Thermostable malate synthase of<Emphasis Type="Italic"> Streptomyces thermovulgaris</Emphasis>

The gene, encoding malate synthase (MS), aceB, was cloned from the thermophilic bacterium Streptomyces thermovulgaris by homology-based PCR. The 1,626-bp cloned fragment encodes a protein consisting of 541 amino acids. S. thermovulgaris malate synthase (stMS) gene was over-expressed in Escherichia coli using a glutathione-S transferase (GST) fusion vector (pGEX-6P-1), purified by affinity chromatography, and subsequently cleaved from its GST fusion partner. The purified stMS was characterized and compared to a mesophilic malate synthase (scMS) from Streptomyces coelicolor. stMS exhibited higher temperature optima (40–60 °C) than those of scMS (28–37 °C). It was more thermostable and very resistant to the chemical denaturant urea. Amino acid sequence comparison of stMS with four mesophilic streptomycete MSs indicated that they share 70.9–91.4% amino acid identities, with stMS possessing slightly more charged residues (~31%) than its mesophilic counterparts (~28–29%). Seven charged residues (E85, R187, R209, H239, H364, R382 and K520) that were unique to stMS may be selectively and strategically placed to support its peculiar characteristics.     

Cloning, Overexpression and Purification of Bacillus subtilis Elongation Factor Tu in Escherichia coli

To establish the overexpression and one-step purification system of Bacillus subtilis elongation factor-Tu (EF-Tu), the EF-Tu gene was amplified with or without own ribosome binding site (rbs) by PCR and the only PCR product without rbs was subcloned successfully. For the expression of the EF-Tu gene cloned after PCR amplification, a constitutive expression system and inducible expression system with His₆ tag at N-terminus or C-terminus, or glutathione-S-transferase (GST) fusion system were examined in E. coli and B. subtilis. Except GST fusion system in E. coli, however, all other trials were unsuccessful at the step of plasmid construction for the EF-Tu expression. The GST/EF-Tu fusion proteins were highly expressed by IPTG induction and obtained as both soluble and insoluble form. From the soluble GST/EF-Tu fusion protein, EF-Tu was obtained to near homogeneity by one-step purification with glutathione-sepharose affinity column chromatography followed by factor Xa treatment. The purified EF-Tu showed high GDP binding activity. These results indicate that the GST/EF-Tu fusion system is favorable to overexpression and purification of B. subtilis EF-Tu.     

Purification and properties of glucose isomerase of Actinoplanes missouriensis

Actinoplanes missouriensis produces an intracellular soluble glucose Isomerase. The soluble enzyme can be purified by a DEAE-cellulose beads columm with a onestep salt elution. The purified enyzme exhibited a molecular weight of approximately 80,000 daltons, being composed of two identical subunits of about 42,000 daltons each. The K_m for glucose is 1.33M, the K_m for frucotse is 1.67M. The enzyme has an optimal pH of 7.0. The presence of the cobalt ion is not required to produce optimal activity of the enzyme if the proper amount of magnesium is present.     

Alanine dehydrogenase of the β-lactam antibiotic producer Streptomyces clavuligerus

l-Alanine dehydrogenase was found in extracts of the antibiotic producer Streptomyces clavuligerus. The enzyme was induced by ammonia, and the level of induction was dependend on the extracellular concentration. l-Alanine was the only amino acid able to induce alanine dehydrogenase. The enzyme was characterized from a 38-fold purified preparation. Pyruvate (K _m =1.1 mM), ammonia (K _m =20 mM) and NADH (K _m =0.14 mM) were required for the reductive amination, and l-alanine (K _m =9.1 mM) and NAD (K _m =0.5 mM) for the oxidative deaminating reaction. The aminating reaction was inhibited by alanine, serine and NADPH. Alanine inhibited uncompetitively with respect to NADH (K _i =1.6 mM) and noncompetitively with respect to ammonia (K _i =2.0 mM) and pyruvate (K _i =3.0 mM). In the aminating reaction 3-hydroxypyruvate, glyoxylate and 2-oxobutyrate could partially (6–7%) substitute pyruvate. Alanine dehydrogenase from S. clavuligerus differed with respect to its molecular weight (92000) and its kinetic properties from those described for other microorganisms.Abbreviation Alanine-DH l-alanine:NAD oxidoreductase     

Construction and one-step purification of Bacillus kaustophilus leucine aminopeptidase fused to the starch-binding domain of Bacillus sp. strain TS-23 α-amylase

The starch-binding domain of Bacillus sp. strain TS-23 α-amylase was introduced into the C-terminal end of Bacillus kaustophilus leucine aminopeptidase (BkLAP) to generate a chimeric enzyme (BkLAPsbd) with raw-starch-binding activity. BkLAPsbd, with an apparent molecular mass of approximately 65 kDa, was overexpressed in Escherichia coli M15 cells and purified to homogeneity by nickel–chelate chromatography. Native PAGE and chromatographic analyses revealed that the purified fusion protein has a hexameric structure. The half-life for BkLAPsbd was 12 min at 70°C, while less than 20% of wild-type enzyme activity retained at the same heating condition. Compared with the wild-type enzyme, the 60% decrease in the catalytic efficiency of BkLAPsbd was due to a 91% increase in K _m value. Starch-binding assays showed that the K _d and B _max values for the fusion enzyme were 2.3 μM and 0.35 μmol/g, respectively. The adsorption of the crude BkLAPsbd onto raw starch was affected by starch concentration, pH, and temperature. The adsorbed enzyme could be eluted from the adsorbent by 2% soluble starch in 20 mM Tris–HCl buffer (pH 8.0). About 49% of BkLAPsbd in the crude extract was recovered through one adsorption–elution cycle with a purification of 11.4-fold.     

Functional Expression and Characterization of Dipeptidyl Peptidase IV from the Black-Bellied Hornet Vespa basalis in Sf21 Insect Cells

The maturation of mastoparan B, the major toxin peptide in the venom of Vespa basalis, requires enzymatic cleavage of its prosequence presumably via sequential liberation of dipeptides. The putative processing enzyme, dipeptidyl peptidase IV, was expressed as a glycosylated His-tag fusion protein (rDPP-IV) via the baculovirus expression system. rDPP-IV purified by one-step nickel-affinity chromatography was verified by Western blot and LC-MS/MS analysis. The k_cat/K_m of rDPP-IV was determined to be in the range of 10–500 mM^?1·S^?1 for five synthetic substrates. The optimal temperature and pH for rDPP-IV were determined to be 50 °C and pH 9. Enzymatic activity of rDPP-IV was significantly reduced by 80 and 60% in the presence of sitagliptin and phenylmethylsulfonyl fluoride respectively.     

Arylsulphatases in human brain: separation, purification, and certain properties of the two soluble arylsulphatases

Abstract— Arylsulphatases (aryl-sulphate sulphohydrolases; E.C. 3.1.6.1) in the soluble subcellular fraction (105000g, 2 h) of human brain were partially purified by ammonium sulphate fractionation, ion exchange chromatography, and Sephadex gel filtration. Potassium-4-methylumbelliferone-sulphatase (MUS-sulphatase) adsorbed on DEAE-cellulose was purified approximately 700-fold over activity in the soluble fraction and the unadsorbed MUS-sulphatase was similarly purified approximately 600-fold. The arylsulphatase adsorbed to DEAE-cellulose exhibited a K_m value for MUS of 12.5 mM and a pH optimum of 5.7, whereas the unadsorbed arylsulphatase exhibited a K_m value for MUS of 8.3 mM and a pH optimum of 5.4. The molecular weights of the two enzymes were approximately 109,600 and 51,300, respectively. Sulphate (0.5 mM) showed pronounced mixed inhibition only of the unadsorbed arylsulphatase. Ag⁺ ions (0.25 mM) showed 96 per cent inhibition of the adsorbed arylsulphatase, whereas an activation of the unadsorbed arylsulphatase was observed.     

Expression and characterization of the type III polyketide synthase 1,3,6,8-tetrahydroxynaphthalene synthase from<Emphasis Type="Italic"> Streptomyces coelicolor</Emphasis> A3(2)

Sequence analysis of the metabolically rich 8.7-Mbp genome of the model actinomycete Streptomyces coelicolor A3(2) revealed three genes encoding predicted type III polyketide synthases (PKSs). We report the inactivation, expression, and characterization of the type III PKS homologous SCO1206 gene product as 1,3,6,8-tetrahydroxynaphthalene synthase (THNS). Incubation of recombinant THNS with malonyl-CoA showed THN production, as demonstrated by UV and HPLC analyses. The K_m value for malonyl-CoA and the k_cat value for THN synthesis were determined spectrophotometrically to be 3.58±0.85 µM and 0.48±0.03 min^–1, respectively. The C-terminal region of S. coelicolor THNS, which is longer than most other bacterial and plant type III PKSs, was shortened by 25 amino acid residues and the resulting mutant was shown to be slightly more active (K_m=1.97±0.19 µM, k_cat=0.75±0.04 min^–1) than the wild-type enzyme.     

Isolation and characterization of glutathione-S-transferase isozyme Q3 from the northern quahog,Mercinaria mercinaria

Three glutathione-S-transferase (GST) isozymes (Q1, Q2, and Q3) from the northern quahog (Mercinaria mercinaria) were purified and separated with a combination of affinity and ion exchange chromatography. SDS-PAGE analysis of the separated quahog GSTs indicated there are four distinct subunits of the enzyme with molecular masses ranging between 23 and 27 kDa. The electrophoretic analysis in combination with GST information from literature indicates that among the quahog GST isozymes, there is a single homodimer and two heterodimers. Enzymatic kinetic analysis of the homodimeric quahog GST (Q3) using 1-chloro-2,4-dinitrobenzene and glutathione as reactants resulted in V _max and K _m values of 33.2 mol min^–1 mg^–1 and 0.40 mM, respectively. A pH profile analysis of the Q3 GST indicates that the optimum catalytic pH is 7.6. The Q3 isozyme composes about 28% of the ion exchange purified GSTs but accounts for only 9% of the total GST enzymatic activity (25 mol min^–1 mg^–1). An analysis investigating the dependence of the Q3 GST activity on temperature resulted in a retention of enzymatic activity (50–30% at temperature extremes from –13°C to 100°C), suggesting a unconventional role for the Q3 GST in quahog metabolism.     

Cloning and comparative sequence analysis of the gene coding for isopenicillin N synthase in Streptomyces

Summary The genes coding for isopenicillin N synthase (IPNS) in Streptomyces jumonjinensis and S. lipmanii were isolated from recombinant phage lambda libraries using the S. clavuligerus IPNS gene as a heterologous probe. The S. jumonjinensis IPNS gene has an open reading frame coding for 329 amino acids, identical in size to that of the previously cloned S. clavuligerus IPNS gene. A partial nucleotide sequence was also determined for the S. lipmanii IPNS gene. Comparison of the predicted amino acid sequences of all three streptomycete IPNS proteins shows that they exhibit more than 70% similarity, close to that found in comparisons among fungal IPNS proteins and significantly greater than that found, approximately 60%, between Streptomyces and fungal IPNS proteins. We conclude that procaryotic and eucaryotic IPNS genes are subgroups of a single family of microbial IPNS genes. Hybridization probes prepared from IPNS genes of the above streptomycete species were used to detect analogous genes in eight other strains that included both penicillin and cephalosporin producers and non-producers. Each producer strain responded with all three probes implying the presence of an IPNS gene. Surprisingly, several non-producer strains also responded with one or two of the probes. Our results suggest that IPNS-related genes may be more prevalent in Streptomyces than previously believed.     

Purification and characterization of two ascorbate peroxidases of rice (<Emphasis Type="Italic">Oryza sativa </Emphasis>L.) expressed in <Emphasis Type="Italic">Escherichia coli</Emphasis>

To clarify the diversity and function of isozymes of ascorbate peroxidase (APX) in plants, a method of producing large quantities of these proteins is needed. Here, we describe an Escherichia coli expression system for the rapid and economic expression of two rice APX genes, APXa and APXb (GeneBank accession Nos. D45423 and AB053297, respectively). The two genes were cloned into the pGEX-6p-3 vector to allow expression of APX as a glutathione-S-transferase (GST) fusion protein. The GST-APXa and GST-APXb fusion proteins were purified by affinity chromatography using a glutathione-Sepharose 4B column, with final yields of 40 and 73 mg g^–1 dry cells, respectively. Specific activities were 15 and 20 mM ascorbate min^–1 mg^–1 protein, respectively. The K_m values for ascorbate were 4 and 1 mM, respectively, and those for H₂O₂ were 0.3 and 0.7 mM, respectively indicating that the two rice isoenzymes have different properties.Revisions requested 27 September 2004; Revisions received 12 November 2004     

Purification and characterization of levoglucosan kinase from <Emphasis Type="Italic">Lipomyces starkeyi</Emphasis> YZ-215

A protein named as levoglucosan kinase (EC 2.7.-.-)was purified to homogeneity from a wild isolated strain of Lipomyces starkeyi YZ-215. The protein was purified approximately 30-fold by conventional ammonium sulphate fractionation followed by Resource Q chromatography and two steps of Superdex 200 chromatography, and its physical and kinetic properties were investigated. The purified enzyme showed a molecular weight of 48 kDa by SDS-PAGE and 47.7 kDa by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS), respectively. The enzyme was stable at pH 7–10 and showed maximum activity at 30°C and pH 9.0. Kinetic constants (apparent K _m values) for levoglucosan and ATP were 68.6 ± 13.7 mM and 0.68 ± 0.06 mM, respectively. After in-gel digestion by trypsin, three peptides were sequenced and analyzed by electrospray ionization quadrupole time-of-flight tandem mass spectrometry (ESI-Q-TOF MS/MS). Data of the amino acid sequences indicated that this protein might be a novel kinase. The purification of levoglucosan kinase from L. starkeyi YZ-215 represented a fundamental step to provide insights into the efficient utilization of cellulosic pyrolysate by bioconversion.     

Short communication: Purification and properties of acid phosphatase (EC 3.1.3.2) secreted by strain 74A of the mould Neurospora crassa

Both P_i-repressible acid phosphatases, IIb (mycelial) and IIc (extracellular), synthesized by Neurospora crassa and purified to apparent homogeneity by 7.5% PAGE, are monomers, are inhibited by 2 mm ZnCl₂ and are non-specifically stimulated by salts. However, the IIc form is activated by p-nitrophenylphosphate (in a negative co-operativity effect with a K _0.5 of 2.5 mm) whereas form IIb shows Michaelis kinetics, with a K _m of 0.5 mm. Thus, since both enzymatic forms may be expressed by the same gene (pho-3), it is possible that post-translational modifications lead to the excretion of an enzymatic form with altered Michaelis kinetics compared with the enzymatic form retained by the mycelium.     

Overexpression and biochemical characterization of DagA from <Emphasis Type="Italic">Streptomyces coelicolor</Emphasis> A3(2): an endo-type β-agarase producing neoagarotetraose and neoagarohexaose

The DagA product of Streptomyces coelicolor is an agarase with a primary translation product (35 kDa) of 309 amino acids, including a 30-amino acid signal peptide. Although dagA expression in Streptomyces lividans under the control of its own set of promoters was previously reported, its enzymatic properties have never been elucidated. To develop an improved expression system for dagA, three types of strong promoters for the Streptomyces host were linked to dagA, and their efficiencies in DagA production were compared in S. lividans TK24. All of the transformants with dagA grew at improved rates and produced larger amounts of DagA in the modified R2YE medium containing 0.5% agar as the sole carbon source. Of the three transformants, the S. lividans TK24/pUWL201-DagA (ermE promoter) produced the highest agarase activity (A ₅₄₀ = 4.24), and even the S. lividans TK24/pHSEV1-DagA (tipA promoter) and S. lividans TK24/pWHM3-DagA (sprT promoter) produced higher agarase activity (A ₅₄₀ = 0.24 and 0.12, respectively) than the control (A ₅₄₀ = 0.01) in the modified R2YE medium. The mature form of DagA protein (32 kDa) was successfully purified by one-step affinity column chromatography by using agarose beads with excellent yield. The purified DagA was found to exhibit maximal agarase activity at 40°C and pH 7.0. The K _m, V _max, and K _cat values for agarose were 2.18 mg/ml (approximately 1.82 × 10⁻⁵ M), 39.06 U/mg of protein, and 9.5 × 10³/s, respectively. Thin layer chromatography (TLC) analysis, matrix-assisted laser desorption/ionization-time-of-flight (MALDI-TOF) mass spectrometry, and Fourier transform nuclear magnetic resonance (FT-NMR) spectrometry of the hydrolyzed products of agarose by DagA revealed that DagA is an endo-type β-agarase that degrades agarose into neoagarotetraose and neoagarohexaose.     

Retention of functional characteristics of glutathione-S-transferase and lactate dehydrogenase-A in fusion protein

A paradigm shift toward fusion proteins to render multiple functionalities and applications on a single platform has been incurred in enzyme based diagnosis. Herein, we report development and systematic characterizations of glutathione-S-transferase (GST) and human lactate dehydrogenase A (hLDHA) in a fusion protein (GST–hLDHA) to achieve functional activities of GST and hLDHA simultaneously. The GST-pGEX-4T-2 vector system was used for cloning and purification of hLDHA, utilizing the affinity based interaction between GST and GSH in column chromatography. Bacterially purified protein was subjected to the Western blot analysis and structural analysis by circular dichroism spectroscopy, which revealed intact structural framework of the fusion construct. Kinetic characterization of the fusion GST–hLDHA protein toward GSH and NADH, suggested retention of functional activities of GST and hLDHA in fused protein as indicated by the kinetic parameters k_m and k_cat/k_m. Further analysis of effect of temperature and pH on GST–hLDHA activity revealed maximum activity around human physiological conditions (37°C and pH 8). Preservation of the structural and functional characteristics of the fusion enzyme paves the way for potential application for the detection of NADH and GSH in conjunction as biomarkers for cancer diagnosis.     

Cloning, expression, and identification of a novel class IIa bacteriocin in the Escherichia coli cell-free protein expression system

The NB-C1 gene, acquired from the result of data mining of the lactic acid bacteria genome, is a novel potential class IIa bacteriocin gene with the characteristic YGNGVxC cluster. To produce soluble NB-C1 efficiently and overcome issues of protein toxicity, we adopted a GFP fusion strategy using an Escherichia coli cell-free protein expression system. We constructed the expression vector pIVEX2.4d-GFP-NB-C1, which was expressed in both the batch mode and the continuous exchange cell-free (CECF) systems. The amount of soluble fusion protein achieved from the CECF system (2.2 mg/ml) was approximately three times higher than that in the batch mode (0.73 mg/ml). The soluble fusion protein was purified via one-step Ni–NTA affinity chromatography, with a concentration of 0.26 mg/ml and a purity of 95%. The purified NB-C1 showed strong antimicrobial activity against the indicator bacteria Listeria monocytogenes.     

Expression and purification of soluble recombinant Human Endostatin in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Endostatin, a 20 kDa C-terminal fragment of collagen XVIII, is a specific inhibitor of endothelial cell proliferation and angiogenesis. In the present study, we produced soluble and biologically active recombinant human endostatin (rhEndostatin) in Escherichia coli by expressing via fusion with solubility-promoting peptides and optimizing the expression conditions. The rhEndostatin was expressed via fusion with glutathione S-transferase (GST) and NusA protein, respectively. It revealed that NusA protein enhanced the production of soluble rhEndostatin; but GST didn’t. By optimizing the expression conditions, the production of soluble NusA-rhEndostatin fusion protein was about 50% of total cellular proteins and about 90% of the products appeared in the cellular supernatant fraction. The soluble NusA-rhEndostatin fusion protein was purified by one-step hydrophobic interaction chromatography and NusA was removed by thrombin. Then rhEndostatin was purified by affinity chromatography and gel filtration chromatography. As a result, a simple and economical purification procedure for rhEndostatin isolation was obtained. The biological activity of the rhEndostatin was demonstrated in vitro using a human vascular endothelial cells (HuVECs) proliferation assay. Our study provides a feasible and convenient approach to produce soluble and biologically active rhEndostatin.     

High yield, purity and activity of soluble recombinant Bacteroides thetaiotaomicron GST-heparinase I from Escherichia coli

Heparinase I from Flavobacterium heparinum, a source of diverse polysaccharidases, suffers from low yields, insufficient purity for structural studies and insolubility when expressed as a recombinant product in Escherichia coli that is devoid of glycosaminoglycan polysaccharidases. In this study, cDNA coding for the orthologue of F. heparinum heparinase I was constructed from genomic information from the mammalian gut symbiont Bacteroides thetaiotaomicron and expressed in E. coli as a fusion protein with GST at the N-terminus. This resulted in high yield (30 mg/g dry bacteria) of soluble product and facilitated one-step affinity purification to homogeneity. Purified heparinase I bearing the GST fusion exhibited a K_m of 2.3 μM and V_max of 42.7 μmol/min with a specific activity of 164 U/mg with heparin (average 12,000 Da) as substrate. The results indicate a 2-fold improvement in yield, specific activity and affinity for heparin as substrate over previous reports. The data suggest that the heparinase I from the gut symbiont exhibits a higher intrinsic affinity for heparin than that from F. heparinum. The purified GST fusion enzyme exhibited a requirement for Ca²⁺ and a pH optimum between 6.7 and 7.3 that was similar to the enzyme freed of the N-terminal GST portion. Our study revealed that catalytic activity of heparinase I requires a reducing environment. The GST facilitated immobilization of heparinase I in solid phase either for clinical purposes or for structural studies in absence of interference by contaminating polysaccharidases.     

Cloning and characterization of a thermostable xylitol dehydrogenase from Rhizobium etli CFN42

An NAD⁺-dependent xylitol dehydrogenase from Rhizobium etli CFN42 (ReXDH) was cloned and overexpressed in Escherichia coli. The DNA sequence analysis revealed an open reading frame of 1,044 bp, capable of encoding a polypeptide of 347 amino acid residues with a calculated molecular mass of 35,858 Da. The ReXDH protein was purified as an active soluble form using GST affinity chromatography. The molecular mass of the purified enzyme was estimated to be ∼34 kDa by sodium dodecyl sulfate–polyacrylamide gel and ∼135 kDa with gel filtration chromatography, suggesting that the enzyme is a homotetramer. Among various polyols, xylitol was the preferred substrate of ReXDH with a K _m = 17.9 mM and k_cat /K _m = 0.5 mM⁻¹ s⁻¹ for xylitol. The enzyme had an optimal pH and temperature of 9.5 and 70 °C, respectively. Heat inactivation studies revealed a half life of the ReXDH at 40 °C of 120 min and a half denaturation temperature (T _1/2) of 53.1 °C. ReXDH showed the highest optimum temperature and thermal stability among the known XDHs. Homology modeling and sequence analysis of ReXDH shed light on the factors contributing to the high thermostability of ReXDH. Although XDHs have been characterized from several other sources, ReXDH is distinguished from other XDHs by its high thermostability.     

Purification and characterization of a thermostable pullulanase fromThermoactinomyces thalpophilus

Summary Thermoactinomyces thalpophilus No. 15 produced an extracellular pullulanase in an aerobic fermentation with soluble starch, salts, and complex nitrogen sources. Acetone fractionation, ion-exchange chromatography, and gel filtration purified the enzyme from cell-free broth 16-fold to an electrophoretically homogeneous state (specific activity, 1352 U/mg protein; yield, 4%). The purified enzyme (estimated MW 79 000) was optimally active at pH 7.0 and 70°C and retained 90% relative activity at 80°C (30 min) in the absence of substrate. The enzyme was activated by Co²⁺, inhibited by Hg²⁺, and exhibited enhanced stability in the presence of Ca²⁺. The enzyme hydrolyzed pullulan (K _m 0.32%, w/v) forming maltotriose, and hydrolyzed amylopectin (K _m 0.36%, w/v), amylopectin beta-limit dextrin (K _m 0.45%, w/v) and glycogen beta-limit dextrin (K _m 1.11%, w/v) forming maltotriose and maltose.