Thrombokinase has been isolated from bovine plasma by a procedure which begins with the highly purified product of a previously described method, chromatographs it on DEAE-cellulose, and then fractionates it by continuous flow electrophoresis, yielding 0.2 mg per liter of oxalated plasma. The electrophoretic fraction has shown a single boundary in the ultracentrifuge; and its esterase activity on toluenesulfonylarginine methyl ester has been about the same as that of thrombokinase previously isolated by repeated electrophoretic fractionations. Thrombokinase is a euglobulin with minimum solubility near pH 5.0. It is most stable within the pH range 7.5 to 9.5; but there is also a peak in the stability curve near pH 1.8. A few micrograms of thrombokinase per milliliter can activate prothrombin in the presence of EDTA. A few thousandths of a microgram causes rapid production of thrombin in the system: prothrombin, thrombokinase, calcium chloride, phosphatide, "accelerator." But, thrombokinase has less than 1/175 the proteolytic activity of crystallized trypsin.Thrombokinase was first isolated from bovine plasma by a series of three electrophoretic fractionations (1). Later, it was reported (2, 3) that chromatography on DEAE-cellulose offered a less arduous means for attaining a comparable specific activity. However, it has been found that the chromatographic preparation is not homogeneous electrophoretically. Now, one chromatographic step and one electrophoretic step have been incorporated into the procedure for isolation of thrombokinase.Thrombokinase so prepared, has about the same esterase activity on toluenesulfonylarginine methyl ester (TAMe) as thrombokinase prepared by the more laborious procedure; and it sediments in the ultracentrifuge with a single, grossly symmetrical boundary. A few of its outstanding enzymatic and physicochemical properties are herein delineated.
SummaryBovine prothrombin was prepared by adsorption on barium sulfate. After elution, it was passed through thick filter-cakes of Standard Super-Cel, which removed some venom substrate (factor X). Almost all the remaining venom substrate was removed by repeated passage through columns of DEAE-cellulose. Finally, the ratio of venom substrate to prothrombin was considerably less than 1/1,000 that of plasma. The prothrombin was also poor in factor V. It yielded very little thrombin upon incubation with Russell’s viper venom, factor V, phospholipid and calcium chloride. However, inclusion of bovine plasma at a final dilution of 1/10,000 caused the mixture to produce thrombin rapidly. This system offers promise for the assay of venom substrate in plasma.Thrombokinase derived from bovine plasma was able, at 0.000071 mg/ml, to substitute for both the venom and its substrate in thrombin-producing systems. However, with this small amount of thrombokinase, phospholipid was indispensable. The system was sensitive to 0.00001 mg phospholipid/ml.With 1,000 times as much thrombokinase, prothrombin was activated without addition of accessory factors, in the presence of oxalate. Removal of venom substrate did not affect this response of prothrombin. Nor did removal of venom substrate from the prothrombin prevent its activation by crystallized trypsin in the presence of oxalate.
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