An oligodeoxynucleotide affinity column for the isolation of sequence specific DNA binding proteins.

A nucleic acid affinity matrix containing a short oligodeoxynucleotide ligand has been prepared as an example of a material which can be used for the rapid and effective isolation of sequence specific DNA binding proteins. Two complementary oligodeoxynucleotides have been employed, one of which contains a small 5'-spacer arm with a terminal thiol group. Using this terminal thiol group, the ligand can be covalently coupled to Tresyl-activated Sepharose 4B or Epoxy-activated Sepharose 6B via a thioether linkage. This approach allows the specific attachment of the nucleic acid ligand via its 5'-terminus to the insoluble matrix. The double stranded affinity material was obtained by annealing of the complementary DNA fragment. As an example, we have used an eicosomer affinity column containing the sequence d(GAATTC) for the isolation of the Eco RI restriction endonuclease. Using a single column, the enzyme could be isolated by eluting the column with a single step or multistep gradient of increasing salt concentration. The enzyme was purified to 75%-85% homogeneity with yields of 0.1 mg to 0.2 mg from 0.5 g of cell paste.     

Isolation of human proteasomes and putative proteasome-interacting proteins using a novel affinity chromatography method

The proteasome is the primary subcellular organelle responsible for protein degradation. It is a dynamic assemblage of 34 core subunits and many differentially expressed, transiently interacting, modulatory proteins. This paper describes a novel affinity chromatography method for the purification of functional human holoproteasome complexes using mild conditions. Human proteasomes purified by this simple procedure maintained the ability to proteolytically process synthetic peptide substrates and degrade ubiquitinated parkin. Furthermore, the entire purification fraction was analyzed by mass spectrometry in order to identify proteasomal proteins and putative proteasome-interacting proteins. The mild purification conditions maintained transient physical interactions between holoproteasomes and a number of known modulatory proteins. In addition, several classes of putative interacting proteins co-purified with the proteasomes, including proteins with a role in the ubiquitin proteasome system for protein degradation or DNA repair. These results demonstrate the efficacy of using this affinity purification strategy for isolating functional human proteasomes and identifying proteins that may physically interact with human proteasomes.     

Effective depletion of albumin using a new peptide-based affinity medium

Blood plasma and serum are very useful samples for the detection, identification and quantitation of proteins associated with both health and disease. However, analysis of plasma and serum is a challenge because traces of interesting polypeptides and proteins can be dominated by the very high concentration of albumin present. Albumin may be depleted by adsorption to immunoaffinity columns or to columns containing dyes such as Cibacron Blue, or by ultrafiltration, but these methods are far from ideal. We describe a new peptide-based affinity medium which is effective for removing albumin and is very specific. The albumin-binding capacity is at least 14 mg per mL of gel. The material may be reused hundreds of times after a simple regeneration step involving NaOH, with full retention of specificity and capacity. The material was tested with human and monkey plasma and serum and rat serum, and has been used to deplete litre volumes of human plasma. The development of other peptide-based affinity media to deplete abundant proteins is briefly discussed.     

Functional expression and affinity selection of single-chain cro by phage display: isolation of novel DNA-binding proteins

A robust selection system affording phage display of the DNA-binding helix-turn-helix protein Cro is presented. The aim of the work was to construct an experimental system allowing for the construction and isolation of Cro-derived protein with new DNA-binding properties. A derivative of the phage lambda Cro repressor, scCro8, in which the protein subunits had been covalently connected via a peptide linker was expressed in fusion with the gene 3 protein of Escherichia coli filamentous phage. The phage-displayed single-chain Cro was shown to retain the DNA binding properties of its wild-type Cro counterpart regarding DNA sequence specificity and binding affinity. A kinetic analysis revealed the rate constant of dissociation of the single-chain Cro-phage/DNA complex to be indistinguishable from that of the free single-chain Cro. Affinity selection using a biotinylated DNA with a target consensus operator sequence allowed for a 3000-fold enrichment of phages displaying single-chain Cro over control phages. The selection was based on entrapment of phage/DNA complexes formed in solution on streptavidin-coated paramagnetic beads. The expression system was subsequently used to isolate variant scCro8 proteins, mutated in their DNA-binding residues, that specifically recognized new, unnatural target DNA ligands.     

Development of novel Alicyclobacillus spp. isolation medium

AIM: To develop a new isolation medium with higher recovery rates of Alicyclobacillus spp. METHODS AND RESULTS: SK agar was developed with optimized incubation temperature, pH, acidulant, Tween 80 concentration and divalent cation addition. Results indicate that detection of Alicyclobacillus spp. by SK agar was significantly higher (P > 0.05) than those obtained by K agar, orange serum agar, and potato dextrose agar. CONCLUSIONS: Current media used for Alicyclobacillus spp. isolation still resulted in high numbers of false negative products. The sensitivity of SK agar to Alicyclobacillus spp. allows detection of low numbers of Alicyclobacillus spp. and also provides a more higher isolation results compared with currently used media. SIGNIFICANCE AND IMPACT OF THE STUDY: SK agar will be useful to the fruit juice industry to obtain more accurate numbers of contaminant Alicyclobacillus spp. With this media, false negative samples can be reduced, and the likelihood of exported products being rejected can be greatly reduced.     

Evaluation of a selective medium for Brucella isolation using natamycin

AIMS: To select an anti-fungal agent to replace cycloheximide in the media used for isolation of Brucella. METHODS AND RESULTS: One potential agent, natamycin, was evaluated using 28 Brucella isolates, 18 yeasts and 14 fungi. The material for the evaluation included 37 bovine milk samples, six bovine vaginal swabs and 45 milk samples artificially infected with Brucella. The recovery of Brucella only from the artificially-inoculated milk samples increased with the use of the medium containing natamycin instead of cycloheximide, at the same time significantly inhibiting the growth of yeasts, fungi and other bacteria. The inclusion of either anti-fungal agent allowed growth of the 28 Brucella isolates and totally prevented the growth of all 18 yeasts and 13 of the 14 fungi. CONCLUSIONS: Based on the results it was concluded that natamycin would be a suitable alternative to cycloheximide. SIGNIFICANCE AND IMPACT OF THE STUDY: Cycloheximide has become unavailable worldwide and is currently an anti-fungal constituent of the medium often used for isolation of Brucella organisms. The use of natamycin as a replacement in the formulation did not inhibit growth of Brucella and was effective at eliminating most contaminants.     

Glutathione S-transferase fusion proteins as an affinity reagent for rapid isolation of specific sequence directly from genomic DNA.

We describe a DNA binding assay for isolation of specific sequence(s) recognized by protein of interest directly from genomic or cosmid DNA. In our assay, the protein is fused to the glutathione-S-transferase and bound to glutathione-Sepharose beads. Then the immobilized fusion protein can be used to search for DNA fragment(s) that interact specifically with the protein of interest. As an example of such an approach, we identified and cloned a few prokaryotic oriC regions using the initiator DnaA protein fused to the glutathione-S-transferase.     

Efficient one-cycle affinity selection of binding proteins or peptides specific for a small-molecule using a T7 phage display pool

Here, we report an efficient one-cycle affinity selection using a natural-protein or random-peptide T7 phage pool for identification of binding proteins or peptides specific for small-molecules. The screening procedure involved a cuvette type 27-MHz quartz-crystal microbalance (QCM) apparatus with introduction of self-assembled monolayer (SAM) for a specific small-molecule immobilization on the gold electrode surface of a sensor chip. Using this apparatus, we attempted an affinity selection of proteins or peptides against synthetic ligand for FK506-binding protein (SLF) or irinotecan (Iri, CPT-11). An affinity selection using SLF-SAM and a natural-protein T7 phage pool successfully detected FK506-binding protein 12 (FKBP12)-displaying T7 phage after an interaction time of only 10 min. Extensive exploration of time-consuming wash and/or elution conditions together with several rounds of selection was not required. Furthermore, in the selection using a 15-mer random-peptide T7 phage pool and subsequent analysis utilizing receptor ligand contact (RELIC) software, a subset of SLF-selected peptides clearly pinpointed several amino-acid residues within the binding site of FKBP12. Likewise, a subset of Iri-selected peptides pinpointed part of the positive amino-acid region of residues from the Iri-binding site of the well-known direct targets, acetylcholinesterase (AChE) and carboxylesterase (CE). Our findings demonstrate the effectiveness of this method and general applicability for a wide range of small-molecules.     

A novel selective medium for isolation of Streptococcus mutans

The aim of this study was to improve the selective medium of Streptococcus mutans. A new selective medium, designated MS-MUTV, was prepared by adding 10 mg/l valinomycin to the MS-MUT medium previously described. The average recovery of S. mutans was 72.1%, and the growth of S. sobrinus and S. anginousus group was inhibited on MS-MUTV, but allowed on MS-MUT. One hundred and thirty-nine human saliva samples were examined and counted for S. mutans and non-S. mutans colonies. The recovery of S. mutans on MS-MUTV was similar to that on MS-MUT. Eighty-two and 7.9 percent of the saliva samples obtained S. mutans pure cultures, with no bacterial growth on MS-MUTV, respectively. The remaining 10.1% were contaminated with non-S. mutans, with low-level CFU. MS-MUTV is useful for the isolation of S. mutans alone from clinical samples in routine examinations.     

StreptoTag: a novel method for the isolation of RNA-binding proteins

We describe a fast and simple one-step affinity-purification method for the isolation of specific RNA-binding proteins. An in vitro-transcribed hybrid RNA consisting of an aptamer sequence with high binding specificity to the antibiotic streptomycin and a putative protein-binding RNA sequence is incubated with crude extract. After complex formation, the sample is applied to an affinity column containing streptomycin immobilized to Sepharose. The binding of the in vitro-assembled RNA-protein complex to streptomycin-Sepharose is mediated by the aptamer RNA and the specifically bound proteins are recovered from the affinity matrix by elution with the antibiotic. Employing two well-characterized RNA-protein interactions, we tested the performance of this new method. The spliceosomal U1A protein and the bacteriophage MS2 coat protein could be isolated via their appropriate RNA motif containing hybrid RNA from crude yeast extracts in high yield and purity after only one round of affinity purification. As the purification principle is independent of the extract source, this new affinity chromatography strategy that makes use of an in vitro-selected antibiotic-binding RNA as a tag, "StreptoTag," should be applicable to extracts from other organisms as well. Therefore, we propose StreptoTag to be a versatile tool for the isolation of unknown RNA-binding proteins.     

A parallel affinity purification method for selective isolation of polyubiquitinated proteins

We developed a parallel affinity purification (PAP) procedure, in which ubiquitinated proteins are purified from the cells that coexpress two affinity-tagged ubiquitins by sequential use of affinity chromatography specific to each tag. In contrast with previous procedures using a single affinity-tagged ubiquitin, the PAP eliminates highly abundant ubiquitin monomers and monoubiquitinated proteins to selectively enrich proteins bearing both affinity-tags, or poly- and multiubiquitinated proteins. Accordingly, it would serve as a powerful method to facilitate mass-spectrometric identification of ubiquitinated proteins.     

The isolation by ligand affinity chromatography of a novel form of alpha-L-fucosidase from almond

An alpha-fucosidase has been extracted from almond meal and purified 163,000-fold to apparent homogeneity using a novel affinity ligand, N-(5-carboxy-1-pentyl)-1,5-dideoxy-1,5-imino-L-fucitol, coupled to Affi-Gel 102. Substrate specificity studies demonstrate that the enzyme hydrolyzes the alpha-fucosidic linkages in Gal(beta 1----3)(Fuc(alpha 1----4]GlcNAc(beta 1----3)Gal(beta 1----4)Glc and Gal(beta 1----4)(Fuc(alpha 1----3]GlcNAc(beta 1----3)Gal(beta 1----4)Glc at similar rates but is unable to hydrolyze Fuc(alpha 1----2)Gal, Fuc(alpha 1----6)GlcNAc, or the synthetic substrate, p-nitrophenyl alpha-L-fucopyranoside. Hence, the enzyme closely resembles an alpha-fucosidase I isolated previously from a commercial preparation of partially purified almond beta-glucosidase (Ogata-Arakawa, M., Muramatsu, T., and Kobata, A. (1977) Arch. Biochem. Biophys. 181, 353-358). However, native and subunit relative molecular masses of 106,000 and 54,000 respectively, different charge and hydrophobicity properties, and the absence of stimulation by NaCl clearly distinguish this enzyme, designated alpha-fucosidase III, from other almond alpha-fucosidases reported previously.     

Purification of tetracysteine-tagged proteins by affinity chromatography using a non-fluorescent, photochemically stable bisarsenical affinity ligand

The use of genetically encoded small peptide tags such as polyhistidine and tetracysteine tags has become important for protein purification and enrichment. An improved affinity purification of tetracysteine (CCXXCC) tagged proteins has been achieved using a nonfluorescent, photochemically stable bisarsenical affinity ligand SplAsH. The photochemical stability of the SplAsH-biotin, shown in compound 5, is superior to FlAsH-EDT(2) and ReAsH-EDT(2). An application of the SplAsH tag for affinity purification of tetracysteine-tagged proteins is reported.     

Metal-chelate affinity precipitation of proteins using responsive polymers

Affinity precipitation of proteins uses polymers capable of reversible soluble-insoluble transitions in response to small environmental changes (temperature, pH or solvent composition). Here we describe protocols for (i) the synthesis of responsive polymers with specific affinity to target proteins and (ii) the purification of proteins using these polymers. The purification is based on precipitation of the affinity complex between the protein and the polymer, which is induced by environmental changes. This separation strategy is simpler and more cost effective than conventional affinity column chromatography. Specifically, we describe the synthesis of thermoresponsive 1-vinylimidazole:N-isopropylacrylamide copolymers. The whole procedure takes 2-3 h when applied to purification of recombinant His-tag proteins or proteins with natural metal binding groups by means of metal chelate affinity precipitation. Optimization of the polymer composition and the type of chelating ions allows for target protein yields of 80% and higher.     

Purification of the hepatic vasopressin receptor using a novel affinity column

A vasopressin receptor was purified, using a novel affinity column, from rat liver plasma membranes treated with guanosine 5'-(3-O-thio)triphosphate and solubilized with 0.8% cholate. Incubation of the membranes with the GTP analogue resulted in a dissociation of the receptor-guanine nucleotide regulatory protein complex. This manipulation, although resulting in a low-affinity state of the receptor, facilitated purification. The solubilized receptor was assayed using a new reconstitution procedure in which the soluble extracts were inserted into lipid vesicles composed of phosphatidylcholine and phosphatidylinositol. The receptor was purified by sequential chromatography on Q-Sepharose and hydroxyapatite. The use of a novel affinity column, a V1-vasopressin antagonist-agarose, resulted in a near-homogeneous preparation of a protein which exhibited an Mr = 58,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Autoradiography of purified receptor, as well as crude membrane preparations cross-linked to [125I]arginine vasopressin, also revealed a protein band with an approximate Mr = 58,000. These findings indicate that V1-antagonist affinity chromatography should be useful for purifying adequate amounts of the receptor for studies of structure and function.