Preparative biochemistry最新文献

A purification procedure leading to a joint separation of two serum copper-enzymes: ceruloplasmin (EC 1.16.3.1) and amineoxidase (EC 1.4.3.6), is described. Both enzymes are obtained in electrophoretically homogeneous form and their specific activities are higher than those obtained by previously described purification techniques. Two common steps: precipitation of bovine plasma proteins with ammonium sulphate (at 35% and 55% saturation) followed by column chromatography on AE-Agarose (obtained by treatment of agarose beads with 1-chloro-2-ethylamine), lead to an electrophoretically homogeneous ceruloplasmin. At the same time, the ceruloplasmin-free protein preparation eluted in a first peak, following further Q-Sepharose and Con A-Sepharose chromatography, leads to purified bovine serum amine oxidase (BSAO) with an improved yield. The emphasis was given to a mutual improving effect as a consequence of the integration of the two enzymes purification procedures.

Glycogen Synthase Kinase-3 (GSK-3) was isolated from bovine heart tissue extracts by a procedure involving ammonium sulfate fractionation, followed by chromatography on phosphocellulose, Cibacron blue 3GA-agarose, DEAE-Sephacel, CM-Sepharose, heparin-agarose, myelin basic protein-Sepharose, and LiChrospher 1000 C00-. GSK-3 was identified by its activation of protein phosphatase-1i (PP-1i). The purified enzyme had a specific activity of 25,500 units of protein phosphatase-1i activated/mg protein. The enzyme is an asymmetric monomeric protein of 53 kDa. The molecular size and retention of activity after autophosphorylation indicated that the isolated enzyme was the GSK-3 alpha-isoform.

A DNA segment coding for residues 6-44 of beta-galactosidase was ligated to a vector with the glutathione-S-transferase gene which also contained a sequence coding for a thrombin recognition site. The fused protein, with an additional 9 amino acids coded for by the vector, was purified using a glutathione agarose affinity column. A peptide made up of residues 6-44 of beta-galactosidase and the 9 additional amino acids was then cleaved from the glutathione-S-transferase using thrombin and purified with a gel filtration column. The peptide was about 3-4 times as active for alpha-complementation as the alpha-peptide derived from CNBr digestion of wild type beta-galactosidase.

Four gingivain proteases, active in presence of L-cysteine, were purified from spent culture media of oral pathogen Porphyromonas gingivalis by ion-exchange chromatography on MonoQ and chromatofocusing on MonoP columns. Three of the purified proteases, with molecular masses of 75 kDa, 70 kDa and 55 kDa, respectively, hydrolyzed synthetic chromogenic substrates with arginine in the P1 position. One protease, with a molecular mass of 80 kDa, hydrolyzed substrates with lysine in the P1 position. It is proposed these enzymes be named: arg-gingivain-75, arg-gingivain-70, arg-gingivain-55, and lys-gingivain-80, respectively, based on their molecular mass and specificity for either arginine or lysine in the P1 position.

The rapid and effective purification of soluble fumarate reductase from baker's yeast achieved by Blue Sepharose CL-6B chromatography. Cibacron Blue F3GA, the chromophore of Blue Sepharose, inhibited the activity of fumarate reductase. The enzyme bound to the column was selectively eluted by flavin adenine dinucleotide (FAD), flavin mononucleotide (FMN) or riboflavin. The purified enzyme was essentially homogeneous as indicated by polyacrylamide gel electrophoresis under nondenaturing conditions and under denaturing conditions in sodium dodecylsulfate. By this procedure, the enzyme could be rapidly purified with high yield from yeast cells.

The phenomenon of differential charge distribution on sperm surface membrane has been utilised here in a low e.m.f. (electro motive force) capillary electrophoresis system to effect separation of sperm heads from disintegrated mixed spermatozoal subfractions. Washed caudal sperm of goat (Black Bengal variety) and ejaculated washed human sperm were fractionated by sonication into head, mid-piece and tail portions. Routine techniques of density gradient centrifugation on Percoll and/or sucrose were performed with sonicated spermatozoa for separation into their respective subfractions. The products obtained were not free of contamination in either case. Mixed sperm fractions when subjected to the afore mentioned modified capillary electrophoresis technique only the head pieces exhibited high affinity for migration towards the cathode terminal. With this method around 50% of the total sperm heads were separated and collected in absolutely pure form at the cathode side within 2 hrs. at 150 volts (V) and 1.5 milliampere (mA) current at 37.5 degrees C. A 4 cm. long capillary tube with a bore size 1.2 mm. was used for this purpose.

Biliverdin reductase was purified from cow spleen. The specific activity of the final enzyme preparation was 24.01 u/mg, representing 686-fold purification as measured with NADPH. The yield was 3 grams of enzyme per 100 grams of cow spleen. The purified enzyme was a monomeric protein with an apparent molecular weight of about 34,000 and an isoelectric point of about 6.2. The biliverdin reductase was specific for biliverdin and reduced IX alpha faster than the biliverdin isomers IX beta, IXr, or IX delta. The purified enzyme could utilize both NADH and NADPH, but the kinetic properties of the NADH-dependent and the NADPH-dependent enzyme activities were different: the time course of the NADPH-dependent reaction displayed a sigmoidal curve, whereas that of the NADH-dependent reaction did not. Km for biliverdin IX alpha was 4 x 10(-4) mM in the NADPH system, while it was 1.5 x 10(-3) mM in the NADH system. Both enzyme activities were inhibited by excess biliverdin, but the inhibition of the NADPH-dependent enzyme activity was more pronounced. The pH optimum was 7.0 with NADH, and 6.8 with NADPH.

D-Xylose isomerase is a heat-stable enzyme which isomerizes D-xylose into D-xylulose. D-Xylose isomerase from various species also isomerizes D-glucose into D-fructose. This enzyme is used in industry for the production of high-fructose corn syrup. The enzyme is specific for both, xylose and glucose. In most species xylose isomerase is localized intracellularly. However, in a rare actinomycete, Chainia sp. (NCL 82-5-1), xylose isomerase is present in both intracellular and extracellular compartments. We have previously purified and characterized intracellular enzyme from Chainia sp. In the present paper, we describe a procedure for immobilization of intracellular xylose isomerase on INDION 48-R by ionic binding. This method is inexpensive, does not require cross-linking agents and results in firm binding of the enzyme with the resin. The properties of immobilized enzyme such as pH optimum, substrate specificity, Km and inhibition by various metabolites are described and compared with those of purified, nonimmobilized enzyme.

In this study, alpha (alpha) isoform proteins were purified from the partially purified Na,K-ATPase by SDS-PAGE and electroelution. Peptide mapping showed subtle biochemical differences between alpha subunit proteins of rat and human origin. The purified alpha proteins were treated with formic acid, the cleaved polypeptide fragments were separated by SDS-PAGE, the bands corresponding to 40, 50, and 60 kDa were excised, and the proteins were electroeluted. The purified 40, 50, and 60 kDa polypeptides were essentially homogeneous, and were used for preparation of polyclonal antibodies in rabbits. The antisera to alpha proteins (R alpha) and 60 & 40 kDa polypeptides (R60 & R40) were obtained and characterized by Western blotting. All three antisera were highly specific, since they cross-reacted with only the 100 kDa bands of the crude brainstem homogenates, of the axolemma, and of the cerebral cortex synaptosomes and microsomes. R alpha and R40 were successfully used for immunohistochemical staining of fibers in the white matter of the human brain frontal cortex. These antisera were not isoform-specific, they cross-reacted with 40, 50, and 60 kDa polypeptides as well as the three alpha bands.

Phospholipase C from rat cerebral cortex was purified to homogeneity by use of DEAE Bio-Gel A agarose, hydroxyapatite, and heparin agarose chromatography. The purified phospholipase C (PLC) was purified 622.4-fold and its molecular weight is estimated to be 97,500. We obtained a final specific activity of 3.112 mumol of phosphatidylinositol hydrolyzed/min/mg of protein. It is specific for inositol phospholipids. The purified enzyme has an apparent optimum pH 7.0. Calcium is required for its activity. Western blotting analysis showed that two proteins were recognized by anti-PLC antiserum.