Characterization of a phenanthrene degradation plasmid from Alcaligenes faecalis AFK2

A plasmid pHK2 involved in phenanthrene degradation was isolated from Alcaligenes faecalis AFK2. Some mitomycin C treated cells lost the pHK2 plasmid. The plasmid could be transformed into Pseudomonas putida and A. faecalis. They gained the ability to utilize phenanthrene as well as o-phthalate, an intermediate of phenanthrene degradation. Phenanthrene dioxygenase could be detected from the transformants after induction with phenanthrene. The molecular size of pHK2 DNA was determined to be 42.5 kilobase (kb), and its physical map was constructed.     

A new theta-type thermosensitive replicon from Lactoccocus lactis as an integration vector for Enterococcus faecalis

We isolated a replication thermosensitive mutant of the theta-type lactococcal pUCL22 replicon. An improved version of this thermosensitive replicon was obtained by fusioning the replication repA gene with the downstream repB gene. The resulting plasmid was named pUCB3522Ts. It is highly instable at 42°C in Enterococcus faecalis. Integration into the chromosome via homologous recombination was monitored using the npr gene of E. faecalis JH2-2 as a target. A 513 bp PCR amplification product from an internal region of this npr gene was cloned into pUCB3522Ts. Integration of this construction into the JH2-2 npr gene was selected by shift temperature, from 30°C to 42°C. 85% of the analysed clones showed integration into the npr gene, demonstrating the practicality of this thermosensitive replicon as a genetic integrative tool for E. faecalis.     

Polyethylene glycol-mediated transformation of fused egfp-hph gene under the control of gpd promoter in Pleurotus eryngii

Pleurotus eryngii was transformed using a polyethylene glycol-mediated method. A plasmid, pEPUGH, containing a reporter gene (enhanced green fluorescent protein gene, egfp) and a positive selectable marker gene (hygromycin phosphotransferase gene, hph) was constructed. The fused egfp-hph gene was placed under the control of the strong and constitutive native gpd promoter from P. eryngii. The recombinant plasmid was used to transform of P. eryngii protoplasts. Successful transformation was demonstrated by molecular analyses. Moreover, the mycelia of the transformants showed green epipolic dispersion on fluorescence microscopy. About 90–210 transformants were produced per μg plasmid DNA per 10⁷ viable protoplasts.     

Molecular cloning of Bacillus polymyxa (1→4)-β-d-xylanase gene in Escherichia coli

Escherichia coli has been transformed with recombinant plasmids carrying DNA from Bacillus polymyxa. A sensitive and simple immunoassay was used to screen for E. coli transformed with the chimeric plasmid carrying a (1→4)-β-d-xylanase (1,4-β-d-xylan xylanohydrolase, EC 3.2.1.8) gene. One such clone was isolated. The enzyme present in extracts of these E. coli cells was active in catalysing the hydrolysis of (1→4)-β-d-xylo-oligosaccharides of identified structure from the mucilage of Plantago ovata Forsk, as indicated by the production of reducing sugars. This work holds promise for the large-scale production of xylanases as a new route to the economic and usable degradation of xylans and is a model for the large-scale production of enzymes.     

Pheromone-Responsive Conjugative Vancomycin Resistance Plasmids in Enterococcus faecalis Isolates from Humans and Chicken Feces

The drug resistances and plasmid contents of a total of 85 vancomycin-resistant enterococcus (VRE) strains that had been isolated in Korea were examined. Fifty-four of the strains originated from samples of chicken feces, and 31 were isolated from hospital patients in Korea. Enterococcus faecalis KV1 and KV2, which had been isolated from a patient and a sample of chicken feces, respectively, were found to carry the plasmids pSL1 and pSL2, respectively. The plasmids transferred resistances to vancomycin, gentamicin, kanamycin, streptomycin, and erythromycin to E. faecalis strains at a high frequency of about 10⁻³ per donor cell during 4 hours of broth mating. E. faecalis strains containing each of the pSL plasmids formed clumps after 2 hours of incubation in broth containing E. faecalis FA2-2 culture filtrate (i.e., the E. faecalis sex pheromone), and the plasmid subsequently transferred to the recipient strain in a 10-min short mating in broth, indicating that the plasmids are responsive to E. faecalis pheromones. The pSL plasmids did not respond to any of synthetic pheromones for the previously characterized plasmids. The pheromone specific for pSL plasmids has been designated cSL1. Southern hybridization analysis showed that specific FspI fragments from each of the pSL plasmids hybridized with the aggregation substance gene (asa1) of the pheromone-responsive plasmid pAD1, indicating that the plasmids had a gene homologous to asa1. The restriction maps of the plasmids were identical, and the size of the plasmids was estimated to be 128.1 kb. The plasmids carried five drug resistance determinants for vanA, ermB, aph(3′), aph(6′), and aac(6′)/aph(2′), which encode resistance to vancomycin, erythromycin, kanamycin, streptomycin, and gentamicin/kanamycin, respectively. Nucleotide sequence analyses of the drug resistance determinants and their flanking regions are described in this report. The results described provide evidence for the exchange of genetic information between human and animal (chicken) VRE reservoirs and suggest the potential for horizontal transmission of multiple drug resistance, including vancomycin resistance, between farm animals and humans via a pheromone-responsive conjugative plasmid.     

Cloning of alkaline phosphatase isozyme gene (iap) of Escherichia coli

In Escherichia coli three major alkaline phosphatase isozymes are formed by molecular conversions depending on physiological conditions. A chromosomal gene, iap, is responsible for alkaline phosphatase isozyme conversion and is assumed to code for a proteolytic enzyme removing the arginine residue(s) from the N-terminal position of alkaline phosphatase subunits. A chromosomal fragment which complemented the Iap^? phenotype was cloned into pBR322 by a shotgun method. Transducing phage λiap was constructed in vitro from the chromosomal fragment containing the iap gene and λtna DNA. The integration site of the phage on chromosome was identified as the iap locus by PI transduction, which meant that the cloned chromosomal DNA contained authentic iap gene.The restriction map of the hybrid plasmid was constructed. Based upon this information, several iap deletion plasmids as well as smaller iup⁺ plasmids were constructed. Analysis of the phenotypes conferred by these plasmids enabled us to locate iap gene within a 2-kb segment of the cloned DNA.The cells carrying the iap⁺ plasmid showed very efficient isozyme conversion even in medium containing arginine, an inhibitor for the isozyme conversion. This indicates overproduction of the iap gene product.     

pAM401-Based Shuttle Vectors That Enable Overexpression of Promoterless Genes and One-Step Purification of Tag Fusion Proteins Directly from Enterococcus faecalis

Two novel Enterococcus faecalis-Escherichia coli shuttle vectors that utilize the promoter and ribosome binding site of bacA on the E. faecalis plasmid pPD1 were constructed. The vectors were named pMGS100 and pMGS101. pMGS100 was designed to overexpress cloned genes in E. coli and E. faecalis and encodes the bacA promoter followed by a cloning site and stop codon. pMGS101 was designed for the overexpression and purification of a cloned protein fused to a Strep-tag consisting of 9 amino acids at the carboxyl terminus. The Strep-tag provides the cloned protein with an affinity to immobilized streptavidin that facilitates protein purification. We cloned a promoterless β-galactosidase gene from E. coli and cloned the traA gene of the E. faecalis plasmid pAD1 into the vectors to test gene expression and protein purification, respectively. β-Galactosidase was expressed in E. coli and E. faecalis at levels of 10³ and 10 Miller units, respectively. By cloning the pAD1 traA into pMGS101, the protein could be purified directly from a crude lysate of E. faecalis or E. coli with an immobilized streptavidin matrix by one-step affinity chromatography. The ability of TraA to bind DNA was demonstrated by the DNA-associated protein tag affinity chromatography method using lysates prepared from both E. coli and E. faecalis that overexpress TraA. The results demonstrated the usefulness of the vectors for the overexpression and cis/trans analysis of regulatory genes, purification and copurification of proteins from E. faecalis, DNA binding analysis, determination of translation initiation site, and other applications that require proteins purified from E. faecalis.     

Escherichia coli strains that allow antibiotic-free plasmid selection and maintenance by repressor titration

We report the construction of two novel Escherichia coli strains (DH1lacdapD and DH1lacP2dapD) that facilitate the antibiotic-free selection and stable maintenance of recombinant plasmids in complex media. They contain the essential chromosomal gene, dapD, under the control of the lac operator/promoter. Unless supplemented with IPTG (which induces expression of dapD) or DAP, these cells lyse. However, when the strains are transformed with a multicopy plasmid containing the lac operator, the operator competitively titrates the LacI repressor and allows expression of dapD from the lac promoter. Thus transformants can be isolated and propagated simply by their ability to grow on any medium by repressor titration selection. No antibiotic resistance genes or other protein expressing sequences are required on the plasmid, and antibiotics are not necessary for plasmid selection, making these strains a valuable tool for therapeutic DNA and recombinant protein production. We describe the construction of these strains and demonstrate plasmid selection and maintenance by repressor titration, using the new pORT plasmid vectors designed to facilitate recombinant DNA exploitation.     

Expression,purification, phosphorylation and characterization of recombinant human statherin

This work reports the successful recombinant expression of human statherin in Escherichia coli, its purification and in vitro phosphorylation. Human statherin is a 43-residue peptide, secreted by parotid and submandibular glands and phosphorylated on serine 2 and 3. The codon-optimized statherin gene was synthesized and cloned into commercial pTYB11 plasmid to allow expression of statherin as a fusion protein with intein containing a chitin-binding domain. The plasmid was transformed into E. coli strains and cultured in Luria–Bertani medium, which gave productivity of soluble statherin fusion protein of up to 47 mg per liter of cell culture, while 112 mg of fusion protein were in the form of inclusion bodies. No significant refolded target protein was obtained from inclusion bodies. The amount of r-h-statherin purified by RP–HPLC corresponded to 0.6 mg per liter of cell culture. Attenuated total reflection-Fourier transform infrared spectroscopy experiments performed on human statherin isolated from saliva and r-h-statherin assessed the correct folding of the recombinant peptide. Recombinant statherin was transformed into the diphosphorylated biologically active form by in vitro phosphorylation using the Golgi-enriched fraction of pig parotid gland containing the Golgi-casein kinase.     

Use of bacilli for overproduction of exocellular endo-β-1,4-glucanase encoded by cloned gene

A Bacillus subtilis endo-β-1,4-glucanase gene contained in a recombinant plasmid pBS1 was transferred into a new shuttle vector plasmid pCK98 by ligating linearized DNAs of pBS1 and pUB110. B. subtilis RM125 and B. megaterium transformed with pCK98 produced the glucanase substantially and excreted into the medium. Most of the enzyme was produced during the exponential growth period and the production was not repressed by glucose or cellobiose. The plasmid was stable in B. megaterium but not in B. subtilis.     

Use of the tna Operon as a New Molecular Target for Escherichia coli Detection

A quantitative real-time PCR targeting the tnaA gene was studied to detect Escherichia coli and distinguish E. coli from Shigella spp. These microorganisms revealed high similarity in the molecular organization of the tna operon.     

Occurrence of pS86/pEF47-Related Plasmids in Gram-Positive Cocci

A small, low-copy-number cryptic 5.5-kb plasmid, designated pEF47, was isolated from a rumen bacterium Enterococcus faecalis 47 and partially characterized. Comparisons by restriction and partial sequence analysis of pEF47 demonstrated high homology to pS86 plasmid, recently isolated from a human clinical strain E. faecalis S-86. PCR followed by sequence analysis and Southern hybridization showed that pS86/pEF47-related replicons are regularly encountered in plasmids from Gram-positive cocci.     

High-level production of recombinant glutamic acid-specific protease from Bacilllus licheniformis in Bacillus subtilis expression system

To obtain large quantities of glutamic acid-specific protease isolated originally from Bacillus licheniformis (BLase), an expression plasmid was constructed by inserting the BLase gene into a plasmid vector (pUB110) for Bacillus subtilis. B. subtilis strain ISW1214 harboring the resultant recombinant plasmid containing the coding and 5′-promoter and 3′-terminator regions of BLase gene secreted approximately 0.25 g/l of BLase in a culture medium contained in a 90-l jar fermentor, corresponding to nearly 10 times the natural production level and resulting in a stable large-scale production. The amount of BLase in the culture medium accounted for roughly 60% of the total extracellular proteins secreted from the recombinant strain, simplifying enzyme purification.     

The Tryptophanase Gene Cluster of Haemophilus influenzae Type b: Evidence for Horizontal Gene Transfer

Among strains of Haemophilus influenzae, the ability to catabolize tryptophan (as detected by indole production) varies and is correlated with pathogenicity. Tryptophan catabolism is widespread (70 to 75%) among harmless respiratory isolates but is nearly universal (94 to 100%) among strains causing serious disease, including meningitis. As a first step in investigating the relationship between tryptophan catabolism and virulence, we have identified genes in pathogenic H. influenzae which are homologous to the tryptophanase (tna) operon of Escherichia coli. The tna genes are located on a 3.1-kb fragment between nlpD and mutS in the H. influenzae type b (Eagan) genome, are flanked by 43-bp direct repeats of an uptake signal sequence downstream from nlpD, and appear to have been inserted as a mobile unit within this sequence. The organization of this insertion is reminiscent of pathogenicity islands. The tna cluster is found at the same map location in all indole-positive strains of H. influenzae surveyed and is absent from reference type d and e genomes. In contrast to H. influenzae, most other Haemophilus species lack tna genes. Phylogenetic comparisons suggest that the tna cluster was acquired by intergeneric lateral transfer, either by H. influenzae or a recent ancestor, and that E. coli may have acquired its tnaA gene from a related source. Genomes of virulent H. influenzae resemble those of pathogenic enterics in having an island of laterally transferred DNA next to mutS.     

Transfer of the Pheromone-Inducible Plasmid pCF10 among Enterococcus faecalis Microorganisms Colonizing the Intestine of Mini-Pigs

A new animal model, the streptomycin-treated mini-pig, was developed in order to allow colonization of defined strains of Enterococcus faecalis in numbers sufficient to study plasmid transfer. Transfer of the pheromone-inducible pCF10 plasmid between streptomycin-resistant strains of E. faecalis OG1 was investigated in the model. The plasmid encodes resistance to tetracycline. Numbers of recipient, donor, and transconjugant bacteria were monitored by selective plating of fecal samples, and transconjugants were subsequently verified by PCR. After being ingested by the mini-pigs, the recipient strain persisted in the intestine at levels between 10⁶ and 10⁷ CFU per g of feces throughout the experiment. The donor strain, which carried different resistance markers but was otherwise chromosomally isogenic to the recipient strain, was given to the pigs 3 weeks after the recipient strain. The donor cells were initially present in high numbers (10⁶ CFU per g) in feces, but they did not persist in the intestine at detectable levels. Immediately after introduction of the donor bacteria, transconjugant cells appeared and persisted in fecal samples at levels between 10³ and 10⁴ CFU per g until the end of the experiment. These observations showed that even in the absence of selective tetracycline pressure, plasmid pCF10 was transferred from ingested E. faecalis cells to other E. faecalis organisms already present in the intestinal environment and that the plasmid subsequently persisted in the intestine.     

Cloning, expression and characterization of l-aspartate β-decarboxylase gene from Alcaligenes faecalis CCRC 11585

l -Aspartate β-decarboxylase (Asd) is an important enzyme to produce l-alanine and d-aspartate. The genomic library of Alcaligenes faecalis CCRC 11585 was cloned into pBK-CMV and transformed into Escherichia coli. One clone, which carried the asd gene and expressed Asd activity, was isolated and chosen for further study. PBK-asdAE1 was subcloned and its sequence analysis revealed an open reading frame, consisting of 1599 bp, that encodes a 533-amino-acid polypeptide. The nucleotide sequence of the asd gene from A. faecalis CCRC 11585 (asdA) showed 84% identity with that from Pseudomonas dacunhae CCRC 12623, and the amino acid sequence showed 93% identity. The amino acid sequence of the AsdA showed 51–58% homology with various aminotransferases. Alignment of the AsdA with several aspartate or tyrosine aminotransferases revealed 17 conserved amino acids that appeared in most of the conserved amino acid residues within the pyridoxal-5′-phosphate (PLP) binding domains of aminotransferases. Furthermore, the asdA gene was cloned into expression vector pET-21a and transformed into E. coli BL21(DE3). A protein band sized at 61 kDa is present on the SDS-PAGE gel from the intracellular soluble form of E. coli BL21(DE3)/pET-asdA. The specific activities of the pET-AsdA purified by using His-Bind chromatography is 215 U/mg at 45°C and pH 5.0, which is 1000-fold higher than that of the A. faecalis crude extract. This is the first report of an asdA gene sequence from A. faecalis and represents the potential application of a recombinant AsdA for production of l-alanine or d-aspartic acid. Journal of Industrial Microbiology & Biotechnology (2000) 25, 132–140. Received 02 November 1999/ Accepted in revised form 23 June 2000     

A new way of stabilizing recombinant plasmids

A new method to stabilize recombinant plasmids extremely well was exploited using Escherichia coli Tna (trpAEI trpR tnaA) and pSC101trpI15-14 (tetracycline resistance, whole trp operon) as a model system. We mutagenized the Tna strain carrying pSC101trpI15-14 and isolated a mutant 6F484 that stably maintained the recombinant plasmid for 100 generations. From 6F484, plasmid-free cells (tetracycline sensitive) were screened for on selective agar plates containing fusaric acid. The host strain FA14 was found to have lost the ability for active transport of tryptophan, in addition to the phenotype of Trp⁻. Therefore, strain FA14 could not grow normally even in a complete medium. However, when the strain was transformed with the trp operon recombinant plasmid, its growth rate was almost restored to the original level. These results suggest that the recombinant plasmid is indispensable for the normal growth of host cells like FA14. Even if plasmid-free segregants appear during the cultivation, they cannot grow so rapidly and are diluted as a minority in total population. Consequently, owing to the deficiency of both the biosynthesis and uptake of tryptophan in host strain, the trp operun recombinant plasmid can be stably maintained.     

A host-vector system for gene cloning in the cyanobacterium Anacystis nidulans R2

We describe the construction of a series of vectors suitable for gene cloning in the Cyanobacterium Anacystis nidulans R2. From the indigenous plasmid pUH24, derivatives were constructed with streptomycin as the selective marker; one of these plasmids was used to construct pUC303, a shuttle vector capable of replication in A. nidulans R2 as well as in Escherichia coli K12. It has two markers, streptomycin and chloramphenicol resistance, and three unique restriction sites. Instability of recombinant plasmids was overcome by using a derivative of A. nidulans R2 cured of the indigenous plasmid pUH24. This strain, R2-SPc, can be transformed stably and at high frequency by the plasmids described in this paper. The combination of the cured strain R2-SPc and the new plasmid pUC303 serves as a suitable host-vector system for gene cloning in cyanobacteria.