Construction of broad-host-range vectors for the selection of divergent promoters

Visualizing the activity of Escherichia coli divergent promoters and probing their dependence on superhelical density using dual-colour fluorescent reporter vector

Mosaic pattern of transcription in alternating directions is a common feature of prokaryotic and eukaryotic genomes which rationality and origin remain enigmatic. In Escherichia coli approximately 25% of genes comprise pairs of topologically linked divergently transcribed units. Given that transcriptional complex formation at each promoter in the pair induces topological changes and is itself sensitive to DNA structural perturbations, study of the functional anatomy in such areas requires special approaches. Here we suggested the dual-colour promoter probe vector which may become an ideal tool for divergent transcription profiling. The vector was used to characterize the specific genomic region nearby appY with multiple bidirectional promoters predicted in silico. Only three promoters of this region were shown to be engaged in the transcription initiation resulting in the expression of reporter genes. RNA product transcribed in antisense direction is suggested as a novel RNA. Nalidixin-induced topological modulation differentially affected transcription in sense and antisense directions thus exemplifying anticooperative mode in the response to topological alterations.

CT406 encodes a chlamydial ortholog of NrdR, a repressor of ribonucleotide reductase

Chlamydia trachomatis is an obligate intracellular bacterium that is dependent on its host cell for nucleotides. Chlamydia imports ribonucleotide triphosphates (NTPs) but not deoxyribonucleotide triphosphates (dNTPs) and instead uses ribonucleotide reductase to convert imported ribonucleotides into deoxyribonucleotides for DNA synthesis. The genes encoding ribonucleotide reductase have been recently shown to be negatively controlled by a conserved regulator called NrdR. In this study, we provide direct evidence that Escherichia coli NrdR is a transcriptional repressor and that C. trachomatis CT406 encodes its chlamydial ortholog. We showed that CT406 binds specifically to two NrdR boxes upstream of the nrdAB operon in C. trachomatis. Using an in vitro transcription assay, we confirmed that these NrdR boxes function as an operator since they were necessary and sufficient for CT406-mediated repression. We validated our in vitro findings with reporter studies in E. coli showing that both E. coli NrdR and CT406 repressed transcription from the E. coli nrdH and C. trachomatis nrdAB promoters in vivo. This in vivo repression was reversed by hydroxyurea treatment. Since hydroxyurea inhibits ribonucleotide reductase and reduces intracellular deoxyribonucleotide levels, these results suggest that NrdR activity is modulated by a deoxyribonucleotide corepressor.

VceR negatively regulates the vceCAB MDR efflux operon and positively regulates its own synthesis in Vibrio cholerae 569B

The vceCAB (vce) operon encodes the multidrug resistance pump VceCAB (VCE), which contributes to resistance of Vibrio cholerae to carbonyl cyanide m-chlorophenylhydrazine (CCCP), deoxycholate, and pentachlorophenol by several-fold. vceR, which encodes the TetR-type repressor VceR and is divergently transcribed from vce, has been characterized in Escherichia coli. Detailed characterization of vceR in V. cholerae 569B confirmed the repressive effect of VceR on VCE function and indicated several novel features of VceR. Deletion of vceR increased resistance of strain 569B to CCCP and deoxycholate modestly, but did not affect resistance to pentachlorophenol. Transcriptional analysis revealed that vce expression was not only increased in strain 569BDeltavceR::Omega by 2-fold but continued to rise throughout the growth cycle. Using a vceR-lux transcriptional fusion plasmid, we examined whether vceR is autoregulated in strain 569B. Expression of vceR from the vceR-lux fusion was significantly lower in strain 569BDeltavceR::Omega than in strain 569B. In addition, exposure to CCCP reduced vceR expression from the vceR-lux fusion in strain 569B but not in strain 569BDeltavceR::Omega. Despite differences in the VceR binding site in strain 569B from the previously recognized 28 bp sequence in V. cholerae CVD101, purified recombinant VceR bound to the 24 bp sequence from strain 569B. We propose that VceR modulates vce expression by binding in vivo to the 24 bp sequence within the vceR-vce intergenic region; unlike many TetR repressors that are negatively autoregulated, VceR positively regulates vceR expression in trans.

The TraA relaxase autoregulates the putative type IV secretion-like system encoded by the broad-host-range Streptococcus agalactiae plasmid pIP501

The conjugative multiple antibiotic resistance plasmid pIP501 can be transferred and stably maintained in a variety of Gram-positive genera, including multicellular Streptomyces lividans, as well as in Gram-negative Escherichia coli. The 15 putative pIP501 transfer (tra) genes are organized in an operon-like structure terminating in a strong transcriptional terminator. This paper reports co-transcription of the pIP501 tra genes in exponentially growing Enterococcus faecalis JH2-2 cells, as shown by RT-PCR. The tra genes are expressed throughout the life cycle of Ent. faecalis, and the expression level is independent of the growth phase. Electrophoretic mobility shift assays indicated that the TraA relaxase, the first gene of the tra operon, binds to the tra promoter P(tra), which partially overlaps with the origin of transfer (oriT). DNase I footprinting experiments further delimited the TraA binding region and defined the nucleotides bound by TraA. Beta-Galactosidase assays with P(tra)-lacZ fusions proved P(tra) promoter activity, which was strongly repressed when TraA was supplied in trans. Thus, it is concluded that the pIP501 tra operon is negatively autoregulated at the transcriptional level by the conjugative DNA relaxase TraA.

Detection of alkanes, alcohols, and aldehydes using bioluminescence

We report a novel method for the rapid, sensitive, and quantitative detection of alkanes, alcohols, and aldehydes that relies on the reaction of bacterial luciferase with an aldehyde, resulting in the emission of light. Primary alcohols with corresponding aldehydes that are within the substrate range of the particular luciferase are detected after conversion to the aldehyde by an alcohol dehydrogenase. In addition, alkanes themselves may be detected by conversion to primary alcohols by an alkane hydroxylase, followed by conversion to the aldehyde by alcohol dehydrogenase. We developed a rapid bioluminescent method by genetically engineering the genes encoding bacterial luciferase, alcohol dehydrogenase, and alkane hydroxylase into a plasmid for simultaneous expression in an E. coli host cell line. Alkanes, alcohols, or aldehydes were detected within seconds, with sensitivity in the micromolar range, by measuring the resulting light emission with a microplate reader. We demonstrate the application of this method for the detection of alkanes, alcohols, and aldehydes and for the detection of alkane hydroxylase and alcohol dehydrogenase activity in vivo. This method is amenable to the high-throughput screening needs required for the identification of novel catalysts.

Swarming-coupled expression of the Proteus mirabilis hpmBA haemolysin operon

The HpmA haemolysin toxin of Proteus mirabilis is encoded by the hpmBA locus and its production is upregulated co-ordinately with the synthesis and assembly of flagella during differentiation into hyperflagellated swarm cells. Primer extension identified a sigma(70) promoter upstream of hpmB that was upregulated during swarming. Northern blotting indicated that this promoter region was also required for concomitant transcription of the immediately distal hpmA gene, and that the unstable hpmBA transcript generated a stable hpmA mRNA and an unstable hpmB mRNA. Transcriptional luxAB fusions to the DNA regions 5' of the hpmB and hpmA genes confirmed that hpmB sigma(70) promoter activity increased in swarm cells, and that there was no independent hpmA promoter. Increased transcription of the hpmBA operon in swarm cells was dependent upon a 125 bp sequence 5' of the sigma(70) promoter -35 hexamer. This sequence spans multiple putative binding sites for the leucine-responsive regulatory protein (Lrp), and band-shift assays with purified Lrp confirmed the presence of at least two such sites. The influence on hpmBA expression of the key swarming positive regulators FlhD(2)C(2) (encoded by the flagellar master operon), Lrp, and the membrane-located upregulator of the master operon, UmoB, was examined. Overexpression of each of these regulators moderately increased hpmBA transcription in wild-type P. mirabilis, and the hpmBA operon was not expressed in any of the flhDC, lrp or umoB mutants. Expression in the mutants was not recovered by cross-complementation, i.e. by overexpression of FlhD(2)C(2), Lrp or UmoB. Expression of the zapA protease virulence gene, which like hpmBA is also upregulated in swarm cells, did not require Lrp, but like flhDC it was upregulated by UmoB. The results indicate intersecting pathways of control linking virulence gene expression and swarm cell differentiation.

Improved gfp and inaZ broad-host-range promoter-probe vectors

A new set of broad-host-range promoter-probe vectors has been constructed. One subset contains the pVS1 and p15a replicons and confers resistance to either gentamicin or kanamycin. The other set contains the broad-host-range replicon from pBBR1 and confers resistance to kanamycin, tetracycline, ampicillin, or spectinomycin/streptomycin. Both plasmid sets are highly stable and are maintained without selection for more than 30 generations in several bacterial taxa. Each plasmid contains a promoter-probe cassette that consists of a multicloning site, containing several unique restriction sites, and gfp or inaZ as a reporter gene. The cassette is bound by transcriptional terminators to permit the insertion of strong promoters and to insulate the cassette from external transcription enabling the detection of weak or moderate promoters. The vector suite was augmented with derivatives of the kanamycin-resistant gfp promoter-probe plasmids that encode Gfp variants with different half-life times.

Inactivation of gltB abolishes expression of the assimilatory nitrate reductase gene (nasB) in Pseudomonas putida KT2442

By using mini-Tn5 transposon mutagenesis, random transcriptional fusions of promoterless bacterial luciferase, luxAB, to genes of Pseudomonas putida KT2442 were generated. Insertion mutants that responded to ammonium deficiency by induction of bioluminescence were selected. The mutant that responded most strongly was genetically analyzed and is demonstrated to bear the transposon within the assimilatory nitrate reductase gene (nasB) of P. putida KT2442. Genetic evidence as well as sequence analyses of the DNA regions flanking nasB suggest that the genes required for nitrate assimilation are not clustered. We isolated three second-site mutants in which induction of nasB expression was completely abolished under nitrogen-limiting conditions. Nucleotide sequence analysis of the chromosomal junctions revealed that in all three mutants the secondary transposon had inserted at different sites in the gltB gene of P. putida KT2442 encoding the major subunit of the glutamate synthase. A detailed physiological characterization of the gltB mutants revealed that they are unable to utilize a number of potential nitrogen sources, are defective in the ability to express nitrogen starvation proteins, display an aberrant cell morphology under nitrogen-limiting conditions, and are impaired in the capacity to survive prolonged nitrogen starvation periods.

The sulfur-regulated arylsulfatase gene cluster of Pseudomonas aeruginosa, a new member of the cys regulon

A gene cluster upstream of the arylsulfatase gene (atsA) in Pseudomonas aeruginosa was characterized and found to encode a putative ABC-type transporter, AtsRBC. Mutants with insertions in the atsR or atsB gene were unable to grow with hexyl-, octyl-, or nitrocatecholsulfate, although they grew normally with other sulfur sources, such as sulfate, methionine, and aliphatic sulfonates. AtsRBC therefore constitutes a general sulfate ester transport system, and desulfurization of aromatic and medium-chain-length aliphatic sulfate esters occurs in the cytoplasm. Expression of the atsR and atsBCA genes was repressed during growth with sulfate, cysteine, or thiocyanate. No expression of these genes was observed in the cysB mutant PAO-CB, and the ats genes therefore constitute an extension of the cys regulon in this species.

The maltose/maltodextrin regulon of Streptococcus pneumoniae. Differential promoter regulation by the transcriptional repressor MalR

The Streptococcus pneumoniae MalR protein regulates the transcription of two divergent operons, malXCD and malMP, involved in maltosaccharide uptake and utilization, respectively. MalR belongs to the LacI-GalR family of transcription repressors. The protein binds specifically to two operator sequences in the intergenic region between these operons. The affinity of MalR for the malMP binding sequence is higher than for the malXCD site. Results obtained in vivo using transcriptional fusions with reporter genes indicate low repression level of malXCD by MalR when compared with malMP. This behavior may be correlated with the existence of separate induction pathways for maltose, maltotriose, and maltotetraose. The similarities found at the operator sequences and binding domains for MalR and enterococcal repressor proteins suggest that the pneumococcal maltosaccharide regulation system is closely related to several Gram-negative metabolic pathways, but not to the structurally similar Escherichia coli maltose regulon.

In vivo studies disprove an obligatory role of azurin in denitrification in Pseudomonas aeruginosa and show that azu expression is under control of rpoS and ANR

The role of the blue copper protein azurin and cytochrome C551 as the possible electron donors to nitrite reductase in the dissimilatory nitrate reduction pathway in Pseudomonas aeruginosa have been investigated. It was shown by an in vivo approach with mutant strains of P. aeruginosa deficient in one or both of these electron-transfer proteins that cytochrome C551, but not azurin, is functional in this pathway. Expression studies demonstrated the presence of azurin in both aerobic and anaerobic cultures. A sharp increase in azurin expression was observed when cultures were shifted from exponential to stationary phase. The stationary-phase sigma factor, sigma s, was shown to be responsible for this induction. In addition, one of the two promoters transcribing the azu gene was regulated by the anaerobic transcriptional regulator ANR. An azurin-deficient mutant was more sensitive to hydrogen peroxide and paraquat than the wild-type P. aeruginosa. These results suggest a physiological role of azurin in stress situations like those encountered in the transition to the stationary phase.

The isolation of lactococcal promoters and their use in investigating bacterial luciferase synthesis in Lactococcus lactis

18 different promoter elements, encompassing a 71-fold range of activity, were isolated from the chromosome of Lactococcus lactis (Ll) MG1363 and from an uncharacterised small isometric bacteriophage of Ll. The Vibrio fischeri (Vf) luciferase-encoding gene (lux) was used as a reporter in Ll, so that the promoters could be identified strictly on the basis of their activity in the homologous host. Sequence and primer extension analysis of six of the promoters has provided a new consensus sequence for the -35 and -10 hexanucleotide motifs present upstream from lactococcal transcription start points. When the nucleotide sequence of the most active promoter (P15) was compared with that of the highly expressed Ll usp45 gene, a novel 8-bp region of homology was identified which corresponded to the newly derived consensus -35 sequence element; this element may therefore be of general importance in Ll gene expression. The isolation of these promoters has also enabled us to investigate the characteristics of the Vf Lux activity in Ll under different physiological conditions using promoters of different strengths. Lux activity in Ll is critically dependent upon the phase of cell growth. Luminescence falls sharply in stationary phase, possibly due to a lack of FMNH2. In contrast to the kinetics of Lux function in Escherichia coli (Ec), Lux activity in Ll declines rapidly after addition of the substrate; the rate of decay is dependent both on the growth phase and on the strength of the promoter. It is apparent that the previously reported thermal instability of Lux is in fact a function of the host organism in which Lux is expressed.(ABSTRACT TRUNCATED AT 250 WORDS)

A two-reporter gene system for the analysis of bi-directional transcription from the divergent MAL6T-MAL6S promoter in Saccharomyces cerevisiae

Many sets of genes in Saccharomyces cerevisiae are divergently transcribed, but at present there are no vectors generally available for the simultaneous analysis of divergent transcription from these promoters. In the present study MEL1 and lacZ were used to construct a vector capable of measuring the divergent expression initiated by the MAL6T-MAL6S bi-directional promoter. Our observations demonstrate that the expression of both reporter genes was regulated in a similar fashion to the native MAL6T and MAL6S genes, and that induction was dependent upon the presence of a functional MALR activator gene. The results confirmed that the MAL6T-MAL6S promoter was co-ordinately regulated, repressed by glucose, induced by maltose, and that basal expression was more active in the MAL6S direction than in the MAL6T direction.

Requirement for FlhA in flagella assembly and swarm-cell differentiation by Proteus mirabilis

Swarming by Proteus mirabilis is characterized by cycles of rapid population migration across surfaces, following differentiation of typical rods into long, aseptate swarm cells that overexpress flagella and virulence factors, particularly haemolysin. A non-swarming Tn5phoA mutant was unable to synthesize flagella, to fully elongate or to induce high levels of the toxin. The mutation lay within a 2091 bp gene encoding a homologue of the Escherichia coli FlhA belonging to a family of proteins that are required for assembly of flagella or virulence proteins and that are suggested to act either directly in membrane translocation and/or in regulating synthesis of the export apparatus. In trans expression of multicopy flhA restored cell elongation and migration and generated differentiation-specific hyperexpression of flagellin and toxin genes to levels above those seen in the wild-type strain. Transcription of flhA was strongly induced during differentiation, from its own putative sigma 28 promoter. The results suggest a mechanistic coupling of flagella assembly and swarm-cell differentiation.

Construction of improved Escherichia-Pseudomonas shuttle vectors derived from pUC18/19 and sequence of the region required for their replication in Pseudomonas aeruginosa

The nucleotide sequence of the 1.9-kb PstI fragment from pRO1614, that allows stable maintenance of pMB1 (ColE1)-based cloning vectors in Pseudomonas, was determined. This fragment encodes a putative origin of replication (ori), a replication-controlling protein, and the C terminus of the Tn3 beta-lactamase-encoding gene. Improved versions of the broad-host-range plasmid vectors, pUCP18 and pUCP19, were constructed by deletion of nonessential DNA or replacement of nonessential DNA with an antibiotic-resistance cassette.

Cloning of the early promoters of Pseudomonas aeruginosa bacteriophage D3: sequence of the immunity region of D3

The early promoters of bacteriophage D3 of Pseudomonas aeruginosa were cloned and physically mapped to the right 25% of the phage genome. The promoters were cloned into promoter selection vector pQF26, and their relative strengths, the direction of transcription, and whether they were directly regulated by repressor were determined. A 3.3-kb fragment of the genome containing the immunity region was sequenced and analyzed (GenBank accession number: L22692). The promoter activity associated with this region was determined to be bidirectional and repressible, indicating that this region contains operator-promoter complexes. Sequence and functional analyses suggest that this region is analogous to the immunity region of coliphage lambda. Two strong promoters, one of which was repressible, were found to be located adjacent to the immunity region. Clear-plaque mutant phage D3c contains insertion element IS222, which causes it to behave as a repressor-negative (c1) variant. The site of insertion of IS222 was sequenced and determined to lie within the c1 gene open reading frame. This phage shows remarkable similarity in genomic organization to coliphage lambda and its relatives.

Construction and use of a new broad-host-range lacZ transcriptional fusion vector, pHRP309, for gram- bacteria

A new lacZ transcriptional fusion vector, pHRP309, based on the IncQ plasmid RSF1010, was constructed and shown to be easily mobilized into a variety of Gram- eubacteria. We also developed a two-step cloning procedure to facilitate the cloning of small promoter fragments into the fusion vector. A set of 'cohort' vectors was constructed which allowed directed cloning of fragments downstream from an omega streptomycin/spectinomycin-resistance cassette while maintaining multiple flanking restriction sites. The omega cassette provides a selectable antibiotic-resistance marker for cloning promoters into the fusion vector and makes mapping to determine fragment orientation unnecessary. The presence of the omega cassette also decreases background beta-galactosidase activity by decreasing readthrough transcription from plasmid sequences. The fusion vector carries a gentamicin-resistance-encoding gene as the selectable marker and can therefore be used in Tn5 (kanamycin-resistant) and Tn10 (tetracycline-resistant) mutant strains. Since pHRP309 is a member of the IncQ incompatibility group, it is compatible with IncP cloning vectors and can be used in strains carrying cloned regulatory genes. Using this system, we cloned the positively regulated Pseudomonas putida pcaI promoter and studied its regulation.

Improved broad-host-range lac-based plasmid vectors for the isolation and characterization of protein fusions in Pseudomonas aeruginosa

Several new broad-host-range vectors for the construction of protein fusions to the Escherichia coli lacZ gene have been developed. In all of the constructs, a multiple cloning site (MCS) containing unique restriction sites is located upstream of lac operon segments whose lacZ genes lack translational start signals. Some of the vectors (pPZ10, pPZ20 and pPZ30) also contain transcriptional terminators upstream of the MCS. The new vectors allow the fusion of genes to lacZ in all translational reading frames. Due to a higher copy number they allow direct screening in E. coli for weakly expressed foreign promoters. Their usefulness for gene analysis in Pseudomonas aeruginosa was demonstrated by construction and expression of a regA'::'lacZ-encoded protein fusion.