A novel protein refolding protocol for the solubilization and purification of recombinant peptidoglycan-associated lipoprotein from Xylella fastidiosa overexpressed in Escherichia coli

Xylella fastidiosa is a Gram-negative xylem-limited plant pathogenic bacterium responsible for several economically important crop diseases. Here, we present a novel and efficient protein refolding protocol for the solubilization and purification of recombinant X. fastidiosa peptidoglycan-associated lipoprotein (XfPal). Pal is an outer membrane protein that plays important roles in maintaining the integrity of the cell envelope and in bacterial pathogenicity. Because Pal has a highly hydrophobic N-terminal domain, the heterologous expression studies necessary for structural and functional protein characterization are laborious once the recombinant protein is present in inclusion bodies. Our protocol based on the denaturation of the XfPal-enriched inclusion bodies with 8M urea followed by buffer-exchange steps via dialysis proved effective for the solubilization and subsequent purification of XfPal, allowing us to obtain a large amount of relatively pure and folded protein. In addition, XfPal was biochemically and functionally characterized. The method for purification reported herein is valuable for further research on the three-dimensional structure and function of Pal and other outer membrane proteins and can contribute to a better understanding of the role of these proteins in bacterial pathogenicity, especially with regard to the plant pathogen X. fastidiosa.     

Phosphorylation of Glutathione-S-transferase by Protein Kinase C-α Implications for Affinity-Tag Purification

Expression and purification of proteins as fusions with glutathione S-transferase (GST) is a standard and widely employed system. In more than 2,500 published studies, GST has been used to facilitate the purification of recombinant proteins, assess protein-protein interactions, and establish protein function. In this report, we provide evidence that GST can be phosphorylated in vitro by protein kinase C-alpha (PKC-alpha) at Ser-93. Therefore, since GST itself may be a target for a number of catalytic enzymes, failure to remove the GST tag from the recombinant protein may lead to inaccurate conclusions.     

Expression of the affinity tags,glutathione-<Emphasis Type="Italic">S</Emphasis>-transferase and maltose-binding protein,in tobacco chloroplasts

Chloroplast transformation offers an exciting platform for the safe, inexpensive and large-scale production of recombinant proteins in plants. An important advantage for the isolation of proteins produced in the chloroplast would be the use of affinity tags for rapid purification by affinity chromatography. To date, only His-tags have been used. In this study, we have tested the feasibility of expressing two additional affinity tags: glutathione-S-transferase (GST) and a His-tagged derivative of the maltose-binding protein (His₆-MBP). By using the chloroplast 16S rRNA promoter and 5′ untranslated region of phage T7 gene 10, GST and His₆-MBP were expressed in homoplastomic tobacco plants at approximately 7% and 37% of total soluble protein, respectively. GST could be purified by one-step-affinity purification using a glutathione column. Much better recoveries were obtained for His₆-MBP by using a twin-affinity purification procedure involving first immobilised nickel followed by binding to amylose. Interestingly, expression of GST led to cytoplasmic male sterility. Overall, our work expands the tools available for purifying recombinant proteins from the chloroplast.     

Purification of dual-tagged intact recombinant proteins

Large-scale purification of recombinant proteins has been used extensively to assist numerous protein studies, including investigation of function, substrate identification and protein-protein interaction of low abundance proteins. Genetic fusion of affinity tags to these proteins has also been widely used for ease of purification by affinity chromatography. However, this technique sometimes yields unstable and degraded protein products limiting its application. In this study, we show a facile and straightforward method of dual-tagged recombinant protein purification that eliminates contamination by degraded protein products. A 6His-containing BamHI-HindIII fragment from pQE12 was ligated into the pGEX-KG BamHI-HindIII fragment and the protein of interest (p25(nck5a), which is highly susceptible to proteolytic degradation when expressed and purified from bacteria) was cloned into the BamHI site without a termination codon. The resulting plasmid construct, designated as pGST-p25(nck5a)-6His, with GST at the N-terminal and 6His at the C-terminal was expressed in Escherichia coli DH5alpha and purified using a two-step procedure. We show that using Ni(2+)-NTA chromatography as a first purification step and GSH-agarose chromatography as a second step, rather than vice-versa, yields a highly purified intact protein that is free of any contaminating degraded protein product. The purified fusion protein is soluble and fully active.     

Contribution of rpfB to cell-to-cell signal synthesis, virulence, and vector transmission of Xylella fastidiosa

In Xylella fastidiosa the fatty acid signal molecule diffusible signaling factor (DSF) is produced and sensed by components of the regulation of pathogenicity factors (rpf) cluster; lack of DSF production in RpfF mutants results in a non-vector-transmissible phenotype yet cells are hypervirulent to grape. rpfB has not been characterized in Xylella fastidiosa, although its homolog has been suggested to be required for DSF synthesis in Xanthomonas campestris pv. campestris. We show that RpfB is involved in DSF processing in both Xylella fastidiosa and Xanthomonas campestris, affecting the profile of DSF-like fatty acids observed in thin-layer chromatography. Although three fatty acids whose production is dependent on RpfF were detected in Xylella fastidiosa and Xanthomonas campestris wild-type strains, their respective rpfB mutants accumulated primarily one chemical species. Although no quantifiable effect of rpfB on plant colonization by Xylella fastidiosa was found, insect colonization and transmission was reduced. Thus, RpfB apparently is involved in DSF processing, and like Xanthomonas campestris, Xylella fastidiosa also produces multiple DSF molecules. It is possible that Xylella fastidiosa coordinates host vector and plant colonization by varying the proportions of different forms of DSF signals via RpfB.     

Two-step method to isolate target recombinant protein from co-purified bacterial contaminant SlyD after immobilised metal affinity chromatography

As part of a study to purify the internal domain of HER2 (ICD) from recombinant expression, through metal immobilised affinity chromatography (IMAC), we encountered a contaminant, SlyD, a 29 kDa native E. coli protein. SlyD is a recurrent contaminant, with a histidine rich domain enabling binding to IMAC columns and thus co-elution with the target protein. Research has been carried out on this protein and its purification, however, no work mentions how to treat it as a true contaminant or describe procedures to isolate it from target proteins. In this report, we described a two-step chromatographic method for the purification of ICD, including IMAC as a capture step and size exclusion chromatography (SEC) as a polishing step. IMAC allowed us to purify ICD from bacterial crude with SlyD co-eluting. SEC then allowed us to resolve ICD from SlyD and achieve a purity greater than 95% for ICD. However, this method has been developed to accommodate any protein whose molecular weight is different enough from SlyD to be separated by SEC.     

N末端亲和标签可增进人硫氧还蛋白-1对氧化剂的敏感性

人细胞质硫氧还蛋白(hTrx1)在抗氧化和氧化还原调控中起重要作用.如果静脉注射重组hTrx1,动物抗氧化能力将增高.近年来,随着人们对氧化还原调控的关注,hTrx1需求不断增加.为了快速获得高纯度重组hTrx1,N末端亲和标签,如组氨酸标签(His-tag)和谷胱甘肽S-转移酶标签(GST-tag),被用于hTrx1亲和纯化.带N末端标签的hTrx1融合蛋白在实验中用的越来越多.但N末端延长是否会影响hTrx1特性尚不清楚.我们构建与优化了hTrx1原核表达质粒,在大肠杆菌中高效表达了含天然N末端、带His-tag或带GST-tag的3种重组hTrx1.纯化蛋白在SDS-PAGE上呈现1条带,对应的分子量分别为12kD、17kD及38kD.在无氧化剂存在时,它们催化胰岛素还原的能力不分仲伯.当有H2O2存在时,天然N末端hTrx1通过形成可逆二聚体,对H2O2表现出较强的耐受性;而N末端亲和标签有干扰二聚体形成,使hTrx1对H2O2耐受性降低的作用,其中GST-tag干扰作用明显大于His-tag.此外,体内重要的氧化还原对GSH/GSSG,有增进hTrx1及其还原酶催化NADPH氧化的作用,N末端亲和标签可明显扩大GSH/GSSG的这种作用.我们分析了N末端亲和标签对hTrx1活性影响的可能机理.     

Expression, purification, and properties of recombinant encephalomyocarditis virus RNA-dependent RNA polymerase.

Encephalomyocarditis (EMC) virus RNA-dependent RNA polymerase was expressed in Escherichia coli as a fusion protein with glutathione S-transferase (GST), which allowed easy purification of the fusion protein by affinity chromatography on immobilized glutathione. Inclusion of a thrombin cleavage site between the GST carrier and the viral enzyme facilitated the release of purified mature EMC virus RNA polymerase from the GST carrier by proteolysis with thrombin. The purified recombinant enzyme has a molecular mass of about 52 kDa and is recognized by polyclonal immune serum raised against a peptide sequence corresponding to the C-terminal region of the protein. The recombinant enzyme comigrates with immunoprecipitated EMC virus RNA polymerase from infected mouse L929 cell extracts when run in parallel lanes on a sodium dodecyl sulfate-polyacrylamide gel. The enzyme exhibits rifampin-resistant, poly(A)-dependent poly(U) polymerase activity and RNA polymerase activity, which are both oligo(U) dependent. Template-size products are synthesized in in vitro reactions with EMC virus genomic RNA or globin mRNA. The availability of recombinant EMC virus RNA polymerase in a purified form will allow biochemical analysis of its role in the replication of the virus as well as structure-function studies of this unique class of enzyme.     

Production of scFv-displaying BmNPV in silkworm larvae and its efficient purification

Baculovirus-display technology utilizing the gp64 envelope protein has been developed. A simple and efficient process to separate the virus from the majority of the protein contaminants may be needed for the future demand of pure and functional baculovirus vectors ideal for vaccine- and gene-delivery applications. In the present study, using Bombyx mori (silkworm) larvae as a host, scFv (single-chain variable fragment)-surface displaying recombinant baculovirus production and its purification from silkworm larval haemolymph by SEC (size-exclusion chromatography) were demonstrated. The amounts of scFv were 4-8 μg/ml in the haemolymph. The scFv-gp64 fusion protein was confirmed to be incorporated into the cell membrane and the BmNPV (B. mori nucleopolyhedrovirus) surface by immunofluorescence microscopy and Western blotting. rBmNPV (recombinant BmNPV) was purified to higher purity by SEC using Sephacryl S-1000 column chromatography than by sucrose-density-gradient centrifugation. The recovery of purified rBmNPV was 22.2%, and the virus purity in the SEC fraction was increased 269-fold compared with its purity in haemolymph. Judging from the results of ELISA, approx. 0.9% of the total baculovirus-particle proteins were occupied by scFv on their surface. A BmNPV-based silkworm-larval system is suitable for large-scale production of baculovirus-surface-displayed proteins or peptides in comparison with a cell-culture system. The present study will be useful for future BmNPV-application studies for gene delivery and vaccine trials.     

Overexpression, purification, and biochemical characterization of GumC, an enzyme involved in the biosynthesis of exopolysaccharide by Xylella fastidiosa

GumC is one of nine enzymes involved in the biosynthesis of fastidian gum, an exopolysaccharide produced by Xylella fastidiosa that may be linked directly to the pathogenicity of the microorganism. GumC may be responsible for gum polymerization or secretion through the membrane of X. fastidiosa. To perform structure and functions studies, we developed an expression system for the production of GumC as a fusion protein with maltose binding protein (MBP) using pMAL-c2x vector. The GumC-MBP fusion protein was expressed as a 94 kDa protein, which strongly reacts with anti-MBP antibodies. GumC-MBP was isolated by affinity chromatography through an amylose column and used to produce antibodies against the fusion protein. After the enzymatic cleavage of MBP, GumC was purified on a Q Sepharose Fast Flow column. GumC showed a molecular weight corresponding to the expected one (52 kDa) and its N-terminal sequence was identical to that deduced from the DNA. The shape of the circular dichroism spectrum was compatible with a folded protein that contains alpha-helical regions in its structure. Therefore, in this study we describe, for the first time, the production of GumC recombinant protein.     

重组人粒细胞-巨噬细胞集落刺激因子复性和纯化方法的比较

比较重组人粒细胞-巨噬细胞集落刺激因子(rhGM-CSF)在用疏水色谱(HIC)、离子交换色谱(IEC)和体积排阻色谱(SEC)3种液相色谱进行复性和纯化,选择较好的复性和纯化方法.通过对比rhGM-CSF在液相色谱上复性和纯化的主要指标,包括比活、纯度和质量回收率,结果发现采用HIC和IEC对rhGM-CSF进行复性和纯化时,其比活可以达到国家标准,纯度和质量回收率也比较高,而采用SEC,其比活、纯度和质量回收率远低于HIC和IEC.     

Expression, purification and spectroscopic studies of full-length Kir3.1 channel C-terminus

A polypeptide corresponding to the full-length C-terminal cytoplasmic domain of a G-protein-regulated inwardly rectifying potassium channel (Kir3.1) bearing a hexahistidine (His6) tag was produced by DNA recombinant overexpression techniques in Escherichia coli. This permitted the isolation of approximately 5 mg of pure protein per liter of bacterial culture. Further purification by size exclusion chromatography (SEC) of the C-terminal domain revealed that it exists predominantly as a dimer. The secondary structure was estimated using circular dichroism measurements that indicated the presence of approximately 35% beta-sheet and approximately 15% alpha-helix. G-protein betagamma subunits incubated with His-tagged Kir3.1 C-terminal domain, bound to immobilized metal affinity chromatography (IMAC) resin, copurified with the peak of specifically eluted recombinant protein. These observations demonstrate that full-length Kir3.1 C-terminus can be purified in a stable conformation capable of binding proteins known to activate Kir3 channels and may contain elements involved in channel assembly.     

Soluble expression,purification, and characterization of recombinant human flotillin-2 (reggie-1) in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Large scale production of recombinant human flotillin-2 (reggie-1) is desirable for structural and biochemical studies. However, as the major lipid rafts specific hydrophobic protein, flotillin-2 was difficult to be expressed as soluble and functional form in prokaryotic system. In this study, we first cloned and expressed human flotillin-2 in Escherichia coli with five different fusion tags: poly-histidine, glutathione S-transferase (GST), thioredoxin (TRX), N-Utilization substance (NusA) and maltose binding protein (MBP). We screened the expression level and solubility of the five flotillin-2 fusion proteins, the best MBP tagged flotillin-2 was then large scale produced. The optimized purification procedure included two steps of chromatography: Ni-NTA affinity chromatography and anion exchange chromatography. The typical yield was 36.0 mg soluble and functional recombinant flotillin-2 from 1 L of culture medium with purity above 97%. The activity of recombinant flotillin-2 was verified by pull-down assay with flotillin-1, showing that the purified recombinant flotillin-2 can specifically interact with flotillin-1. The circular dichroism (CD) spectroscopy showed that recombinant flotillin-2 had a very stable secondary structure dominated by α-helix, β-turn and random structure.     

Assessment of the diagnostic potential of Immmunocapture-PCR and Immuno-PCR for Citrus Variegated Chlorosis

Xylella fastidiosa causes significant losses in many economically important crops. An efficient pathogen detection system is critical for epidemiology studies, particularly when large sample size is involved. In this study we report the development of immunomolecular assays like Immmunocapture-PCR and Immuno-PCR for direct detection of X. fastidiosa without DNA isolation. Whereas the reactivity of ELISA and PCR ranged from 10(6) to 10(4) bacterial cells, the IC-PCR sensitivity was up to 10(3) and the detection limit of I-PCR was up to 10(1) bacterial cells. These methods can use either plant sample extracts or cultivated media, and show no cross reaction for any other endophytic citrus-bacteria. Therefore, IC-PCR and I-PCR assays provide an alternative for quick and very sensitive methods to screening X. fastidiosa, with the advantage of not requiring any concentration or DNA purification steps while still allowing an accurate diagnosis of CVC.     

Expression,purification, and characterization of metallothionein-A from rainbow trout

Recombinant metallothionein A (MT-A) from rainbow trout has been successfully produced in milligram quantities in Escherichia coli. cDNA has been subcloned into pGEX-6P.1 vector, in-frame with a sequence encoding an N-terminal glutathione-S-transferase (GST) tail. Purification to electrophoretic homogeneity has been obtained by affinity chromatography using GSH-Sepharose. After enzymatic cleavage of GST tail, the MT-A moiety shows a molecular weight, corresponding to the expected one (6630 Da). The final yield of the entire expression and purification process was about 5 mg of pure metallothionein per liter of bacterial culture. The effects of different reducing and alkylating agents have been evaluated at the level of the formation of higher molecular weight aggregates. To investigate the metal-binding ability of the recombinant MT-A, we carried out a spectrophotometrical titration with cadmium ions. Finally, we checked the metal dissociation by recording the UV absorbance of the protein as a function of the environmental pH.     

SwellGel: an affinity chromatography technology for high-capacity and high-throughput purification of recombinant-tagged proteins.

The revolution in genomics and proteomics is having a profound impact on drug discovery. Today's protein scientist demands a faster, easier, more reliable way to purify proteins. A high capacity, high-throughput new technology has been developed in Perbio Sciences for affinity protein purification. This technology utilizes selected chromatography media that are dehydrated to form uniform aggregates. The SwellGel aggregates will instantly rehydrate upon addition of the protein sample, allowing purification and direct performance of multiple assays in a variety of formats. SwellGel technology has greater stability and is easier to handle than standard wet chromatography resins. The microplate format of this technology provides high-capacity, high-throughput features, recovering milligram quantities of protein suitable for high-throughput screening or biophysical/structural studies. Data will be presented applying SwellGel technology to recombinant 6x His-tagged protein and glutathione-S-transferase (GST) fusion protein purification.     

Optimization of Storage and Stability of Camel Liver Glutathione S-Transferase

Glutathione S-transferases (GSTs) are multifunctional enzymes and play an important role in cellular detoxification. Besides this, GSTs act as cytosolic carrier proteins that bind hydrophobic compounds such as heme, bilirubin, steroids, and polycyclic hydrocarbons. GST has great importance in biotechnology, as it is a target for vaccine and drug development and biosensors development for xenobiotics. Moreover, the GST tag has been extensively used for protein expression and purification. Until now, biophysical properties of camel liver GST have not been characterized. In the present study we have purified camel (Camelus dromedarius) liver GST to homogeneity in a single step by affinity chromatography with 23.4-fold purification and 60.6% yield. Our results showed that maximal activity of GST was at pH 6.5 and it was stable in the pH range of 5 to 10. The optimum temperature was 55°C and the T_m was 57°C. The chemical chaperone glycerol (3.3 M) was able to protect GST activity and aggregation against thermal denaturation by stabilizing the protein structure at 50 and 57°C, respectively. However, L-arginine (125 mM) did not protect GST against thermal stress. Far-ultraviolet circular dichroism (CD) spectra showed that glycerol protected the secondary structure of GST while L-arginine induced conformational changes under thermal stress. In conclusion, our studies on the GST stability suggest that glycerol works as a stabilizer and L-arginine acts as a destabilizer.     

High recovery refolding of rhG-CSF from Escherichia coli, using urea gradient size exclusion chromatography

Protein folding liquid chromatography (PFLC) is a powerful tool for simultaneous refolding and purification of recombinant proteins in inclusion bodies. Urea gradient size exclusion chromatography (SEC) is a recently developed protein refolding method based on the SEC refolding principle. In the presented work, recombinant human granulocyte colony-stimulating factor (rhG-CSF) expressed in Escheriachia coli (E. coli) in the form of inclusion bodies was refolded with high yields by this method. Denatured/reduced rhG-CSF in 8.0 mol.L(-1) urea was directly injected into a Superdex 75 column, and with the running of the linear urea concentration program, urea concentration in the mobile phase and around the denatured rhG-CSF molecules was decreased linearly, and the denatured rhG-CSF was gradually refolded into its native state. Aggregates were greatly suppressed and rhG-CSF was also partially purified during the refolding process. Effects of the length and the final urea concentration of the urea gradient on the refolding yield of rhG-CSF by using urea gradient SEC were investigated respectively. Compared with dilution refolding and normal SEC with a fixed urea concentration in the mobile phase, urea gradient SEC was more efficient for rhG-CSF refolding--in terms of specific bioactivity and mass recovery, the denatured rhG-CSF could be refolded at a larger loading volume, and the aggregates could be suppressed more efficiently. When 500 microL of solubilized and denatured rhG-CSF in 8.0 mol.L(-1) urea solution with a total protein concentration of 2.3 mg.mL(-1) was loaded onto the SEC column, rhG-CSF with a specific bioactivity of 1.0 x 10(8) IU.mg(-1) was obtained, and the mass recovery was 46.1%.