Cloning, overexpression, purification, and characterization of O-acetylserine sulfhydrylase-B from Escherichia coli

O-Acetylserine sulfhydrylase-B (OASS-B, EC 2.5.1.47) is one of the two isozymes produced by Escherichia coli that catalyze the synthesis of L-cysteine from O-acetyl-L-serine and sulfide. The cysM gene encoding OASS-B was cloned and the enzyme was overexpressed in E. coli using pUC19 with a lacUV5 promoter. The enzyme was purified to homogeneity, as evidenced by SDS-PAGE. Approximately 300 mg of purified OASS-B was obtained from 1600 mL of culture broth with a purification yield of 60% or higher. The purified OASS-B was characterized and its properties compared with OASS-A. OASS-B did not form a complex with E. coli serine acetyltransferase (SAT, EC 2.3.1.30) and showed a wide range of substrate specificity in nonproteinaceous amino acid synthesis.     

Molecular cloning, overexpression, purification, and characterization of an aerobic FMN-dependent azoreductase from Enterococcus faecalis

Azo dyes represent a major class of synthetic colorants that are ubiquitous in foods and consumer products. Enterococcus faecalis is a predominant member of the human gastrointestinal microflora. Strain ATCC 19433 grew in the presence of azo dyes and metabolized them to colorless products. A gene encoding a putative FMN-dependent aerobic azoreductase that shares 34% identity with azoreductase (AcpD) of Escherichia coli has been identified in this strain. The gene in E. faecalis, designated as azoA, encoded a protein of 208 amino acids with a calculated isoelectric point of 4.8. AzoA was heterologously overexpressed in E. coli with a strong band of 23 kDa on SDS-PAGE. The purified recombinant enzyme was a homodimer with a molecular weight of 43 kDa, probably containing one molecule of FMN per dimer. AzoA required FMN and NADH, but not NADPH, as a preferred electron donor for its activity. The apparent Km values for both NADH and 2-[4-(dimethylamino)phenylazo]benzoic acid (Methyl red) substrates were 0.14 and 0.024 mM, respectively. The apparent Vmax was 86.2 microM/min/mg protein. The enzyme was not only able to decolorize Methyl red, but was also able to convert sulfonated azo dyes Orange II, Amaranth, Ponceau BS, and Ponceau S. AzoA is the first aerobic azoreductase to be identified and characterized from human intestinal gram-positive bacteria.     

Expression, purification and characterization of pectin methylesterase inhibitor from kiwi fruit in Escherichia coli

A significant problem in production of fruit juices for human consumption is auto-clarification, where enzyme catalyzes pectin demethylation resulting in loss of the ‘‘natural” cloudy appearance of juices. To overcome this problem, a plant inhibitor protein which blocks the action of pectin methylesterase has been used. In this paper, expression of recombinant kiwi pectin methylesterase inhibitor (PMEI) was carried out in Escherichia coli, and the target protein was expressed in the form of inclusion bodies. The expression level reached 46% of total cell protein. Then the fusion protein was purified by nickel ion metal affinity chromatography, and the purity was finally up to 98%. After refolding in GSH/GSSG redox system, recombinant PMEI not only could efficiently inhibit PMEs from eight different plants, but could remain effective inhibitor activity in the pH 3.0–10.0 and 20–40 °C. Thus, recombinant PMEI has potential application in the production of fruit juices product industry.     

Extracellular production of recombinant thermolysin expressed in Escherichia coli, and its purification and enzymatic characterization

Thermolysin is a representative zinc metalloproteinase derived from Bacillus thermoproteolyticus and a target in protein engineering to understand the catalytic mechanism and thermostability. Extracellular production of thermolysin has been achieved in Bacillus, but not in Escherichia coli, although it is the most widely used as a host for the production of recombinant proteins. In this study, we expressed thermolysin as a single polypeptide pre-proenzyme in E. coli under the original promoter sequences in the npr gene, the gene from B. thermoproteolyticus, which encodes thermolysin. Active mature thermolysin (34.6 kDa) was secreted into the culture medium. The recombinant thermolysin was purified to homogeneity by sequential column chromatography procedures of the supernatant with hydrophobic-interaction chromatography followed by affinity chromatography. The purified recombinant product is indistinguishable from natural thermolysin from B. thermoproteolyticus as assessed by hydrolysis of N-[3-(2-furyl)acryloyl]-glycyl-L-leucine amide and N-carbobenzoxy-L-asparatyl-L-phenylalanine methyl ester. The results demonstrate that our expression system should be useful for structural and functional analysis of thermolysin.     

Extracellular production of Streptomyces lividans acetyl xylan esterase A in Escherichia coli for rapid detection of activity

Acetyl xylan esterase A (AxeA) from Streptomyces lividans belongs to a large family of industrially relevant polysaccharide esterases. AxeA and its truncated form containing only the catalytically competent domain, AxeA(tr), catalyze both the deacetylation of xylan and the N-deacetylation of chitosan. This broad substrate specificity lends additional interest to their characterization and production. Here, we report three systems for extracellular production of AxeA(tr): secretion from the native host S. lividans with the native signal peptide, extracellular production in Escherichia coli with the native signal peptide, and in E. coli with the OmpA signal peptide. Over five to seven days of a shake flask culture, the native host S. lividans with the native signal peptide secreted AxeA(tr) into the extracellular medium in high yield (388 mg/L) with specific activity of 19 U/mg corresponding to a total of 7000 U/L. Over one day of shake flask culture, E. coli with the native secretion signal peptide produced 84-fold less in the extracellular medium (4.6 mg/L), but the specific activity was higher (100 U/mg) corresponding to a total of 460 U/L. A similar E. coli culture using the OmpA signal peptide, produced 10mg/L with a specific activity of 68 U/mg, corresponding to a total of 680 U/L. In 96-well microtiter plates, extracellular production with E. coli gave approximately 30 and approximately 86 microg/mL in S. lividans. Expression in S. lividans with the native signal peptide is best for high level production, while expression in E. coli using the OmpA secretion signal peptide is best for high-throughput expression and screening of variants in microtiter plate format.     

An efficient purification with a high recovery of the inulin fructotransferase of Arthrobacter sp. A-6 from recombinant Escherichia coli

Inulin fructotransferase (IFTase, EC 2.4.1.93) of Arthrobacter sp. A-6 was purified from a cell extract of the recombinant Escherichia coli DH5 /pDFE cells carrying the IFTase gene using heat treatment followed by gel filtration. The enzyme was purified 45-fold to apparent homogeneity with a recovery of 79%. SDS-PAGE yielded a single protein band of M _r 46.5 kDa. The recombinant IFTase had a similar thermostability as the original enzyme from Arthrobacter sp. A-6.     

Cloning, expression, and purification of recombinant bovine rotavirus hemagglutinin, VP8*, in Escherichia coli

Rotavirus VP8* subunit is the minor trypsin cleavage product of the spike protein VP4, which is the major determinant of the viral infectivity and neutralization. To study the structure-function relationship of this fragment and to obtain type-specific reagents, substantial amounts of this protein are needed. Thus, full-length VP8* cDNA, including the entire trypsin cleavage-encoding region in gene 4, was synthesized and amplified by RT-PCR from total RNA purified from bovine rotavirus strain C486 propagated in MA104 cell culture. The extended VP8* cDNA (VP8ext) was cloned into the pGEM-T Easy plasmid and subcloned into the Escherichia coli expression plasmid pET28a(+). The correspondent 30 kDa protein was overexpressed in E. coli BL21(DE3)pLysS cells under the control of the T7 promoter. The identity and the antigenicity of VP8ext were confirmed on Western blots using anti-His and anti-rotavirus antibodies. Immobilized Ni-ion affinity chromatography was used to purify the expressed protein resulting in a yield of 4 mg of VP8ext per liter of induced E. coli culture. Our results indicate that VP8ext maintained its native antigenicity and specificity, providing a good source of antigen for the production of P type-specific immune reagents. Detailed structural analysis of pure recombinant VP8 subunit should allow a better understanding of its role in cell attachment and rotavirus tropism. Application of similar procedure to distinct rotavirus P serotypes should provide valuable P serotype-specific immune reagents for rotavirus diagnostics and epidemiologic surveys.     

Coenzyme precursor-assisted cooperative overexpression of an active pyridoxine 4-oxidase from Microbacterium luteolum

The overexpression system of the active pyridoxine 4-oxidase from Microbacterium luteolum was developed. When chaperonin GroEL/ES genes in plasmid pKY206 were coexpressed, the pyridoxine 4-oxidase gene cloned in the vector pTrc99A was overexpressed in Escherichia coli JM109 cultured in LB medium containing 50microM riboflavin, the precursor of coenzyme (FAD) of the enzyme, under the cold stress at 23 degrees C. The crude extract from the cotransformant cells showed 88-fold higher specific activity than that from M. luteolum. The chaperonins, cold stress, and the riboflavin cooperatively served to increase the soluble form of the enzyme. A significant correlation between the specific activity and percentage of the soluble form in the total expressed enzyme was found. The overexpressed pyridoxine 4-oxidase was easily purified to homogeneity with two steps of the conventional column chromatography.     

吸水链霉菌BS-112产生的抗真菌活性物质的分离纯化与结构鉴别

【目的】分离纯化吸水链霉菌(Streptomyces hygroscopicus)BS-112产生的抗真菌活性物质,究明各活性组分的结构,测定其对黄曲霉的抑制作用,为该菌株及其产生的抗真菌活性物质的应用提供依据。【方法】通过大孔吸附树脂柱层析、硅胶柱层析及制备HPLC等方法,对该菌株产生的抗真菌活性物质进行分离纯化;利用质谱(MS)和核磁共振谱(NMR)解析各活性组分的结构;采用微量液体稀释法测定各活性组分对黄曲霉的最小抑菌浓度(MIC)和最小杀菌浓度(MFC)。【结果】从BS-112菌株发酵液中分离获得4个抗真菌活性组分,利用波谱技术确定其结构分别为Tetrins A和B、Tetramycins A和B。96孔板法测得这4个化合物对黄曲霉的MIC分别为3.13μg/mL、12.56μg/mL、1.56μg/mL、6.25μg/mL,MFC分别为6.25μg/mL、25.0μg/mL、3.13μg/mL、12.56μg/mL。【结论】BS-112菌株产生的抗真菌活性物质由Tetrins A和B、Ttramycins A和B 4个化合物组成,它们对黄曲霉均具有良好的抑制作用。     

Construction of Escherichia coli dnaK-deletion mutant infected by lambdaDE3 for overexpression and purification of recombinant GrpE proteins

Escherichia coli is widely employed to produce recombinant proteins because this microorganism is simple to manipulate, inexpensive to culture, and of short duration to produce a recombinant protein. However, contamination of molecular chaperone DnaK during purification of the recombinant protein is sometimes a problem, since DnaK sometimes has a negative effect on subsequent experiments. Previously, several efforts have been done to remove the DnaK contaminants by several sequential chromatography or washing with some expensive chemicals such as ATP. Here, we developed a simple and inexpensive method to express and purify recombinant proteins based on an E. coli dnaK-deletion mutant. The E. coli ΔdnaK52 mutant was infected by λDE3 phage to overexpress desired recombinant proteins under the control of T7 promoter. Using this host cell, recombinant hexa histidine-tag fused GrpE, which is well known as a co-chaperone for DnaK and to strongly interact with DnaK, was overexpressed and purified by one-step nickel affinity chromatography. As a result, highly purified recombinant GrpE was obtained without washing with ATP. The purified recombinant GrpE showed a folded secondary structure and a dimeric structure as previous findings. In vitro ATPase activity assay and luciferase-refolding activity assay demonstrated that the recombinant GrpE worked together with DnaK. Thus, this developed method would be rapid and useful for expression and purification of recombinant proteins which is difficult to remove DnaK contaminants.     

Three-phase partitioning as an efficient method for extraction/concentration of immunoreactive excreted-secreted proteins of Corynebacterium pseudotuberculosis

The three-phase partitioning (TPP) technique was used upstream to isolate/concentrate secreted proteins from Corynebacterium pseudotuberculosis cultured in a complex liquid medium. Several parameters of the TPP technique (15, 30, or 60% ammonium sulfate concentration; 4.0, 5.5, or 7.0 pH; and primary (n) or tertiary (t)-butanol solvent isomer) were varied to determine the optimal recovery of serologically and cellularly immunoreactive extracted proteins. A TPP extraction made with 30% ammonium sulfate and an initial pH of 4.0 gave the best humoral and cellular immunoreactivity of caseous lymphadenitis infected goats. In particular, two immunogenic secreted (16 and 125 kDa) proteins, which had not been found by other extraction methods, were identified.     

Engineering Escherichia coli for efficient production of 5-aminolevulinic acid from glucose

5-Aminolevulinic acid (ALA) recently received much attention due to its potential applications in many fields. In this study, we developed a metabolic strategy to produce ALA directly from glucose in recombinant Escherichia coli via the C5 pathway. The expression of a mutated hemA gene, encoding a glutamyl-tRNA reductase from Salmonella arizona, significantly improved ALA production from 31.1 to 176 mg/L. Glutamate-1-semialdehyde aminotransferase from E. coli was found to have a synergistic effect with HemA^M from S. arizona on ALA production (2052 mg/L). In addition, we identified a threonine/homoserine exporter in E. coli, encoded by rhtA gene, which exported ALA due to its broad substrate specificity. The constructed E. coli DALA produced 4.13 g/L ALA in modified minimal medium from glucose without adding any other co-substrate or inhibitor. This strategy offered an attractive potential to metabolic production of ALA in E. coli.     

Optimization of BLyS production and purification from Escherichia coli

B lymphocyte stimulator (BLyS) is a member of the tumor necrosis factor superfamily of cytokines. When the 152 amino acids of the C-terminus are associated into a homotrimer, this protein exhibits the ability to stimulate B cell proliferation and differentiation. Since numerous potential therapeutic indications have been identified for BLyS and other BLyS-derived products, large quantities of the protein are needed to further basic research and clinical trials. In this work, we have developed a high yield recombinant expression system that utilizes Escherichia coli as the host organism. Recombinant soluble BLyS (rsBLyS) production was achieved through the use of the phoA promoter system. This expression system, coupled to a semi-defined fermentation process, resulted in final purified yields of 435 mg/L of properly folded, trimeric, biologically active rsBLyS. This level of production is an 11-fold increase in volumetric yields compared to the process currently being used for clinical production. Furthermore, the increased rsBLyS production obtained from this process enabled the development of a conventional purification scheme that eliminated the use of a BLyS-affinity resin.     

Alkali-tolerant high-activity catalase from a thermophilic bacterium and its overexpression in Escherichia coli

We have purified an alkali-tolerant catalase from the thermophilic bacterium Metallosphaera hakonensis. The catalase gene, which encodes 303 amino acids and has a calculated molecular mass of 33 kDa, including its putative signal peptide encoding sequence, was cloned. The deduced amino acid sequence exhibited a region-specific homology with the sequences of manganese catalases from thermophilic bacteria such as Thermus thermophilus and Thermus brockianus. When this gene was overexpressed in Escherichia coli, proteins of the expected size (33 kDa) were overproduced in the inactive form. We made several attempts to obtain active forms of or to activate these overproduced proteins. Upon their induction into E. coli, a 100-fold increase in the catalase activity was detected when high-concentration manganese was used as the medium. The catalase activity of the purified enzyme was optimal at a pH of 10.0. The alkali-tolerant property of this catalase makes it a promising enzyme in biotechnological applications such as H(2)O(2)-detoxifying systems.     

Expression and purification of a cold-adapted group III trypsin in Escherichia coli

The recently classified group III trypsins include members like Atlantic cod (Gadus morhua) trypsin Y as well as seven analogues from other cold-adapted fish species. The eight group III trypsins have been characterized from their cDNAs and deduced amino acid sequences but none of the enzymes have been isolated from their native sources. This study describes the successful expression and purification of a recombinant HP-thioredoxin-trypsin Y fusion protein in the His-Patch ThioFusion Escherichia coli expression system and its purification by chromatographic methods. The recombinant form of trypsin Y was previously expressed in Pichia pastoris making it the first biochemically characterized group III trypsin. It has dual substrate specificity towards trypsin and chymotrypsin substrates and demonstrates an increasing activity at temperatures between 2 and 21 degrees C with a complete inactivation at 30 degrees C. The aim of the study was to facilitate further studies of recombinant trypsin Y by finding an expression system yielding higher amounts of the enzyme than possible in our hands in the P. pastoris system. Also, commercial production of trypsin Y will require an efficient and inexpensive expression system like the His-Patch ThioFusion E. coli expression system described here as the enzyme is produced in very low amounts in the Atlantic cod.     

A two-plasmid Escherichia coli system for expression of Dr adhesins

This paper presents a very efficient expression system for production of Dr adhesins. The system consists of two plasmids. One is the pACYCpBAD-DraC-C-His, which contains the draC gene under the control of the arabinose promoter (pBAD), encoding the DraC usher. The second is the pET30b-syg-DraBE, which contains the draB and draE genes under the control of the T7lac promoter, encoding the DraB chaperone and the DraE adhesin, respectively. Those plasmids have different origin of replication and can therefore coexist in one cell. Since different promoters are present, the protein expression can be controlled. The Dr adhesion expression system constructed opens up a lot of possibilities, and could be very useful in experiments focusing on understanding the biogenesis of Gram-negative bacteria adhesins. For this purpose we showed that the AfaE-III adhesin (98.1% identity between the DraE and the AfaE-III adhesins, with three divergent amino acids within the sequences) was able to pass through the DraC channel in the Escherichia coli BL21(DE3) strain. Immunoblotting analysis and immunofluorescence microscopy showed the presence of AfaE-III on the bacterial cell surface. In addition, the system described can be useful for displaying the immune-relevant sectors of foreign proteins on the bacterial cell. The heterologous epitope sequence of the HSV1 glycoprotein D was inserted into the draE gene in place of the N-terminal region of surface exposed domain 2. Chimeric proteins were exposed on the bacterial surface as evidenced by immunoblotting and immunofluorescence microscopy. The effective display of peptide segments on Dr fimbriae expressed at the bacterial cell surface, can be used for the development of a fimbrial vaccine.     

An in vivo assay for conjugation-mediated recombination yields novel results for Streptomyces plasmid pIJ101

Efficient transmission of circular plasmids in Streptomyces spp. proceeds by an uncharacterized mechanism that requires a cis-acting locus of transfer (clt) and often only a single plasmid-encoded protein. For circular plasmids from other bacteria, site- and strand-specific nicking takes place at the cis-acting oriT locus via the plasmid-encoded relaxase protein prior to single-strand transfer. Using an assay originally designed to demonstrate that conjugative transfer of plasmids containing tandem oriT loci results in the formation of a single composite oriT locus, we show here that an analogous construct involving the pIJ101 clt locus apparently does not undergo such a conjugation-mediated event during plasmid transfer. Our results, which imply that streptomycete plasmids are transferred by a functionally distinct mechanism compared to oriT-containing plasmids, are complementary to other recent evidences that support a novel double-stranded model for streptomycete circular plasmid transfer.