l-lysinamidase from Cryptococcus laurenti 112. Purification and properties

• 1.1. The purified enzyme hydrolyzes the linear l-lysinamide and the cycle amide of l-lysine—l-α-amino-ϵ-caprolactam.
• 2.2. The apparent relative molecular mass is 180,000. The enzyme consists of four subunits and the molecular mass of a single subunit was found to be 47,000.
• 3.3. The coefficient of molecular sedimentation equals 8.3 S, the isoelectric point was determined to be pH 4.3
• 4.4. The enzyme is not a glycoprotein. p-Mercuribenzoate binds 10 SH-groups of the native enzyme molecule and 20 SH-groups in the presence of 0.7% SDS.
• 5.5. pH- optimum for the hydrolysis of l-lysine amides was observed to be 7.5–7.7. The enzyme is strictly dependent on Mn²⁺ and Mg²⁺.
• 6.6. The kinetic parameters for the hydrolysis of l-lysinamide where K_m = 3.8 mM and k_cat = 3000 sec⁻¹ For the hydrolysis of cyclic L-lysinamide K_m = 4.8 mM and k_cat = 2600 sec⁻.

     

An alkaline phosphatase from Thermus sp strain Rt41A

• 1.1. A thermostable orthophosphoric monoester phosphohydrolase (EC 3.1.3.1) from Thermus sp strain Rt41A has been purified 400-fold to give a specific activity of 25 U/mg at 60°C in IM diethanolamine (pH 11.1).
• 2.2. The enzyme has a M_r of 160,000 and is trimeric.
• 3.3. The half-life of the enzyme is 5 min at 85°C.
• 4.4. The enzyme has a wide specificity for a number of phosphate monoesters.
• 5.5. The H_m of the enzyme is pH dependent, so the pH optimum of the enzyme is affected by the substrate concentration.
• 6.6. The enzyme is inhibited 50% by 20 mM Ca²⁺ or Mg²⁺.
• 7.7. The K_i for phosphate, EDTA-di sodium salt and arsenate (in 1 M diethanolamine, pH 11.1) is approx 1.2, 1.6 and 4mM respectively.
• 8.8. Urea (200 mM) is not inhibitory.

     

Intracellular localization and characterization of 3-hydroxykynureninase in human liver

• 1.1. 3-hydroxykynureninase in human liver was present in cytosol and mitoehondria.
• 2.2. The cytosolic enzyme and mitochondrial enzyme had the same physiological and enzymic properties.
• 3.3. The enzyme had a mol. wt of 130,000 by gel filtration and isoelectric point of pH 5.9.
• 4.4. The enzyme was active for 3-hydroxykynurenine and kynurenine, and its activity ratio was 15:1. The apparent K_m values of the enzyme were 7.7 × 10⁻⁵M for 3-hydroxykynurenine, 1.0×10⁻³M for kynurenine and 2.5 × 10⁻⁶M for pyridoxal 5'-phosphate with 3-hydroxykynurenine.
• 5.5. Some other properties of purified enzymes are described.

     

Purification and some properties of an atypical alkaline p-nitrophenylphosphate phosphatase activity from Halobacterium halobium

• 1.1. An alkaline p-nitrophenylphosphate phosphatase has been purified 440-fold from extracts of Hatobacterium halobium.
• 2.2. The enzyme has an apparent molecular weight of 24,000.
• 3.3. A K_m value for p-nitrophenylphosphate of 1.12mM has been found under optimal conditions.
• 4.4. The enzyme is selectively activated and stabilized by Mn²⁺.
• 5.5. It requires high salt concentrations for stability and maximum activity.
• 6.6. It displays an unusual restricted substrate specificity of 25 phosphate esters tested, only phosphotyrosine and casein were hydrolysed besides p-nitrophenylphosphate.

     

Regulation of rat-kidney cortex fructose-1,6-bisphosphatase activity. I. Effects of fructose-2,6-bisphosphate and divalent cations

• 1.1. The native rat-kidney cortex Fructose-1,6-BPase is differentially regulated by Mg²⁺ and Mn²⁺.
• 2.2. Mg²⁺ binding to the enzyme is hyperbolic and large concentrations of the cation are non-inhibitory.
• 3.3. Mn²⁺ produces a 10-fold rise in V_max higher than Mg²⁺. [Mn²⁺]_0.5 is much larger than [Mg²⁺]_0.5. At elevated [Mn²⁺] inhibition is observed.
• 4.4. Mg²⁺ and Mn²⁺ produce antagonistic effects on the inhibition of the enzyme by high substrate.
• 5.5. Fru-2,6-P₂ inhibits the enzyme by rising the S_0.5 and favouring a sigmoidal kinetics.
• 6.6. The inhibition by Fru-2,6-P₂ is released by Mg²⁺ and more powerfully by Mn²⁺ increasing the I_0.5.

     

Purification and some properties of a Mg2+-activated acid phosphatase from rat testis

• 1.1. The acid phosphatase (AcPase, EC 3.1.3.2) IV from rat testicular tissue was purified to apparent homogeneity.
• 2.2. The enzyme displays a native molecular weight of 70 kDa determined on gel permeation chromatography on a Sephadex G-100 column and 68 kDa using linear 5–20% sucrose density gradient centrifugation. The subunit molecular weight on SDS-PAGE analysis is 67 kDa, suggesting that the enzyme is a monomeric protein.
• 3.3. The enzyme does not bind to Concanavaline A-Sepharose 4B column, indicating that it is not a glycoprotein.
• 4.4. The rat testis AcPase IV is a metal activated enzyme in which Mg²⁺ is the metal activating agent with a K_a, = 0.88 × 10⁻³ M. The Michaelis constant for p-nitrophenylphosphate, in the presence of saturating concentrations of Mg²⁺ ions, is 0.23 × 10⁻³ M.
• 5.5. The enzyme preferentially hydrolizes p-nitrophenylphosphate, phenylphosphate and ATP.

     

Kinetic and regulatory properties of phenylalanine ammonia-lyase from Citrus sinensis

• 1.1. The kinetic and regulatory properties of phenylalanine ammonia-lyase from Citrus sinensis fruit tissue were investigated. The substrate specificity of the enzyme was determined as well as the effects of pH and temperature on the catalytic activity.
• 2.2. The enzyme exhibits negative homotropic effects between the substrate binding centra.
• 3.3. Binding of l-phenylalanine to the enzyme is characterized by two K_m-values; K_m^L = 13 μM and K_m^H = 52 μM; with a Hill-interaction coefficient of 0.75.
• 4.4. The enzyme is subject to product inhibition by trans-cinnamate, but the effects of allosteric effectors and inhibitors seem to be of much greater importance in the short-term regulation of phenylpropanoid metabolism in Citrus sinensis.
• 5.5. The enzyme activity was found to be modulated by end-products of diverging metabolic pathways, viz. umbelliferone, scopoletin, naringenin, quercetin, kaempferol, benzoic acid and gallic acid.

     

Fructose-1,6-bisphosphatase in mantle of the sea mussel Mytilus galloprovincialis Lmk—I. Purification and ion requirements

• 1.1. The enzyme fructose-1,6-bisphosphatase was purified from the mantle of the sea mussel Mytilus galloprovincialis Lmk. The purified enzyme showed a single band in SDS-polyacrylamide gel electrophoresis. The mol. wt and subunit mol. wt of the enzyme were 105,000 and 27,000, respectively.
• 2.2. Divalent cations are essential for the enzyme activity. In the absence of chelating agents, FBPase 1 exhibits hyperbolic kinetics with respect to Mn²⁺, Zn²⁺ and Mg²⁺. The K_m for Mg²⁺ is lower than the physiological concentration of cation in the tissue, whereas its K_m for Mn²⁺ and Zn²⁺ is greater than the respective in vivo concentrations.
• 3.3. The joint action of Mg²⁺ and Zn²⁺ increases the affinity of the enzyme for the substrate Fru-1,6-P₂, though V_max is reduced.
• 4.4. Na⁺ strongly inhibits the enzyme even at very low concentrations. K⁺ has no effect whatsoever.

     

Ouabain sensitive Na+/K+-transporting ATPase from the brain of Poekilocerus bufonius

• 1.1. The properties of Na⁺/K⁺-transporting ATPase in microsomal fractions from the nervous tissue of the grasshopper, Poekilocerus bufonius were investigated.
• 2.2. Two components of ATPase activity are present.
• 3.3. Inclusion of 1 mM ouabain in the incubation media reduced the activity of total and Na⁺/K⁺-ATPase by 57 and 79%, respectively.
• 4.4. The maximum velocity (V_max) was decreased by the addition of 1 mM ouabain, whereas the apparent K_m value was not affected indicating a non-competitive type of inhibition.
• 5.5. The calculated value of the pI₅₀ was 6.4 (I₅₀ = 3.98 × 10⁻⁷M) for ouabain inhibition of the enzyme showing great sensitivity to the cardiac glycoside ouabain.
• 6.6. The present results show that the physicochemical properties of Na⁺/K⁺-transporting ATPase from the brain of P. bufonius are essentially the same as for the enzyme prepared from the excretory system of the insect which has been previously investigated.
• 7.7. Dissimilarities were also observed between these tissues in the way that the enzyme from the brain was sensitive to ouabain inhibition with a non-competitive type rather than a ouabain-resistance and a competitive type of inhibition for the enzyme from the excretory system.
• 8.8. These dissimilarities are probably due to different isoenzyme patterns available in the same insect.

     

Phosphofructokinase from the anterior byssus retractor muscle of Mytilvs edulis: Modification of the enzyme in anoxia and by endogenous protein kinases

• 1.1. Anoxia exposure resulted in a stable modification of the kinetic properties of 6-phosphofructo-1-kinase (PFK) from the anterior byssus retractor muscle (ABRM) of the sea mussel Mytilus edulis L.
• 2.2. Compared to the aerobic enzyme, the anoxic form of PFK. showed a reduced affinity for both substrates, fructose-6-phosphate (F6P) and ATP, and an increased sensitivity to inhibition by phosphoenolpyruvate.
• 3.3. To analyze the involvement of protein kinases in the modification of PFK, extracts from aerobic or anoxic muscle were incubated with ATP and Mg²⁺ plus protein kinase second messengers cyclic 3',5'-adenosine monophosphate (cAMP), cyclic 3',5'-guanosine monophosphate (cGMP) or Ca²⁺ plus phorbol 12-myristate 13-acetate (PMA).
• 4.4. Both forms of the enzyme responded to the presence of cAMP with a strong increase in affinity for F6P.
• 5.5. In response to cGMP affinity of the aerobic enzyme for F6P decreased whereas that of the anoxic enzyme form was not affected (at 0.5 mM ATP) or increased (at 3 mM ATP).
• 6.6. Incubation with Ca²⁺ + PMA had only a limited effect on PFK kinetics but appeared to enhance the response to cGMP when the three compounds were given together.
• 7.7. Treatment of PFK-aerobic with alkaline phosphatase resulted in a strong decrease in enzyme activity and affinity for F6P; subsequent treatment with cAMP reversed the effect on S_0.5 F6P.
• 8.8. The data indicate that PFK activity is altered during the aerobic-anaerobic transition by a change in the phosphorylation state of the enzyme and that cAMP and cGMP act oppositely to regulate PFK activity, and thereby alter glycolytic rate, during this transition.

     

Functional changes of rat brain mitochondrial enzymes induced by monomeric cholesterol

• 1.1. The binding of [¹⁴C]cholesterol into rat brain mitochondrial membranes follows an exponential path described by the general formula y = a.e^bx. [¹⁴C]cholesterol glucoside binding has a sigmoidal character where the “best-fit” curve of this type of binding is the one described by the Hill equation with Hill coefficient h = 2.06. These findings suggest a positive cooperativity in the binding of both compounds into rat brain mitochondrial membranes.
• 2.2. The specific activity of the outer mitochondrial membrane enzyme monoamine oxidase was linearly decreased at different concentration of cholesterol or its glucoside.
• 3.3. The specific activity of the inner mitochondrial membrane enzyme succinate-cytochrome c reductase was linearly decreased, while that of Rotenone-sensitive NADH-cytochrome c reductase was exponentially increased, at different concentrations of cholesterol.
• 4.4. These results are discussed in terms of specific interactions of cholesterol with constituent mitochondrial membrane lipids and their implications for deviations from normal neuronal function.

     

Some properties of ATPase activity in the intact cells of yeast Saccharomycopsis fibuligera

• 1.1. The properties of ATPase activity were studied with the cells at the early stationary phase of Saccharomycopsis fibuligera.
• 2.2. Optimal pH for the activity was approximately 7.
• 3.3. The activity was stimulated by Mg²⁺.
• 4.4. The activity was inhibited by NaF, DCCD, oligomycin, NaN₃, NaVO₃, or PCMB but not inhibited by ouabain.

     

Ostrich fructose-1,6-bisphosphatase: Kinetic characterization of the liver isoenzyme

• 1.1. Purified ostrich (Struthio camelus) liver fructose-1,6-bisphosphatase exhibited an absolute requirement for Mg²⁺.
• 2.2. The enzyme catalyzed the hydrolysis of fructose-1,6-bisphosphate, sedoheptulose-l,7-bisphosphate and ribulose-l,5-bisphosphate.
• 3.3. S_0.5 for substrate was 1.4 μM.
• 4.4. AMP was a potent non-competitive inhibitor with respect to substrate (K_i of 25 μM).
• 5.5. Fructose-2,6-bisphosphate was a potent competitive inhibitor of the enzyme (K_i of 4.8 μM).

     

Properties of an alkaline phosphatase from the dinoflagellate Peridinium cinctum

• 1.1. Alkaline phosphatase (EC 3.1.3.1) from the dinoflagellate Peridinium cinctum, the Lake Kinneret bloom alga, has been partially purified by gel filtration.
• 2.2. The enzyme could be easily extracted using a distilled water/chloroform mixture suggesting that the alkaline phosphatase of Peridinium is particularly labile.
• 3.3. The molecular weight of the enzyme was estimated as 158,000 ± 5000. The enzyme showed a broad pH optimum (in the range pH 8.0–8.5), had a K_m of 0.45 mM for p-nitrophenylphosphate as substrate and was stable to repeated freeze/thawing cycles.
• 4.4. The enzyme was strongly activated by Mg²⁺ whereas Zn²⁺ (and to a lesser extent Cd²⁺) was an effective inhibitor of the enzyme. Cu²⁺ activated the enzyme at low concentrations, although at higher concentrations inhibited the enzyme. This effect of metals on the Peridinium alkaline phosphatase could be environmentally important since underwater hot springs, containing high concentrations of copper, enter the lake.

     

Evidence for the presence of ion pumps in the photophores of two mesopelagic fishes: Argyropelecus and maurolicus

• 1.l. Adenosine triphosphatase (ATPase) activity has been measured on homogenates of photophores from the two mesopelagic fishes Argyropelecus and Maurolicus. This activity is equivalent for both fishes when reported to the protein content as is their O₂ consumption.
• 2.2. The activity is optimal at pH 6.8–7.5. It is not specific for ATP since GTP, ITP, UTP and CTP are also hydrolyzed to a significant extent. It is also not specific for Mg²⁺, the activity being equivalent (Argyropelecus) or higher (Maurolicus) with Ca²⁺ and high also with Co²⁺ and Mn²⁺
• 3.3. Twenty to 30 per cent of the activity measured at pH 7.4 is probably due to the mitochondrial ATPase as it is shown by oligomycin and venturicidin inhibition.
• 4.4. Activities of both fishes photophores are partly inhibited by N-N'-dicyclohexylcarbodiimide (DCCD), azide, LaCl₃, vanadate, diethylstilbestrol (DES) and N-ethylmaleimide (NEM) which are all inhibitors of ionic pumps.
• 5.5. Argyropelecus activity is sensitive to ouabaïn.
• 6.6. Our results show the presence of ionic pumps in Argyropelecus and Maurolicus photophores. If there is evidence for the absence or very low activity of a H⁺ pump, it is sure that Argyropelecus at least possess a Na⁺K⁺-ATPase.
• 7.7. The significance of a high protein content in Maurolicus photophores and of a large inorganic phosphate concentration in Argyropelecus is discussed.

     

Purification and some properties of elastase from hepatopancreas of king crab Paralithodes camtschatica

• 1.1. Elastase has been purified from the hepatopancreas of the king crab (Paralithodes camtschatica). Specific activity of the enzyme measured toward Suc-(Ala)₃-pNA and Boc-(Ala)₃-pNA was 926 and 3700 mUnits per mg of protein, respectively.
• 2.2. The enzyme is an anion protein (pI 4.5) with an approximate mol.wt of 28.5 kDa.
• 3.3. The enzyme exhibited a bell-shaped pH-dependence for the hydrolysis of Suc-(Ala)₃-pNA with a maximum at 8–8.5. Under these conditions the values of K_m and k_cat of the crab elastase are 4 mM and 4.75 s⁻¹, respectively.
• 4.4. The serine elastase is effectively inhibited by elastinal and diisopropylfluorophosphate.
• 5.5. It is shown that some salts except HgCl₂ activate the protease. In the presence of HgCl₂ with concentrations of 10 mM and higher, the crab elastase is inactive. SDS and Triton X-100 have no any effect on the activity of crab elastase.

     

Lipoxygenase of the thermophilic bacteria thermoactinomyces vulgaris—properties and study on the active site

• 1.1. A lipoxygenase activity was purified from Thermoactinomyces vulgaris and some of its properties were characterized.
• 2.2. The enzyme showed a temperature activity range of 40–55°C with still significant activity over 60°C.
• 3.3. The pH of activity on linoleic acid had a broad range with an optimum at pH 6.0 and a weaker one at pH 11.0.
• 4.4. On arachidonic acid the pattern was narrow bell-shaped with an optimum at pH 6.5.
• 5.5. The purified lipoxygenase from Th. vulgaris showed an apparent K_m of 1 mM and V_max of 0.84 μmol diene/min/mg protein.
• 6.6. It was inhibited by the oxidation products, 9-HPOD and 13-HPOD.
• 7.7. A 160,000 Da molecular weight of the enzyme was determined by molecular filtration. Methionine, tyrosine, tryptophan and cysteine are apparently involved in its activity.

     

PLA2 activity in rat liver nuclei

• 1.1. Subcellular fractions of rat liver were assayed for PLA₂ activity.
• 2.2. The PLA₂ assay measures the release of [³ H]oleic acid from phospholipids, using labeled E. coli as substrate.
• 3.3. Nuclear fractions contained PLA₂ activity, which was Ca²⁺ dependent and could not be explained from mitochondrial, microsomal or plasma membrane contamination.
• 4.4. The V_max value of nuclear PLA₂ is 0.30 ± 0.04 pmol oleic acid/min/mg protein; its K_m value is 0.86±0.12μM, similar to that of mitochondrial PLA₂.
• 5.5. We conclude that rat liver nuclei contain PLA₂ activity.

     

Evidence that the alkaline P-nitrophenylphosphate phosphatase from Halobacterium halobium is a manganese-containing enzyme

• 1.1. Alkaline p-nitrophenylphosphate phosphatase of Halobacterium halobiium, either purified or in crude extracts, was progressively inactivated by treatment with several metal chelators.
• 2.2. The activity of treated crude extracts was fully restored in the presence of 25–50 μM Mn²⁺ or 1 mM Co²⁺, and partially restored in the presence of 1 mM Cd²⁺.
• 3.3. Zn²⁺ ions, as well as other divalent cations tested, were without effect.
• 4.4. In the presence of a saturating concentration of Mn²⁺, but not Co²⁺ or Cd²⁺, the activity of the metal-depleted enzyme reached values well over the native control activity.
• 5.5. Activation of the metal-depleted enzyme by Mn²⁺ showed cooperative kinetics, whereas activation by Co²⁺ showed Lineweaver-Burk kinetics.
• 6.6. The results suggest that the enzyme contains two different types of metal-binding sites: essential site(s), occupied by endogenous Mn²⁺ ions, and regulatory site(s), that can be occupied by exogenous Mn²⁺ with an activating effect.

     

Characterization of NaK ATPase from the gills of the freshwater prawn Macrobrachium rosenbergii (de Man)

• 1.1. The specific activity of Na-K ATPase was determined from the microsomal preparation of gills dissected from adult Macrobrachium rosenbergii.
• 2.2. Maximal ATPase activity was achieved at a substrate concentration of 0.5 mM ATP.
• 3.3. Optimal enzyme activity was obtained at pH of 7.5.
• 4.4. The Arrhenius plot of Na-K ATPase activity revealed a marked discontinuity at 30°C. “Mg” ATPase activity did not exhibit a marked discontinuity.
• 5.5. The E_a for Na-K ATPase and “Mg” ATPase was 14.6 kCal/mole and 9.31 kCal/mole respectively. Q₁₀ values for Na-K ATPase was 2.34 and for “Mg” ATPase 1.65.
• 6.6. ATPase activity and gill homogenate protein concentration exhibited a linear relationship up to 130 μg protein/ml.
• 7.7. Na-K ATPase activity was inhibited by 10⁻³ M ouabain. It was equally inhibited by the removal of K⁺ from the reaction medium.