression of virulence genes in salmonella

Author

Spencer, H., Karavolos, M.H., Bulmer, D.M., Aldridge, P., Chhabra, S.R., Winzer, K., Williams, P., and Khan, C.M.A.

Subjects

Salmonella typhimurium -- Genetic aspects, Salmonella typhimurium -- Research, Virulence (Microbiology) -- Genetic aspects, Virulence (Microbiology) -- Research, Pathogenic microorganisms -- Genetic aspects, Pathogenic microorganisms -- Research, Transposons -- Genetic aspects, Transposons -- Research, Gene expression -- Research, Biological sciences

Abstract

Bacterial sensing of environmental signals plays a key role in regulating virulence and mediating bacteriumhost interactions. The sensing of the neuroendocrine stress hormones epinephrine (adrenaline) and norepinephrine (noradrenaline) plays an important role in modulating bacterial virulence. We used MudJ transposon mutagenesis to globally screen for genes regulated by neuroendocrine stress hormones in Salmonella enterica serovar Typhimurium. We identified eight hormone-regulated genes, including yhaK, iroC, nrdF, accC, yedP, STM3081, and the virulence-related genes virK and migl4. The mammalian oL-adrenergic receptor antagonist phentolamine reversed the hormone-mediated effects onyhaK, virK, and migl4 but did not affect the other genes. The [3-adrenergic receptor antagonist propranolol had no activity in these assays. The virK and migl4 genes are involved in antimicrobial peptide resistance, and phenotypic screens revealed that exposure to neuroendocrine hormones increased the sensitivity of S. Typhimurium to the antimicrobial peptide LL-37. A virK mutant and a virK migl4 double mutant also displayed increased sensitivity to LL-37. In contrast to enterohemorrhagic Escherichia coli (EHEC), we have found no role for the two-component systems QseBC and QseEF in the adrenergic regulation of any of the identified genes. Furthermore, hormone-regulated gene expression could not be blocked by the QseC inhibitor LED209, suggesting that sensing of hormones is mediated through alternative signaling pathways in S. Typhimurium. This study has identified a role for host-derived neuroendocrine stress hormones in downregulating S. Typhimurium virulence gene expression to the benefit of the host, thus providing further insights into the field of host-pathogen communication. doi: 10.1128/JB.01329-09

Published

2010

18. RecA-independent DNA damage induction of Mycobacterium tuberculosis ruvC despite an appropriately located SOS box

Author

Dawson, Lisa F., Dillury, Joanna, and Davis, Elaine O.

Subjects

Mycobacterium tuberculosis -- Genetic aspects, Gene expression -- Research, Bacterial genetics -- Research, DNA damage -- Research, Biological sciences

Abstract

Mycobaeterium tuberculosis ruvC was induced by DNA damage in a ArecA strain despite having an appropriately positioned SOS box to which LexA binds in vitro. An inducible transcript start mapped within the SOS box, and transcriptional fusions identified the promoter. Disruption of the SOS box did not prevent induction, indicating that an alternative mechanism plays a significant role in the control of ruvC expression. doi: 10.1128/JB.01066-09

Published

2010

19. Differential modulation of Burkholderia cenocepacia virulence and energy metabolism by the quorum-sensing signal BDSF and its synthase

Author

Deng, Yinyue, Boon, Calvin, Eberl, Leo, and Zhang, Lian-Hui

Subjects

Gene expression -- Research, Burkholderia cepacia -- Genetic aspects, Burkholderia cepacia -- Research, Organic acids -- Production processes, Quorum sensing -- Research, Biological sciences

Abstract

Burkholderia cenocepacia produces the molecule cis-2-dodecenoic acid (BDSF), which was previously shown to play a role in antagonism against the fungal pathogen Candida albicans by interfering with its morphological transition. In this study, we show that production of BDSF is under stringent transcriptional control and the molecule accumulates in a cell density-dependent manner, typically found with quorum-sensing (QS) signals. B. cenocepacia mutant strain J2315 with a deleted Bcam0581 gene, which encodes an enzyme essential for BDSF production, exhibited a growth defect in minimal medium but not in rich medium, decreased virulence gene expression, and attenuated virulence in a zebrafish infection model. Exogenous addition of BDSF to the mutant rescues virulence gene expression but fails to restore its growth defect in minimal medium. We show that Bcam0581, but not BDSF, is associated with B. cenocepacia ATP biogenesis. We also provide evidence that some of the BDSF-regulated genes are also controlled by the acyl-homoserine-lactone-dependent QS system and are thus coregulated by two cell-to-cell signaling systems. These data demonstrate that in addition to the role in cross-kingdom signal interference, BDSF and its synthase are also important for the virulence and physiology of B. cenocepacia. doi: 10.1128/JB.00681-09

Published

2009

20. Role of the transcriptional regulator RamB (Rv0465c) in the control of the glyoxylate cycle in Mycobacterium tuberculosis

Author

Micklinghoff, Julia C., Breitinger, Katrin J., Schmidt, Mascha, Geffers, Robert, Eikmanns, Bernhard J., and Bange, Franz-Christoph

Subjects

Mycobacterium tuberculosis -- Health aspects, Mycobacterium tuberculosis -- Genetic aspects, Mycobacterium tuberculosis -- Research, Gene expression -- Research, Cell metabolism -- Research, Biological sciences

Abstract

Mycobacterium tuberculosis generally is assumed to depend on lipids as a major carbon and energy source when persisting within the host. The utilization of fatty acids requires a functional glyoxylate cycle with the key enzymes isocitrate lyase (Icl) and malate synthase. The open reading frame Rv0465c of M. tuberculosis H37Rv encodes a protein with significant sequence similarity to the transcriptional regulator RamB, which in Corynebacterium glutamicum controls the expression of several genes involved in acetate metabolism, i.e., those encoding enzymes of acetate activation and the glyoxylate cycle. We show here that the M. tuberculosis Rv0465c protein can functionally complement RamB in C. glutamicum and that it binds to the promoter regions of M. tuberculosis icl1 and Rv0465c. Construction and subsequent transcriptional and enzymatic analysis of a defined Rv0465c deletion mutant in M. tuberculosis revealed that the Rv0465c protein, now designated RamB, represses icl1 expression during growth with glucose and negatively autoregulates the expression of its own operon. Whole-genome microarray analysis of the M. tuberculosis ramB ([ramB.sub.MT]) mutant and the wild type furthermore showed that apart from icl1 and the [ramB.sub.MT] operon, the expression of all other M. tuberculosis genes involved in acetate metabolism remain unchanged in the mutant. Thus, [RamB.sub.MT] has a more specific regulatory function as RamB from C. glutamicum and is confined to expression control of icl1 and the [ramB.sub.MT] operon. doi: 10.1128/JB.01009-09

Published

2009

21. Repeat-associated plasticity in the Helicobacter pylori RD gene family

Author

Shak, Joshua R., Dick, Jonathan J., Meinersmann, Richard J., Perez-Perez, Guillermo I., and Blaser, Martin J.

Subjects

Helicobacter pylori -- Health aspects, Helicobacter pylori -- Genetic aspects, Helicobacter pylori -- Research, Enzyme-linked immunosorbent assay -- Usage, Gene expression -- Research, Biological sciences

Abstract

The bacterium Helicobacter pylori is remarkable for its ability to persist in the human stomach for decades without provoking sterilizing immunity. Since repetitive DNA can facilitate adaptive genomic flexibility via increased recombination, insertion, and deletion, we searched the genomes of two H. pylori strains for nucleotide repeats. We discovered a family of genes with extensive repetitive DNA that we have termed the H. pylori RD gene family. Each gene of this family is composed of a conserved 3' region, a variable mid-region encoding 7 and 11 amino acid repeats, and a 5' region containing one of two possible alleles. Analysis of five complete genome sequences and PCR genotyping of 42 H. pylori strains revealed extensive variation between strains in the number, location, and arrangement of RD genes. Furthermore, examination of multiple strains isolated from a single subject's stomach revealed intrahost variation in repeat number and composition. Despite prior evidence that the protein products of this gene family are expressed at the bacterial cell surface, enzyme-linked immunosorbent assay and immunoblot studies revealed no consistent seroreactivity to a recombinant RD protein by H. pylori-positive hosts. The pattern of repeats uncovered in the RD gene family appears to reflect slipped-strand mispairing or domain duplication, allowing for redundancy and subsequent diversity in genotype and phenotype. This novel family of hypervariable genes with conserved, repetitive, and allelic domains may represent an important locus for understanding H. pylori persistence in its natural host. doi:10.1128/JB.00706-09

Published

2009

22. Structural and genetic basis for the serological differentiation of Pasteurella multocida Heddleston serotypes 2 and 5

Author

St. Michael, Frank, Harper, Marina, Parnas, Henrietta, John, Marietta, Stupak, Jacek, Vinogradov, Evgeny, Adler, Ben, Boyce, John D., and Cox, Andrew D.

Subjects

Gene expression -- Research, Lipopolysaccharides -- Production processes, Pasteurella multocida -- Usage, Pasteurella multocida -- Genetic aspects, Pasteurella multocida -- Research, Biological sciences

Abstract

Pasteurella multocida is classified into 16 serotypes according to the Heddleston typing scheme. As part of a comprehensive study to define the structural and genetic basis of this scheme, we have determined the structure of the lipopolysaccharide (LPS) produced by P. multocida strains M1404 (B:2) and P1702 (E:5), the type strains for serotypes 2 and 5, respectively. The only difference between the LPS structures made by these two strains was the absence of a phosphoethanolamine (PEtn) moiety at the 3 position of the second heptose (Hep II) in M1404. Analysis of the lpt-3 gene, required for the addition of this PEtn residue, revealed that the gene was intact in P1702 but contained a nonsense mutation in M1404. Expression of an intact copy of lpt-3 in M1404 resulted in the attachment of a PEtn residue to the 3 position of the Hep II residue, generating an LPS structure identical to that produced by P1702. We identified and characterized each of the glycosyltransferase genes required for assembly of the serotype 2 and 5 LPS outer core. Monoclonal antibodies raised against serotype 2 LPS recognized the serotype 2/5-specific outer core LPS structure, but recognition of this structure was inhibited by the PEtn residue on Hep II. These data indicate that the serological classification of strains into Heddleston serotypes 2 and 5 is dependent on the presence or absence of PEtn on Hep II. doi: 10.1128/JB.00787-09

Published

2009

23. A novel insertion sequence derepresses efflux pump expression and preadapts pseudomonas putida S12 for extreme solvent stress

Author

Sun, Xu and Dennis, Jonathan J.

Subjects

Pseudomonas putida -- Genetic aspects, Pseudomonas putida -- Research, Repressor proteins -- Physiological aspects, Repressor proteins -- Genetic aspects, Repressor proteins -- Research, Gene expression -- Research, Organic solvents, Biological sciences

Abstract

A multidrug efflux pump, SrpaBC, plays a key role in Pseudomonas putida S12 tolerance to toxic organic solvents. SrpRS are putative regulators of the SrpaBC efflux pump encoded upstream of the srpaBC structural genes, and previous studies suggest that SrpS is a repressor of SrpaBC expression. An S12 isolate able to withstand extreme solvent stress carries a novel insertion sequence, ISPpu21, interrupting srpS. This insertion preadapts S12 to extreme solvent conditions through constitutive SrpaBC expression. doi: 10.1128/JB.00832-09

Published

2009

24. Vibrio cholerae LexA coordinates CTX prophage gene expression

Author

Kimsey, Harvey H. and Waldor, Matthew K.

Subjects

Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Gene expression -- Research, Bacteriophages -- Research, Cholera toxin -- Genetic aspects, Cholera toxin -- Research, Biological sciences

Abstract

The filamentous bacteriophage CTX[PHI] transmits the cholera toxin genes by infecting and lysogenizing its host, Vibrio cholerae. CTX[PHI] genes required for virion production initiate transcription from the strong [P.sub.A] promoter, which is dually repressed in lysogens by the phage-encoded repressor RstR and the host-encoded SOS repressor LexA. Here we identify the neighboring divergent rstR promoter, [P.sub.R], and show that RstR both positively and negatively autoregulates its own expression from this promoter. LexA is absolutely required for RstR-mediated activation of [P.sub.R] transcription. RstR autoactivation occurs when RstR is bound to an operator site centered 60 bp upstream of the start of transcription, and the coactivator LexA is bound to a 16-bp SOS box centered at position -23.5, within the [P.sub.R] spacer region. Our results indicate that LexA, when bound to its single site in the CTX[PHI] prophage, both represses transcription from [P.sub.A] and coactivates transcription from the divergent [P.sub.R]. We propose that LexA coordinates [P.sub.A] and [P.sub.R] prophage transcription in a gene regulatory circuit. This circuit is predicted to display transient switch behavior upon induction of CTX[PHI] lysogens. doi: 10.1128/JB.00682-09

Published

2009

25. Identification of direct transcriptional target genes of ExoS/ChvI two-component signaling in Sinorhizobium meliloti

Author

Chen, Esther J., Fisher, Robert F., Perovich, Virginia M., Sabio, Erich A., and Long, Sharon R.

Subjects

Nitrogen-fixing microorganisms -- Health aspects, Nitrogen-fixing microorganisms -- Genetic aspects, Nitrogen-fixing microorganisms -- Research, Symbiosis -- Genetic aspects, Symbiosis -- Research, Cellular signal transduction -- Research, Gene expression -- Research, Biological sciences

Abstract

The Sinorhizobium meliloti ExoS/ChvI two-component signaling pathway is required for the development of a nitrogen-fixing symbiosis between S. meliloti and its plant hosts. ExoS/ChvI also has important roles in regulating succinoglycan production, biofilm formation, motility, nutrient utilization, and the viability of free-living bacteria. Previous microarray experiments with an exoS96::Tn5 mutant indicated that ExoS/ChvI influences the expression of a few hundred genes, complicating the investigation of which downstream genes respond directly or indirectly to ExoS/ChvI regulation. To focus our study of ExoS/ChvI transcriptional target genes, we performed transcriptional profiling with chvI gain-of-function and reduced-function strains. The chvI gain-of-function strain that we used contains a dominant gain-of-function chvI allele in addition to wild-type chvI. We identified genes that, relative to their expression level in the wild type, are both upregulated in the chvI gain-of-function strain and downregulated in the reduced-function strain or vice versa. Guided by this focused set of genes, we performed gel mobility shift assays and demonstrated that ChvI directly binds the intergenic regions upstream of ropB1, SMb21440, and SMc01580. Furthermore, DNase I footprint analysis of the region upstream of SMc01580 identified a specific DNA sequence bound by ChvI and allowed the discovery of a possible motif for ChvI binding. Our results provide insight into the mechanism of how ExoS/ChvI regulates its downstream targets and lay a foundation for studying this conserved pathway with critical roles in free-living and symbiotic bacteria. doi: 10.1128/JB.00734-09

Published

2009

26. Global transcriptional response to spermine, a component of the intramacrophage environment, reveals regulation of Francisella gene expression through insertion sequence elements

Author

Carlson, Paul E., Jr., Horzempa, Joseph, O'Dee, Dawn M., Robinson, Cory M., Neophytou, Panayiotis, Labrinidis, Alexandros, and Nau, Gerard J.

Subjects

Francisella tularensis -- Health aspects, Francisella tularensis -- Genetic aspects, Francisella tularensis -- Research, Gene expression -- Research, Macrophages -- Physiological aspects, Macrophages -- Research, Tularemia -- Causes of, Tularemia -- Genetic aspects, Tularemia -- Research, Biological sciences

Abstract

Tularemia is caused by the category A biodefense agent Francisella tularensis. This bacterium is associated with diverse environments and a plethora of arthropod and mammalian hosts. How F. tularensis adapts to these different conditions, particularly the eukaryotic intracellular environment in which it replicates, is poorly understood. Here, we demonstrate that the polyamines spermine and spermidine are environmental signals that alter bacterial stimulation of host cells. Genomewide analysis showed that F. tularensis LVS undergoes considerable changes in gene expression in response to spermine. Unexpectedly, analysis of gene expression showed that multiple members of two classes of Francisella insertion sequence (IS) elements, ISFtul and ISFtu2, and the genes adjacent to these elements were induced by spermine. Spermine was sufficient to activate transcription of these IS elements and of nearby genes in broth culture and in macrophages. Importantly, the virulent strain of F. tularensis, Schu S4, exhibited similar phenotypes of cytokine induction and gene regulation in response to spermine. Distinctions in gene expression changes between Schu S4 and LVS at one orthologous locus, however, correlated with differences in IS element location. Our results indicate that spermine and spermidine are novel triggers to alert F. tularensis of its eukaryotic host environment. The results reported here also identify an unexpected mechanism of gene regulation controlled by a spermine-responsive promoter contained within IS elements. Different arrangements of these mobile genetic elements among Francisella strains may contribute to virulence by conveying new expression patterns for genes from different strains. doi: 10.1128/JB.00995-09

Published

2009

27. Transcriptional regulation of the Escherichia coli gene rraB, encoding a protein inhibitor of RNase E

Author

Zhou, Li, Zhao, Meng, Wolf, Rachel Z., Graham, David E., and Georgiou, George

Subjects

Escherichia coli -- Genetic aspects, Escherichia coli -- Health aspects, Escherichia coli -- Research, Ribonuclease -- Genetic aspects, Ribonuclease -- Physiological aspects, Ribonuclease -- Research, Gene expression -- Research, Biological sciences

Abstract

The Escherichia coli RNA degradosome is a protein complex that plays a critical role in the turnover of numerous RNAs. The key component of the degradosome complex is the endoribonuclease RNase E, a multidomain protein composed of an N-terminal catalytic region and a C-terminal region that organizes the other protein components of the degradosome. Previously, the RNase E inhibitors RraA and RraB were identified genetically and shown to bind to the C-terminal region of RNase E, thus affecting both the protein composition of the degradosome and the endonucleolytic activity of RNase E. In the present work, we investigated the transcriptional regulation of rraB. rraB was shown to be transcribed constitutively from its own promoter, PrraB. Transposon mutagenesis and screening for increased [beta]-galactosidase activity from a chromosomal PrraB-lacZ transcriptional fusion resulted in the isolation of a transposon insertion in glmS, encoding the essential enzyme glucosamine-6-phosphate synthase that catalyzes the first committed step of the uridine 5'-diphospho-N-acetyl-glucosamine (UDP-GIcNAc) pathway, which provides intermediates for peptidoglycan biogenesis. The glmS852::Tn5 allele resulted in an approximately 50% lower intracellular concentration of UDP-GIcNAc and conferred a fivefoid increase in the level of rraB mRNA. This allele also mediated a twofold increase in [beta]-galactosidase activity from a chromosomal fusion of the 5' untranslated region of the rne gene to lacZ, suggesting that a reduction in cellular concentration of UDP-GIcNAc and the resulting increased expression of RraB might modulate the action of RNase E. doi: 10.1128/JB.00344-09

Published

2009

28. Dam methylation controls O-antigen chain length in Salmonella enterica serovar enteritidis by regulating the expression of Wzz protein

Author

Sarnacki, Sebastian H., Marolda, Cristina L., Llana, Mariangeles Noto, Giacomodonato, Monica N., Valvano, Miguel A., and Cerquetti, Maria Cristina

Subjects

Methylation -- Research, Gene expression -- Research, Salmonella -- Genetic aspects, Salmonella -- Research, Biological sciences

Abstract

We reported previously that a Salmonella enterica serovar Enteritidis dam mutant expressing a truncated Dam protein does not agglutinate in the presence of specific antibodies against 09 polysaccharide. Here we investigate the participation of Dam in lipopolysaccharide (LPS) synthesis in Salmonella. The LPS O-antigen profiles of a dam null mutant (SE[DELTA]dam) and the Salmonella serovar Enteritidis parental strain were examined by using electrophoresis and silver staining. Compared to the parental strain, SE[DELTA]dam produced LPS with shorter O-antigen polysaccharide chains. Since Wzz is responsible for the chain length distribution of the O antigen, we investigated whether Dam methylation is involved in regulating wzz expression. Densitometry analysis showed that the amount of Wzz produced by SE[DELTA]dam is threefold lower than the amount of Wzz produced by the parental strain. Concomitantly, the activity of the wzz promoter in SE[DELTA]dam was reduced nearly 50% in logarithmic phase and 25% in stationary phase. These results were further confirmed by reverse transcription-PCR showing that wzz gene expression was threefold lower in the dam mutant than in the parental strain. Our results demonstrate that wzz gene expression is downregulated in a dam mutant, indicating that Dam methylation activates expression of this gene. This work indicates that wzz is a new target regulated by Dam methylation and demonstrates that DNA methylation not only affects the production of bacterial surface proteins but also the production of surface polysaccharides. doi: 10.1128/JB.00839-09

Published

2009

29. An extracytoplasmic function sigma factor controls [beta]-lactamase gene expression in Bacillus anthracis and other bacillus cereus group species

Author

Ross, Cana L., Thomason, Kerrie S., and Koehler, Theresa M.

Subjects

Beta lactamases -- Genetic aspects, Beta lactamases -- Research, Genetic transcription -- Research, Bacillus anthracis -- Genetic aspects, Bacillus anthracis -- Research, Gene expression -- Research, Biological sciences

Abstract

The susceptibility of most Bacillus anthracis strains to [beta]-lactam antibiotics is intriguing considering that the closely related species Bacillus cereus and Bacillus thuringiensis typically produce [beta]-lactamases and the B. anthracis genome harbors two [beta]-lactamase genes, bla1 and bla2. We show that [beta]-lactamase activity associated with B. anthracis is affected by two genes, sigP (BA2502) and rsiP (BA2503), predicted to encode an extracyto-plasmic function sigma factor and an anti-sigma factor, respectively. Deletion of the sigP-rsiP locus abolished [beta]-lactamase activity in a naturally occurring penicillin-resistant strain and had no effect on [beta]-lactamase activity in a prototypical penicillin-susceptible strain. Complementation with sigP and rsiP from the penicillin-resistant strain, but not with sigP and rsiP from the penicillin-susceptible strain, conferred constitutive [beta]-lactamase activity in both mutants. These results are attributed to a nucleotide deletion near the 5' end of rsiP in the penicillin-resistant strain that is predicted to result in a nonfunctional protein. B. cereus and B. thuringiensis sigP and rsiP homologues are required for inducible penicillin resistance in these species. Expression of the B. cereus or B. thuringiensis sigP and rsiP genes in a B. anthracis sigP-rsiP-null mutant confers inducible production of [beta]-lactamase activity, suggesting that while B. anthracis contains the genes necessary for sensing [beta]-lactam antibiotics, the B. anthracis sigP and rsiP gene products are not sufficient for bla induction. doi: 10.1128/JB.00691-09

Published

2009

30. A collagen-binding adhesin, Acb, and ten other putative MSCRAMM and pilus family proteins of streptococcus gallolyticus subsp, gallolyticus (Streptococcus boris group, biotype I)

Author

Sillanpaa, Jouko, Nallapareddy, Sreedhar R., Qin, Xiang, Singh, Kavindra V., Muzny, Donna M., Kovar, Christie L., Nazareth, Lynne V., Gibbs, Richard A., Ferraro, Mary J., Steckelberg, James M., Weinstock, George M., and Murray, Barbara E.

Subjects

Streptococcus -- Physiological aspects, Streptococcus -- Genetic aspects, Streptococcus -- Research, Endocarditis -- Development and progression, Endocarditis -- Research, Gene expression -- Research, Bacteria -- Adhesion, Bacteria -- Physiological aspects, Bacteria -- Genetic aspects, Bacteria -- Research, Biological sciences

Abstract

Members of the Streptococcus bovis group are important causes of endocarditis. However, factors associated with their pathogenicity, such as adhesins, remain uncharacterized. We recently demonstrated that endocarditis-derived Streptococcus gallolyticus subsp, gallolyticus isolates frequently adhere to extracellular matrix (ECM) proteins. Here, we generated a draft genome sequence of an ECM protein-adherent S. gallolyticus subsp. gallolyticus strain and found, by genome-wide analyses, 11 predicted LPXTG-type cell wall-anchored proteins with characteristics of MSCRAMMs, including a modular architecture of domains predicted to adopt immunoglobulin (Ig)-like folding. A recombinant segment of one of these, Acb, showed high-affinity binding to immobilized collagen, and cell surface expression of Acb correlated with the presence of acb and collagen adherence of isolates. Three of the 11 proteins have similarities to major pilus subunits and are organized in separate clusters, each including a second Ig-fold-containing MSCRAMM and a class C sortase, suggesting that the sequenced strain encodes three distinct types of pili. Reverse transcription-PCR demonstrated that all three genes of one cluster, acb-sbs7-srtC1, are cotranscribed, consistent with pilus operons of other grampositive bacteria. Further analysis detected expression of all 11 genes in cells grown to mid to late exponential growth phases. Wide distribution of 9 of the 11 genes was observed among S. gallolyticus subsp, gallolyticus isolates with fewer genes present in other S. bovis group species/subspecies. The high prevalence of genes encoding putative MSCRAMMs and pili, including a collagen-binding MSCRAMM, among S. gallolyticus subsp, gallolyticus isolates may play an important role in the predominance of this subspecies in S. bovis endocarditis. doi: 10.1128/JB.00909-09

Published

2009

31. The vibrio cholerae flagellar regulatory hierarchy controls expression of virulence factors

Author

Syed, Khalid Ali, Beyhan, Sinem, Correa, Nidia, Queen, Jessica, Liu, Jirong, Peng, Fen, Satchell, Karla J.F., Yildiz, Fitnat, and Klose, Karl E.

Subjects

Vibrio cholerae -- Genetic aspects, Vibrio cholerae -- Research, Flagella (Microbiology) -- Genetic aspects, Flagella (Microbiology) -- Research, Virulence (Microbiology) -- Research, Gene expression -- Research, Biological sciences

Abstract

Vibrio cholerae is a motile bacterium responsible for the disease cholera, and motility has been hypothesized to be inversely regulated with virulence. We examined the transcription profiles of V. cholerae strains containing mutations in flagellar regulatory genes (rpoN, flrA, flrC, and fliA) by utilizing whole-genome microarrays. Results revealed that flagellar transcription is organized into a four-tiered hierarchy. Additionally, genes with proven or putative roles in virulence (e.g., ctx, tcp, hemolysin, and type VI secretion genes) were upregulated in flagellar regulatory mutants, which was confirmed by quantitative reverse transcription-PCR. Flagellar regulatory mutants exhibit increased hemolysis of human erythrocytes, which was due to increased transcription of the thermolabile hemolysin (tlh). The flagellar regulatory system positively regulates transcription of a diguanylate cyclase, CdgD, which in turn regulates transcription of a novel hemagglutinin (frhA) that mediates adherence to chitin and epithelial cells and enhances biofilm formation and intestinal colonization in infant mice. Our results demonstrate that the flagellar regulatory system modulates the expression of nonflagellar genes, with induction of an adhesin that facilitates colonization within the intestine and repression of virulence factors maximally induced following colonization. These results suggest that the flagellar regulatory hierarchy facilitates correct spatiotemporal expression patterns for optimal V. cholerae colonization and disease progression. doi: 10.1128/JB.00949-09

Published

2009

32. Reciprocal regulation between SigK and differentiation programs in streptomyces coelicolor

Author

Mao, Xu-Ming, Zhou, Zhan, Hou, Xiao-Ping, Guan, Wen-Jun, and Li, Yong-Quan

Subjects

Streptomyces -- Health aspects, Streptomyces -- Genetic aspects, Streptomyces -- Research, Antibiotics -- Production processes, Gene expression -- Research, Biological sciences

Abstract

Here we reported that deletion of SigK (SCO6520), a sigma factor in Streptomyces coelicolor, caused an earlier switch from vegetative mycelia to aerial mycelia and higher expression of chpE and chpH than that in the wild type. Loss of SigK also resulted in accelerated and enhanced production of antibiotics, actinorhodin, and undecylprodigiosin and increased expression of actII-orf4 and redD. These results suggested that SigK had a negative role in morphological transition and secondary metabolism. Furthermore, the sigK promoter (sigKp) activity gradually increased and sigK expression was partially dependent on SigK, but this dependence decreased during the developmental course of substrate mycelia. Meanwhile, two potentially nonspecific cleavages occurred between SigK and green fluorescent protein, and the SigK fusion proteins expressed under the constitutive promoter ermEp* sharply decreased and disappeared when aerial mycelia emerged. If expressed under sigKp, 3FLAG-SigK showed similar dynamic patterns but did not decrease as sharply as SigK expressed under ermEp*. These data suggested that the climbing expression of sigK might reduce the prompt degradation of SigK during vegetative hypha development for the proper timing of morphogenesis and that SigK vanished to remove the block for the emergence of aerial mycelia. Thus, we proposed that SigK had inhibitory roles on developmental events and that these inhibitory effects may be released by SigK degradation. doi: 10.1128/JB.00875-09

Published

2009

33. A comparative genomics, network-based approach to understanding virulence in Vibrio cholerae

Author

Gu, Jianying, Wang, Yufeng, and Lilburn, Timothy

Subjects

Gene expression -- Research, Vibrio cholerae -- Physiological aspects, Vibrio cholerae -- Genetic aspects, Virulence (Microbiology) -- Genetic aspects, Virulence (Microbiology) -- Research, Biological sciences

Abstract

Our views of the genes that drive phenotypes have generally been built up one locus or operon at a time. However, a given phenotype, such as virulence, is a multilocus phenomenon. To gain a more comprehensive view of the genes and interactions underlying a phenotype, we propose an approach that incorporates information from comparative genomics and network biology and illustrate it by examining the virulence phenotype of Vibrio cholerae O1 El Tor N16961. We assessed the associations among the virulence-associated proteins from Vibrio cholerae and all the other proteins from this bacterium using a functional-association network map. In the context of this map, we were able to identify 262 proteins that are functionally linked to the virulence- associated genes more closely than is typical of the proteins in this strain and 240 proteins that are functionally linked to the virulence-associated proteins with a confidence score greater than 0.9. The roles of these genes were investigated using functional information from online data sources, comparative genomics, and the relationships shown by the protein association map. We also incorporated core proteome data from the family Vibrionaceae; 35% of the virulence-associated proteins have orthologs among the 1,822 orthologous groups of proteins in the core proteome, indicating that they may be dual-role virulence genes or encode functions that have value outside the human host. This approach is a valuable tool in searching for novel functional associations and in investigating the relationship between genotype and phenotype. doi: 10.1128/JB.00475-09

Published

2009

34. The role of PerR in [O.sub.2]-affected gene expression of Clostridium acetobutylicum

Author

Hillmann, Falk, Doring, Christina, Riebe, Oliver, Ehrenreich, Armin, Fischer, Ralf-Jorg, and Bahl, Hubert

Subjects

Gene expression -- Research, Oxidative stress -- Health aspects, Oxidative stress -- Research, Clostridium -- Physiological aspects, Clostridium -- Genetic aspects, Clostridium -- Research, Biological sciences

Abstract

In the strict anaerobe Clostridium acetobutylicum, a PerR-homologous protein has recently been identified as being a key repressor of a reductive machinery for the scavenging of reactive oxygen species and molecular [O.sub.2]. In the absence of PerR, the full derepression of its regulon resulted in increased resistance to oxidative stress and nearly full tolerance of an aerobic environment. In the present study, the complementation of a Bacillus subtilis PerR mutant confirmed that the homologous protein from C. acetobutylicum acts as a functional peroxide sensor in vivo. Furthermore, we used a transcriptomic approach to analyze gene expression in the aerotolerant PerR mutant strain and compared it to the [O.sub.2] stimulon of wild-type C. acetobutylicum. The genes encoding the components of the alternative detoxification system were PerR regulated. Only few other targets of direct PerR regulation were identified, including two highly expressed genes encoding enzymes that are putatively involved in the central energy metabolism. All of them were highly induced when wild-type cells were exposed to sublethal levels of [O.sub.2]. Under these conditions, C. acetobutylicum also activated the repair and biogenesis of DNA and Fe-S clusters as well as the transcription of a gene encoding an unknown CO dehydrogenase-like enzyme. Surprisingly few genes were downregulated when exposed to [O.sub.2], including those involved in butyrate formation. In summary, these results show that the defense of this strict anaerobe against oxidative stress is robust and by far not limited to the removal of [O.sub.2] and its reactive derivatives. doi: 10.1128/JB.00351-09

Published

2009

35. Molecular basis of ChvE function in sugar binding, sugar utilization, and virulence in Agrobacterium tumefaciens

Author

He, Fanglian, Nair, Gauri R., Soto, Cinque S., Chang, Yehchung, Hsu, Lillian, Ronzone, Erik, DeGrado, William F., and Binns, Andrew N.

Subjects

Sucrose -- Properties, Virulence (Microbiology) -- Measurement, Agrobacterium tumefaciens -- Physiological aspects, Agrobacterium tumefaciens -- Genetic aspects, Gene expression -- Research, Biological sciences

Abstract

ChvE is a chromosomally encoded protein in Agrobacterium tumefaciens that mediates a sugar-induced increase in virulence (vir) gene expression through the activities of the VirA/VirG two-component system and has also been suggested to be involved in sugar utilization. The ChvE protein has homology to several bacterial periplasmic sugar-binding proteins, such as the ribose-binding protein and the galactose/glucose-binding protein of Escherichia coli. In this study, we provide direct evidence that ChvE specifically binds the vir gene-inducing sugar o-glucose with high affinity. Furthermore, ChvE mutations resulting in altered vir gene expression phenotypes have been isolated and characterized. Three distinct categories of mutants have been identified. Strains expressing the first class are defective in both virulence and D-glucose utilization as a result of mutations to residues lining the sugar-binding cleft. Strains expressing a second class of mutants are not adversely affected in sugar binding but are defective in virulence, presumably due to impaired interactions with the sensor kinase VirA. A subset of this second class of mutants includes variants of ChvE that also result in defective sugar utilization. We propose that these mutations affect not only interactions with VirA but also interactions with a sugar transport system. Examination of a homology model of ChvE shows that the mutated residues associated with the latter two phenotypes lie in two overlapping solvent-exposed sites adjacent to the sugar-binding cleft where conformational changes associated with the binding of sugar might have a maximal effect on ChvE's interactions with its distinct protein partners.

Published

2009

36. Processing and stability of inducibly expressed rpsO mRNA derivatives in Bacillus subtilis

Author

Yao, Shiyi and Bechhofer, David H.

Subjects

Bacillus subtilis -- Genetic aspects, Gene expression -- Research, Biological sciences

Abstract

The Bacillus subtilis rpsO gene specifies a small (388-nucleotide), monocistronic mRNA that encodes ribosomal protein S15. We showed earlier that rpsO mRNA decay intermediates accumulated to a high level in a strain lacking polynucleotide phosphorylase. Here, we used inducibly expressed derivatives of rpsO, encoding smaller RNAs that had the complex 5' region deleted, to study aspects of mRNA processing in B. subtilis. An IPTG (isopropyl-[beta]-D-thiogalactopyranoside)-inducible rpsO transcript that contained lac sequences at the 5' end, called lac-rpsO RNA, was shown to undergo processing to result in an RNA that was 24 nucleotides shorter than full length. Such processing was dependent on the presence of an accessible 5' terminus; a lac-rpsO RNA that contained a strong stem-loop at the 5' end was not processed and was extremely stable. Interestingly, this stability depended also on ribosome binding to a nearby Shine-Dalgarno sequence but was independent of downstream translation. Either RNase J1 or RNase J2 was capable of processing lac-rpsO RNA, demonstrating for the first time a particular in vivo processing event that could be catalyzed by both enzymes. Decay intermediates were detected in the pnpA strain only for a lac-rpsO RNA that was untranslated. Analysis of processing of an untranslated lac-rpsO RNA in the pnpA strain shortly after induction of transcription suggested that endonuclease cleavage at 3'-proximal sites was an early step in turnover of mRNA.

Published

2009

37. Expression of Kingella kingae type IV pili is regulated by [[sigma].sup.54], pilS, and pilR

Author

Kehl-Fie, Thomas E., Porsch, Eric A., Miller, Sara E., and St. Geme, Joseph W., III.

Subjects

Neisseriaceae -- Genetic aspects, Gene expression -- Research, Biological sciences

Abstract

Kingella kingae is a member of the Neisseriaceae and is being recognized increasingly as an important cause of serious disease in children. Recent work has demonstrated that K. kingae expresses type IV pili that mediate adherence to respiratory epithelial and synovial ceils and are selected against during invasive disease. In the current study, we examined the genome of K. kingae strain 269-492 and identified homologs of the rpoN and the pilS and pilR genes that are essential for pilus expression in Pseudomonas aeruginosa but not in the pathogenic Neisseria species. The disruption of either rpoN or pilR in K. kingae resulted in a marked reduction in the level of transcript for the major pilus subunit (pilA1) and eliminated piliation. In contrast, the disruption of pilS resulted in only partial reduction in the level of pilA1 transcript and a partial decrease in piliation. Furthermore, the disruption of pilS in colony variants with high-density piliation resulted in variants with low-density piliation. Mutations in the promoter region of pilA1 and gel shift analysis demonstrated that both [[sigma].sup.54] and PilR act directly at the pilA1 promoter, with PilR binding to two repetitive elements. These data suggest that the regulation of K. kingae type IV pilus expression is complex and multilayered, influenced by both the genetic state and environmental cues.

Published

2009

38. Dominant negative autoregulation limits steady-state repression levels in gene networks

Author

Semsey, Szabolcs, Krishna, Sandeep, Erdossy, Janos, Horvath, Peter, Orosz, Laszlo, Sneppen, Kim, and Adhya, Sankar

Subjects

Bacterial genetics -- Research, Gene expression -- Research, Biological sciences

Abstract

Many transcription factors repress transcription of their own genes. Negative autoregulation has been shown to reduce cell-cell variation in regulatory protein levels and speed up the response time in gene networks. In this work we examined transcription regulation of the galS gene and the function of its product, the GalS protein. We observed a unique operator preference of the GalS protein characterized by dominant negative autoregulation. We show that this pattern of regulation limits the repression level of the target genes in steady states. We suggest that transcription factors with dominant negative autoregulation are designed for regulating gene expression during environmental transitions.

Published

2009

39. Gene expression patterns associated with the biosynthesis of the sunscreen scytonemin in Nostoc punctiforme ATCC 29133 in response to UVA radiation

Author

Soule, Tanya, Garcia-Pichel, Ferran, and Stout, Valerie

Subjects

Gene expression -- Research, Cyanobacteria -- Genetic aspects, Cyanobacteria -- Research, Biosynthesis -- Research, Ultraviolet radiation -- Genetic aspects, Sunscreens (Cosmetics) -- Research, Biological sciences

Abstract

Under exposure to UV radiation, some cyanobacteria synthesize sunscreen compounds. Scytonemin is a heterocyclic indole-alkaloid sunscreen, the synthesis of which is induced upon exposure to UVA (long-wave-length UV) radiation. We previously identified and characterized an 18-gene cluster associated with scytonemin biosynthesis in the cyanobacterium Nostoc punctiforme ATCC 29133; we now report on the expression response of these genes to a step-up shift in UVA exposure. Using quantitative PCR on cDNAs from the N. punctiforme transcriptome and primers targeting each of the 18 genes in the cluster, we followed their differential expression in parallel subcultures incubated with and without UVA. All 18 genes are induced by UVA irradiation, with relative transcription levels that generally peak after 48 h of continuous UVA exposure. A five-gene cluster implicated in the process of scytonemin biosynthesis solely on the basis of comparative genomics was also upregulated. Furthermore, we demonstrate that all of the genes in the18-gene region are cotranscribed as part of a single transcriptional unit.

Published

2009

40. Phosphate-dependent behavior of the Archaeon Halobacterium salinarum strain R1

Author

Wende, Andy, Furtwangler, Katarina, and Oesterhelt, Dieter

Subjects

Gram-negative bacteria -- Genetic aspects, Gram-negative bacteria -- Research, Phosphorus metabolism -- Research, Chemotaxis -- Research, Gene expression -- Research, Biological sciences

Abstract

Phosphate is essential for life on earth, since it is an integral part of important biomolecules. The mechanisms applied by bacteria and eukarya to combat phosphate limitation are fairly well understood. However, it is not known how archaea sense phosphate limitation or which genes are regulated upon limitation. We conducted a microarray analysis to explore the phosphate-dependent gene expression of Halobacterium salinarum strain R1. We identified a set of 17 genes whose transcript levels increased up to several hundredfold upon phosphate limitation. Analysis of deletion mutants showed that this set of genes, the PHO stimulon, is very likely independent of signaling via two-component systems. Our experiments further indicate that PHO stimulon induction might be dependent on the intracellular phosphate concentration, which turned out to be subject to substantial changes. Finally, the study revealed that H. salinarum exhibits a phosphate-directed chemotaxis, which is induced by phosphate starvation.

Published

2009

41. Regulation of Bacillus subtilis aprE expression by glnA through inhibition of scoC and [[sigma].sup.D]-dependent degR expression

Author

Abe, Sadanobu, Yasumura, Ayako, and Tanaka, Teruo

Subjects

Bacterial genetics -- Research, Bacillus subtilis -- Genetic aspects, Gene expression -- Research, Biological sciences

Abstract

Expression of the gene for the extracellular alkaline protease (aprE) of Bacillus subtilis is subject to regulation by many positive and negative regulators. We have found that aprE expression was increased by disruption of the glutamine synthetase gene glnA. The increase in aprE expression was attributed to a decreased in expression of scoC, which encodes a negative regulator of aprE expression. The glnA effect on scoC expression was abolished by further disruption of tnrA, indicating that aprE expression is under global regulation through TnrA. In the scoC background, however, aprE expression was decreased by glnA deletion, and it was shown that the decrease was due to a defect in positive regulation by DegU. Among the genes that affect aprE expression through DegU, the expression of degR, encoding a protein that stabilizes phosphorylated DegU, was inhibited by glnA deletion. It was further shown that the decrease in degR expression by glnA deletion was caused by inhibition of the expression of sigD, encoding the [[sigma].sup.D] factor, which is required for degR expression. In accordance with these findings, the expression levels of aprE-lacZ in glnA scoC degR and scoC degR strains were identical. These results led us to conclude that glnA deletion brings about two effects on aprE expression, i.e., positive effect through inhibition of scoC expression and a negative effect through inhibition of degR expression, with the former predominating over the latter.

Published

2009

42. Novel trans-acting Bacillus subtilis glnA mutations that derepress glnRA expression

Author

Fisher, Susan H. and Wray, Lewis V., Jr.

Subjects

Bacillus subtilis -- Genetic aspects, Gene expression -- Research, DNA binding proteins -- Properties, Biological sciences

Abstract

Bacillus subtilis contains two nitrogen transcription factors, GlnR and TnrA. The activities of GlnR and TnrA are regulated by direct protein-protein interactions with the feedback-inhibited form of glutamine synthetase (GS). To look for other factors involved in regulating GlnR activity, we isolated mutants with constitutive glnRA expression ([Gln.sup.C]). The twenty-seven [Gln.sup.c] mutants isolated in this mutant screen all contained mutations tightly linked to the glnRA operon which encodes GlnR (glnR) and GS (glnA). Four [Gln.sup.c] mutants contained mutations in the glnR gene that most likely impair the ability of GlnR to bind DNA. Three other [Gln.sup.c] mutants contained novel glnA mutations ($55F, V173I, and L174F). GlnR regulation was completely relieved in the three glnA mutants, while only modest defects in TnrA regulation were observed. In vitro enzymatic assays showed that the purified $55F mutant enzyme was catalytically defective while the V173I and L174F enzymes were highly resistant to feedback inhibition. The V173I and L174F GS proteins were found to require higher glutamine concentrations than the wild-type GS to regulate the DNA-binding activities of GlnR and TnrA in vitro. These results are consistent with a model where feedback-inhibited GS is the only cellular factor involved in regulating the activity of GlnR in B. subtilis.

Published

2009

43. Expression and mutational analysis of the glnB genomic region in the heterocyst-forming cyanobacterium Anabaena sp. strain PCC 7120

Author

Paz-Yepes, Javier, Flores, Enrique, and Herrero, and Antonia

Subjects

Cyanobacteria -- Genetic aspects, Bacterial genetics -- Research, Gene mutations -- Research, Gene expression -- Research, Biological sciences

Abstract

In the filamentous, heterocyst-forming cyanobacterium Anabaena sp. strain PCC 7120, the glnB gene is expressed at considerable levels both in the presence and in the absence of combined nitrogen, although induction, influenced by NtcA, takes place upon combined-nitrogen deprivation likely localized to vegetative cells. In spite of extensive efforts, a derivative of PCC 7120 lacking a functional glnB gene could be obtained only with constructs that lead to overexpression of a downstream open reading frames (ORF), particularly all2318. Strain CSP10 [glnB all2318(Con)] exhibited growth rates similar to those of the wild type when it was using nitrate or ammonium, but its diazotrophic growth was impaired. However, it differentiated heterocysts with a time course and distribution pattern similar to those of the wild type, although with no cyanophycin-containing polar granules, and exhibited impaired nitrogenase activity under oxic conditions, but not under microoxic conditions. In the mutant, NtcA-dependent inducion of the hetC and nifH genes was unaltered, but induction of the urtA gene and urea transport activity were increased. Active uptake of nitrite was also increased and insensitive to the ammonium-promoted inhibition observed for the wild type. Thus, regulation of the nitrite transport activity requires the glnB gene product. In the presence of a wild-type glnB gene, neither inactivation nor overexpression of all2318 produced an apparent phenotype. Thus, in an otherwise wild-type background, the glnB gene appears to be essential for growth of strain PCC 7120. For growth with combined nitrogen but not for diazotrophic growth, the requirement for glnB can be overridden by increasing the expression of all2318 (and/or ORFs downstream of it).

Published

2009

44. Comparative proteomic analysis of the Haemophilus ducreyi porin-deficient mutant 35000HP::P2A

Author

Davie, Jeremiah J. and Campagnari, Anthony A.

Subjects

Hemophilus infections -- Genetic aspects, Hemophilus infections -- Research, Proteomics -- Research, Porins -- Research, Gene expression -- Research, Biological sciences

Abstract

Haemophilus ducreyi is an obligate human pathogen and the causative agent of the sexually transmitted, genital ulcerative disease chancroid. The genome of strain 35000HP contains two known porin proteins, OmpP2A and OmpP2B. Loss of OmpP2A and OmpP2B expression in the mutant 35000HP::P2AB resulted in no obvious growth defect or phenotype. Comparison of outer membrane profiles indicated increased expression of the 58.5-kDa chaperone, GroEL, in the porin-deficient mutant. A proteomics-based comparison resulted in the identification of 231 proteins present in membrane-associated protein samples, of which a subset of 56 proteins was differentially expressed at a level of 1.5-fold or greater in the porin-deficient strain 35000HP::P2AB relative to that in 35000HP. Twenty of the differentially expressed proteins were selected for real-time PCR, resulting in the validation of 90% of the selected subgroup. Proteins identified in these studies suggested a decreased membrane stability phenotype, which was verified by disk diffusion assay. Loss of OmpP2A and OmpP2B resulted in global protein expression changes which appear to compensate for the absence of porin expression in 35000HP::P2AB.

Published

2009

45. Seawater-regulated genes for two-component systems and outer membrane proteins in Myxococcus

Author

Pan, Hong-wei, Liu, Hong, Liu, Ting, Li, Cheng-yun, Li, Zhi-feng, Cai, Ke, Zhang, Cui-ying, Zhang, Yong, Hu, Wei, Wu, Zhi-hong, and Li, Yue-zhong

Subjects

Myxobacterales -- Genetic aspects, Myxobacterales -- Research, Sea-water -- Genetic aspects, Sea-water -- Research, Membrane proteins -- Genetic aspects, Membrane proteins -- Research, Gene expression -- Research, Cellular signal transduction -- Research, Biological sciences

Abstract

When salt-tolerant Myxococcus cells are moved to a seawater environment, they change their growth, morphology, and developmental behavior. Outer membrane proteins and signal transduction pathways may play important roles in this shift. Chip hybridization targeting the genes predicted to encode 226 two-component signal transduction pathways and 74 outer membrane proteins of M. xanthus DK1622 revealed that the expression of 55 corresponding genes in the salt-tolerant strain M. fulvus HW-1 was significantly modified (most were downregulated) by the presence of seawater. Sequencing revealed that these seawater-regulated genes are highly homologous in both strains, suggesting that they have similar roles in the lifestyle of Myxococcus. Seven of the genes that had been reported in M. xanthus DK1622 are involved in different cellular processes, such as fruiting body development, sporulation, or motility. The outer membrane (Om) gene Om031 had the most significant change in expression (downregulated) in response to seawater, while the two-component system (Tc) gene Tc105 had the greatest increase in expression. Their homologues MXAN3106 and MXAN4042 were knocked out in DK1622 to analyze their functions in response to changes in salinity. In addition to having increased salt tolerance, sporulation of the MXAN3106 mutant was enhanced compared to that of DK1622, whereas mutating gene MXAN4042 produced contrary results. The results indicated that the genes that are involved in the cellular processes that are significantly changed in response to salinity may also be involved the salt tolerance of Myxococcus cells. Regulating the expression levels of these multifunctional genes may allow cells to quickly and efficiently respond to changing conditions in coastal environments.

Published

2009

46. Role of Clp proteins in expression of virulence properties of Streptococcus mutans

Author

Kajfasz, Jessica K., Martinez, Alaina R., Rivera-Ramos, Isamar, Abranches, Jacqueline, Koo, Hyun, Quivey, Robert G., Jr., and Lemos, Jose A.

Subjects

Streptococcus mutans -- Genetic aspects, Streptococcus mutans -- Physiological aspects, Streptococcus mutans -- Research, Gene expression -- Research, Virulence (Microbiology) -- Research, Biological sciences

Abstract

Mutational analysis revealed that members of the Clp system, specifically the ClpL chaperone and the CIpXP proteolytic complex, modulate the expression of important virulence attributes of Streptococcus mutans. Compared to its parent, the [DELTA]clpL strain displayed an enhanced capacity to form biofilms in the presence of sucrose, had reduced viability, and was more sensitive to acid killing. The [DELTA]clpP and [DELTA]clpX strains displayed several phenotypes in common: slow growth, tendency to aggregate in culture, reduced autolysis, and reduced ability to grow under stress, including acidic pH. Unexpectedly, the [DELTA]clpP and [DELTA]clpX mutants were more resistant to acid killing and demonstrated enhanced viability in long-term survival assays. Biofilm formation by the [DELTA]clpP and [DELTA]clpX strains was impaired when grown in glucose but enhanced in sucrose. In an animal study, the average number of S. mutans colonies recovered from the teeth of rats infected with the [DELTA]clpP or [DELTA]clpX strain was slightly lower than that of the parent strain. In Bacillus subtilis, the accumulation of the Spx global regulator, a substrate of CIpXP, has accounted for the [DELTA]clpXP phenotypes. Searching the S. mutans genome, we identified two putative spx genes, designated spxA and spxB. The inactivation of either of these genes bypassed phenotypes of the clpP and clpX mutants. Western blotting demonstrated that Spx accumulates in the [DELTA]cipP and [DELTA]clpX strains. Our results reveal that the proteolysis of CIpL and CIpXP plays a role in the expression of key virulence traits of S. mutans and indicates that the underlying mechanisms by which ClpXP affect virulence traits are associated with the accumulation of two Spx orthologues.

Published

2009

47. Involvement of the Cra global regulatory protein in the expression of the iscRSUA operon, revealed during studies of tricarballylate catabolism in Salmonella enterica

Author

Lewis, Jeffrey A., Boyd, Jeffrey M., Downs, Diana M., and Escalante-Semerena, Jorge C.

Subjects

Salmonella -- Genetic aspects, Salmonella -- Physiological aspects, Salmonella -- Research, Clusters (Chemistry) -- Physiological aspects, Clusters (Chemistry) -- Research, Gene expression -- Research, Promoters (Genetics) -- Research, Biological sciences

Abstract

In Salmonella enterica, tricarballylate (Tcb) catabolism requires function of TcuB, a membrane-bound protein that contains [4Fe-4S] clusters and heme. TcuB transfers electrons from reduced flavin adenine dinucleotide in the Tcb dehydrogenase (TcuA) to electron acceptors in the membrane. We recently showed that functions needed to assemble [Fe-S] clusters (i.e., the iscRSUA-hscBA-fdx operon) compensate for the lack of ApbC during growth of an apbC strain on Tcb. ApbC had been linked to [Fe-S] cluster metabolism, and we showed that an apbC strain had decreased TcuB activity. Here we report findings that expand our understanding of the regulation of expression of the iscRSUA genes in Salmonella enterica. We investigated why low levels of glucose or other saccharides restored growth of an apbC strain on Tcb. Here we report the following findings. (i) A [less than or equal to] 1 mM concentration of glucose, fructose, ribose, or glycerol restores growth of an apbC strain on Tcb. (ii) The saccharide effect results in increased levels of TcuB activity. (iii) The saccharide effect depends on the global regulatory protein Cra. (iv) Putative Cra binding sites are present in the regulatory region of the iscRSUA operon. (v) Cra protein binds to all three sites in the iscRSUA promoter region in a concentrationdependent fashion. To our knowledge, this is the first report of the involvement of Cra in [Fe-S] cluster assembly.

Published

2009

48. Population variability of the FimH type 1 fimbrial adhesin in Klebsiella pneumoniae

Author

Stahlhut, Steen G., Chattopadhyay, Sujay, Struve, Carsten, Weissman, Scott J., Aprikian, Pavel, Libby, Stephen J., Fang, Ferric C., Krogfelt, Karen Angeliki, and Sokurenko, Evgeni V.

Subjects

Gene expression -- Research, Klebsiella -- Genetic aspects, Biological sciences

Abstract

FimH is an adhesive subunit of type 1 fimbriae expressed by different enterobacterial species. The enteric bacterium Klebsiella pneumoniae is an environmental organism that is also a frequent cause of sepsis, urinary tract infection (UTI), and liver abscess. Type 1 fimbriae have been shown to be critical for the ability of K. pneumoniae to cause UTI in a murine model. We show here that the K. pneumoniae fimH gene is found in 90% of strains from various environmental and clinical sources. The fimH alleles exhibit relatively low nucleotide and structural diversity but are prone to frequent horizontal-transfer events between different bacterial clones. Addition of the fimH locus to multiple-locus sequence typing significantly improved the resolution of the clonal structure of pathogenic strains, including the K1 encapsulated liver isolates. In addition, the K. pneumoniae FimH protein is targeted by adaptive point mutations, though not to the same extent as FimH from uropathogenic Escherichia coli or TonB from the same K. pneumoniae strains. Such adaptive mutations include a single amino acid deletion from the signal peptide that might affect the length of the fimbrial rod by affecting FimH translocation into the periplasm. Another FimH mutation ($62A) occurred in the course of endemic circulation of a nosocomial uropathogenic clone of K. pneumoniae. This mutation is identical to one found in a highly virulent uropathogenic strain of E. coli, suggesting that the FimH mutations are pathoadaptive in nature. Considering the abundance of type 1 fimbriae in Enterobacteriaceae, our present finding that fimH genes are subject to adaptive microevolution substantiates the importance of type 1 fimbria-mediated adhesion in K. pneumoniae.

Published

2009

49. Organization and PprB-dependent control of the Pseudomonas aeruginosa tad locus, involved in Flp pilus biology

Author

Bernard, Christophe S., Bordi, Christophe, Termine, Elise, Filloux, Alain, and de Bentzmann, Sophie

Subjects

Gene expression -- Research, Pseudomonas aeruginosa -- Genetic aspects, Biological sciences

Abstract

Bacterial attachment to the substratum involves several cell surface organelles, including various types of pili. The Pseudomonas aeruginosa Tad machine assembles type IVb pili, which are required for adhesion to abiotic surfaces and to eukaryotic cells. Type IVb pili consist of a major subunit, the Flp pilin, processed by the FppA prepilin peptidase. In this study, we investigated the regulatory mechanism of the tad locus. We showed that the flp gene is expressed late in the stationary growth phase in aerobic conditions. We also showed that the tad locus was composed of five independent transcriptional units. We used transcriptional fusions to show that tad gene expression was positively controlled by the PprB response regulator. We subsequently showed that PprB bound to the promoter regions, directly controlling the expression of these genes. We then evaluated the contribution of two genes, tadF and rcpC, to type IVb pilus assembly. The deletion of these two genes had no effect on Flp production, pilus assembly, or Flp-mediated adhesion to abiotic surfaces in our conditions. However, our results suggest that the putative RcpC protein modifies the Flp pilin, thereby promoting Flp-dependent adhesion to eukaryotic cells.

Published

2009

50. Genome expression analyses revealing the modulation of the Salmonella Rcs regulon by the attenuator IgaA

Author

Mariscotti, Javier F. and Portillo, Francisco Garcia-del

Subjects

Salmonella -- Genetic aspects, Gene expression -- Research, Biological sciences

Abstract

Intracellular growth attenuator A (IgaA) was identified as a Salmonella enterica regulator limiting bacterial growth inside fibroblasts. Genetic evidence further linked IgaA to repression of the RcsCDB regulatory system, which responds to envelope stress. How IgaA attenuates this system is unknown. Here, we present genome expression profiling data of S. enterica serovar Typhimurium igaA mutants grown at high osmolarity and displaying exacerbated Rcs responses. Transcriptome data revealed that IgaA attenuates gene expression changes requiring phosphorylated RcsB (RcsB~P) activity. Some RcsB-regulated genes, yciGFE and STM1862 (pagO)-STM1863-STM1864, were equally expressed in wild-type and igaA strains, suggesting a maximal expression at low levels of RcsB~P. Other genes, such as metB, ypeC, ygaC, glnK, glnP, napA, glpA, and nirB, were shown for the first time and by independent methods to be regulated by the RcsCDB system. Interestingly, IgaA-deficient strains with reduced RcsC or RcsD levels exhibited different Rcs responses and distinct virulence properties, spy virulence genes were differentially expressed in most of the analyzed strains, spvA expression required RcsB and IgaA but, unexpectedly, was also impaired upon stimulation of the RcsC [right arrow] RcsD [right arrow] RcsB phosphorelay. Overproduction of either [RcsB.sup.+] or a nonphosphorylatable RcsB(D56Q) variant in strains displaying low spvA expression unveiled that both dephosphorylated RcsB and RcsB~P are required for optimal spvA expression. Taken together, our data support a model with IgaA attenuating the RcsCDB system by favoring the switch of RcsB~P to the dephosphorylated state. This role of IgaA in constantly fine-tuning the RcsB~P/RcsB ratio may ensure the proper expression of important virulence factors, such as the Spv proteins.

Published

2009