Expression, purification and analysis of the activity of enzymes from the pentose phosphate pathway

RNAs, more than ever before, are increasingly viewed as biomolecules of the future, in the versatility of their functions and intricate three-dimensional folding. To effectively study them by nuclear magnetic resonance (NMR) spectroscopy, structural biologists need to tackle two critical challenges of spectral overcrowding and fast signal decay for large RNAs. Stable-isotope nucleotide labeling is one attractive solution to the overlap problem. Hence, developing effective methods for nucleotide labeling is highly desirable. In this work, we have developed a facile and streamlined source of recombinant enzymes from the pentose phosphate pathway for making such labeled nucleotides. The Escherichia coli (E. coli) genes encoding ribokinase (RK), adenine phosphoribosyltransferase (APRT), xanthine/guanine phosphoribosyltransferase (XGPRT), and uracil phosphoribosyltransferase (UPRT) were sub-cloned into pET15b vectors. All four constructs together with cytidine triphosphate synthetase (CTPS) and human phosphoribosyl pyrophosphate synthetase isoform 1 (PRPPS) were transformed into the E. coli BL21(AI) strain for protein over-expression. The enzyme preparations were purified to >90% homogeneity by a one-step Ni-NTA affinity chromatography, without the need of a further size-exclusion chromatography step. We obtained yields of 1530, 22, 482, 3120, 2120 and 2280 units of activity per liter of culture for RK, PRPPS, APRT, XGPRT, UPRT and CTPS, respectively; the specific activities were found to be 70, 22, 21, 128, 144 and 113 U/mg, respectively. These specific activities of these enzyme constructs are comparable to or higher than those previously reported. In addition, both the growth conditions and purification protocols have been streamlined so that all the recombinant proteins can be expressed, purified and characterized in at most 2 days. The availability and reliability of these constructs should make production of fully and site-specific labeled nucleotides for making labeled RNA accessible and straightforward, to facilitate high-resolution NMR spectroscopic and other biophysical studies.     

Statistical optimization of medium for the production of pyruvate oxidase by the recombinant Escherichia coli

Pyruvate oxidase (PyOD) is a very useful enzyme for clinical diagnostic applications and environmental monitor. Optimization of the fermentation medium for maximization of PyOD constitutively, production by Escherichia coli DH5α/pSMLPyOD was carried out. Response surface methodology (RSM) was used to optimize the medium constituents. A 2^6–2 fractional factorial design (first order model) was carried out to identify the significant effect of medium components towards PyOD production. Statistical analysis of results shows that yeast extract, ammonium sulfate and composite phosphate were significant factors on PyOD production. The optimized values of these three factors were obtained by RSM based on the result of a 2³ central composite rotatable design. Under these proposed optimized medium, the model predicted a PyOD activity of 610 U/L and via experimental rechecking the model, an activity of 670 U/L was attained.     

Analysis of the nucleotide sequence and electrostatic potential distribution in the <Emphasis Type="Italic">Escherichia coli</Emphasis> genome

Analysis of the oligonucleotide composition of the complete E. coli genome and its σ⁷⁰-specific promoters shows that promoter DNA mainly contains AT-rich hexanucleotides that have functionally important physical properties (propensity to form ‘low-melting’ regions and helix bends). Comparative analysis of the electrostatic characteristics reveals that hexanucleotides corresponding to more electronegative surroundings are mostly found in promoter DNA.     

The use of flow cytometry to detect nucleic acids attached to the surface of Escherichia coli in high cell density fed-batch processes

E. coli was grown in an aerobic fed-batch process for the production of a recombinant protein (rhGH). The cells were examined by flow cytometry and PI (propidium iodide) staining. The fluorescence of the PI-stained cells increased with increasing concentrations of DNA in the medium. Furthermore, DNA and RNA attached to the cell could partly be degraded with DNase/RNase and the fluorescence decreased. Formate excretion during the aerobic processes may be due to DNA and possibly also RNA attached to the cell surface, so creating diffusion resistance.     

Probing the antigenicity of E. coli l-asparaginase by mutational analysis

A strategy, termed alanine-scanning mutagenesis, was used to identify the amino acid residues which are critical to the antigenicity of Escherichia coli l-asparaginase (l-ASP). Three continuous alkaline residues, 195RKH197, were mutated to Ala selectively. Four mutant recombinant l-ASPs were constructed and expressed in E. coli, and then purified. The purified mutants showed a single band by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and were more than 95% pure by reverse high-perfomance liquid chromatography. The activities of wild-type and m l-ASPs in the fermentative medium were all about 130 U/mL. The change from 195RKH 197 to 195AAA 197 reduced the antigenicity ofhe enzyme greatly as shown in competition enzyme-linked immunosorbent assay using polyclonal antibodies raised against the wild-type l-ASP from rabbits. The results show that residues 195RKH197 of E. coli l-ASP are critical to its antigenicity. These authors contributed equally to this work.     

Characterization and sequence determination of the replicator region in the hairy-root-inducing plasmid pRiA 4b

Summary By genetic analysis we examined UV mutagenesis of the Escherichia coli glyU gene. When carried by M13 phage mp9, glyU is subject to induced UV mutagenesis which is dependent on the umuC ⁺ and recF ⁺ genes. When carried by M13 phage mp8, glyU is not subject to induced UV mutagenesis. This difference is correlated with the nature of the target nucleotides: CTC in the mp9 derivative and GAG in the mp8 derivative. Thus, we conclude that the induced (unuC and recF dependent) mutagenesis is locally targeted on pyrimidine cyclobutane or 6-4 dimers. glyU carried by M13 is equally subject to uninduced UV mutagenesis whether carried by mp8 or mp9. This uninduced mutagenesis is independent of the umuC ⁺ , recF ⁺ and recA ⁺ genes and we hypothesize that it is regionally targeted on pyrimidine cyclobutane or 6-4 dimers in the vicinity of the target CTC and GAG nucleotides. The role of recF in UV mutagenesis was tested in two ways. First, mutagenesis of glyU carried by M13 mp9 in a recA730 genetic background was found to be recF dependent. Because recA730 renders induced UV mutagenesis partially constitutive, we conclude that the RecF product plays a direct role in UV mutagenesis rather than, or in addition to, any indirect regulatory role it may play. Second, UV mutagenesis of E. coli chromosomal glyU was found to be recF independent while UV mutagenesis of M13-bourne glyU was recF dependent. We conclude that the mechanism of induced UV mutagenesis of the E. coli chromosome is at least partly different from that of M13 phage and we discuss the biochemical basis for such a difference.     

A new restriction endonuclease Eco31I recognizing a non-palindromic sequence

A restriction endonuclease with a novel site-specificity has been isolated from the Escherichia coli strain RFL31. The nucleotide sequences around a single Eco31I cut on pBR322 DNA and two cuts of λ DNA have been compared. A common ^5′GAGACC_3′CTCTGG sequence occurs near each cleavage site. Precise mapping of the cleavages in both DNA strands places the cuts five nucleotides to the left of the upper sequence and one nucleotide to the left of the lower sequence. This enabled us to deduce the following recognition and cleavage specificity of Eco31I: 5 ′ G G T C T C N ↓ 3 ′ C C A G A G N N N N N ↑     

Interaction of pro-and eukaryotic DNA repair enzymes with oligodeoxyribonucleotides containing clustered lesions

A study was made of the interaction of 8-oxoguanine-DNA glycosylases of Escherichia coli (Fpg) and human (OGG1), as well as apurinic/apyrimidinic endonucleases of yeast (Apn1) and E. coli (Nfo), with oligodeoxyribonucleotides containing 8-oxoguaine (oxoG) and tetrahydrofuran (F, a stable analog of an apurinic site) separated by various numbers of nucleotides. Inhibitor analysis showed that the affinity of Fgp for single-stranded DNA ligands is virtually independent of the relative positions of oxoG and F. K _M and k _cat were determined for all the four enzymes and all double-stranded substrates studied. The effect of the second lesion strongly depended both on the relative position of the lesion and the enzyme of interest. The highest drop in the affinity of Fpg and OGG1 for the substrate (1.6-to 148-fold) and in the reaction rate (4.8-to 58-fold) was recorded for the oligonucleotides in which F was immediately 3′ or 5′ of oxoG. Introduction of the second lesion barely affected K _M for nucleases Apn1 and Nfo. The reaction rate was five-to tenfold lower for the substrates containing two adjacent lesions. For all enzymes studied, an increase in the distance between two lesions in double-stranded DNA decreased their contribution to K _M and k _cat.     

The identification of CTX-M-14, TEM-52, and CMY-1 enzymes in Escherichia coli isolated from the Han River in Korea

From water samples collected monthly between 2000 and 2001 from the Han River in Seoul, sixteen strains of Escherichia coli which confer resistance to at least 10 kinds of antimicrobial agents were isolated. From these isolates, 2 kinds of extended-spectrum β-lactamases (ESBLs) and one plasmid-mediated AmpC β-lactamase were detected; CTX-M-14 from 10 isolates, TEM-52 from 5 isolates, and CMY-1 from one isolate. Class 1 integron gene cassettes, such as aadA1, dfr12-orfF-aadA2, and dfr17-aadA5, were also detected and the integrons are the same as those found in E. coli isolated from swine, poultry, and humans in Korea. The result of this study indicated the importance of river water as a reservoir for antimicrobial resistance genes and resistant bacteria.     

Relationships between Escherichia coli cells and the surrounding medium during survival processes

In Escherichia coli, during survival under adverse conditions, namely starvation and luminous radiation, two things occur. On the one hand organic substances are released into the surrounding medium and on the other there is a transition from the culturable state to viable but non-culturable (VBNC). An analysis of organic molecules released into the surrounding medium showed the presence of proteins, dissolved free amino acids, and dissolved monomeric carbohydrates. The concentration of these substances in the medium changed with exposure time, type of stress and type of molecule. The proteins accumulated in the medium and in some cases their identification revealed the presence of components of the outer membrane. Variations in the concentration of amino acids and carbohydrates point to a twofold process of excretion and uptake. Indeed, cell free supernatants supported the growth of several generations of a population of 10(4) cells ml(-1). The survival of E. coli in supernatants previously colonized by cells in the VBNC state was greater than that observed in the control experiments, with a short delay in the loss of culturability. It was thus clear that organic molecules released into the medium play a role in the transition from culturable to VBNC state.     

Enteric bacteria isolated from acute diarrheal patients in the Republic of Korea between the year 2004 and 2006

In an epidemiological survey of human enterobacterial infections in the Republic of Korea during three years from 2004 to 2006, we isolated 1,784 (6.2%, isolation rate of enteropathogens from stool samples) in 2004, 2,547 (9.5%) in 2005 and 3,506 bacteria (12.3%) from people who visited clinics. Among the isolated bacteria, pathogenic Escherichia coli, especially, EAEC was the most frequently identified pathogen in both urban and rural regions followed by Staphylococcus aureus, Salmonella species, Bacillus cereus, Vibrio parahaemolyticus, Campylobacter jejuni, Clostridium perfringens, and Shigella species. Distinct seasonality was found in V. parahaemolyticus species, while this pathogen showed no age-specific patterns. However, other bacteria, i.e., pathogenic E. coli, S. aureus, Salmonella spp., and B. cereus showed similar seasonality throughout the year, showing a slight increase in the infection rate during the summer months and high prevalence among children under 10 years of age and elder-age people. The antibiotic susceptibility patterns of pathogenic E. coli, Salmonella spp., and S. aureus showed high resistance to penicillins. However, both pathogenic E. coli and Salmonella spp. were susceptible to several cephems, imipenem, and amikacin. Moreover, S. aureus strains resistant to vancomycin were not found. In conclusion, these surveillances can play an important role for the control and prevention to the diseases originated by enteritis bacteria.     

Factors affecting the survival of E. coli in a river

The relationships between physical, chemical and microbial characteristics of an aquatic ecosystem and the survival of E. coli have been studied. Two conditions of the ecosystem (warm and cold) are considered. T₉₀ (time necessary for 90% of a bacterial population to die) in the warm situation shows an inverse exponential relationship with water temperature. Besides the direct relationship temperature-T₉₀, there is an indirect effect of temperature upon T₉₀ through the natural microflora of the water. The relationships between temperature and the heterotrophic population, and between the heterotrophic population and the bacterial consumers (P.F.U.), are exponential and linear, respectively.     

大肠杆菌NAD+合成关键酶的克隆表达及发酵优化

【目的】烟酰胺腺嘌呤二核苷酸(NAD~+)在细胞基因表达、氧化还原反应、能量代谢以及调控细胞生命周期中具有重要的作用,其细胞内含量是能量效率的关键因素。强化辅因子合成策略,获得高产NAD~+菌株,对于NAD~+依赖型氧化还原反应的速率和调节相关生化合成途径的代谢流具有重要意义。【方法】首先通过内源性调节,对代谢途径中的关键酶基因进行强化,过量表达和共表达NAD~+合成途径中的关键酶基因pncB、nadD和nadE;其次,通过外源调节增加NAD~+前体物,优化诱导条件提高发酵过程中关键酶的表达量,增加NAD~+的合成量;最后在单因素优化试验的基础上,以NAD~+含量为响应值,采用Box-Bohnken试验设计方法,研究3个显著性影响因素相互作用对NAD~+积累量的影响,确定最佳的优化条件。【结果】根据关键酶基因强化策略,构建了7株重组菌,其中重组菌E.coli BL21/p ET-21a-nad E-pncB胞内NAD~+含量相比初始菌株E.coli BL21/pET-21a提高了405.2%。通过对该菌株诱导条件和NAD~+合成前体的优化,使用Design Expert 8.0分析实验数据,得出该重组菌株的最佳发酵条件为:诱导温度控制在15–20 oC,OD_(600)为0.6–0.8时添加IPTG 0.63 mmol/L、烟酸15.8 mg/L、诱导时长控制在24 h。NAD~+含量在最优条件下实验验证值可达43.16μmol/g DCW,与优化前相比提高了123.6%,与初始菌株相比提高了1029.8%。【结论】在大肠杆菌中共表达关键酶基因pncB和nadE,胞内NAD~+合成量明显增加,前体物以及诱导条件的外源调节使NAD~+积累量达到最佳优化值。实现了提高NAD~+含量的目标,胞内辅因子浓度的增加为提高生物催化效率奠定了可行性基础。     

Efficient free fatty acid production in Escherichia coli using plant acyl-ACP thioesterases

Microbial biosynthesis of fatty acid-like chemicals from renewable carbon sources has attracted significant attention in recent years. Free fatty acids can be used as precursors for the production of fuels or chemicals. Free fatty acids can be produced by introducing an acyl–acyl carrier protein thioesterase gene into Escherichia coli. The presence of the acyl-ACP thioesterase will break the fatty acid elongation cycle and release free fatty acid. Depending on their sequence similarity and substrate specificity, class FatA thioesterase is active on unsaturated acyl-ACPs and class FatB prefers saturated acyl group. Different acyl-ACP thioesterases have different degrees of chain length specificity. Although some of these enzymes have been characterized from a number of sources, information on their ability to produce free fatty acid in microbial cells has not been extensively examined until recently. In this study, we examined the effect of the overexpression of acyl-ACP thioesterase genes from Diploknema butyracea, Gossypium hirsutum, Ricinus communis and Jatropha curcas on free fatty acid production. In particular, we are interested in studying the effect of different acyl-ACP thioesterase on the quantities and compositions of free fatty acid produced by an E. coli strain ML103 carrying these constructs. It is shown that the accumulation of free fatty acid depends on the acyl-ACP thioesterase used. The strain carrying the acyl-ACP thioesterase gene from D. butyracea produced approximately 0.2 g/L of free fatty acid while the strains carrying the acyl-ACP thioesterase genes from R. communis and J. curcas produced the most free fatty acid at a high level of more than 2.0 g/L at 48 h. These two strains accumulated three major straight chain free fatty acids, C14, C16:1 and C16 at levels about 40%, 35% and 20%, respectively.     

Over-expression in E. coli and purification of the human OCTN1 transport protein

The hOCTN1 amplified from skin fibroblast RNA was cloned in pET-28a(+) or in pH6EX3 plasmid. The encoded recombinant hOCTN1 resulted in a 6-His tagged fusion protein with a 34 or 21 amino acid extra N-terminal sequence in the pET-28a(+)-hOCTN1 or in the pH6EX3-hOCTN1 constructs, respectively. Both constructs were used to express the hOCTN1 in Escherichia coli Rosetta(DE3)pLysS. The best over-expression was obtained with the pH6EX3-hOCTN1 after 6 h of induction with IPTG at 28 °C. The expressed protein with an apparent molecular mass of 54 kDa, was collected in the insoluble fraction of the cell lysate. Further improvement was obtained using the E. coli RosettaGami2(DE3)pLysS strain to express the protein encoded by pH6EX3-hOCTN1. After 6 h of induction with IPTG at 28 °C, hOCTN1 accounted for 30% of the total protein in the insoluble pellet. This protein fraction was washed with Triton X-100 and deoxycholate, solubilized with a buffer containing 0.8% Sarkosyl, 3 M urea and applied to a Ni²⁺-chelating chromatography column. The homogeneously purified hOCTN1 was eluted with a buffer containing 50 mM imidazole, 0.1% Triton X-100 and 50 mM 2-mercaptoethanol. A yield of about 3 mg purified protein per liter of cell culture was obtained.     

Participation of the intracellular enzymes in the control of the mutation process

Summary The influence of repair and replication on the frequency of spontaneous chromosome aberrations and of those induced by gamma-irradiation is reported.Using the technique of labelling DNA with radioactive ³H-thymidine and measuring the radioactivity of DNA isolated from embryos, the time of initiation and the duration of DNA synthesis in barley seeds was studied after the soaking of the seeds had begun. The average duration of each phase of the first DNA synthesis cycle in soaking barley seeds was found to be as follows: pre-DNA synthesis stage, 10–11 hrs; DNA synthesis stage, 8 hrs. After gamma-irradiation, the intensity of DNA synthesis decreased and the beginning of DNA synthesis was delayed.It was found that the inhibition of repair by caffeine led to an increase in the frequency of both spontaneous and induced chromosome aberrations. Caffeine enhanced several times the frequency of chromosome and chromatid aberrations at the time of the maximal activity of repair enzymes. During DNA replication, caffeine had a lower effect on the realization of premutational lesions.An inhibitor of DNA replication — hydroxyurea — had no influence on the frequency of spontaneous chromosome aberrations during the replication period, whereas after gamma-irradiation, hydroxyurea enhanced the frequency of aberrations mainly at the stage of DNA replication.The relatively small mutagenic action of both agents (caffeine and hydroxyurea) was observed during all stages of the cell cycle of germinating barley seeds.     

Role of DnaA protein during replication of plasmid pBR322 in Escherichia coli

Summary The in vivo role of the Escherichia coli protein DnaA in the replication of plasmid pBR322 was investigated, using a plasmid derivative carrying an inducible dnaA ⁺ gene. In LB medium without inducer, the replication of this plasmid, like that of pBR322, was inhibited by heat inactivation of chromosomal DnaA46 protein so that plasmid accumulation ceased 1 to 2 h after the temperature shift. This inhibition did not occur when the plasmid dnaA ⁺ gene was expressed in the presence of the inducer isopropyl-1-thin--d-galactopyranoside (IPTG). Inhibition was also not observed in glycerol minimal medium or in the presence of low concentrations of rifampicin or chloramphenicol. Deletion of the DnaA binding site and the primosome assembly sites (pas, rri) downstream of the replication origin did not affect the plasmid copy number during exponential growth at 30° C, or after inactivation of DnaA by a shift to 42° C in a dnaA46 host, or after oversupply of DnaA, indicating that these sites are not involved in a rate-limiting step for replication in vivo. The accumulation of the replication inhibitor, RNAI, was independent of DnaA activity, ruling out the possibility that DnaA acts as a repressor of RNAI synthesis, as has been suggested in the literature. Changes in the rate of plasmid replication in response to changes in DnaA activity (in LB medium) could be resolved into an early, rom-dependent, and a late, rom-independent component. Rom ^– plasmids show only the late effect. After heat inactivation of DnaC, plasmid replication ceased immediately. These results, together with previously published reports, suggest that DnaA plays no specific role during in vivo replication of ColE1 plasmids and that the gradual cessation of plasmid replication after heat inactivation of DnaA in LB medium results from indirect effects of the inhibition of chromosome replication and the ensuing saturation of promoters with RNA polymerase under nonpermissive growth conditions.     

The Effect of Pyrophosphate Analogues on the Activity of the Inorganic Pyrophosphatase from Escherichia coli

The effect of inorganic pyrophosphate analogues on the enzymic activity of inorganic pyrophosphatase from E. coli was studied. Hypophosphoric and diphosphonic acids were shown to inhibit inorganic pyrophosphatase, whereas pyrophosphorous acid exerts almost no effect on the hydrolysis of inorganic pyrophosphate.     

Oral administration of HSP-containing E.Coli extract OM-89 has suppressive effects in autoimmunity. Regulation of autoimmune processes by modulating peripheral immunity towards hsp’s?

OM-89 (Subreum) is anE. coli extract used for oral administration in the treatment of rheumatoid arthritis. It contains bacterial heat shock proteins, namely hsp60 and hsp70, which were shown to be major immunogenic constitutents of the drug. Immunity to bacterial heat-shock antigens was shown to be a means of immunomodulation of (experimental) autoimmune disease and possibly inflammation in general. This was demonstrated for mycobacterial hsp60 respectively hsp70 in autoimmune disease models for arthritis, diabetes and encephalitis. Parallel to the effects displayed by immunisation with hsp, oral administration of hsp-containing OM-89 was found to modify autoimmune disease in a number of animal models, such as for arthritis, diabetes and SLE. In rats immunisation with OM-89 was found to lead to proliferative T cell responses to hsp60 and hsp70 of bothE. coli and mycobacterial origin. Conversely, immunisation with hsp antigens could induce T cell reactivity specific for OM-89. Given this and the autoimmune disease modulating properties of both hsp and OM-89 it is argued that OM-89 acts via the same mechanism as proposed for hsp: that peripheral tolerance is induced at the level of regulatory T cells with specificity for heat-shock proteins. This may constitute one mode of action for OM-89 as an arthritis suppressive oral drug in man.