普通Taq DNA聚合酶扩增幽门螺杆菌尿素酶基因长片段

ＰＣＲ反应扩增较长的ＤＮＡ片段比较困难。本实验对幽门螺杆菌染色体ＤＮＡ上的２７Ｋｂ尿素酶基因用普通ＴａｑＤＮＡ聚合酶进行扩增,扩增结果以琼脂糖凝胶电泳证实,得到所需的２７Ｋｂ的片段。该实验为今后幽门螺杆菌工作的进一步研究提供了经济,有效,简捷的条件。     

Kinetic properties of Helicobacter pylori urease compared with jack bean urease

The urease proteins of the jack bean (Canavalia ensiformis) and Helicobacter pylori are similar in molecular mass when separated by non-denaturing gradient polyacrylamide gel electrophoresis, both having three main forms. The molecular mass of their major protein form is within the range 440-480 kDa with the other two lesser forms at 230-260 kDa and 660-740 kDa. These forms are all urease active; however, significant kinetic differences exist between the H. pylori and jack bean ureases. Jack bean urease has a single pH optimum at 7.4, whereas H. pylori urease has two pH optima of 4.6 and 8.2 in barbitone and phosphate buffers that were capable of spanning the pH range 3 to 10. The H. pylori Km was 0.6 mM at pH 4.6 and 1.0 mM at pH 8.2 in barbitone buffer, greater than 10.0 mM, and 1.1 mM respectively in phosphate buffer and also greater than 10.0 mM in Tris.HCl at pH 8.2. By comparison, the jack bean urease had a Km of 1.3 mM in Tris.HCl under our experimental conditions. The findings show that the urease activity of H. pylori was inhibited at the pH optimum of 4.6 in the phosphate buffer, but not in the barbitone buffer. This was shown to be due to competitive inhibition by the sodium and potassium ions in the phosphate buffer, not the phosphate ions as suggested earlier. Jack bean urease activity was similarly inhibited by phosphate buffer but again due to the effect of sodium and potassium ions.     

Mutational analysis of the embryo-specific urease locus of soybean

Summary By a non-destructive urease screen of M₂ soybean (Glycine max [L.] Merr. cv. Williams) seeds, four truebreeding mutants (n4, n6, n7 and n8) were recovered which lack most (n6, n8) or all (n4, n7) embryo-specific urease activity. This trait was due to a single, recessive lesion at the Sun (seed urease-null) locus identified earlier in an exotic germplasm (PI 229324, Itachi). All sun mutants produced normal ubiquitous urease, the low abundance isozyme found in all soybean tissues examined. Tight mutants n4 and n7 accumulated no detectable embryo-specific urease protein or mRNA; n6 and n8 accumulated normal or near normal levels of urease mRNA but had seed urease protein levels approximately 5% and 0.5%, respectively, of the progenitor. Mutant n8 appeared to produce a low level of fully active urease (approximately 0.7% activity level, approximately 0.5% protein level) while n6 produced a higher level of an altered, nearly inactive urease (0.09% activity level, approximately 5% protein level). Urease alterations in n6 were manifested by its increased temperature sensitivity and variation in aggregation state and pH preference. Thus, mutations in the Sun locus affected both the level and the nature of the embryo-specific urease gene products indicating that Sun encodes the embryo-specific urease. We reported earliet that the Eul locus, which controls the aggregation state of the embryo-specific urease, is one map unit from Sun and that the Eul allele cis to sun is not expressed (Kloth et al. 1987). That the level of urease gene product, its aggregation state and other enzyme properties can be affected by induced sun mutations, suggests that the Eul and sun alleles are at the same locus.Abbreviations ME -mercaptoethanol - NMU N-nitroso-N-methyl urea - TM Tris-maleate     

Pleiotropic soybean mutants defective in both urease isozymes

Summary Two new soybean [Glycine max (L.) Merr. cv. Williams] loci, designated Eu2 and Eu3, were identified in which ethyl methanesulfonate (EMS)-induced mutation eliminated urease activity. These loci showed no linkage to each other or to the Sun-Eul locus described in the accompanying paper (Meyer-Bothling and Polacco 1987). Unlike sun (seed urease-null) mutations those at Eu2 and Eu3 affected both urease isozymes: the embryo-specific (seed) and the ubiquitous (leaf) urease. The eu2/eu2 mutant had no leaf activity and 0.6% normal seed activity. Two mutant Eu3 alleles were recovered, eu3-e1 and Eu3-e3. The eu3-e1/eu3-e1 genotype lacked both activities while Eu3-e3/Eu3-e3 had coordinately reduced leaf (0.1%) and seed (0.1%) activities. Only the Eu3-e3 mutation showed partial dominance, yielding about 5%–10% normal activity for each urease in the heterozygous state. Each homozygous mutant contained normal levels of embryo-specific urease mRNA and protein subunit, both of normal size. However, urease polymerization was aberrant in all three mutants. In all cases where urease could be measured, it was found to be temperature sensitive and, in addition, the embryospecific urease of Eu3-e3/Eu3-e3 had an altered pH dependence. These mutants may be defective in a urease maturation function common to both isozymes as suggested by the normal levels of urease gene product, coordinately (or nearly so) reduced urease isozyme activities, temperature sensitivity in both ureases (Eu3-e3) and the non-linkage of Eu2 and Eu3 to the locus encoding embryo-specific urease (Sun-Eul). Ubiquitous urease activity is reduced in mutant seed coat and callus culture as well as in leaf and cotyledon tissue. No mutant callus utilized urea (5 to 10 nM) as sole nitrogen source. However, all mutant cell lines tolerated normally toxic levels of urea (25 to 250 mM) added to medium containing KNO₃/NH₄NO₃ as nitrogen source. Urea thus may be used in cell culture as a selection agent for phenotypes either lacking or regaining an active ubiquitous urease.     

Characterization of the genes encoding urease activity of Klebsiella pneumoniae

Abstract The genes encoding urease activity of Klebsiella pneumoniae were cloned and expressed in Escherichia coli . Transformants containing recombinant plasmids were selected by the antibiotic resistance phenotype and the production of urease in a Urease-test agar. Deletion derivatives of the parental recombinant plasmid were construced, and the relative position of six genes, necessary for urease production, was determined. Using a colorimetric assay it was demonstrated that some of the transformants exhibited ureolytic activity up to six-times greater than that of the original K pneumoniae isolate. Dot-blot DNA hybridization analysis revealed that the urease gene cluster of K. pneumoniae possesses no significant homology with those of Proteus species and Morganella morganii .     

Polyaniline as a support for urease immobilization

Polyaniline synthesized by chemical oxidative polymerization was used as an immobilization support for jack bean urease. Such immobilized enzyme has a good catalytic activity, storage stability, and reusability. Properties of free and immobilized urease were compared. Blends of polystyrene, cellulose acetate and poly(methyl methacrylate) with polyaniline were used for urease immobilization as well.     

Interaction of a monoclonal antibody with the urease of Ureaplasma urealyticum

The monoclonal antibody (mAb) U.u. 5B2 against the urease of U. urealyticum (U.u) serotype 8, was affinity purified and was found to be an IgG 1 type, with an apparent dissociation constant of 2.9 × 10⁻¹⁰ M. Immunoblot analysis of the cytoplasmic proteins of U.u electrophoresed under non-denaturing conditions showed a reaction with a major and a minor band corresponding to the urease activity. The mAb, U.u.5B2 inhibited the urease activity up to 93% and precipitated a protein from the cytoplasm with a molecular weight of 75 kDa, corresponding to the purified urease subunit. This mAb also reacted with six other U.u serotypes but not with Jack bean urease, other urease containing bacteria or genital mycoplasma.     

Cloning and expression of Staphylococcus epidermidis urease gene sequences in Staphylococcus carnosus

The urease gene sequences of Staphylococcus epidermidis CNS23 were cloned and expressed in Staphylococcus carnosus TM300. In vitro translation of the cloned sequences revealed four polypeptides (60, 17, 11 and 7.5 kDa) that were associated with enzyme activity. Southern hybridisation experiments showed high homologies with the urease genes of Staphylococcus saprophyticus.     

Differentiation between isolates of Helicobacter pylori by PCR-RFLP analysis of urease A and B genes and comparison with ribosomal RNA gene patterns

Abstract Genetic diversity amongst 21 human gastric isolates of Helicobacter pylori was investigated by polymerase chain reaction amplification and Hae III digest (restriction fragment length polymorphism) analysis of an internal 2.4-kb segment of the urease A and urease B genes. H. pylori from 11 independent individuals yielded nine distinct restriction fragment patterns but only one pattern was common to H. pylori from two individuals. By contrast, multiple isolate sets of H. pylori from two patients each had common urease gene patterns. Most strains with the same urease gene patterns were distinguishable in their ribosomal RNA gene patterns. The study demonstrated diversity amongst H. pylori and established that PCR analysis of urease genes provided a novel method of identifying isolates. The profiles were reproducible and convenient to obtain and analyse, and were almost as discriminatory as Hae III ribopatterns.     

Regulation of urease activity in Rhizobium meliloti

Abstract Using an ureC-lacZ fusion, the expression of urease structural genes of the soil bacterium Rhizobium meliloti strain AK631 was studied in response to different nitrogen sources and nickel contents in the growth medium. The expression of urease genes is repressed by ammonia and is not inducible by urea. Urease activity depends on the nickel concentration of the medium. Nickel uptake is repressed in medium containing ammonia and is not affected by the genes located in the urease operon investigated.     

A survey of yeast ureases and characterisation of partially purified Rhodosporidium paludigenum urease

Cell-free extracts of a selection of yeasts were analysed for urease activity. Species in the genera Filobasidiella, Rhodotorula and Rhodosporidium had the highest specific activities. Immune inactivation experiments showed widely different degrees of cross-reactivity between antiserum to jack bean urease and yeast ureases, with Rhodosporidium paludigenum (71%) the most and Schizosaccharomyces pombe (3%) the least affected. Only R. paludigenum urease was detected with anti-jack bean urease antiserum on Western blots. The urease of Rhodosporidium paludigenum was partially purified by column chromatography. The native enzyme was found to have a subunit size of 72 +/- 7 kDa probably in an octamer arrangement of 560 +/- 8 kDa, having a specific activity of 62.5 mumol urea hydrolysed min-1 (mg protein)-1. The enzyme was stable in the pH range 5-11 with optimum activity at pH 7.8. Vmax and Km values were determined as 65.2 +/- 3.8 mumol min-1 (mg protein)-1 and 3.81 +/- 0.47 mM, respectively.     

Identification of mixed genotypes in Helicobacter pylori from gastric biopsy tissue by analysis or urease gene polymorphisms

Abstract PCR-RFLP analysis of the urease A and B genes was used to investigate the frequency that Helicobacter pylori from gastric biopsy specimens comprised genotypically distinct strains. Seventy-five strains of H. pylori from 44 subjects from four geographically diverse locations were examined and 31 distinct urease gene profiles were identified. For most cultures, the totals of the RFLP sizes were within 4% of the 2.41-kb PCR product. Five strains were genomically more complex suggesting they contained a mixture of related genotypes. The validity of the test was confirmed by analysis of a known strain mixture and of single colony picks from biopsy cultures. Urease gene PCR-RFLP profiling was shown to be more sensitive than ribotyping for determining the genotypic homogeneity of H. pylori .     

High throughput colorimetric assay for rapid urease activity quantification

A novel high throughput colorimetric urease activity assay was compared to the Nessler method. The new method employs phenol red to determine the urease activity. This method reduces significantly sample processing time and allows real-time investigations. This method is rapid, sensitive, easy, cost-effective, and does not use any toxic chemical reagents.     

Inhibition of soil urease activity by aminocresols

Summary The effect on soil urease activity of five aminocresols, at concentrations of 5–100 g/g soil, was examined in the laboratory. Two compounds, 4-amino-o-cresol and 4-amino-m-cresol, significantly inhibited urease activity. The efficacy of 4-amino-o-cresol was compared with that of phenylphosphorodiamidate (PPDA), a known inhibitor, in three U.K. soils. At 50g/g soil 4-amino-o-cresol was as inhibitory as an equivalent concentration of PPDA in a soil with low urease activity, but was less inhibitory in two soils with high urease activity.     

幽门螺旋杆菌重组尿素酶B亚基的纯化及其免疫学性质的研究

目的:幽门螺旋杆菌(Hp)尿素酶是Hp重要的定制因子和致病因子,Hp尿素酶活性位点位于Hp尿素酶B亚基(UreB),研发基于UreB的Hp疫苗是一种很有前景的防治Hp感染的策略。方法:主要利用基因克隆技术从幽门螺旋杆菌标准菌株SS1(Hp SS1)获得Hp尿素酶B亚基基因,并构建含有重组Hp尿素酶B亚基(rUreB)基因的重组表达载体pET-rUreB及其重组菌株;重组菌株经蛋白表达和优化后,利用Ni-NTP镍离子亲和层析和DEAE Sepharose FF阴离子交换层析纯化重组尿素酶B亚基(rUreB),并进一步通过腹腔注射免疫BALB/c小鼠,研究rUreB的免疫学性质。结果:通过基因克隆技术成功获得了Hp尿素酶B亚基基因,并成功构建了重组表达载体pET-rUreB及其重组菌株BL21(DE3)/pET-rUreB,经蛋白表达优化及纯化,可获得高纯度(96.5%)的重组蛋白rUreB。重组蛋白rUreB辅以弗氏佐剂腹腔注射免疫BALB/c小鼠,经间接ELISA鉴定小鼠能够产生针对天然Hp尿素酶和UreB的高滴度特异性抗体,且能够显著性抑制Hp尿素酶的活性。结论:重组Hp尿素酶B亚基能够在大肠杆菌表达系统中获得较高水平的表达,具有较高的免疫学特异性,其抗体能够有效抑制Hp尿素酶活性。为研究基于尿素酶的防治Hp感染的Hp疫苗奠定了一定的实验基础。