Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Synthetic copolymers of N-vinylcaprolactam (VCL) and N-vinylimidazole (VI) were studied as thermosensitive, reusable displacers for immobilised metal affinity chromatography (IMAC) of proteins. The copolymer with weight-average molecular mass of 11700 g/mol prepared by free radical polymerisation at a 9:1 monomer molar ratio was separated into several fractions by IMAC and thermal precipitation. The fraction with an average VI content of 8.5% was most efficient as a reusable displacer for IMAC of ovalbumin, lysozyme and other proteins of egg white on Cu2+-IDA-Sepharose. The displacer exhibited a sharp breakthrough curve and binding capacity of 16-20 mg/ml gel, depending on the flow-rate. The recovery of egg white proteins in the course of displacement chromatography was >95%. The displacer could be removed quantitatively from the protein fractions by thermal precipitation at 48 degrees C. Co-precipitation of lysozyme with the displacer was minimal in the presence of 3% (v/v) acetonitrile, while the lysozyme enzymatic activity in the supernatant was completely retained. Addition of free imidazole to the mobile phase increased the rate of protein desorption and allowed better separation of egg white proteins and the displacer in the course of chromatography. The displacement profile of the egg white extract consisted of three zones with different distributions of individual proteins characterised by SDS-PAGE. Regeneration of the column was easily performed with 0.02 M EDTA in 0.15 M sodium chloride, pH 8.0, followed by washing with distilled water and reloading with Cu2+. The displacer could also be regenerated by thermal precipitation at 48 degrees C and subsequent dialysis against dilute hydrochloric acid (pH 2.5).
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PMID:Thermosensitive copolymers of N-vinylimidazole as displacers of proteins in immobilised metal affinity chromatography. 1121 18

We utilized electrospray ionization mass spectrometry (ESI-MS) and hydrogen-deuterium exchange (HX) to detect unfolding of hen egg white lysozyme during salt-induced precipitation. Deuterated lysozyme was dissolved in protonated buffer at pH 2.16 and precipitated with ammonium sulfate, sodium chloride, and potassium thiocyanate. ESI-MS was used to detect mass differences in lysozyme due to the loss of deuterons for solvent protons, providing insight on the conformational history of the protein during the labeling experiment. Precipitation with ammonium sulfate and sodium chloride did not unfold lysozyme, consistent with the known stabilizing effects of kosmotropic salts. Potassium thiocyanate, an aggressive chaotrope, was an effective precipitant at 0.2 M, but also disrupted lysozyme structure and caused the formation of precipitate fractions that did not readily redissolve into aqueous solution without the use of a chemical denaturant. Precipitation with 1.0 M thiocyanate resulted in faster rates of unfolding and larger amounts of the insoluble precipitate. The unfolding kinetics were biphasic, exhibiting a slow phase after a few hours that presumably reflected a smaller propensity for lysozyme to unfold in the precipitated state. Bimodal mass distributions in the ESI-MS spectra for the thiocyanate precipitates indicate two states for lysozyme in this system, a native and a molten globule-like partially unfolded state. ESI-MS analysis of the insoluble precipitates indicated that they consisted primarily of protein molecules that had unfolded. Investigation of the HX behavior of lysozyme in a KSCN solution at low protein concentrations confirmed the destabilizing effect of the salt on the protein structure, even when there was almost no solid phase present. The HX/ESI-MS results provide insight into the mechanism combining precipitation and denaturation for such a system, both in terms of obtaining quantitative kinetic and stability information and the identification of the conformers present.
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PMID:Tracking lysozyme unfolding during salt-induced precipitation with hydrogen exchange and mass spectrometry. 1129 Oct 29

Affinity chromatography on non-porous particles of microsize is particularly useful for the rapid analysis and micropreparative separation of proteins. The elution behavior of proteins in an affinity column packed with non-porous copolymerized particles of styrene, methyl methacrylate and glycidyl methacrylate was investigated both theoretically and experimentally, using the lysozyme-Cibacron Blue 3G-A affinity system. Equations used to predict the elution profiles, resulting from the elution by increasing the ionic strength (NaCl concentration) in the mobile phase, were obtained. The maximum adsorbate concentration, desorption rate constant and equilibrium constant under elution conditions were determined by matching experimental data with predicted elution profiles. Based on the parameters determined at a flow-rate of 0.5 ml/min and with 1 M NaCl in the elution buffer, the model equations could predict the elution profiles for other experimental runs, where different flow-rates and sodium chloride concentrations were used. Both the experimental and predicted results revealed that the affinity interaction kinetics are not significantly influenced by the flow-rate and, hence, the film mass transfer. To elute bound lysozyme from immobilized dye ligand, a higher value of the ionic strength leads to a faster elution and a sharper elution peak. The influence of elution conditions on the kinetic and thermodynamic parameters and, consequently, on the elution peak profiles was evaluated. The model equations can also predict the behavior of protein elution from an affinity column by changing the pH of the mobile phase, according to a previous study.
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PMID:Predicting the elution behavior of proteins in affinity chromatography on non-porous particles. 1169 73

Thick layers of the protein lysozyme have been deposited on mica, and their force-distance hysteresis measured using atomic force microscopy in the presence of different salts. Sodium thiocyanate, which is known to lower the melting temperature of proteins and increase their solubility, increases lysozyme deformability and lowers the viscosity of the protein layer, compared with sodium chloride. Sodium phosphate, known to raise the melting temperature and lower the solubility, decreases deformability and increases the viscosity.
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PMID:Direct measurement of the viscoelasticity of adsorbed protein layers using atomic force microscopy. 1196 44

Protein stability, as measured by irreversible protein aggregation, is one of the central difficulties in the handling of detergent-solubilized membrane proteins. We present a quantitative analysis of the stability of the Escherichia coli lactose (lac) permease and a series of lac permease fusion proteins containing an insertion of cytochrome(b562), T4 lysozyme or beta-lactamase in the central hydrophilic loop of the permease. The stability of the proteins was evaluated under a variety of storage conditions by both a qualitative SDS-PAGE assay and by a quantitative hplc assay. Long-chain maltoside detergents were more effective at maintaining purified protein in solution than detergents with smaller head groups and/or shorter alkyl tails. A full factorial experiment established that the proteins were insensitive to sodium chloride concentrations, but greatly stabilized by glycerol, low temperature and the combination of glycerol and low temperature. The accurate quantitation of the protein by absorbance spectroscopy required exclusion of all contact with clarified polypropylene or polyvinyl chloride (PVC) materials. Although some of the fusion proteins were more prone to aggregation than the wild-type permease, the stability of a fusion protein containing a cytochrome(b562) insertion was indistinguishable from that of native lac permease.
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PMID:Stability of the lactose permease in detergent solutions. 1210 Sep 95

Protein-protein interactions have been measured for a mutant (D101F) lysozyme and for native lysozyme in concentrated solutions of ammonium sulfate at pH 7 and sodium chloride at pH 4.5. In the mutant lysozyme, a surface aspartate residue has been replaced with a hydrophobic phenylalanine residue. The protein-protein interactions of D101F lysozyme are more attractive than those of native lysozyme for all conditions studied. The salt-induced attraction is correlated with a solvation potential of mean force given by the work required to desolvate the part of the protein surfaces that is buried by the protein-protein interaction. This work is proportional to the aqueous surface-tension increment of the salt and the fractional non-polar surface coverage of the protein. Experimental measurements of osmotic second virial coefficients validate a proposed potential of mean force that ascribes the salt-induced attraction between protein molecules to an enhancement of the hydrophobic attraction. This model provides a first approximation for predicting the protein-protein potential of mean force in concentrated aqueous electrolyte solutions; this potential is useful for determining solution conditions favorable for protein crystallization.
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PMID:Hydrophobic forces between protein molecules in aqueous solutions of concentrated electrolyte. 1212 78

The formation of a salivary pellicle is a protective mechanism of the body for all surfaces in the oral cavity. The nature of the substrate may influence the composition of the pellicle. The aim of this study was to investigate the quantitative composition and individual variation of the salivary pellicle formed on denture base material (PMMA). Cylindrical specimens of PMMA were carried in the mouth and then desorbed with a 0.5-M sodium chloride solution. The solution was analysed for total protein, alpha-amylase, total proteases, protease inhibitors, secretory immunoglobulin A, immunoglobulin G, peroxidases, thiocyanate, lysozyme, and calcium content. All investigated salivary components could be found unequivocally in the desorption solution, indicating that a salivary pellicle had formed on the surface of the PMMA. Large coefficients of variation indicate large individual variations in the adsorbed amounts. The data also point to large intraindividual variations for the bound salivary components. Only the protease inhibitors revealed a strong positive correlation of the bound activity to the salivary activity. It is hypothesised that differences in the bound amounts of antimicrobial components might influence the microbial colonisation of denture bases and that protease inhibitors could be meaningful for the spread of the yeast Candida albicans from denture base material to the oral mucosa and thus might be an explanation for different susceptibility to denture base stomatitis.
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PMID:Quantitative determination of salivary components in the pellicle on PMMA denture base material. 1248 38

A new method used to separate and purify lysozyme from egg white by high performance cation-exchange chromatography has been established. The process conditions for purifying lysozyme were also discussed in detail. The procedure involved that homogenization of the egg white sample, preliminary purification with sodium chloride, and chromatographic separation by the weak cation exchange column (XIDACE-WCX). The experimental results showed that the purified lysozyme and other impurity proteins were completely separated. By using bioactivity assay, the recovery of lysozyme was 107%, and the specific activity was 15,467 U/mg through the column. Its purity was raised 5.6-fold. The collected fraction with activity was detected by size-exclusion chromatography (SEC). The purified lysozyme was homogeneous. Compared with the traditional soft-based low pressure ion-exchange chromatography, the developed method is rapid and effective.
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PMID:[Separation and purification of lysozyme from egg white by high performance cation-exchange chromatography]. 1254 51

Tobacco has long been considered as a host to produce large quantity of high-valued recombinant proteins. However, dealing with large quantities of biomass is a challenge for downstream processing. Aqueous two-phase extraction (ATPE) has been widely used in purifying proteins from various sources. It is a protein-friendly process and can be scaled up easily. In this paper, ATPE was studied for its applicability to recombinant protein purification from tobacco with egg white lysozyme as the model protein. Separate experiments with poly(ethylene glycol) (PEG)-salt-tobacco extract and PEG-salt-lysozyme were carried out to determine the partition behavior of tobacco protein and lysozyme, respectively. Two-level fractional factorial designs were used to study the effects of factors such as, PEG molecular mass, PEG concentration, the concentration of phase forming salt, sodium chloride concentration and pH, on protein partitioning. The results showed that, among the studied systems, PEG-sodium sulfate system was most suitable for lysozyme purification. Detailed experiments were conducted by spiking lysozyme into the tobacco extract. The conditions with highest selectivity of lysozyme over native tobacco protein were determined using a response surface design. The purification factor was further improved by decreasing the phase ratio along the tie line corresponding to the phase compositions with the highest selectivity. Under selected conditions the lysozyme yield was predicted to be 87% with a purification factor of 4 and concentration factor of 14. From this study, ATPE was shown to be suitable for initial protein recovery and partial purification from transgenic tobacco.
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PMID:Tobacco protein separation by aqueous two-phase extraction. 1264 Dec 88

An improved size-exclusion chromatography (SEC) was developed to isolate extremely basic (alkaline) proteins, such as trypsin (pI=10.5), lysozyme (pI=11), and histone (pI=10.8). Develosil 300 Diol-5 (300 x 8 mm I.D., 30 nm average pore diameter) column was used with an eluent of 0.1 M sodium phosphate, 1.5 M sodium chloride, glycerol (40%, v/v), 2-propanol (10%, v/v), and Brij-58 (1%, v/v). Under these conditions, the final apparent pH becomes to 4.0, and pH adjustment is not necessary. Column temperature and flow rate were 15 degrees C and 0.2 ml/min, respectively. This elution system is stable and reliable, and applications onto human pancreatic juice, human bile, and tissue homogenates were successfully achieved. Since this system is convenient for protein analysis, it is expected to be generally applicable to clinical and biochemical research for identifying protein components in combination with microsequencing.
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PMID:Size-exclusion chromatography of biological samples which contain extremely alkaline proteins. 1283 74


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