重组大肠杆菌右旋糖酐蔗糖酶的纯化及其性质

[目的]研究工程菌E.coli BL21(DE3)/pET28-dexYG产右旋糖酐蔗糖酶的纯化和酶学性质.[方法]工程菌经过IPTG诱导后生产含His-tag融合蛋白的右旋糖酐蔗糖酶,通过硫酸铵沉淀、Ni-NTA亲和层析纯化,得到纯度较高的酶蛋白,并对纯酶进行了酶学性质及动力学研究.[结果]经过SDS-PAGE测得该酶的分子量约为170 kDa,与理论推测值基本相同.以蔗糖为底物,酶促反应的最适温度为25～30℃,最适pH值为5.4,动力学常数Km值为10.43 mmol/L;酶活在pH 5.0～8.0较为稳定,在室温(25 ℃)保藏4天仍有59%的酶活力,4℃保存7周酶活力仅下降一半,但在35℃以上失活很快;Ca2 对催化作用有较大的促进,Mg2 有微弱的促进作用,K 对催化反应无影响,Cu2 的抑制作用最强.其他试剂对重组酶的活性有不同程度的影响,其中SDS抑制作用很强.[结论]研究为重组右旋糖酐蔗糖酶纯酶的获取、得到稳定性好、活性高的酶反应体系及利用该酶进行催化反应和工业化应用提供了重要参数.     

Construction of a set Gateway-based destination vectors for high-throughput cloning and expression screening in Escherichia coli

We describe here the construction of a 10-Gateway-based vector set applicable for high-throughput cloning and for expressing recombinant proteins in Escherichia coli. Plasmids bear elements required to produce recombinant proteins under control of the T7 promoter and encode different N-terminal partners. Since the vector set is derived from a unique backbone, a consistent comparison of the impact of fusion partner(s) on protein expression and solubility is easily amenable. Finally, a sequence encoding a six-histidine tag has been inserted to be in frame with the cloned open reading frame either at its C terminus or at the N terminus, giving the flexibility of choosing the six-histidine tag location for further purification. To test the applicability of our vector set, expression and solubility profile and six-histidine tag accessibility have been demonstrated for two Bacillus subtilis signaling proteins' encoding genes (SBGP codes E0508 and E0511).     

A high-throughput microtiter plate-based screening method for the detection of full-length recombinant proteins

The Gram-negative bacterium Escherichia coli is an important host for the (heterologous) production of recombinant proteins. The development and optimization of a protocol to overproduce a desired protein in E. coli is often tedious. A novel high-throughput screening method based on the Luminex xMAP bead technology was developed allowing a rapid evaluation of a certain expression strategy. A variant of green fluorescent protein (GFPuv) from Aequorea victoria was used as a reporter to establish the methodology. The N-terminus and the C-terminus of GFPuv were engineered to contain a His(6)- and an HA-tag (YPYDVPDYA), respectively. The double-tagged protein was loaded onto Luminex-microspheres via its His(6)-tag, the presence of the HA-tag was verified using an anti-HA antibody. High-throughput detection of full-length proteins (containing both tags) on the beads was performed using an automated Luminex 100IS analyzer. The results were compared to results obtained by classical Western blot analysis. Comparison of the two methods revealed that the Luminex-based method is faster and more economical in detecting full-length (intact) soluble recombinant protein, allowing one to routinely screen a high number of parameters in gene expression experiments. As proof of concept, different protocols to overproduce double-tagged model eucaryotic proteins (human protein S6 kinase 1 and human tankyrase) in E. coli were monitored using the new approach. Relevant parameters for optimizing gene expression of the corresponding genes were rapidly identified using the novel high-throughput method.     

Development of a biosensor for on-line detection of tributyltin with a recombinant bioluminescent Escherichia coli strain

A biosensor was developed for the detection of tributyltin (TBT), using a bioluminescent recombinant Escherichia coli:: luxAB strain. Dedicated devices allowed the on-line measurement of bioluminescence, pH and dissolved oxygen values and the feed-back regulation of temperature. Bacterial physiology was monitored by the measurement of the cellular density, respiratory activity and the intracellular level of ATP, glucose and acetate levels. Our results showed that a synthetic glucose medium gave a better TBT detection limit than LB medium (respectively 0.02 micro M and 1.5 micro M TBT). High growth and dilution rates ( D=0.9 h(-1)) allowed maximum light emission from the bacterium. Moreover, simple atmospheric air bubbling was sufficient to provide oxygen for growth and the bioluminescence reaction. Real-time monitoring of bioluminescence after TBT induction occurred with continuous addition of decanal up to 300 micro M, which was not toxic throughout a 7-day experiment. The design of our biosensor and the optimization of the main parameters that influence microbial activity led to the capacity for the detection of TBT.     

A sensitive colorimetric high-throughput screening method for lipase synthetic activity assay

A sensitive and practical high-throughput screening method for assaying lipase synthetic activity is described. Lipase-catalyzed transesterification between vinyl acetate and n-butanol in n-hexane was chosen as a model reaction. The released acetaldehyde was determined by the colorimetric method using 3-methyl-2-benzothialinone (MBTH) derivatization. In comparison with other methods, the major advantages of this process include high sensitivity, simple detection, inexpensive reagents, and low requirements for instruments.     

Novel cloning method for recombinant adenovirus construction in Escherichia coli

pAd(vantage) is a rapid cloning system for generating recombinant adenoviruses. The system is based on manipulating the full-length adenovirus genome as a stable plasmid in E. coli using intron-encoded endonucleases. These intron-encoded endonucleases cut their recognition sequences, which range from 15-39 bp, with high specificity. Their unusual long homing sequence makes them rare-cutting and ideal for use as cloning sites. We report how transgenes can easily be cloned directly into the E1 region of an adenoviral plasmid, followed by transfection into a mammalian packaging cell line, to produce homogeneous recombinant viruses without the need for plaque purification.     

On-line determination of intracellular beta-galactosidase activity in recombinant Escherichia coli using flow injection analysis (FIA).

A flow injection analysis (FIA) system was developed for the determination of cytoplasmic beta-galactosidase activity in recombinant Escherichia coli. The FIA system and its application for on-line monitoring of beta-galactosidase production during cultivation of recombinant E. coli in a 60-l airlift tower loop reactor is described. The results demonstrate that an FIA assay in conjunction with a cell disintegration step can be applied successfully for on-line monitoring of intracellular protein formation.     

Systematic screening of Escherichia coli single-gene knockout mutants for improving recombinant whole-cell biocatalysts

Systematic screening of single-gene knockout collection of Escherichia coli BW25113 (the Keio collection) was performed to select mutants that could enhance the deethylation of 7-ethoxycoumarin catalyzed by CYP154A1. After 96-well plate high-throughput screening followed by test tube assays, four mutants (ΔcpxA, ΔgcvR, ΔglnL, and an unknown-gene-deleted one (Δuk)) were able to increase the CYP154A1 activity by approximately 1.4–1.7 times compared with that of the control strain. When new mutants were constructed by disrupting individually the cpxA, gcvR, glnL, and uk genes in E. coli BW25113, three of them (ΔcpxA, ΔgcvR, and ΔglnL) showed high levels of CYP154A1 activity. However, the uk-disruptant failed to enhance the CYP154A1 activity, suggesting that the high CYP154A1 activity of the Δuk mutant in the Keio collection was due to a spontaneous mutation in the chromosome. In-frame deletion mutants of ΔcpxA, ΔgcvR, and ΔglnL also exhibited high enzyme activity, and complementation of these mutations could decrease CYP154A1 activity. These results indicated that the enhancement of the enzyme activity was not caused by polar effects on their neighbor genes. To our knowledge, this is the first report on a genome-wide screening of the genes for deletion to improve the activity of a recombinant whole-cell biocatalyst.     

High-throughput screening for soluble recombinant expressed kinases in Escherichia coli and insect cells

We have constructed a dual expression vector for the production of recombinant proteins in both Escherichia coli and insect cells. In this vector, the baculoviral polyhedrin promoter was positioned upstream of the bacteriophage T7 promoter and the lac operator. This vector, designated pBEV, was specifically designed to exploit the advantages that both hosts would provide. This vector also facilitates one-stop cloning, thereby simplifying the expression process for automation, and the development of a high-throughput method for protein expression. Utilizing the multi-system vector pBEV, a high-throughput process was developed with expression in deep-well blocks and purification in micro-titer plates enabling the identification of expression and solubility in both E. coli and insect cells. In this study, using pBEV, we have successfully expressed and purified multiple human kinases produced in E. coli and insect cells. Our results validate expression screening as a strategy to rapidly triage proteins identifying the optimum expression system and conditions for production.     

Assessment of heterologous butyrate and butanol pathway activity by measurement of intracellular pathway intermediates in recombinant Escherichia coli

In clostridia, n-butanol production from carbohydrates at yields of up to 76% of the theoretical maximum and at titers of up to 13 g/L has been reported. However, in Escherichia coli, several groups have reported butyric acid or butanol production from recombinant expression of clostridial genes, at much lower titers and yields. To pinpoint deficient steps in the recombinant pathway, we developed an analytical procedure for the determination of intracellular pools of key pathway intermediates and applied the technique to the analysis of three sets of E. coli strains expressing various combinations of butyrate biosynthesis genes. Low expression levels of the hbd-encoded S-3-hydroxybutyryl-CoA dehydrogenase were insufficient to convert acetyl-CoA to 3-hydroxybutyryl-CoA, indicating that hbd was a rate-limiting step in the production of butyryl-CoA. Increasing hbd expression alleviated this bottleneck, but in resulting strains, our pool size measurements and thermodynamic analysis showed that the reaction step catalyzed by the bcd-encoded butyryl-CoA dehydrogenase was rate-limiting. E. coli strains expressing both hbd and ptb-buk produced crotonic acid as a byproduct, but this byproduct was not observed with expression of related genes from non-clostridial organisms. Our thermodynamic interpretation of pool size measurements is applicable to the analysis of other metabolic pathways.     

A bioluminescent method for measuring thymidylate kinase activity suitable for high-throughput screening of inhibitor

Blocking human thymidylate kinase (TMPK) function has a chemosensitization effect in anticancer treatment. However, a rapid and sensitive TMPK activity assay method suitable for inhibitor screening has been lacking. We have designed a luciferase-coupled TMPK assay in which luminescence emission is proportional to the magnitude of TMPK inhibition. The advantages of using this new method over the conventional nicotinamide adenine dinucleotide (reduced form, NADH)-coupling method in screening inhibitor include low cost, low limit in detecting inhibitory signal, more accurate, and devoid of interference due to compound absorbance at 340 nm.     

ARduino-pH Tracker and screening platform for characterization of recombinant carbonic anhydrase in Escherichia coli

Carbonic anhydrase (CA, EC 4.2.1.1) is an ancient enzyme with zinc ion as its active site, which catalyzes the chemical reaction of carbon dioxide (CO₂) to react with water and form bicarbonate ions. Due to its high catalytic efficiency on CO₂ assimilation, CA is expected to use for carbon sequestration in industry. However, the protein expression level, thermostability and high-throughput screening of an active CA are still with difficulty. In this study, the CA from Sulfurihydrogenibium yellowstonense (denoted as SyCA) was selected for overexpressed in Escherichia coli by different pET vectors. The enzymatic properties including thermo-stability, pH tolerance, effect of metal ion, and kinetic parameters were characterized through a novel ARduino-pH Tracker (ART) for monitoring online effectively. The SyCA is thermophilic and acidophilic as it maintains 100% activity at 50°C, while the residual activity is 34.8% after heating at 80°C for 150 min and the optimal pH is 3–5. The kinetic analysis by ART system showed that the k _cat/K _m of free enzyme was 4.4-folds that that of whole cell. On the other hand, the screening platforms as Wilbur–Anderson unit, phenol red indicator and size of colony forming unit have been established to explore CA with higher activity. The high-throughput screening platform is support in direct evolution of CA and further used in the industry.     

Development of a novel ectonucleotidase assay suitable for high-throughput screening

5'-Ectonucleotidase (NT5E) catalyzes the conversion of adenosine monophosphate to adenosine and free phosphate. The role of this ectonucleotidase and its production of adenosine are linked with immune function, angiogenesis, and cancer. NT5E activity is typically assayed either by chromatographic quantification of substrates and products using high-performance liquid chromatography (HPLC) or by quantification of free phosphate using malachite green. These methods are not suitable for robust screening assays of NT5E activity. HPLC is not readily suitable for the rapid and efficient assay of multiple samples and malachite green is highly sensitive to the phosphate-containing buffers common in various media and sample buffers. Here the development and validation of a novel high-throughput ectonucleotidase screening assay are described, which makes use of a luciferase-based assay reagent, the Promega CellTiter-Glo kit, to measure the catabolism of AMP by NT5E. This multiwell plate-based assay facilitates the screening of potential ectonucleotidase antagonists and is unaffected by the presence of contaminating phosphate molecules present in screening samples.     

A new method for purification of recombinant human alpha-synuclein in Escherichia coli

alpha-Synuclein (AS), a major component of Lewy body in Parkinson's disease patients, exists as a natively unfolded protein in physiological buffer. We recently found that the overexpressed AS in Escherichia coli bearing the cloned AS cDNA with no signal sequence was actually located inside the periplasm, but not in the cytoplasm as generally recognized. Therefore, a new protocol for preparing recombinant AS has been developed with only two steps: (1) osmotic shock for release of AS-containing periplasm fraction and (2) ion-exchange chromatography for further purification of AS. By using plasmids and E. coli strains commonly used the new protocol is much more convenient, faster, and cheaper compared to the current methods established since 1994. About 80 mg AS with 95% purity can be regularly prepared from a 1L culture in 3 days.     

Efficient production of L-ribose with a recombinant Escherichia coli biocatalyst

A new synthetic platform with potential for the production of several rare sugars, with l-ribose as the model target, is described. The gene encoding the unique NAD-dependent mannitol-1-dehydrogenase (MDH) from Apium graveolens (garden celery) was synthetically constructed for optimal expression in Escherichia coli. This MDH enzyme catalyzes the interconversion of several polyols and their l-sugar counterparts, including the conversion of ribitol to l-ribose. Expression of recombinant MDH in the active form was successfully achieved, and one-step purification was demonstrated. Using the created recombinant E. coli strain as a whole-cell catalyst, the synthetic utility was demonstrated for production of l-ribose, and the system was improved using shaken flask experiments. It was determined that addition of 50 to 500 microM ZnCl(2) and addition of 5 g/liter glycerol both improved production. The final levels of conversion achieved were >70% at a concentration of 40 g/liter and >50% at a concentration of 100 g/liter. The best conditions determined were then scaled up to a 1-liter fermentation that resulted in 55% conversion of 100 g/liter ribitol in 72 h, for a volumetric productivity of 17.4 g liter(-1) day(-1). This system represents a significantly improved method for the large-scale production of l-ribose.     

Melanin-based high-throughput screen for L-tyrosine production in Escherichia coli

We present the development of a simple, high-throughput screen for identifying bacterial strains capable of L-tyrosine production. Through the introduction of a heterologous gene encoding a tyrosinase, we were able to link L-tyrosine production in Escherichia coli with the synthesis of the black and diffusible pigment melanin. Although melanin was initially produced only at low levels in morpholinepropanesulfonic acid (MOPS) minimal medium, phosphate supplementation was found to be sufficient for increasing both the rates of synthesis and the final titers of melanin. Furthermore, a strong linear correlation between extracellular L-tyrosine content and melanin formation was observed by use of this new medium formulation. A selection strategy that utilizes these findings has been developed and has been shown to be effective in screening large combinatorial libraries in the search for L-tyrosine-overproducing strains.     

An engineered Escherichia coli having a high intracellular level of ATP and enhanced recombinant protein production

Artificial amplification of gluconeogenic phosphoenolpyruvate carboxykinase (PCK) under glycolytic conditions enables Escherichia coli to maintain a greater intracellular ATP concentration during its growth phase. To demonstrate the biotechnological benefit of E. coli harboring a high intracellular ATP concentration, we compared the recombinant protein synthesis of a soluble protein (enhanced green fluorescence protein, GFP) with that of a secretory protein (alkaline protease, AP), under control of the T7 promoter in E. coli BL21(DE3) overexpressing PCK. According to the batch fermentations, the strain overexpressing PCK produced more GFP and AP with a lower increase in biomass than the control strain. In a chemostat culture (D = 0.7 h⁻¹), the GFP production in the PCK overexpressing strain was 99.0 ± 4.31 mg/g cell, with a biomass of 0.22 g/L, while that of the control strain was 53.5 ± 3.07 mg/g cell, with a biomass of 0.35 g/L. These results indicate that the PCK overexpressing E. coli strain harboring high intracellular levels of ATP can be useful as a protein-synthesizing host. The potential uses of the strain and associated rationale are discussed.     

Development of a high-throughput screening method for LIM kinase 1 using a luciferase-based assay of ATP consumption

Kinases are attractive drug targets because of the central roles they play in signal transduction pathways and human diseases. Their well-formed adenosine triphosphate (ATP)-binding pockets make ideal targets for small-molecule inhibitors. For drug discovery purposes, many peptide-based kinase assays have been developed that measure substrate phosphorylation using fluorescence-based readouts. However, for some kinases these assays may not be appropriate. In the case of the LIM kinases (LIMK), an inability to phosphorylate peptide substrates resulted in previous high-throughput screens (HTS) using radioactive labeling of recombinant cofilin protein as the readout. We describe the development of an HTS-compatible assay that measures relative ATP levels using luciferase-generated luminescence as a function of LIMK activity. The assay was inexpensive to perform, and proof-of-principle screening of kinase inhibitors demonstrated that compound potency against LIMK could be determined; ultimately, the assay was used for successful prosecution of automated HTS. Following HTS, the secondary assay format was changed to obtain more accurate measures of potency and mechanism of action using more complex (and expensive) assays. The luciferase assay nonetheless provides an inexpensive and reliable primary assay for HTS that allowed for the identification of LIMK inhibitors to initiate discovery programs for the eventual treatment of human diseases.     

A simple method for screening porphyrin secretion by colonies of Escherichia coli

Abstract Escherichia coli secretes porphyrins when exposed to 20 mM 1-thioglycerol. A method was devised to isolate mutants, which do not excrete porphyrins in the presence of thiols. DEAE-Sephadex beads were incorporated into plates growing colonies of E. coli . The secreted porphyrins on these plates formed a fluorescent halo around each colony, when the plates were viewed under long-wave ultraviolet light. Mutants were found, that formed either halo-less colonies or a colony with excess halo. This method of incorporating immobilized ion exchangers into plates may be useful in isolating non-secretor or super-secretor mutants of a variety of organisms.