Effect of aprotic solvents on the enzymatic activity of lipase in AOT reverse micelles

The modification of reverse micellar systems composed of AOT, isooctane, water by the addition of aprotic solvents has been performed. The impact of this change on the activity, stability and kinetics of solubilized Chromobacterium viscosum lipase (glycerol-ester hydrolase, EC 3.1.1.3) was investigated. Of seven aprotic solvents tested, dimethyl sulfoxide (DMSO) was found to be most effective. It was found that lipase activity was enhanced by optimizing some relevant parameters, such as water–AOT molar ratio (W₀), buffer pH and surfactant concentration. A kinetic model that considers the free substrate in equilibrium with the substrate adsorbed on the micellar surface was successfully used to deduce some kinetic parameters (V_max, K_m and K_ad), and the values of K_m and K_ad were significantly reduced by the presence of DMSO. Higher lipase stability was found in AOT reverse micelles with DMSO compared with that in simple AOT systems with half-life of 125 and 33 days, respectively. Fluorescence spectroscopy and Fourier transform infrared spectroscopy (FT-IR) were used to elucidate the effects of DMSO on the properties of AOT reverse micelles.     

Tyrosinase activity in reversed micelles

The hydroxylase and oxidase activities of mushroom tyrosinase were studied in both sodium di-2-ethylhexylsulfosuccinate (AOT)/isooctane and cetyltrimethylammonium bromide (CTAB)/hexane/chloroform reversed micelles. The enzyme presented its highest activity when the water to surfactant molar ratio (W ₀) was 20 for both systems. When entrapped in the AOT reversed micelles, the enzyme activity decreased with the increase in AOT concentration at a constant W ₀, and the enzyme not only presented a higher reaction rate related to its oxidase activity but also a shorter lag period related to its hydroxylase activity. The relation between water activity and W ₀ revealed that enzyme activity in reversed micelles was more related to the size of the micelles which was determined by W ₀ and less to the water activity. Tyrosinase in CTAB reversed micelles showed potential for the analysis of o-diphenols.     

Some kinetic properties of polyphenol oxidase from Thymbra spicata L. var. spicata

Polyphenol oxidase (PPO) of Thymbra (Thymbra spicata L. var. spicata) was isolated by (NH₄)₂SO₄ precipitation and dialysis. A diphenolase from Thymbra plant, active against 4-methylcatechol, catechol and pyrogallol was characterized in detail in terms of pH and temperature optima, stability, kinetic parameters and inhibition behaviour towards some general PPO inhibitors. 4-Methylcatechol was the most suitable substrate, due to the lowest K_m and the biggest V_max/K_m values, followed by catechol and pyrogallol. The Thymbra PPO had maximum activity at pH 5.0, 7.0 and 8.0 with 4-methylcatechol, catechol and pyrogallol substrates, respectively. The optimum temperature of activity for Thymbra PPO was 30, 40 and 50 °C for 4-methylcatechol, catechol and pyrogallol substrates, respectively. It was found that optimum temperature and pH were substrate-dependent studied. The enzyme activity decreased due to heat denaturation of the enzyme with increasing temperature and inactivation time. Inhibition of Thymbra PPO was investigated with inhibitors such as l-cysteine and glutathione using 4-methylcatechol, catechol and pyrogallol as substrates. It was found that l-cysteine was a more effective inhibitor than glutathione owing to lower K_i. The type of inhibition depended on the origin of the PPO studied and also on the substrate used. Furthermore, the IC₅₀ values of inhibitors sudied on PPO were determined by means of activity percentage (I) diagrams.     

Comparison of tyrosinase activity and stability in aqueous and nearly nonaqueous environments

The activity and stability of tyrosinase were compared in aqueous and two nearly nonaqueous environments (a low-water solvent system and reversed micelles). Initial rates of oxidation of methyl- and butyl-catechols in aerosol OT, sodium di-2-ethylhexylsulfosuccinate, (AOT)/isooctane micelles were higher than in aqueous solution, showing superactivity, whereas lower rates were obtained in cetyltri-methylammonium bromide (CTAB)/hexane/chloroform micelles and in chloroform containing celite-supported enzyme. The enzyme was most stable in chloroform, whereas half-lives in aqueous buffer and in both AOT and CTAB micelles were lower. The optimal reaction temperatures were higher in both micelles than in water but lower in chloroform. Thus, tyrosinase was active in ≤3.5% v/v water with apparent K_m, V_max, and activation energies reasonably similar to those in aqueous solution.     

Characterization of reactions catalysed by yeast phosphatidylinositol synthase

The nature of reactions catalysed by yeast phosphatidylinositol synthase expressed in E. coli has been investigated. The single enzyme is shown to carry both CDP-diacylglycerol-dependent incorporation of inositol into phosphatidylinositol (K_m for inositol of 0.090 mM) and a CDP-diacylglycerol-independent exchange reaction between phosphatidylinositol and inositol (K_m for inositol of 0.066 mM). The exchange reaction and reversal of phosphatidylinositol synthase were both stimulated by CMP, but had different optimum pH and requirements for substrates. These results suggest that CMP-stimulated exchange and CMP-dependent reverse reactions are distinct processes catalysed by the same enzyme. phosphatidylinositol synthase.     

A kinetic study of almond-β-glucosidase catalysed synthesis of hexyl-glycosides in low aqueous media: Influence of glycosyl donor and water activity

A variety of alkyl and aryl glycosides were investigated as substrates for almond β-glucosidase catalysed synthesis of hexyl-β- -glycosides in low aqueous hexanol media. The rate-limiting step in the organic media was determined to be the glycosylation of the enzyme. The kinetic constants V_max, K_m (glycosyl donor) and V_max/K_m were all influenced by the water activity and they all increased in value with increasing water activity. The increase in V_max/K_m was mainly determined by the increase in V_max and a plot of log(V_max/K_m) versus water activity resulted in a straight line with similar slopes for all glycosides but with different absolute values and thus the most reactive substrate p-nitrophenyl glucoside was the best one in the entire water activity range studied (0.53–0.96). The preference for the two competing acceptors, hexanol and water, was not affected by the aglycon part of the glucoside. Surprisingly, the ratio between trans glycosylation and hydrolysis increased with increasing water activity. A decrease in water activity caused an increase in equilibrium yield of hexyl glycoside, as expected, but was not beneficial for the kinetically controlled yield.     

The Mechanism of Salt Activation of Thermolysin: Relation with Pressure Activation and Implications of Hydration Change Coupled with Rate Process

Thermolysin (E.C. 3.4.24.4) shows a remarkable increase in catalytic activity at elevated salt concentrations or hydrostatic pressures. Salt effected K_cat, only, whilst the effect of pressure was related to both K_cat, and K_m. The turnover, derived from k_cat/K_m(V), of the hydrolysis of an N-acyldipeptide amide substrate was scarcely affected by addition of salt. These results were interpreted in terms of the stabilization of increased (or exposed) charges at the transition state of the reaction.     

Kinetic behavior of Desulfovibrio gigas aldehyde oxidoreductase encapsulated in reverse micelles

We report the kinetic behavior of the enzyme aldehyde oxidoreductase (AOR) from the sulfate reducing bacterium Desulfovibrio gigas (Dg) encapsulated in reverse micelles of sodium bis-(2-ethylhexyl) sulfosuccinate in isooctane using benzaldehyde, octaldehyde, and decylaldehyde as substrates. Dg AOR is a 200-kDa homodimeric protein that catalyzes the conversion of aldehydes to carboxylic acids. Ultrasedimentation analysis of Dg AOR-containing micelles showed the presence of 100-kDa molecular weight species, confirming that the Dg AOR subunits can be dissociated. UV-visible spectra of encapsulated Dg AOR are indistinguishable from the enzyme spectrum in solution, suggesting that both protein fold and metal cofactor are kept intact upon encapsulation. The catalytic constant (k(cat)) profile as a function of the micelle size W(0) (W(0)=[H(2)O]/[AOT]) using benzaldehyde as substrate showed two bell-shaped activity peaks at W(0)=20 and 26. Furthermore, enzymatic activity for octaldehyde and decylaldehyde was detected only in reverse micelles. Like for the benzaldehyde kinetics, two peaks with both similar k(cat) values and W(0) positions were obtained. EPR studies using spin-labeled reverse micelles indicated that octaldehyde and benzaldehyde are intercalated in the micelle membrane. This suggests that, though Dg AOR is found in the cytoplasm of bacterial cells, the enzyme may catalyze the reaction of substrates incorporated into a cell membrane.     

氮添加对毛竹林土壤酸性磷酸单酯酶动力学参数的影响

土壤磷酸酶在有机磷矿化和磷循环过程中发挥着重要作用,然而,土壤磷酸酶响应氮(N)沉降的动力学机制仍不清楚。本研究在亚热带毛竹林中设置对照(0)、20(低氮)、40(中氮)和80 g N·hm^-2·a^-1(高氮)4种不同氮添加处理,在氮添加满3年、5年和7年时采集0～15 cm土层土壤样本,测定了土壤化学性质、微生物生物量,并分析了酸性磷酸单酯酶(ACP)的最大反应速率(V_m)、半饱和常数(K_m)和催化效率(K_a)。结果表明: 氮添加显著降低了土壤可溶性有机碳、有效磷和有机磷含量,显著增加了土壤铵态氮、硝态氮含量和V_m,且V_m与有效磷、有机磷和可溶性有机碳含量存在显著相关关系;总体上,氮添加显著提高了K_a;除了在氮添加满5年时高氮处理下K_m显著高于对照外,氮添加对K_m无显著影响,且K_m与有效磷和有机磷含量有显著负相关关系。中、高氮处理对ACP动力学参数的影响大于低氮处理。方差分解分析表明,土壤化学性质的变化而非微生物学性质的变化主导了V_m(47%)和K_m(33%)的变化。总之,氮添加显著影响了毛竹林土壤的基质有效性,通过调控ACP动力学参数(尤其是V_m)进而影响了土壤磷循环。本研究有助于了解氮素富集下土壤微生物调节土壤磷循环的潜在机制,并为全球变化下土壤磷循环模型优化提供重要参数。     

Nonionic detergent-induced activation of an esterase from Bacillus megaterium 20-1

An esterase-producing Bacillus megaterium strain (20-1) was isolated from a soil sample collected in South Korea. The cloned gene showed that the esterase 20-1 composed of 310 amino acids corresponding to a molecular mass (M_r) of 34,638. Based on the M_r and the protein sequence, the esterase 20-1 belonged to the H lipase/esterase group. The optimum temperature and pH of the purified His-tagged enzyme were 20–35 °C and 8.0, respectively. The esterase 20-1 showed a ‘nonionic detergent-induced activation’ phenomenon, which was a detergent type- and concentration-dependent process. In comparison with the native enzyme, the Tween 80-treated enzyme had relatively a similar k_cat value of 274 s⁻¹ but a very low K_m value of 0.037 mM for PNPC (C₆), therefore, it showed a 14-fold increase in k_cat/K_m value.     

Kinetic properties of microsomal 3beta hydroxysteroid dehydrogenase-isomerase from the testis of Bufo arenarum H

3β-hydroxysteroid dehydrogenase 5-ene isomerase (3βHSD/I) activity is necessary for the biosynthesis of hormonally active steroids. A dual distribution of the enzyme was described in toad testes. The present study demonstrates that in testicular tissue of Bufo arenarum H., microsomal 3βHSD/I has more affinity for dehydroepiandrosterone (DHEA) than for pregnenolone (K_m=0.17±0.03 and 1.02 μM, respectively). The Hill coefficient for the conversion of DHEA and pregnenolone were 1.04 and 1.01, respectively. The inclusion of DHEA in the kinetic analysis of pregnenolone conversion affected V_max while K_m was not modified, suggesting a non-competitive inhibition of the conversion of pregnenolone. K_i was calculated from replot of Dixon's slope for each substrate concentration. K_i from the intercept and the slope of this replot were similar (0.276±0.01 and 0.263±0.02 μM) and higher than the K_m for DHEA. The K_m and K_i values suggest the presence of two different binding sites. When pregnenolone was present in the assays with DHEA as substrate, no effect was observed on the V_max while K_m values slightly increased with pregnenolone concentration. Consequently, pregnenolone inhibited the transformation of DHEA in a competitive fashion. These studies suggest that, in this species, the microsomal biosyntheses of androgens and progesterone are catalysed by different active sites.     

来源于嗜碱芽孢杆菌N16-5甘露聚糖利用基因簇的乙酰酯酶AesA的克隆及性质分析*

天然来源的多糖底物上常存在乙酰基取代,特异性的乙酰酯酶能够切割这些底物上的乙酰基,从而有利于聚糖底物的进一步降解.对Bacillus sp. N16-5甘露聚糖利用基因簇上编码的乙酰酯酶AesA进行了基因克隆和异源表达,并对其酶学性质进行了研究.aesA基因长957bp,编码318个氨基酸,属于碳水化合物酯酶第7家族.AesA对4-甲基伞形酮乙酸酯(4-methylumbelliferyl-acetate)表现出较好的催化活性,金属离子Fe³⁺,Fe²⁺,Mn²⁺及Cu²⁺对AesA活性均有不同程度的促进作用.AesA与甘露聚糖酶ManA对乙酰化的甘露聚糖底物具有显著的协同作用.此项研究有助于理解嗜碱芽孢杆菌Bacillus sp.N16-5对甘露聚糖的水解机制,并且在甘露聚糖降解中具有潜在的应用前景.     

Induction of glyoxylate cycle enzymes in rat liver upon food starvation

The key enzymes of the glyoxylate cycle, isocitrate lyase and malate synthase, have been detected in liver of foodstarved rats. Activities became measurable 3 days and peaked 5 days after the beginning of starvation. Both enzymes were found in the peroxisomal cell fraction after organelle fractionation by isopycnic centrifugation. Isocitrate lyase was purified 112-fold by ammonium sulfate precipitation, and chromotography on DEAE-cellulose and Toyopearl HW-65. The specific activity of the purified enzyme was 9.0 units per mg protein. The K_m(isocitrate) was 68 μM and the pH optimum was at pH 7.4. Malate synthase was enriched 4-fold by ammonium sulfate precipitation. The enzyme had a K_m(acetyl-CoA) of 0.2 μM, a K_m(glyoxylate) of 3 mM and a pH optimum of 7.6.     

Trametes sp. LS-10C固态发酵产漆酶培养基优化及其对双酚A的降解

漆酶是一种绿色高效的多酚氧化酶,在降解双酚A方面具有巨大潜力。为降低发酵产漆酶的成本及考察漆酶在双酚A降解中的能力,本研究以麸皮和柚皮为主要基质,优化了栓菌固态发酵产漆酶条件,对优化后获得的漆酶在双酚A降解中的应用进行了研究。结果表明,在培养基组分为：麸皮和柚皮粉比例为6:4（W/W）、固液比1:2.5（W/V）、铜离子2%（W/W）、蔗糖3%（W/W）、硝酸钾2%（W/W）、稻壳20%（W/W）的条件下,栓菌发酵产漆酶的酶活最高,发酵11d后,酶活可达到38.4U/gds。当双酚A初始浓度为10μg/mL时,在55℃条件下酶解140min后,双酚A基本降解完全。     

Different responses of rat cerebral mitochondrial 2-oxoglutarate dehydrogenase activity to ammonia and hepatic encephalopathy in synaptic and nonsynaptic mitochondria

The effects of in vitro treatment with ammonium chloride and acute hepatic encephalopathy (HE) induced by thioacetamide treatment (TAA), on the 2-oxoglutarate dehydrogenase (OGDH) activity in synaptic and nonsynaptic mitochondria from rat brain were examined. In control conditions, V_max and K_m for 2-oxoglutaric acid (2-OG) were higher in the synaptic than in nonsynaptic mitochondria by about 45 and 55%, respectively. A particularly high sensitivity of OGDH to ammonium ions in vitro was observed in nonsynaptic mitochondria, as manifested by a 30% decrease of V_max and a 60% decrease of K_m for 2-OG. Synaptic mitochondria showed a slight response to HE which was manifested by a 12% increase of V_max. In nonsynaptic mitochondria a 19% decrease of K_m for 2-OG was observed, but V_max was unaffected. Nonsynaptic mitochondria from HE rats reacted to the addition of ammonium ions in vitro with a 30% inhibition of V_max but with no alteration of K_m for 2-OG. In synaptic mitochondria from HE rats there was a slight inhibition of V_max, but an about 15% decrease of K_m for 2-OG. Based on these results, the different responses of OGDH in two mitochondrial populations to HE and ammonium ions in vitro would appear to be due to intrinsic differences between the properties of the enzyme in the synaptic and nonsynaptic brain compartments.     

Entrapment of lipase into K-carrageenan beads and its use in hydrolysis of olive oil in biphasic system

The porcine pancrease lipase was immobilized by entrapment in the beads of K-carrageenan and cured by treatment with polyethyleneimine (PEI) in the phosphate buffer. The retention of hydrolytic activity of lipase and compressive strength of the beads were examined. The activity of free and immobilized lipase was assessed by using olive oil as the substrate. The immobilized enzyme exhibited a little shift towards acidic pH for its optimal activity and retained 50% of its activity after 5 cycles. When the enzyme concentration was kept constant and substrate concentration was varied the K_m and V_max were observed to be 0.18 × 10⁻² and 0.10, and 0.10 × 10⁻² and 0.09 respectively, for free and for entrapped enzymes. When the substrate concentration was kept constant and enzyme concentration was varied, the values of K_m and V_max were observed to be 0.19 × 10⁻⁷ and 0.41, and 0.18 × 10⁻⁷ and 0.41 for free and entrapped enzymes. Though this indicates that there is no conformational change during immobilization, it also shows that the reaction velocity depends on the concentration. Immobilized enzyme showed improved thermal and storage stability. Hydrolysis of olive oil in organic–aqueous two-phase system using fixed bed reactor was carried out and conditions were optimized. The enzyme in reactor retained 30% of its initial activity after 480 min (12 cycles).     

Activity and stability of horse-liver alcohol dehydrogenase in sodium dioctylsulfosuccinate/cyclohexane reverse micelles

Horse liver alcohol dehydrogenase (EC 1.1.1.1) solubilized in sodium dioctylsulfosuccinate (AOT)/cyclohexane reverse micelles was used for the oxidation of ethanol and reduction of cyclohexanone in a coupled substrate/coenzyme recycling system. The activity of the enzyme was studied as a function of pH and water content. The enzyme was optimally active in microemulsions prepared with buffer of pH around 8. An increase in enzymatic activity was observed as a function of increasing water content. The Km values for the substrates were calculated based on the total reaction volume. The apparent Km for ethanol in reverse micelles was about eight times lower as compared to that in buffer solution, whereas the Km for cyclohexanone was almost unaltered. Storage and operational stability were investigated. It was found that the specific activity of the alcohol dehydrogenase operating in reverse micellar solution was good for at least two weeks. The steroid eticholan-3 beta-ol-17-one was also used as a substrate. In this case the reaction rate was approximately five times higher in a reverse micellar solution than in buffer.     

黄土高原不同植被带人工刺槐林土壤氮磷转化酶动力学参数及其温度敏感性

土壤酶是有机质降解的催化剂,其动力学特征是表征酶催化性能的重要指标,对评价土壤健康质量有重要作用。本研究选择黄土高原3种植被带下人工刺槐林土壤为对象,探讨了土壤酶动力学参数对温度变化的响应及其温度敏感性(Q₁₀)的变化特征。结果表明: 随着培养温度的升高,土壤丙氨酸转氨酶、亮氨酸氨基肽酶和碱性磷酸酶的潜在最大反应速率(V_max)和半饱和常数(K_m)均呈线性增加,且V_max呈现出森林带>森林草原带>草原带的地带性规律。V_max的温度敏感性(Q10(V_max))为1.14～1.62,K_m的温度敏感性(Q_10(Km))为1.05～1.47,且两者在森林草原带的值均低于其他植被带。在低、高温区,不同土壤酶的Q₁₀在各植被带间的变化也不尽相同。冗余分析显示,Q₁₀与环境变量尤其是土壤养分有显著的相关关系,这表明Q₁₀可能还受到除温度以外其他环境因子的影响。     

Stability and Enzymatic Studies of Glucose Dehydrogenase from the Archaeon Haloferax mediterranei in reverse micelles

Reverse micelles were used as a cytoplasmic model to study the kinetics of an extreme halophilic enzyme such as the recombinant glucose dehydrogenase from the Archaeon Haloferax mediterranei. This enzyme was solubilized in reverse micelles of hexadecyltrimethylammoniumbromide in cyclohexane, with 1-butanol as co-surfactant. Glucose dehydrogenase retained its catalytic properties in this organic medium, showing good stability at low water content, even at low salt concentration (125 mM NaCl). The dependence of the enzymatic activity on the molar water surfactant ratio (w₀=[H₂O]/[surfactant]) increased with rising water content. Surprisingly, the activity of this extreme halophilic enzyme did not depend on the salt concentration in reverse micelles. The kinetic of the enzymatic oxidation of β-D-glucose to D-glucono-1,5-lactone using NADP⁺ as coenzyme for the glucose dehydrogenase from Haloferax mediterranei was also studied in the reverse micellar system.