Rapid purification of annexin V from human placenta by affinity chromatography

Affinity purification of annexin V from human placenta on column with appropriate monospecific antibodies is developed. The procedure permits purification of the protein to a highly purified state by a two stage procedure. The yield of the protein is about 5 mg per 100 g of wet tissue. Because of high homologies between various annexins, it was supposed that this procedure can be also applied for purification of other annexins from other tissues.     

A PROCEDURE FOR THE PURIFICATION OF BETA-LACTOGLOBULIN FROM BOVINE MILK USING GEL FILTRATION CHROMATOGRAPHY AT LOW pH

A simple and rapid procedure for the purification of beta-lactoglobulin (β-LG) from bovine milk is described. The procedure exploits the major difference in molecular mass of β-LG and other whey components and the existence of the former in monomeric form at acidic pH. Gel filtration of whey was carried out using a Bio-Gel P10 column at pH 3.0. Residual caseins and other milk proteins were excluded from the gel and β-LG and alpha-lactalbumin (α-LA) emerged as two fully resolved peaks. Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) suggested that β-LG was purified to apparent homogeneity, while absorption, fluorescence, and circular dichroism spectroscopy indicated the native-like conformation of the protein. Western blot analysis revealed that the antibodies raised against the purified β-LG in rabbits also readily react with the commercial bovine protein. This procedure requires only 4–5 hr for the purification of about 10 mg of β-LG from a single run while using a small column (2.3 cm × 83 cm) of Bio-Gel P10 and has the potential for scaling up.     

A Simple and Efficient Method for the Purification of Human Gamma Interferon

Abstract

A preparative, sequential chromatographic procedure has been developed for the purification of human gamma interferon (HuIFN-γ). The four steps in the procedure are Controlled Pore Glass-adsorption chromatography, Concanavalin-A affinity chromatography, Heparin-Sepharose affinity chromatography and gel-filtration.

By virtue of the development of a coordinated effluent-affluent buffer scheme, eluants can also serve as loading buffers for the succeeding column. Consequently, crude HuIFN-γ preparations can be purified rapidly (approximately one week), easily, and is amenable to a semi-automated process.

The procedure has also been shown to be efficient. Here, as an example, it is reported that an overall purification of greater than 75,000-fold can be achieved, yielding a specific activity of 5.2·107 units/mg, and a recovery of 95.5%. In addition, the peak fraction, representing 37.8% of the applied activity, had a specific activity of l.0·108 units/mg protein and represents a purification of more than 145,000-fold.

An SDS-PAGE analysis of one such fraction indicated that approximately 40% of the final material was HuIFN-γ.     

Purification of α-Galactosidase by Affinity Precipitation with Alginate

Abstract

Affinity precipitation is a technique which is known for over 20 years, but has recently received more attention due to the development of new materials for its implementation. It is a relatively simple, convenient, and reproducible technique that results in high target molecule recovery at high specificity. We describe, here, an efficient and rapid purification procedure for Vicia faba α-galactosidase (EC 3.2.1.22) by using affinity precipitation with alginate. The enzyme was purified with 43% activity yield and 40-fold purification. SDS-PAGE of the purified enzyme showed a single band and a subunit weight of 44 kDa. The properties of the enzyme were also searched. The results showed that the general properties of the enzyme offer potential for use of this α-galactosidase in several production processes.     

Do annexins participate in lipid messenger mediated intracellular signaling? A question revisited

Abstract

Annexins are physiologically important proteins that play a role in calcium buffering but also influence membrane structure, participate in Ca²⁺-dependent membrane repair events and in remodelling of the cytoskeleton. Thirty years ago several peptides isolated from lung perfusates, peritoneal leukocytes, neutrophiles and renal cells were proven inhibitory to the activity of phospholipase A₂. Those peptides were found to derive from structurally related proteins: annexins AnxA1 and AnxA2. These findings raised the question whether annexins may participate in regulation of the production of lipid second messengers and, therefore, modulate numerous lipid mediated signaling pathways in the cell. Recent advances in the field of annexins made also with the use of knock-out animal models revealed that these proteins are indeed important constituents of specific signaling pathways. In this review we provide evidence supporting the hypothesis that annexins, as membrane-binding proteins and organizers of the membrane lateral heterogeneity, may participate in lipid mediated signaling pathways by affecting the distribution and activity of lipid metabolizing enzymes (most of the reports point to phospholipase A₂) and of protein kinases regulating activity of these enzymes. Moreover, some experimental data suggest that annexins may directly interact with lipid metabolizing enzymes and, in a calcium-dependent or independent manner, with some of their substrates and products. On the basis of these observations, many investigators suggest that annexins are capable of linking Ca²⁺, redox and lipid signaling to coordinate vital cellular responses to the environmental stimuli.     

A novel fed-batch based strategy for enhancing cell-density and recombinant cyprosin B production in bioreactors

Nowadays, the dairy industry is continuously looking for new and more efficient clotting enzymes to create innovative products. Cyprosin B is a plant aspartic protease characterized by clotting activity that was previously cloned in Saccharomyces cerevisiae BJ1991 strain. The production of recombinant cyprosin B by a batch and fed-batch culture was compared using glucose and galactose as carbon sources. The strategy for fed-batch cultivation involved two steps: in the first batch phase, the culture medium presented glucose 1 % (w/v) and galactose 0.5 % (w/v), while in the feed step the culture medium was constituted by 5 % (w/v) galactose with the aim to minimize the GAL7 promoter repression. Based on fed-batch, in comparison to batch growth, an increase in biomass (6.6-fold), protein concentration (59 %) and cyprosin B activity (91 %) was achieved. The recombinant cyprosin B was purified by a single hydrophobic chromatography, presenting a specific activity of 6 × 10⁴ U·mg^?1, corresponding to a purification degree of 12.5-fold and a recovery yield of 16.4 %. The SDS-PAGE analysis showed that recovery procedure is suitable for achieving the purified recombinant cyprosin B. The results show that the recombinant cyprosin B production can be improved based on two distinct steps during the fed-batch, presenting that this strategy, associated with a simplified purification procedure, could be applied to large-scale production, constituting a new and efficient alternative for animal and fungal enzymes widely used in cheese making.     

Heterologous expression and secretion of an antifungal Bacillus subtilis chitosanase (CSNV26) in Escherichia coli

The aims of the study were the production improvement, the purification, the characterization and the activity investigation of chitosanase CSNV26 of Bacillus subtilis (V26). The gene csnV26 encoding for this protein was amplified and cloned in the pBAD vector then expressed in Escherichia coli (Top10). The SDS-PAGE and zymogram analysis of the recombinant protein showed that it has two active forms sized 27 and 31 kDa, corresponding to the protein with and without signal peptide. This protein has the particularity of being secreted by Top10-pBAD-csnV26 with a high yield of 6.2 g/l. The HPLC purification of CSNV26 from supernatant confirmed the presence of the two sizes. The investigation of the CSNV26 thermostability showed that the pure protein is highly stable keeping 68 % of its activity after 30-min treatment at 100 °C, contrarily to the protein present within the supernatant of E. coli and B. subtilis (V26). The molecular dynamics study of the predicted structure of protein in both forms showed that the presence of the peptide signal in the form of 31 kDa gave it a remarkable thermal stability. The antifungal activity of CSNV26 was evidenced on Rhizopus nigricans and Rhizopus oryzae. Indeed, it has provoked an alteration and embrittlement of their hyphae with onset of protoplast.     

Synthesis of the Human Insulin Gene: Protein Expression,Scaling Up and Bioactivity

Abstract

Optimized Synthetic human insulin gene was preferred to easy of cloning, plasmid stability, and protein expression away from the native sequence and its rare codons. Two steps to obtain the insulin, so we assembled the gene of 293 bp using a battery of overlapped synthetic oligos, then cloned into pET101directional TOPO expression vector downstream to the T7 promoter. The proinsulin products were produced as inclusion bodies in E. coli at a level of 10%. The batch cultivation of the strain yielded 6 g/L, while the high cell density of fed‐batch cultivation yielded 46 g/L. The proinsulin purification yielded 110 mg/gram cell weight, and 1.3 mg/gram of a bioactive insulin. The native insulin was generated by enzymatic conversion of chemically processed proinsulin. The produced insulin was matched with that of a commercial aqueous version at a level of enzyme immunoassys, SDS‐PAGE, RP‐HPLC, and bioactivity. The present results showed that the produced insulin has a comparable biochemical and potency similar to that of commercial one.     

Purification and Partial Characterization of a Novel β-1,3-Endoglucanase from Streptomyces rutgersensis

A β-1,3-endoglucanase produced by Streptomyces rutgersensis was purified to a homogeneity by the fractional precipitation with ammonium sulfate, ion exchange chromatography on Q-Sepharose and hydrophobic chromatography on Butyl Sepharose. A typical procedure provided 11.74-fold purification with 12.53 % yield. SDS-PAGE of the purified protein showed one protein band. The exact molecular mass of the enzyme obtained by mass spectrometry was 41.25 kDa; the isoelectric point was between pH 4.2–4.4. The optimal β-glucanase catalytic activity was at pH 7 and 50 °C. An enzyme was only active toward glucose polymers containing β-1,3 linkages and hydrolyzed Saccharomyces cerevisiae cell wall β-glucan in an endo-like way: reaction products were different molecular size β-glucans, which were larger than glucose.     

Interference of Nucleases in Cyanobacterium Ferredoxin Purification

Abstract

Isolation of cyanobacterial ferredoxin is normally carried out using nucleases in order to degrade the nucleic acids that accompany this protein during the purification procedure. However, this practice presents the inconvenience that these proteins remain in trace amounts in the purified ferredoxin preparations, although they are not visible by electrophoretical techniques. Evidence of that fact is shown in this report and an alternative procedure is described for the rapid preparation of ferredoxin from crude extracts of Anabaena PCC 7119. The method involves a treatment of the crude extract with streptomycin sulphate, a high molecular weight polication that precipitates the nucleic acids in the beginning of the purification.     

Expression and purification of ecdysteroid-regulated protein from Chinese mitten crab Eriocheir sinensis in E. coli

The glutathione S-transferase (GST) fusion protein system is widely used for high-level expression and efficient purification of recombinant proteins from bacteria. The goal of this study was to clone, efficiently express and purify the ecdysteroid-regulated protein (ERP) in the form of a GST fusion protein. The mature peptide-coding cDNA fragment was extracted from Chinese mitten crap (Eriocheir sinensis), and then after using PCR to obtain the open reading frame, a recombinant plasmid designated pGEX-4T-1_ERP was successfully generated and showed to efficiently express the ERP fusion protein as determined by SDS-PAGE. The resulting expressed protein was successfully purified by a combination of affinity and conventional chromatographic methods. After purification, the recombinant protein showed the expected size of 41 kDa on SDS-PAGE gels which was further confirmed by mass spectrometry and western blotting. Purification of recombinant protein was achieved by fast protein liquid chromatography. About 2.4 mg/l recombinant protein with purity more than 80 % was obtained.     

Cloning, Expression, and Characterization of Iron Superoxide Dismutase in Sonneratia alba, a Highly Salt Tolerant Mangrove Tree

In this study, a novel iron superoxide dismutase (FeSOD) gene from Sonneratia alba was cloned and then expressed in Escherichia coli Rosetta-gami, designated as SaFeSOD. The DNA sequence of SaFeSOD contained a 786-bp open reading frame which encodes a 261 amino-acid protein of 30.0 kDa. The 651-bp fragment coding for putative mature SaFeSOD was amplified and inserted into pET15b for expression. This recombinant SaFeSOD was subsequently isolated by Ni-trap column protein purification system. The apparent molecular mass of the purified enzyme was 25 kDa on SDS-PAGE. In comparison with FeSODs from other plant species, all iron-binding sites (His 27, His 80, Asp 164 and His 168) of SaFeSOD were conserved. SaFeSOD was found to have good pH stability in the pH range of 3.5–9.5 at 25 °C after 1 h incubation and was relatively stable and showed 78 % activity when incubated in 50 °C for 1 h. Quantitative real-time PCR experiments demonstrated that SaFeSOD was expressed in leaf, stem, flower, fruit and root tissues with the highest expression in leaf tissues.     

Purification of recombinant annexins without the use of phospholipids

Due to their involvement in a variety of physiological and pathological processes, different isoforms of annexins are being utilized as markers of some human diseases and bio-imaging of tissue injury (due to apoptosis), and have been proposed as drug delivery vehicles. These, in addition to extensive biophysical studies on the role of annexins in organizing lipid domains in biological membranes, have necessitated development of an efficient protocol for producing annexins in bulk quantities. In this paper, we report a one-step purification protocol for annexin a5 without using lipid vesicles or involving any column chromatographic step. Depending on the growth and expression condition, a fraction of recombinant annexin a5 (cloned in pET3d vector) was sequestered into inclusion bodies. When these inclusion bodies were dissolved in 6 M urea, subjected to a 10-fold snap dilution in the presence of 5 mM Ca(2+) and stored overnight at 4 degrees C, annexin a5 was precipitated as a homogenous protein as judged by SDS-PAGE. This one-step purification protocol produced about 35 mg of highly purified annexin a5 per liter of bacterial culture. The annexin a5 purified from inclusion bodies exhibited similar properties to that obtained from the soluble fraction using the conventional lipid-partitioning approach. Our purification protocol for annexin a5 elaborated herein is equally effective for purification of annexin A2, and we believe, will serve as general protocol for purifying other annexins in bulk quantities for diagnostic as well as detailed biophysical studies.     

Immunolocalization of a novel annexin‐like protein encoded by a stress and abscisic acid responsive gene in alfalfa

We report here on the isolation and characterization of a full-length cDNA clone from alfalfa termed AnnMs2 encoding a 333 amino acid long polypeptide that shows 32–37% sequence identity with both mammalian and plant annexins, and has four tandem repeats. While other plant annexins exhibit a high level of sequence similarity to each other (up to 77% identity at amino acid level), AnnMs2 appears to be a distinct type of plant annexins. All the four endonexin folds contain the conserved eukaryotic motif within this alfalfa protein, but this element is considerably different in the second repeat. The AnnMs2 gene is expressed in various tissues of alfalfa with elevated mRNA accumulation in root and flower. This gene is activated in cells or tissues exposed to osmotic stress, abscisic acid (ABA) or water deficiency. The recombinant AnnMs2 protein is able to bind to phospholipid in the presence of Ca²⁺. Indirect immunofluorescence studies using affinity purified rabbit anti-AnnMs2 peptide antibody show mainly nucleolar localization, but the protein sequence lacks the usual nuclear localization signal. The potential role of this novel annexin-like protein in the basic and stress-induced cellular functions is discussed.     

Identification of Protease from Euphorbia amygdaloides Latex and its Use in Cheese Production

Abstract

In this research, protease enzyme was purified and characterized from milk of Euphorbia amygdaloides. (NH₄)₂SO₄ fractionation and CM‐cellulose ion exchange chromatography methods were used for purification of the enzyme. The optimum pH value was determined to be 5, and the optimum temperature was determined to be 60°C. The V_max and K_M values at optimum pH and 25°C were calculated by means of Linewearver‐Burk graphs as 0.27 mg/L min^?1 and 16 mM, respectively. The purification degree was controlled by using SDS‐PAGE and molecular weight was found to be 26 kD. The molecular weight of the enzyme was determined as 54 kD by gel filtration chromatography. These results show that the enzyme has two subunits.

In the study, it was also researched whether purified and characterized protease can be collapsed to milk. It was determined that protease enzyme can collapse milk and it can be used to produce cheese.     

The interaction of beta-lactoglobulin with ciprofloxacin and kanamycin; a spectroscopic and molecular modeling approach

A vast research has been conducted to find suitable and safe carriers for vital and pH-sensitive drugs including antibiotics. This article reports the use of easily accessible and abundant purified beta-lactoglobulin (β-LG) protein as the potential carrier of widely used Kanamycin (Kana) and Ciprofloxacin (Cip) antibiotics. Spectroscopic techniques (Fluorescence, UV–vis, Circular Dichroism) combined with molecular docking were used to determine the binding mechanism of these drugs. Fluorescence studies showed moderate binding affinity with the calculated binding constants K_Cip = 60.1 (±0.2)?×?10³ M^?1 and K_kana = 2.5 (±0.6)?×?10³ M^?1 with the order of Cip > Kana. Results of UV–vis were consistent with fluorescence measurements and demonstrated a stronger complexation for Cip rather than Kana. The secondary structure of β-LG was preserved upon interaction with Kana; however, a reduction in β-sheet content from 39.1 to 31.9% was convoyed with an increase in α-helix from 12.8 to 20.5% due to complexation of Cip. Molecular docking studies demonstrated that preferred binding sites of these drugs are not the same and several amino acids are involved in stabilizing the interaction. Based on the achieved results, Kana and Cip can spontaneously bind to β-LG and this protein may serve as their transport vehicle.     

Novel extremely acidic lipases produced from Bacillus species using oil substrates

The extremely acidophilic microorganisms Bacillus pumilus and Bacillus subtilis were isolated from soil collected from the commercial edible oil and fish oil extraction industry. Optimization of conditions for acidic lipase production from B. pumilus and B. subtilis using palm oil and fish oil, respectively, was carried out using response surface methodology. The extremely acidic lipases, thermo-tolerant acidic lipase (TAL) and acidic lipase (AL), were produced by B. pumilus and B. subtilis, respectively. The optimum conditions for B. pumilus obtaining the maximum activity (1,100 U/mL) of TAL were fermentation time, 96 h; pH, 1; temperature, 50 °C; concentration of palm oil, 50 g/L. After purification, a 7.1-fold purity of lipase with specific activity of 5,173 U/mg protein was obtained. The molecular weight of the TAL was 55 kDa. The AL from B. subtilis activity was 214 U/mL at a fermentation time of 72 h; pH, 1; temperature, 35 °C; concentration of fish oil, 30 g/L; maltose concentration, 10 g/L. After purification, an 11.4-fold purity of lipase with specific activity of 2,189 U/mg protein was obtained. The molecular weight of the extremely acidic lipase was 22 kDa. The functional groups of lipases were determined by Fourier transform-infrared (FT-IR) spectroscopy.     

Development and comparison of ELISA and PCR methods for the early detection of Ganoderma disease of coconut

Abstract

Molecular diagnosis, chemo-diagnosis and physiological parameter have been applied for detecting the Ganoderma disease of coconut. Polyclonal antibodies (PAbs) raised against mycelial protein of Ganoderma, specific mycelial protein (62 kDa) of Ganoderma isolates and basidiocarp protein of Ganoderma were used for detection. All the PAbs could detect Ganoderma in diseased coconut root tissues in early stage of the disease before symptom expression by indirect – ELISA at the antiserum dilution of 1:1000 for mycelial protein, 1:700 for specific protein and 1:3000 for basidiocarp protein. Low cross reactions were observed with saprophytic fungi occurring in coconut roots and also with other basidiomycetous fungi. For polymerase chain reaction tests, the primer was generated from the internal transcribed spacer region one (ITS 1) of rDNA of Ganoderma, which produced a PCR product of 167 bp in size. Utility of this method was confirmed at the field level.     

Overexpression in a non-native halophilic host and biotechnological potential of NAD<Superscript>+</Superscript>-dependent glutamate dehydrogenase from <Emphasis Type="Italic">Halobacterium salinarum</Emphasis> strain NRC-36014

Enzymes produced by halophilic archaea are generally heat resistant and organic solvent tolerant, and accordingly important for biocatalytic applications in ‘green chemistry’, frequently requiring a low-water environment. NAD⁺-dependent glutamate dehydrogenase from an extremely halophilic archaeon Halobacterium salinarum strain NRC-36014 was selected to explore the biotechnological potential of this enzyme and genetically engineered derivatives. Over-expression in a halophilic host Haloferax volcanii provided a soluble, active recombinant enzyme, not achievable in mesophilic Escherichia coli, and an efficient purification procedure was developed. pH and salt dependence, thermostability, organic solvent stability and kinetic parameters were explored. The enzyme is active up to 90 °C and fully stable up to 70 °C. It shows good tolerance of various miscible organic solvents. High concentrations of salt may be substituted with 30 % DMSO or betaine with good stability and activity. The robustness of this enzyme under a wide range of conditions offers a promising scaffold for protein engineering.     

Distinct Annexin Subfamilies in Plants and Protists Diverged Prior to Animal Annexins and from a Common Ancestor

Annexin homologues in the kingdoms of Planta and Protista were characterized by molecular sequence analysis to determine their phylogenetic and structural relationship with annexins of Animalia. Sequence fragments from 19 plant annexins were identified in sequence databases and composite sequences were also assembled from expressed sequence tags for Arabidopsis thaliana. Length differences in protein amino-termini and evidence for unique exon splice sites indicated that plant annexins were distinct from those of animals. A third annexin gene of Giardia lamblia (Anx21-Gla) was identified as a distant relative to other protist annexins and to those of higher eukaryotes, thus providing a suitable outgroup for evolutionary reconstruction of the family tree. Rooted evolutionary trees portrayed protist, plant, and Dictyostelium annexins as early, monophyletic ramifications prior to the appearance of closely related animal annexin XIII. Molecular phylogenetic analyses of DNA and protein sequence alignments revealed at least seven separate plant subfamilies, represented by Anx18 (alfalfa, previously classified), Anx22 (thale cress), Anx23 (thale cress, cotton, rape and cabbage), Anx24 (bell pepper and tomato p34), Anx25 (strawberry, horseradish, pea, soybean, and castor bean), Anx26-Zma, and Anx27-Zma (maize). Other unique subfamilies may exist for rice, tomato p35, apple, and celery annexins. Consensus sequences compiled for each eukaryotic kingdom showed some breakdown of the ``annexin-fold' motif in repeats 2 and 3 of protist and plant annexins and a conserved codon deletion in repeat 3 of plants. The characterization of distinct annexin genes in plants and protists reflects their comparable diversity among animal species and offers alternative models for the comparative study of structure–function relationships within this important gene family. Received: 30 May 1996 / Accepted: 20 August 1996