Identification and cloning of gusA, encoding a new beta-glucuronidase from Lactobacillus gasseri ADH

The gusA gene, encoding a new beta-glucuronidase enzyme, has been cloned from Lactobacillus gasseri ADH. This is the first report of a beta-glucuronidase gene cloned from a bacterial source other than Escherichia coli. A plasmid library of L. gasseri chromosomal DNA was screened for complementation of an E. coli gus mutant. Two overlapping clones that restored beta-glucuronidase activity in the mutant strain were sequenced and revealed three complete and two partial open reading frames. The largest open reading frame, spanning 1,797 bp, encodes a 597-amino-acid protein that shows 39% identity to beta-glucuronidase (GusA) of E. coli K-12 (EC 3.2.1.31). The other two complete open reading frames, which are arranged to be separately transcribed, encode a putative bile salt hydrolase and a putative protein of unknown function with similarities to MerR-type regulatory proteins. Overexpression of GusA was achieved in a beta-glucuronidase-negative L. gasseri strain by expressing the gusA gene, subcloned onto a low-copy-number shuttle vector, from the strong Lactobacillus P6 promoter. GusA was also expressed in E. coli from a pET expression system. Preliminary characterization of the GusA protein from crude cell extracts revealed that the enzyme was active across an acidic pH range and a broad temperature range. An analysis of other lactobacilli identified beta-glucuronidase activity and gusA homologs in other L. gasseri isolates but not in other Lactobacillus species tested.     

Vectors that facilitate the replacement of transcriptional lacZ fusions in Streptococcus mutans and Bacillus subtilis with fusions to gfp or gusA

Plasmid vectors have been constructed for Streptococcus mutans and Bacillus subtilis that make possible rapid replacement of the widely used reporter gene lacZ (encoding beta-galactosidase) with either gfp (encoding green fluorescent protein) or gusA (encoding beta-glucuronidase). The lacZ-->gfp replacement vectors greatly facilitate the analysis of the spatial location of gene expression in biofilms of S. mutans and in sporulating B. subtilis. The lacZ-->gusA replacement vectors facilitate the comparison of two promoters within the same organism. A vector is also described that enables gusA to be replaced with gfp in B. subtilis.     

Efficient system for directed integration into the Lactobacillus acidophilus and Lactobacillus gasseri chromosomes via homologous recombination

An efficient method is described for the generation of site-specific chromosomal integrations in Lactobacillus acidophilus and Lactobacillus gasseri. The strategy is an adaptation of the lactococcal pORI system (K. Leenhouts, G. Venema, and J. Kok, Methods Cell Sci. 20:35-50, 1998) and relies on the simultaneous use of two plasmids. The functionality of the integration strategy was demonstated by the insertional inactivation of the Lactobacillus acidophilus NCFM lacL gene encoding beta-galactosidase and of the Lactobacillus gasseri ADH gusA gene encoding beta-glucuronidase.     

Modification of Lactobacillus beta-glucuronidase activity by random mutagenesis

The Lactobacillus gasseri ADH beta-glucuronidase gene, gusA, was cloned previously and found to exhibit excellent activity in acidic pH ranges, with maximal activity at pH 5.0. In contrast, activity was limited in neutral pH ranges of 6-7. In an effort to improve the activity of the reporter enzyme in neutral pH ranges, the gusA gene was cloned into the broad host range vector, pGK12, and subjected to random mutagenesis by passage through Epicurian coli mutator strain XL1-Red. Two mutant alleles, gusA2 and gusA3, were recovered that produced beta-glucuronidase with increased activity in neutral pH ranges. One of these, gusA3, was significantly more active in the pH range of 4-8 in both Escherichia coli and L. gasseri. Sequence analysis of gusA2 and gusA3 revealed single base pair changes that resulted in D524G and D573A substitutions, respectively. The modified GusA3 enzyme has expanded potential for use as a reporter enzyme in expression hosts that are not acidophilic, as well as lactic acid bacteria and other microorganisms that grow in acidifying environments.     

A cloning vector for creation of Escherichia coli lacZ translational fusions and generation of linear template for chromosomal integration

A novel cloning vector to aid in the construction of single copy β-galactosidase reporter systems for gene expression studies in lactose metabolizing Escherichia coli strains, including STEC, is described. The plasmid allows construction of translational fusions of cloned gene promoters to a short segment of E. coli lacZ. A selectable spectinomycin resistance marker flanked by a short lacI segment is positioned 5' to the cloning site. PCR amplification using opposing primers complementary to the upstream lacI fragment and the downstream lacZ fragment generates a linear template suitable for integration using pRedET recombination. Integration of linear template derived from the recombinant plasmid into host strains replaces the entire native lacZ promoter and fuses the promoter of interest in-frame with the lacZ gene, thus simultaneously producing a single-copy, chromosomal reporter system and eliminating background lacZ expression. Studies comparing ahpC expression from a chromosomal fusion in the lac open with that on a plasmid in E. coli strain EDL933 are shown.     

Native polyubiquitin promoter of rice provides increased constitutive expression in stable transgenic rice plants

The rice Ubiquitin1 (Ubi1) promoter was tested to evaluate its capacity to express the heterologous gusA gene encoding β-glucuronidase in transgenic rice tissue relative to the commonly used Ubi1 corn promoter and the rice gibberellic acid insensitive (GAI) gene promoter element. Experimental results showed increased expression of gusA gene in rice tissue when driven by the native Ubi1 promoter when compared to the use of corn Ubi1 promoter. Results further indicated that the cis-regulatory elements present in the native promoter element might have been responsible for high expression. However, the gusA gene expression level when driven by the rice GAI promoter was notably lower than both Ubi1 promoters. The present study, thus, for the first time helped to demonstrate that the native Ubi1 promoter is a promising genetic element in transgenic approaches for constitutive expression of any gene in rice tissue.     

Mitomycin C induction of bacteriophages from Serpulina hyodysenteriae and Serpulina innocens

Abstract Attenuated Salmonella strains are currently being evaluated as live vectors for the delivery of heterologous antigens to the mammalian mucosal and systemic immune systems. An approach to improving the stability of heterologous antigen expression during vaccination is to drive expression of the foreign protein from promoters e.g. nirB , that become activated when Salmonella enter the host. Salmonella strains were constructed that harboured similar multicopy plasmids encoding the lacZ gene. In each strain, lacZ expression was driven from either the nirB, htrA or groE promoters. Expression of LacZ increased in all vaccine strains as they were shifted from conditions of low to high temperature. In addition, expression of lacZ driven from the htrA and nirB promoters significantly increased when the Salmonella entered eukaryotic cells, including macrophages. Expression of lacZ from the groE promoter was significantly elevated in macrophages but not in cells derived from epithelia. These promoters may be useful for optimising heterologous antigen expression within immune cells of the host.     

Regulation of Aspergillus nidulans penicillin biosynthesis and penicillin biosynthesis genes acvA and ipnA by glucose.

Expression of the Aspergillus nidulans penicillin biosynthesis genes acvA and ipnA, encoding delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine synthetase and isopenicillin N synthetase, respectively, was analyzed. The intergenic region carrying the divergently oriented promoters was fused in frame in both orientations to Escherichia coli lacZ and E. coli uidA reporter genes. Each construct permits simultaneous expression studies of both genes. Transformants of A. nidulans carrying a single copy of either plasmid integrated at the chromosomal argB locus were selected for further investigations. Expression of both genes was directed by the 872-bp intergenic region. ipnA- and acvA-derived gene fusions were expressed from this region at different levels. ipnA had significantly higher expression than did acvA. Glucose specifically reduced the production of penicillin and significantly repressed the expression of ipnA but not of acvA gene fusions. The specific activities of isopenicillin N synthetase, the gene product of ipnA, and acyl coenzyme A:6-aminopenicillanic acid acyltransferase were also reduced in glucose-grown cultures.     

Construction of fowlpox virus vectors with intergenic insertions: expression of the beta-galactosidase gene and the measles virus fusion gene.

A DNA fragment from fowlpox virus cloned on a plasmid vector was modified to contain foreign DNA inserts within an intergenic region. In a first step, a 32-base-pair intergenic region from the fowlpox virus genome corresponding to the position of the thymidine kinase locus in the vaccinia virus genome was enlarged to 55 base pairs by site-directed mutagenesis. A unique restriction endonuclease site introduced upstream of the intergenic region was then used to insert various foreign DNA fragments. The lacZ gene encoding beta-galactosidase and the measles virus gene encoding the fusion protein were positioned downstream of two vaccinia virus p7.5 promoter elements in either a direct repeat or inverted repeat orientation. Foreign DNA inserts contained within the fowlpox virus sequence were transferred to the viral genome by homologous recombination occurring in cells infected with a fowlpox virus temperature-sensitive mutant and transfected with both wild-type viral DNA and plasmid DNA. Recombinant viruses were selected for the expression of beta-galactosidase activity by screening for blue plaques in the presence of a chromogenic substrate. Stable recombinants expressing both the lacZ gene and the unselected measles gene were obtained when the p7.5 promoter was present as an inverted repeat. However, when the p7.5 promoter was in the direct repeat orientation, viral recombinants which initially expressed both gene inserts readily deleted the lacZ gene flanked by the promoter repeat. The methods described enable precise insertion and deletion of foreign genes in the fowlpox virus genome and could be applied to other intergenic regions of the same virus as well as other poxviruses.     

The influence of antisense gene location on target gene suppression in the fission yeast Schizosaccharomyces pombe

A fission yeast model was employed to investigate the influence of antisense gene location on the efficacy of antisense RNA-mediated target gene suppression. Fission yeast transformants were generated that contained the target lacZ gene at a fixed position and a single copy antisense lacZ gene integrated into various genomic locations, including the same locus as the target gene. No significant difference in lacZ suppression was observed when the antisense gene was integrated in close proximity to the target gene locus compared with other genomic locations, indicating that target and antisense gene colocalization is not a critical factor for efficient antisense RNA-mediated gene expression in vivo. Instead, increased lacZ downregulation correlated with an increase in antisense dose, with the steady-state levels of antisense RNA being dependent on genomic position effects and transgene copy number.     

Auxin transport inhibition precedes root nodule formation in white clover roots and is regulated by flavonoids and derivatives of chitin oligosaccharides

The expression of the auxin responsive reporter construct, GH3:gusA, was examined in transgenic white clover plants to assess changes in the auxin balance during the earliest stages of root nodule formation. Reporter gene expression was monitored at marked locations after the application of bacteria or signal molecules using two precise inoculation techniques: spot-inoculation and a novel method for ballistic microtargeting. Changes in GH3:gusA expression were monitored after the inoculation of Rhizobium leguminosarum biovar trifolii, non-host rhizobia, lipo-chitin oligosaccharides (LCOs), chitin oligosaccharides, a synthetic auxin transport inhibitor (naphthylphthalamic acid; NPA), auxin, the ENOD40-1 peptide or different flavonoids. The results show that clover-nodulating rhizobia induce a rapid, transient and local downregulation of GH3:gusA expression during nodule initiation followed by an upregulation of reporter gene expression at the site of nodule initiation. Microtargeting of auxin caused a local and acropetal upregulation of GH3:gusA expression, whereas NPA caused local and acropetal downregulation of expression. Both spot-inoculation and microtargeting of R. l. bv. trifolii LCOs or flavonoid aglycones induced similar changes to GH3:gusA expression as NPA. O-acetylated chitin oligosaccharides caused similar changes to GH3:gusA expression as R. l. bv. trifolii spot-inoculation, but only after delivery by microtargeting. Non-O-acetylated chitin oligosaccharides, flavonoid glucosides or the ENOD40-1 peptide failed to induce any detectable changes in GH3:gusA expression. GH3:gusA expression patterns during the later stages of nodule and lateral root development were similar. These results support the hypothesis that LCOs and chitin oligosaccharides act by perturbing the auxin flow in the root during the earliest stages of nodule formation, and that endogenous flavonoids could mediate this response.     

Construction of a novel set of transfer vectors to study vaccinia virus replication and foreign gene expression

Vaccinia virus (VV) is a useful expression vector for many laboratory applications. To date, approximately 60% ( approximately 120) of the VV genes remain uncharacterized. The thought of smallpox being used as a biological weapon has gained attention. In light of this, it is imperative that we continue to study the basic replication of VV, a poxvirus that is closely related to smallpox. A set of plasmid vectors were constructed to generate gene deletions (pZIPPY-NEO/GUS) in VV or for foreign gene expression (pBR-EXPRESS). The vectors contain the Escherichia coli neomycin resistance (neo) and beta-glucuronidase (gusA) genes as selectable markers to facilitate isolation of recombinant viruses. These are the first transfer vectors to use a neo/gusA selection system. We used these vectors to successfully generate a recombinant D9R deletion mutant of VV and to express E. coli lacZ gene. Results indicate that both vectors are highly suited for their designed purpose.