Nucleotide sequence of the thermostable direct hemolysin gene of Vibrio parahaemolyticus.

The gene encoding the thermostable direct hemolysin of Vibrio parahaemolyticus was characterized. This gene (designated tdh) was subcloned into pBR322 in Escherichia coli, and the functional tdh gene was localized to a 1.3-kilobase HindIII fragment. This fragment was sequenced, and the structural gene was found to encode a mature protein of 165 amino acid residues. The mature protein sequence was preceded by a putative signal peptide sequence of 24 amino acids. A putative tdh promoter, determined by its similarity to concensus sequences, was not functional in E. coli. However, a promoter that was functional in E. coli was shown to exist further upstream by use of a promoter probe plasmid. A 5.7-kilobase SalI fragment containing the structural gene and both potential promoters was cloned into a broad-host-range plasmid and mobilized into a Kanagawa phenomenon-negative V. parahaemolyticus strain. In contrast to E. coli, where the hemolysin was detected only in cell lysates, introduction of the cloned gene into V. parahaemolyticus resulted in the production of extracellular hemolysin.     

Molecular cloning and characterization of the HmrM multidrug efflux pump from Haemophilus influenzae Rd

We cloned a gene responsible for norfloxacin resistance from the chromosomal DNA of Haemophilus influenzae Rd, and designated the gene as hmrM. HmrM showed sequence similarity with NorM of Vibrio parahaemolyticus and YdhE of Escherichia coli and others that belong to the MATE family multidrug efflux pumps. The recombinant plasmid carrying the hmrM gene conferred elevated resistance not only to norfloxacin but also to acriflavine, 4 ', 6-diamidino-2-phenylindole, doxorubicin, ethidium bromide, tetraphenylphosphonium chloride, Hoechst 33342, daunomycin, berberine, and sodium deoxycholate in Escherichia coli KAM32, a drug-hypersensitive strain. We observed an Na+-dependent efflux of ethidium and an ethidium-induced efflux of Na+ in E. coli KAM32 cells harboring the plasmid carrying the hmrM gene. These results indicate that HmrM is an Na+/drug antiporter-type multidrug efflux pump. A difference in substrate preference was observed between HmrM, NorM, and YdhE.     

Catabolite repression of the H(+)-translocating ATPase in Vibrio parahaemolyticus.

Cells of Vibrio parahaemolyticus grown in the presence of glucose showed reduced (by about 40%) oxidative phosphorylation. With this observation as a basis, we examined the effect of glucose on the level of H(+)-translocating ATPase. The addition of glucose to the growth medium reduced the specific activity and the amount of the H(+)-translocating ATPase in membrane vesicles of V. parahaemolyticus. These reductions were reversed by adding cyclic AMP (cAMP) to the growth medium. We cloned some parts of the unc genes encoding subunits of the H(+)-translocating ATPase of V. parahaemolyticus by means of the polymerase chain reaction. Using an amplified DNA fragment, we carried out Northern (RNA) blot analysis and found that glucose reduced the mRNA level of the H(+)-translocating ATPase gene by about 40% and that cAMP restored it. We determined the DNA sequence of the unc promoter region of V. parahaemolyticus and found a consensus sequence for the cAMP receptor protein-cAMP-binding site. Such a sequence was also found in the promoter region of the unc operon of Vibrio alginolyticus but not in its counterpart in Escherichia coli. We observed a similar reduction in the level of ATPase due to glucose in V. alginolyticus. In E. coli, however, reductions in the ATPase and the unc mRNA levels were not observed. Thus, the unc operon is controlled by cAMP-regulated catabolite repression in V. parahaemolyticus and V. alginolyticus but not in E. coli. Catabolite repression of the unc operon in V. parahaemolyticus is not severe.     

Sequence analysis of nutA gene encoding membrane-bound Cl(-)-dependent 5'-nucleotidase of Vibrio parahaemolyticus

The membrane-bound 5'-nucleotidase of Vibrio parahaemolyticus is unique in requiring Cl- for activity. We cloned the nutA gene encoding the 5'-nucleotidase and sequenced it. It contained an open reading frame consisting of 1,680 nucleotides capable of encoding a protein of 560 amino acid residues. The first 21 amino acid residues of the N-terminal portion of this protein seem to be a signal peptide. The rest of the polypeptide (539 residues) is hydrophilic, and its molecular weight was calculated to be 60,008, which is in good agreement with the value of 63 kDa determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis for the 5'-nucleotidase derived from the cloned nutA gene. We tried to determine the amino acid sequence of the N-terminal portion of the purified enzyme. However, the N-terminal residue seemed to be blocked. As this 5'-nucleotidase can be solubilized from membrane vesicles with detergent, it may be a lipoprotein. The amino acid sequence around the possible cleavage site of the 5'-nucleotidase had homology with the sequences of the cleavage sites of the lipoproteins of Escherichia coli and other bacteria. The amino acid sequence had high (about 60%) homology with the sequence of periplasmic 5'-nucleotidase (uridine diphosphate sugar hydrolase, the product of the ushA gene) of E. coli. It also contained regions that showed some homology with the nucleotide binding sites of many nucleotide binding proteins.     

Iron-regulated outer membrane protein OM2 of Vibrio anguillarum is encoded by virulence plasmid pJM1.

Vibrio anguillarum 775 harboring the virulence plasmid pJM1 synthesized an outer membrane protein of 86 kilodaltons, OM2, that was inducible under conditions of iron limitation. pJM1 DNA fragments obtained by digestion with restriction endonucleases were cloned into cosmid vectors and transferred into Escherichia coli. The OM2 protein was synthesized in E. coli, demonstrating that it is actually encoded by the pJM1 plasmid. Mobilization of the recombinant plasmids to V. anguillarum was accomplished by using the transfer factor pRK2013. A V. anguillarum exconjugant harboring the recombinant derivative pJHC-T7 and synthesizing the OM2 protein took up 55Fe3+ and grew under iron-limiting conditions, only in presence of the pJM1-mediated siderophore. Exconjugants harboring recombinant plasmids, such as pJHC-T2 which did not encode the OM2 protein, were transport negative. Membrane protein iodination experiments, together with protease treatment of whole cells, indicated that the OM2 protein is exposed to the outside environment of the V. anguillarum cells.     

Generation of various amino acids mutants in the trpR gene of Escherichia coli by site-directed mutagenesis

Tryptophan repressor (trpR) gene lacks various amino acid codons. To establish these codons in the trpR gene, we created the mutants by site-directed mutagenesis in the trpR gene of pHK1 plasmid. The interested regions of trpR gene were amplified, cloned in pT7-5 plasmid and transformed in to the cells harboring pGP1-2 plasmid. These plasmid products were labeled with (35)S Met, and following sequencing we observed the presence of mutants for cysteine, glycine, serine and lysine in the trpR gene of E. coli. Therefore, using these approach mutants in various genes of E. coli could be established and used as a tool to study translational bypassing in trpR gene of E. coli.     

A major Li(+) extrusion system NhaB of Pseudomonas aeruginosa : comparison with the major Na(+) extrusion system NhaP

A gene encoding a Li(+) extrusion system was cloned from the chromosomal DNA of Pseudomonas aeruginosa and expressed in Escherichia coli cells. The gene enabled growth of E. coli KNabc cells, which were unable to grow in the presence of 10 mM LiCl or 0.1 M NaCl because of the lack of major Na(+) (Li(+))/H(+) antiporters. We detected Li(+)/H(+) and Na(+)/H(+) antiport activities in membrane vesicles prepared from E. coli KNabc cells that harbored a plasmid carrying the cloned gene. Activity of this antiporter was pH-dependent with an optimal pH activity between pH 7.5 and 8.5. These properties indicate that this antiporter is different from NhaP, an Na(+)/H(+) antiporter from P. aeruginosa that we reported previously, and that is rather specific to Na(+) but it cannot extrude Li(+) effectively. The gene was sequenced and an open reading frame (ORF) was identified. The amino acid sequence deduced from the ORF showed homology (about 60% identity and 90% similarity) with that of the NhaB Na(+)/H(+) antiporters of E. coli and Vibrio parahaemolyticus. Thus, we designated the antiporter as NhaB of P. aeruginosa. E. coli KNabc carrying the nhaB gene from P. aeruginosa was able to grow in the presence of 10 to 50 mM LiCl, although KNabc carrying nhaP was unable to grow in these conditions. The antiport activity of NhaB from P. aeruginosa was produced in E. coli and showed apparent Km values for Li(+) and Na(+) of 2.0 mM and 1.3 mM, respectively. The antiport activity was inhibited by amiloride with a Ki value for Li(+) and Na(+) of 0.03 mM and 0.04 mM, respectively.     

哈氏弧菌dam基因的克隆与分析

利用兼并PCR的方法克隆得到哈氏弧菌T4的DNA腺嘌呤甲基化酶(dam)基因,序列分析表明该基因编码279个氨基酸,与其它已知弧菌的Dam具有较高的同源性,其中与副溶血弧菌Dam的相同性达95%。功能检验表明所克隆的dam基因在大肠杆菌中具有DNA腺嘌呤甲基化酶活性,能够甲基化大肠杆菌染色体DNA GATC序列中的腺嘌呤。运用染色体步移法获得dam基因上游的3251 bp DNA,发现该区域含有3个基因,其与dam在染色体上的相对排列顺序为:莽草酸激酶-脱氢奎尼酸合成酶-damX-dam。对dam上游DNA序列研究发现位于翻译起点ATG上游的78bp、112bp和477bpDNA片段皆具有启动子活性,但前者的活性明显高于后二者。     

副溶血性弧菌基因敲除方法的建立及应用

目的摸索出一套副溶血性弧菌基因敲除的可靠方案,副溶血性弧菌致病相关基因的敲除对深入研究其致病机制有重要意义。方法通过融合PCR技术将目的基因上下游同源臂融合并克隆到自杀载体pDS132上,将重组质粒转化大肠杆菌S17λpir中,再接合转移到副溶血性弧菌菌株内,经pDS132质粒上sacB基因的反向筛选得到突变株。结果成功构建了副溶血性弧菌RIMD2210633菌株ΔopaR,ΔtoxR和ΔaphA三个基因突变株。结论通过自杀载体同源重组成功获得精确敲除的无痕突变株更有利于基因功能的研究,使后续副溶血性弧菌突变株与野生株的对比研究成为可能。     

Mass production of human epidermal growth factor using fed-batch cultures of recombinant Escherichia coli

Fed-batch cultures of recombinant E. coli HB101 harboring expression plasmid pTRLBT1 or pTREBT1, with acetate concentration monitoring, are investigated to obtain high cell density and large amounts of human epidermal growth factor (hEGF). The expression plasmid pTRlBT1 contains a synthetic hEGF gene attached downstream of the N-terminal fragment of the trp L gene preceded by the trp promoter. The expression plasmid pTREBT1 contains the same coding sequence attached downstream of the N-terminal fragment of the trp E gene preceded by the trp promoter, trp L gene, and attenuator region. E. coli harboring pTREBT1 produces 0.56 mg/L hEGE and immediately degrades it. On the other hand E. coli harboring pTRLBT1 produces 6.8 mg/L hEGF and does not decompose it. Prominent inclusion bodies are observed in E. coli cells harboring pTRLBT1 using an election microscope. To Cultivate E. coli harboring pTRLBT1, a fed-batch culture system, divided into a cell growth step and an hEGF production step, is carried out. The cells grow smoothly without acetate-induced inhibition. Cell concentration and hEGF quantity reach the high values of 21 g/L and 60 mg/L, respectively.     

Integration of the overproduced bacteriophage T5 receptor protein in the outer membrane of Escherichia coli

The tonA gene codes for an outer membrane protein, a receptor of phage T5, the TonA protein. Strains harboring pLG513, a multicopy plasmid in which the tonA gene has been cloned, overproduced TonA protein, which appeared in sodium dodecyl sulfate-polyacrylamide gel electrophoresis of cell envelope proteins as a 78,000-molecular-weight protein. Identical results have been observed by Plastow et al. (FEBS Lett. 131:262-264, 1981) with plasmid pLC19-19, in which the tonA gene has also been cloned. The activity of the TonA protein, measured by its capacity to inactivate phage T5, increased by five- to sixfold in purified envelopes of cells harboring pLG513 compared with cells lacking the plasmid. Solubilization of the cytoplasmic membrane by Triton-Mg2+ treatment did not increase this activity. However, partial solubilization of outer membrane proteins by Triton-EDTA unmasked further T5 receptor activity, resulting in a final increase of around 50-fold, a value more consistent with the expected gene dosage effect. Treatment of whole cells by trypsin in conditions in which trypsin is allowed to enter the outer membrane revealed that part of the overproduced T5 receptors were embedded in the outer membrane and masked by a trypsin-sensitive protein. In addition, no T5 receptor activity was detected in either the periplasmic space or the cytoplasm. These results suggest that all of the overproduced TonA molecules were synthesized in an active form and integrated in the outer membrane, but only a small fraction could be reached or recognized by phage T5 in vivo.     

Shuttle cloning vectors for the marine bacterium Vibrio parahaemolyticus.

Two cosmid cloning vectors containing lambda cos sequences and a 42-base-pair multipurpose cloning sequence were constructed. pAD22 also contains a 1.4-kilobase TRP-ARS fragment from Saccharomyces cerevisiae. These cosmids transformed Escherichia coli and S. cerevisiae cells and could be mobilized into Vibrio parahaemolyticus strains with a conjugative plasmid, pRK2013. The cosmid pAD22 was genetically and structurally stable during passage through V. parahaemolyticus and E. coli strains.     

The isolation of endosome-derived vesicles from rat hepatocytes.

Intracellular 5'-nucleotidase involved in membrane circulation in rat hepatocytes is latent, and is protected from inhibition when whole cells are incubated with inhibiting antiserum at 2 degrees C [Stanley, Edwards & Luzio (1980) Biochem. J. 186, 59-69]. These two criteria were used to identify intracellular membrane vesicles containing 5'-nucleotidase on Ficoll density gradients. A sharply defined turbid band containing intracellular 5'-nucleotidase isolated on density gradients was further fractionated by immunoadsorption of plasma-membrane fragments derived from the cell surface of surface-inhibited cells on to an anti-(immunoglobulin G) immunoadsorbent. The resulting non-adsorbed membrane fraction consisted of vesicles of uniform size (approx. 65 nm diam.), but was not identifiable as any known organelle. This fraction could account for approx. 5% of the total cell 5'-nucleotidase activity, and the enzyme activity measured was 55% latent. The fraction had a restricted polypeptide composition but similar phospholipid composition compared with plasma membrane. We suggest that the vesicles observed in this fraction were derived from the endocytic pathway.     

Effect of Mg(2+) ion in protein secretion by magnesium-resistant strains of Pseudomonas aeruginosa and Vibrio parahaemolyticus isolated from the coastal water of Haldia port

A rapidly growing industrial complex including oil refineries and chemical industries has developed around the coastal area of Haldia port in the district of Midnapore, West Bengal, India. The coastal water is highly polluted with industrial wastes along with petroleum hydrocarbons. The bacteria isolated from the different sites of the coastal waters were Escherichia coli, Alcaligenes, Acinetobacter, Klebsiella spp., Micrococcus spp., Vibrio spp., Pseudomonas aeruginosa and Vibrio parahaemolyticus. The salinity of the water during the time of collection of samples around the port area was 8. 2 ppt. Among the isolated organisms, only two isolates, P. aeruginosa and V. parahaemolyticus, showed growth at 300 mM Mg(2+) ion concentration. However, a 3 mM Mg(2+) concentration was detected in the coastal water whereas other metal ion concentrations were less than 3x10(-5) mM. Resistance to Mg(2+) (300 mM) was determined by a 5.5-kb plasmid. A large amount of a 40-kDa outer membrane protein, which was highly soluble in 1 M MgCl(2), was isolated from both V. parahaemolyticus and P. aeruginosa. The secretion of proteins in the culture supernatant of V. parahaemolyticus was highly increased when the cells were grown in the presence of 300 mM Mg(2+), whereas very low secretion was observed in the same concentration of Mg(2+) in the case of P. aeruginosa. Mg(2+) may act as a specific release factor in protein secretion by V. parahaemolyticus strains.     

Biological role of DNA methylation: sequence-specific single-strand breaks associated with hypomethylation of GATC sites in Escherichia coli DNA.

The effect of methylation of GATC sites in Escherichia coli DNA on the formation of single-strand breaks was studied with dam+, dam mutant, and Dam-overproducer strains. Single-strand breaks have been observed in dam mutant cells predominantly at TpT and, to a lesser extent, at CpC. In dam mutant cells harboring pTP166 (a plasmid containing the dam gene), no such nicks were observed.     

Cloning the Gene for the Malolactic Fermentation of Wine from Lactobacillus delbrueckii in Escherichia coli and Yeasts

The gene responsible for the malolactic fermentation of wine was cloned from the bacterium Lactobacillus delbrueckii into Escherichia coli and the yeast Saccharomyces cerevisiae. This gene codes for the malolactic enzyme which catalyzes the conversion of l-malate to l-lactate. A genetically engineered yeast strain with this enzymatic capability would be of considerable value to winemakers. L. delbrueckii DNA was cloned in E. coli on the plasmid pBR322, and two E. coll clones able to convert l-malate to l-lactate were selected. Both clones contained the same 5-kilobase segment of L. delbrueckii DNA. The DNA segment was transferred to E. coli-yeast shuttle vectors, and gene expression was analyzed in both hosts by using enzymatic assays for l-lactate and l-malate. When grown nonaerobically for 5 days, E. coli cells harboring the malolactic gene converted about 10% of the l-malate in the medium to l-lactate. The best expression in S. cerevisiae was attained by transfer of the gene to a shuttle vector containing both a yeast 2-mum plasmid and yeast chromosomal origin of DNA replication. When yeast cells harboring this plasmid were grown nonaerobically for 5 days, ca. 1.0% of the l-malate present in the medium was converted to l-lactate. The L. delbrueckii controls grown under these same conditions converted about 25%. A laboratory yeast strain containing the cloned malolactic gene was used to make wine in a trial fermentation, and about 1.5% of the l-malate in the grape must was converted to l-lactate. Increased expression of the malolactic gene in wine yeast will be required for its use in winemaking. This will require an increased understanding of the factors governing the expression of this gene in yeasts.     

The cobalt, zinc, and cadmium efflux system CzcABC from Alcaligenes eutrophus functions as a cation-proton antiporter in Escherichia coli.

The function of the CzcABC protein complex, which mediates resistance to Co2+, Zn2+, and Cd2+ in Alcaligenes eutrophus by cation efflux, was investigated by using everted membrane vesicles of Escherichia coli and an acridine orange fluorescence quenching assay. Since metal cation uptake could not be measured with inside-out membrane vesicles prepared from A. eutrophus and since available E. coli strains did not express the Czc-mediated resistance to cobalt, zinc, and cadmium salts, mutants of E. coli which exhibited a Czc-dependent increase in heavy metal resistance were isolated. E. coli mutant strain EC351 constitutively accumulated Co2+, Zn2+, and Cd2+. In the presence of Czc, net uptake of these heavy metal cations was reduced to the wild-type level. Inside-out vesicles prepared from E. coli EC351 cells displayed a Czc-dependent uptake of Co2+, Zn2+, and Cd2+ and a cation-triggered acridine orange fluorescence increase. The czc-encoded protein complex CzcABC was shown to be a zinc-proton antiporter.     

Two novel bacterial biosensors for detection of nitrate availability in the rhizosphere

The nitrate-regulated promoter of narG in Escherichia coli was fused to promoterless ice nucleation (inaZ) and green fluorescent protein (GFP) reporter genes to yield the nitrate-responsive gene fusions in plasmids pNice and pNgfp, respectively. While the promoter of narG is normally nitrate responsive only under anaerobic conditions, the L28H-fnr gene was provided in trans to enable nitrate-dependent expression of these reporter gene fusions even under aerobic conditions in both E. coli DH5alpha and Enterobacter cloacae EcCT501R. E. cloacae and E. coli cells containing the fusion plasmid pNice exhibited more than 100-fold-higher ice nucleation activity in cultures amended with 10 mM sodium nitrate than in nitrate-free media. The GFP fluorescence of E. cloacae cells harboring pNgfp was uniform at a given concentration of nitrate and increased about 1,000-fold when nitrate increased from 0 to 1 mM. Measurable induction of ice nucleation in E. cloacae EcCT501R harboring pNice occurred at nitrate concentrations of as low as 0.1 microM, while GFP fluorescence was detected in cells harboring pNgfp at about 10 microM. In the rhizosphere of wild oat (Avena fatua), the whole-cell bioreporter E.cloacae(pNgfp) or E. cloacae(pNice) expressed significantly higher GFP fluorescence or ice nucleation activity when the plants were grown in natural soils amended with nitrate than in unamended natural soils. Significantly lower nitrate abundance was detected by the E. cloacae(pNgfp) reporter in the A. fatua rhizosphere compared to in bulk soil, indicating plant competition for nitrate. Ice- and GFP-based bacterial sensors thus are useful for estimating nitrate availability in relevant microbial niches in natural environments.     

Sequence of a cloned pR72H fragment and its use for detection of Vibrio parahaemolyticus in shellfish with the PCR.

The nucleotide sequence of pR72H cloned from Vibrio parahaemolyticus 93 was determined. We examined all V. parahaemolyticus gene sequences published in the GenBank-EMBL databases for homology and found that no other DNA sequence of V. parahaemolyticus was highly homologous to the sequence reported in this study. A pair of primers, VP33-VP32, derived from a pR72H fragment were selected to detect V. parahaemolyticus. The sensitivity of PCR detection for a pure culture of V. parahaemolyticus was 10 cells from crude bacterial lysates. Furthermore, a detection level of 2.6 fg, equivalent to 1 cell, was obtained by using purified chromosomal DNA as the template. The expected PCR products were obtained from all V. parahaemolyticus strains tested (n = 124), while no PCR amplicons were found in other vibrios or related genera (n = 50). High levels (10(6) to 10(10) CFU/ml) of Escherichia coli cells did not affect the PCR assay sensitivity. The presence of 10(8) V. parahaemolyticus cells or 10(9) E. coli cells in the PCR mixtures completely inhibited the PCR. When oyster samples were inoculated with V. parahaemolyticus 93 and cultured in tryptic soy broth containing 3% NaCl for 3 h at 35 degrees C, an initial sample inoculum level of 9.3 CFU/g was detected in a PCR assay with crude bacterial lysates. The PCR assay with enrichment culturing in salt polymyxin broth was compared with the conventional method for naturally contaminated shellfish and fish samples. We conclude that this PCR assay with enrichment culturing is a good alternative method for the detection of V. parahaemolyticus.