Kanamycin Resistance Cassette for Genetic Manipulation of Treponema denticola

ABSTRACTTreponema denticolahas been recognized as an important oral pathogen of the “red complex” bacterial consortium that is associated with the pathogenesis of endodontal and periodontal diseases. However, little is known about the virulence ofT. denticoladue to its recalcitrant genetic system. The difficulty in genetically manipulating oral spirochetes is partially due to the lack of antibiotic resistance cassettes that are useful for gene complementation following allelic replacement mutagenesis. In this study, a kanamycin resistance cassette was identified and developed for the genetic manipulation ofT. denticolaATCC 35405. Compared to the widely usedermF-ermAMcassette, the kanamycin cassette used in the transformation experiments gave rise to additional antibiotic-resistantT. denticolacolonies. The kanamycin cassette is effective for allelic replacement mutagenesis as demonstrated by inactivation of two open reading frames ofT. denticola, TDE1430 and TDE0911. In addition, the cassette is also functional intrans-chromosomal complementation. This was determined by functional rescue of a periplasmic flagellum (PF)-deficient mutant that had theflgEgene coding for PF hook protein inactivated. The integration of the full-lengthflgEgene into the genome of theflgEmutant rescued all of the defects associated with theflgEmutant that included the lack of PF filament and spirochetal motility. Taken together, we demonstrate that the kanamycin resistance gene is a suitable cassette for the genetic manipulation ofT. denticolathat will facilitate the characterization of virulence factors attributed to this important oral pathogen.

High efficiency generalized transduction in Escherichia coli O157:H7

Genetic manipulation in enterohemorrhagicE. coliO157:H7 is currently restricted to recombineering, a method that utilizes the recombination system of bacteriophage lambda, to introduce gene replacements and base changesinter aliainto the genome. Bacteriophage 933W is a prophage inE. coliO157:H7 strain EDL933, which encodes the genes (stx2AB) for the production of Shiga toxin which is the basis for the potentially fatal Hemolytic Uremic Syndrome in infected humans. We replaced thestx2ABgenes with a kanamycin cassette using recombineering. After induction of the prophage by ultra-violet light, we found that bacteriophage lysates were capable of transducing to wildtype, point mutations in the lactose, arabinose and maltose genes. The lysates could also transduce tetracycline resistant cassettes. Bacteriophage 933W is also efficient at transducing markers inE. coliK-12. Co-transduction experiments indicated that the maximal amount of transferred DNA was likely the size of the bacteriophage genome, 61 kB. All tested transductants, in bothE. coliK-12 and O157:H7, were kanamycin-sensitive indicating that the transducing particles contained host DNA.

Isolation of Specific Clones from Nonarrayed BAC Libraries through Homologous Recombination

We have developed a new approach to screen bacterial artificial chromosome (BAC) libraries by recombination selection. To test this method, we constructed an orangutan BAC library using anE. colistrain (DY380) with temperature inducible homologous recombination (HR) capability. We amplified one library segment, induced HR at42∘C to make it recombination proficient, and prepared electrocompetent cells for transformation with a kanamycin cassette to target sequences in the orangutan genome through terminal recombineering homologies. Kanamycin-resistant colonies were tested for the presence of BACs containing the targeted genes by the use of a PCR-assay to confirm the presence of the kanamycin insertion. The results indicate that this is an effective approach for screening clones. The advantage of recombination screening is that it avoids the high costs associated with the preparation, screening, and archival storage of arrayed BAC libraries. In addition, the screening can be conceivably combined with genetic engineering to create knockout and reporter constructs for functional studies.

Development of Inducible Systems To Engineer Conditional Mutants of Essential Genes of Helicobacter pylori

ABSTRACT The Escherichia coli-Helicobacter pylori shuttle vector pHeL2 was modified to introduce the inducible LacIq-pTac system of E. coli, in which the promoters were engineered to be under the control of H. pylori RNA polymerase. The amiE gene promoter of H. pylori was taken to constitutively express the LacIq repressor. Expression of the reporter gene lacZ was driven by either pTac (pILL2150) or a modified version of the ureI gene promoter in which one or two LacI-binding sites and/or mutated nucleotides between the ribosomal binding site and the ATG start codon (pILL2153 and pILL2157) were introduced. Promoter activity was evaluated by measuring β-galactosidase activity. pILL2150 is a tightly regulated expression system suitable for the analysis of genes with low-level expression, while pILL2157 is well adapted for the controlled expression of genes encoding recombinant proteins in H. pylori. To exemplify the usefulness of these tools, we constructed conditional mutants of the putative essential pbp1 and ftsI genes encoding penicillin-binding proteins 1 and 3 of H. pylori, respectively. Both genes were cloned into pILL2150 and introduced in the parental H. pylori strain N6. The chromosomally harbored pbp1 and ftsI genes were then inactivated by replacing them with a nonpolar kanamycin cassette. Inactivation was strictly dependent upon addition of isopropyl-β-d-thiogalactopyranoside. Hence, we were able to construct the first conditional mutants of H. pylori. Finally, we demonstrated that following in vitro methylation of the recombinant plasmids, these could be introduced into a large variety of H. pylori isolates with different genetic backgrounds.

Presence of Active Aliphatic Amidases in Helicobacter Species Able To Colonize the Stomach

ABSTRACT Ammonia production is of great importance for the gastric pathogen Helicobacter pylori as a nitrogen source, as a compound protecting against gastric acidity, and as a cytotoxic molecule. In addition to urease, H. pylori possesses two aliphatic amidases responsible for ammonia production: AmiE, a classical amidase, and AmiF, a new type of formamidase. Both enzymes are part of a regulatory network consisting of nitrogen metabolism enzymes, including urease and arginase. We examined the role of the H. pylori amidases in vivo by testing the gastric colonization of mice with H. pylori SS1 strains carrying mutations in amiE and/or amiF and in coinfection experiments with wild-type and double mutant strains. A new cassette conferring resistance to gentamicin was used in addition to the kanamycin cassette to construct the double mutation in strain SS1. Our data indicate that the amidases are not essential for colonization of mice. The search for amiE and amiF genes in 53 H. pylori strains from different geographic origins indicated the presence of both genes in all these genomes. We tested for the presence of the amiE and amiF genes and for amidase and formamidase activities in eleven Helicobacter species. Among the gastric species, H. acinonychis possessed both amiE and amiF, H. felis carried only amiF, and H. mustelae was devoid of amidases. H. muridarum, which can colonize both mouse intestine and stomach, was the only enterohepatic species to contain amiE. Phylogenetic trees based upon the sequences of H. pylori amiE and amiF genes and their respective homologs from other organisms as well as the amidase gene distribution among Helicobacter species are strongly suggestive of amidase acquisition by horizontal gene transfer. Since amidases are found only in Helicobacter species able to colonize the stomach, their acquisition might be related to selective pressure in this particular gastric environment.

Characterization of Anthrolysin O, the Bacillus anthracis Cholesterol-Dependent Cytolysin

ABSTRACT We characterized the expression of a putative toxin of Bacillus anthracis, a member of the cholesterol-dependent cytolysin (CDC) family, which includes listeriolysin O, perfringolysin O, and streptolysin O. We named this cytotoxin anthrolysin O (ALO). Although B. anthracis expresses minimal hemolytic activity in clinical settings, we show that Sterne strain 7702 expresses hemolytic activity when grown in brain heart infusion broth or in other rich bacteriologic media, but it secretes barely detectable amounts of hemolysin when grown in Luria-Bertani (LB) broth. Glucose supplementation of LB broth increases the amount of secreted hemolytic activity. Expression of hemolytic activity is maximal during mid- to late-log phase and decreases in the stationary phase. These observations are supported, in part, by semiquantitative reverse transcriptase PCR of alo mRNA. Hemolytic activity in growth supernatants was increased in the presence of reducing agent and almost totally inhibited in a dose-dependent manner by cholesterol; both of these activities are characteristic of a CDC toxin. A mutant of Sterne strain 7702, strain UT231, in which the alo gene was deleted and replaced by a kanamycin cassette, secreted barely detectable hemolytic activity into the growth medium. When strain UT231 was complemented in trans with native alo on a low-copy-number plasmid [strain UT231(pUTE554)], it regained the ability to secrete hemolytic activity, indicating that ALO is the major hemolysin secreted by this strain of B. anthracis in rich media in vitro. To further support the alo gene product being a hemolysin, recombinant B. anthracis ALO (rALO) purified from Escherichia coli was extremely active against washed human erythrocytes, with complete hemolysis detected at ∼30 molecules of rALO per erythrocyte. Considering the virulence roles of CDCs for other gram-positive bacteria, we speculate that ALO may have a role in anthrax virulence.

Nitrogen or Sulfur Starvation Differentially Affects Phycobilisome Degradation and Expression of the nblA Gene in Synechocystis Strain PCC 6803

ABSTRACT Nitrogen (N) limitation in cyanobacteria is well documented: a reduced growth rate is observed, accompanied by a cessation of phycobiliprotein synthesis and an ordered degradation of phycobilisomes (PBS). This leads to a dramatic bleaching phenomenon known as chlorosis. In Synechococcus strain PCC 7942, bleaching due to PBS degradation is also observed under sulfur (S) or phosphorus (P) limitation, and all three are under the control of the nblAgene product, a 59-amino-acid polypeptide which is overexpressed under N, S, and P starvation (J. L. Collier, and A. R. Grossman, EMBO J. 13:1039–1047, 1994). Cyanobase sequence data forSynechocystis strain PCC 6803 indicate the presence of two tandem open reading frames (sll0452 and sll0453) homologous tonblA. We cloned the two genes, identified a unique 5′ mRNA end suggestive of a single transcription start site, and studiednblA expression under conditions of N or S starvation by Northern hybridization: transcripts were detected only under N starvation (no signal is detected in replete medium or with S starvation), whether nblA1 or nblA2 was used as a probe. Mutations in nblA1 and nblA2 were constructed by insertion of a kanamycin cassette; both mutations were nonbleaching under N starvation. Synechocystis strain PCC 6803 does not bleach under S starvation, consistent with the absence ofnblA induction in these conditions. These results were confirmed by analysis of the PBS components: sequential degradation of phycocyanin and associated linkers was observed only under conditions of N starvation. This indicates differences betweenSynechocystis strain PCC 6803 and Synechococcusstrain PCC 7942 in their regulatory and signaling pathways leading to N- and S-starved phenotypes.

The ntrBC genes of Azospirillum brasilense are part of a nifR3-like–ntrB–ntrC operon and are negatively regulated

A cosmid able to complement the Nif− and nitrate-dependent growth phenotypes of the Azospirillum brasilense mutant FP9 was isolated from a genomic library of the wild-type strain FP2. A 6-kb DNA region was sequenced and showed two open reading frames (ORFs) identified as the ntrB and ntrC genes. An ORF1 located upstream from the ntrB gene and coding for a 36-kDa polypeptide showed similarity to the nifR3 gene of Rhodobacter capsulatus and the ORF1 of Rhizobium leguminosarum, both located upstream from the ntrB gene in a complex operon. Two other unidentified ORFs (ORF5 and partial ORF4) coding for hydrophobic polypeptides were also observed. ΔORF1-ntrBC, ORF1, ntrB, and ntrC mutants obtained by recombination of suicide plasmids containing an insertion of a promoterless lacZ kanamycin cassette showed decreased nitrogenase activities and were unable to grow on nitrate as the sole N source. These phenotypes were restored by complementation with plasmids containing the ntrC gene. Analysis of lacZ transcriptional fusions suggested that the ORF1-ntrBC operon in Azospirillum brasilense is expressed from a promoter located upstream from the ORF1 and that it is negatively regulated by the ntrC gene product.Key words: Azospirillum brasilense, ntrB, ntrC, nifR3-like, nitrogen fixation.