High-level expression, single-step immunoaffinity purification and characterization of human tetraspanin membrane protein CD81

The study of membrane protein structure and function requires their high-level expression and purification in fully functional form. We previously used a tetracycline-inducible stable mammalian cell line, HEK293S-TetR, for regulated high-level expression of G-protein coupled receptors. We here report successfully using this method for high-level expression of de novo oligo-DNA assembled human CD81 gene. CD81 is a member of the vital tetraspanin membrane protein family. It has recently been identified as the putative receptor for the Hepatitis C Virus envelope E2 glycoprotein (HCV-E2). In this study we used a single-step rho-1D4-affinity purification method to obtain >95% purity from HEK293S-TetR-inducible stable cell lines. Using ELISA assay we determined that the affinity of the purified CD81 receptor for HCV-E2 protein is 3.8+/-1.2 nM. Using fluorescent confocal microscopy we showed that the inducibly overexpressed CD81 receptor in HEK293S-TetR cells is correctly located on the plasma membrane. We demonstrated that the combination of high-level expression of CD81 with efficient single-step immunoaffinity purification is a useful method for obtaining large quantities of CD81 membrane receptor suitable for detailed structural analyses of this elusive tetraspanin protein. Furthermore, this simple single-step immunoaffinity purification to high purity of membrane protein could be useful broadly for other membrane protein purifications, thus accelerating the determination of structures for large numbers of difficult-to-obtain membrane proteins.     

Comparison of the efficiencies of different affinity tags in the purification of a recombinant secretory protein expressed in silkworm larval hemolymph

Silkworms are useful bioreactors for heterologous protein expression when used in conjunction with the Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid system. However, purification from silkworm hemolymph is difficult since it contains various kinds of proteins. In this study, we investigated an effective single-step method for the purification of affinity-tagged single-chain antibody variable region fragment (scFv) from silkworm larval hemolymph. A 5-fold higher expression level was obtained when scFv was fused with the His tag than when it was fused with the Strep II or GST tags. However, the His tag was inadequate for single-step purification since it led to the nonspecific binding of contaminants. The purification recoveries of GST-, Strep II-, and His-tagged scFvs were 91.8%, 43.7%, and 27.2%, respectively. The specific amount of single-step purified GST-tagged scFv was 2.2∼2.7 fold higher than the amounts of the His- and Strep II-tagged constructs. The purities of Strep II- and GST-tagged scFvs in the eluent were 98.4% and 83.0%, respectively. Thus, both the short peptide Strep II and GST protein are suitable fusion tags for the affinity purification of proteins from silkworm larvae.     

Single-step ion exchange purification of the coagulant protein from Moringa oleifera seed

The coagulant protein from Moringa oleifera (MO) seed was purified using a single-step batch ion exchange (IEX) method. Adsorption and elution parameters were optimized. Impact of the purification on the reduction of organic and nutrient release to the water was studied. The matrix was equilibrated using ammonium acetate buffer, and the optimum ionic strength of NaCl for elution was 0.6 M. The time for adsorption equilibrium was between 90 and 120 min. Maximum adsorption capacity of the matrix, estimated with the Langmuir model, was 68 mg protein/g adsorbent. The purified protein does not release organic and nutrient loads to the water, which are the main concerns of the crude extract. This work suggests that a readily scalable single-step IEX purification method can be used to produce the coagulant protein and it can be carried out with locally available facilities. This will promote the use of MO in large water treatment plants and other industries.     

The tandem affinity purification technology: an overview

Tandem affinity purification (TAP) is a methodology for the isolation of protein complexes from endogenous sources. It involves incorporation of a dual-affinity tag into the protein of interest and introduction of the construct into desired cell lines or organisms. Using the two affinity handles, the protein complex assembled under physiological conditions, which contains the tagged target protein and its interacting partners, can be isolated by a sequential purification scheme. Compared with single-step purification, TAP greatly reduces non-specific background and isolates protein complexes with higher purity. TAP-based protein retrieval plus mass spectrometry-based analysis has become a standard approach for identification and characterization of multi-protein complexes. The present article gives an overview of the TAP method, with a focus on its key feature—the dual-affinity tag. In addition, the application of this technology in various systems is briefly discussed.     

Isolation and purification of bovine testicular hyaluronidase

We developed a single-step method for chromatographic purification of the hyaluronidase extract on Sepharose blue, which produced high yield of the enzyme (95%) with high purity (40). Purification of hyaluronidase allowed us to obtain biological preparations standardized by the protein composition and enzyme activity and useful for basic and applied researches.     

The restriction endonuclease RflFII, isolated from Ruminococcus flavefaciens FD-1, recognizes the sequence 5''-AGTACT-3'', and is inhibited by site-specific adenine methylation

Abstract Citrate synthases from both thermophilic and halophilic Archaea have been purified to homogeneity using affinity chromatography on Matrex Gel Red A and elution with a combination of substrate (oxaloacetate) and product (coenzyme A). In a number of cases, purification from cell-extract to protein suitable for N-terminal sequencing can be achieved by this single-step procedure. The method is particularly useful in the rapid purification of a thermophilic archaeal citrate synthase from a cloned gene expressed in a mesophilic host.     

Single-step purification of recombinant anthrax lethal factor from periplasm of Escherichia coli

Lethal toxin (LT) that composed by protective antigen and lethal factor (LF) is the major virulence factor of Bacillus anthracis. The treatments of LT in animals could reproduce most manifestations of B. anthracis infections that greatly improves our knowledge in LT-mediated pathogenesis and facilitates anthrax-related researches without having to directly contact the hazardous bacterium B. anthracis. The recombinant protein of LF (rLF), however, still lacks a simple purification method. Herein, we developed single-step nickel affinity purification of rLF with yield up to 3mg/l. By fusion to the leader sequence of outer membrane protein OmpA, rLF could easily be purified from the periplasm of Escherichia coli. To investigate whether the rLT is functional in our system, both wild type rLF and the catalytic mutant rLF that contains a single amino acid substitution at zinc-binding site (LF(E687A)), were subjected to macrophage cytotoxicity analysis. Our data showed that the rLT is fully functional, while the LF(E687A) fail to induce cell death of tested macrophage cells. These findings suggested that the purification protocol herein is a user-friendly method that allows researchers to obtain the functional rLF by single-step purification.     

Reexamination of spectroscopic properties of ceruloplasmin freshly isolated with a novel very rapid single-step procedure

A novel, single-step, chromatographic procedure for the purification of ceruloplasmin is described. The procedure consists of a single chromatographic step, leading in approximately 5 hours from 2 liters of plasma to an electrophoretically homogeneous ceruloplasmin preparation which exhibits different spectroscopic properties with respect to the protein obtained with more lengthy, currently available procedures. The method is suitable for either small or large scale purification from various vertebrate plasma.     

Expression, single-step purification, and matrix-assisted refolding of a maize cytokinin glucoside-specific beta-glucosidase.

Availability of highly purified native beta-glucosidase Zm-p60.1 in milligram quantities was a basic requirement for analysis of structure-function relationships of the protein. Therefore, Zm-p60.1 was overexpressed to high levels as a fusion protein with a hexahistidine tag, (His)(6)Zm-p60.r, in Escherichia coli, resulting, however, in accumulation of most of the protein in insoluble inclusion bodies. Native (His)(6)Zm-p60.r was then purified either from the bacterial lysate soluble fraction or from inclusion bodies. In the first case, a single-step purification under native conditions based on immobilized metal affinity chromatography (IMAC) was developed. In the second case, a single-step purification protocol under denaturing conditions followed by IMAC-based matrix-assisted refolding was elaborated. The efficiency of the native protein purification from soluble fraction of bacterial homogenate was compared to the feasibility of purification and renaturation of the protein from inclusion bodies. Gain of authentic biological activity and quaternary structure after the refolding process was confirmed by K(m) determination and electrophoretic mobility under native conditions. The yield of properly refolded protein was assessed based on the specific activity of the refolded product.     

Purification of recombinant nucleocapsid protein of Newcastle disease virus from unclarified feedstock using expanded bed adsorption chromatography

In the present work, a single-step purification of recombinant nucleocapsid protein (NP) of the Newcastle disease virus (NDV) directly from unclarified feedstock using an expanded bed adsorption chromatography (EBAC) was developed. Streamline 25 column (ID = 25 mm) was used as a contactor and Streamline chelating adsorbent immobilized with Ni2+ ion was used as affinity adsorbent. The dynamic binding capacity of Ni2+ -loaded Streamline chelating adsorbent for the NP protein in unclarified feedstock was found to be 2.94 mg ml(-1) adsorbent at a superficial velocity of 200 cm h(-1). The direct purification of NP protein from unclarified feedstock using expanded bed adsorption has resulted in a 31% adsorption and 9.6% recovery of NP protein. The purity of the NP protein recovered was about 70% and the volume of processing fluid was reduced by a factor of 10. The results of the present study show that the IMA-EBAC developed could be used to combine the clarification, concentration and initial purification steps into a single-step operation.     

High-throughput purification of recombinant proteins using self-cleaving intein tags

High throughput methods for recombinant protein production using E. coli typically involve the use of affinity tags for simple purification of the protein of interest. One drawback of these techniques is the occasional need for tag removal before study, which can be hard to predict. In this work, we demonstrate two high throughput purification methods for untagged protein targets based on simple and cost-effective self-cleaving intein tags. Two model proteins, E. coli beta-galactosidase (βGal) and superfolder green fluorescent protein (sfGFP), were purified using self-cleaving versions of the conventional chitin-binding domain (CBD) affinity tag and the nonchromatographic elastin-like-polypeptide (ELP) precipitation tag in a 96-well filter plate format. Initial tests with shake flask cultures confirmed that the intein purification scheme could be scaled down, with >90% pure product generated in a single step using both methods. The scheme was then validated in a high throughput expression platform using 24-well plate cultures followed by purification in 96-well plates. For both tags and with both target proteins, the purified product was consistently obtained in a single-step, with low well-to-well and plate-to-plate variability. This simple method thus allows the reproducible production of highly pure untagged recombinant proteins in a convenient microtiter plate format.     

A single-step method for purification of active His-tagged ribosomes from a genetically engineered Escherichia coli

With the rapid development of the ribosome field in recent years a quick, simple and high-throughput method for purification of the bacterial ribosome is in demand. We have designed a new strain of Escherichia coli (JE28) by an in-frame fusion of a nucleotide sequence encoding a hexa-histidine affinity tag at the 3′-end of the single copy rplL gene (encoding the ribosomal protein L12) at the chromosomal site of the wild-type strain MG1655. As a result, JE28 produces a homogeneous population of ribosomes (His)₆-tagged at the C-termini of all four L12 proteins. Furthermore, we have developed a single-step, high-throughput method for purification of tetra-(His)₆-tagged 70S ribosomes from this strain using affinity chromatography. These ribosomes, when compared with the conventionally purified ones in sucrose gradient centrifugation, 2D-gel, dipeptide formation and a full-length protein synthesis assay showed higher yield and activity. We further describe how this method can be adapted for purification of ribosomal subunits and mutant ribosomes. These methodologies could, in principle, also be used to purify any functional multimeric complex from the bacterial cell.     

Choline-binding domain as a novel affinity tag for purification of fusion proteins produced in Pichia pastoris

The choline-binding domain (ChoBD) of the carboxy-terminal region of the Streptococcus pneumoniae amidase LYTA (C-LYTA) presents a strong affinity for tertiary amines. We report a method for single-step purification of proteins expressed in the methylotrophic yeast Pichia pastoris based on the fusion of C-LYTA to the protein of interest. We show that C-LYTA can be efficiently expressed and secreted in this host. Tagged proteins fused to this binding domain can be purified on inexpensive DEAE matrices. It therefore provides a useful system for the purification of recombinant proteins with high specificity suitable for industrial purposes.     

Bacterial cell-free system for high-throughput protein expression and a comparative analysis of Escherichia coli cell-free and whole cell expression systems

Sixty-three proteins of Pseudomonas aeruginosa in the size range of 18-159 kDa were tested for expression in a bacterial cell-free system. Fifty-one of the 63 proteins could be expressed and partially purified under denaturing conditions. Most of the expressed proteins showed yields greater than 500 ng after a single affinity purification step from 50 microl in vitro protein synthesis reactions. The in vitro protein expression plus purification in a 96-well format and analysis of the proteins by SDS-PAGE were performed by one person in 4 h. A comparison of in vitro and in vivo expression suggests that despite lower yields and less pure protein preparations, bacterial in vitro protein expression coupled with single-step affinity purification offers a rapid, efficient alternative for the high-throughput screening of clones for protein expression and solubility.     

Plasmid pGEX-5T: An alternative system for expression and purification of recombinant proteins

Summary A novel expression vector pGEX-5T was constructed which directs the synthesis of a fusion protein with a histidine-hexapeptide and glutathione-S-transferase at its N-terminus and the recombinant protein at its C-terminus inEscherichia coli. The designed fusion gene strategy allows the purification of soluble and insoluble recombinant proteins to homogeneity with single-step affinity chromatography using immobilized glutathione and metal chelating matrix, respectively. The principle and availability of this new expression system was respectively tested with the purification of a soluble and insoluble recombinant fusion protein containing 24 and 75 amino acids of the human thrombomodulin.     

A single step purification for autolytic zinc proteinases

We describe a novel single-step method for the purification of stromelysin-1 catalytic domain (SCD) via immobilized metal affinity chromatography under denaturing conditions that inhibit proteolytic activity followed by on-column refolding and spontaneous autolysis of the fusion peptide to yield pure, active stromelysin-1 catalytic domain. The methodology provides a general approach for the rapid purification of large quantities of zinc proteinases.     

Affinity purification of recombinant interferon-alpha on a mimetic ligand adsorbent

A method for improved refolding and purification of recombinant human interferon-alpha (rh-IFN-alpha) from inclusion bodies is described. The optimal conditions of refolding were obtained by the addition of 0.5 M l-arginine to the refolding buffer. The rh-IFN-alpha was purified to near homogeneity utilizing a single-step chromatography on a mimetic dye-ligand matrix. Improved refolding, coupled to a single-column affinity purification strategy, resulted in a 10-fold increase in the yield of rh-IFN-alpha. This single-step purification protocol yielded approximately 50 mg of purified rh-IFN-alpha from 1 liter of shake flask culture. The rh-IFN-alpha prepared by this protocol was found to be essentially monomeric based on HPLC gel filtration and nonreducing SDS-PAGE. It had a specific activity of approximately 2.8 x 10(8) IU/mg, measured as inhibition of cytopathic effect of encephalomyocarditis virus on A549 human lung carcinoma cells.     

Large scale purification and refolding of HIV-1 protease fromEscherichia coli inclusion bodies

The protease encoded by the human immunodeficiency virus type 1 (HIV-1) was engineered inEscherichia coli as a construct in which the natural 99-residue polypeptide was preceded by an NH₂-terminal methionine initiator. Inclusion bodies harboring the recombinant HIV-I protease were dissolved in 50% acetic acid and the solution was subjected to gel filtration on a column of Sephadex G-75. The protein, eluted in the second of two peaks, migrated in SDS-PAGE as a single sharp band ofM _r ≈ 10,000. The purified HIV-1 protease was refolded into an active enzyme by diluting a solution of the protein in 50% acetic acid with 25 volumes of buffer atpH 5.5. This method of purification, which has also been applied to the purification of HIV-2 protease, provides a single-step procedure to produce 100 mg quantities of fully active enzyme.     

Purification of cellobiohydrolase I fromTrichoderma reesei using monoclonal antibodies in an immunomatrix

Summary The several components of the fungal cellulase system present practical problems in devising facile and efficient schemes for their purification. We report on a new single-step affinity chromatographic method for purification of cellobiohydrolase I ofTrichoderma reesei based on its selective absorption and elution using an immunomatrix constructed with CnBr-activated Sepharose 4B and monoclonal antibody specific for the enzyme. Isoenzymes of cellobiohydrolase I were purified directly from crude culture filtrate. The method is fast, simple, and of high resolution.     

Expression,purification and characterization of the interferon-inducible,antiviral and tumour-suppressor protein,human RNase L

The interferon (IFN)-inducible, 2′,5′-oligoadenylate (2-5A)-dependent ribonuclease L (RNase L) plays key role in antiviral defense of mammalian cells. Induction by IFN and activation by double-stranded RNA lead to 2-5A cofactor synthesis, which activates RNase L by causing its dimerization. Active RNase L degrades single-stranded viral as well as cellular RNAs causing apoptosis of virus-infected cells. Earlier, we had reported that expression of recombinant human RNase L caused RNA-degradation and cell-growth inhibition in E. coli without the need for exogenous 2-5A. Expression of human RNase L in E. coli usually leads to problems of leaky expression, low yield and degradation of the recombinant protein, which demands number of chromatographic steps for its subsequent purification thereby, compromising its biochemical activity. Here, we report a convenient protocol for expression of full-length, soluble and biochemically active recombinant human RNase L as GST-RNase L fusion protein from E. coli utilizing a single-step affinity purification with an appreciable yield of the highly purified protein. Recombinant RNase L was characterized by SDS-PAGE, immunoblotting and MALDI-TOF analysis. A semi-quantitative agarose-gel-based ribonuclease assay was developed for measuring its 2-5A-dependent RNase L activity against cellular large rRNAs as substrates. The optimized expression conditions minimized degradation of the protein, making it a convenient method for purification of RNase L, which can be utilized to study effects of various agents on the RNase L activity and its protein–protein interactions.