Influence of the spacer length on the activity of enzymes immobilised on nylon/polyGMA membranes: Part 2: Non-isothermal conditions

β-Galactosidase has been immobilised through spacers of different length on nylon membranes grafted with glycidyl methacrylate. Hexamethylendiamine, ethylendiamine or hydrazine have been separately used as spacers.

The behaviour of the catalytic membranes has been studied in a bioreactor operating under non-isothermal conditions as a function of the applied temperature difference ΔT.

Comparison of the enzyme reaction rates under isothermal and non-isothermal conditions resulted in percentage activity increases (PAI) and reduction of the production time (τ_r) proportional to the size of the applied ΔT. Both these parameters increased with the increase of the spacer length.

Results have been discussed in the frame of reference of the process of thermodialysis which reduces the limitations to the diffusion of substrate and reaction products across the catalytic membrane, limitations introduced by the grafting and immobilisation process.

The advantages of employing non-isothermal bioreactors in biotechnological productive processes have been outlined.     

Energy transduction in photosynthetic bacteria IV. Light-dependent ATPase in photosynthetic membranes from Rhodopseudomonas capsulata

ATPase activity of photosynthetic membrane fragments from the bacterium Rhodopseudomonas capsulata can be stimulated by continuous illumination under conditions of active cyclic electron flow. The activation corresponds to an increase in the maximum velocity of the reaction and does not affect the apparent K_m for ATP (0.11 mM). No stimulation in the light is observed in the presence of classical uncouplers or oxidized 2,6-dichlorophenolindophenol (DCIP), which, per se, stimulate ATPase in the dark. It is demonstrated, however, that oxidized DCIP acts as an uncoupler of bacterial photophosphorylation.

The effect of light is elicited after a few minutes of preillumination, or in a much shorter time if an ADP trapping system is supplied. Activation does not occur if ADP is added during the preillumination (apparent K_m for inhibition by ADP = 1 μM). The effect of ADP is not related to competitive inhibition with ATP, which can be observed at higher concentrations (apparent K_i = 0.26 mM). ADP, however, is not effective if added after some minutes of preillumination.     

Kinetic analysis of duodenal and testicular cytochrome P450c17 in the rat

In the adult rat, the duodenal tissue of both sexes can convert progesterone to 17-hydroxyprogesterone, androstenedione and testosterone. The transition from C₂₁ to C₁₉ steroids is apparently controlled by the same cytochrome P450c17 expressed in the testis, which catalyzes both 17-hydroxylation and C-17,20 bond scission at a single bifunctional active site. The kinetic parameters of this enzyme were measured at the steady state for both reactions using [1,2-³H]progesterone and [1,2-³H]17-hydroxyprogesterone as substrates. In the testis and male and female duodena, the K_m values for progesterone 17-hydroxylation were 14.2, 23.8 and 23.2 nM, whereas the V_max values were 105, 3.5 and 3.1 pmol/mg protein/min, respectively. With respect to C-17,20 lyase activity, the K_m values for exogenous 17-hydroxyprogesterone were 525, 675 and 637 nM, whereas the V_max values were 283, 7.8 and 7.8 pmol/mg protein/min, respectively. However, when the K_m values were calculated with respect to intermediate 17-hydroxyprogesterone formed from progesterone, they were similar to the K_m values for 17-hydroxylase, being 15, 31.4 and 24.8 nM, whereas the V_max values were 26.3, 2 and 1.8 pmol/mg protein/min, respectively. The similarity of K_m values is due to the fact that the relative androgen formation efficiency (bond scission events/total 17-hydroxylation events ratio) was remarkably constant in both testicular and duodenal incubates, irrespective of progesterone concentration. Efficiency values were 2-fold higher in duodenal tissue (0.54) than in testis (0.25). Estradiol-17β inhibited 17-hydroxylation but not bond scission on intermediate 17-hydroxyprogesterone, because it did not affect the efficiency value. Rat duodenal P450c17 has the same substrate affinity, a lower specific activity and a higher androgen formation efficiency than testicular P450c17.     

Immobilisation and kinetics of Penicillium notatum dextranase on controlled porous glass

Two highly purified enzymic fractions of dextranase (1,6-- -glucan 6-glucanohydrolase, EC 3.2.1.11) from Penicillium notatum have been immobilised on silanised porous glass modified by glutaraldehyde, carbodiimide and bis-oxirane binding. The marked shifts in the pH and temperature optima as well as the changes in the kinetics (K_m, V_max, E_a) of the solid-phase dextranases were observed and discussed. The immobilisation of enzymes on alkylamine glass through the process of glutaraldehyde coupling proved to be the best of the methods studied. The dextranase preparations obtained in this way showed a catalytic activity at wider pH and temperature ranges than those of the free enzymes. They were also characterized by a relatively high affinity to the substrate and good storage stability. The usefulness of the bound dextranase in batch and column hydrolysis of dextran was also established.     

Uptake and light activated esterification of P by isolated chloroplasts

1. 1. Esterification of ³²P₁ by illuminated chloroplasts prepared on a sucrose gradient was examined to establish the optimal incubation conditions.

2. 2. The evidence is consistent with phosphorylation being closely coupled to the sum of noncyclic and pseudocyclic electron flow and with the rate of electron flow responding to the availability of electron acceptors.

3. 3. Apparent K_m values for ADP and Mg²⁺ were found to be 40 and 250 μM, respectively. The K_m value for Mg²⁺ was increased by the presence of Ca²⁺. Two apparent values were observed for P₁ at 0.2 and 1.1 mM. Chloroplast damage resulted in increased apparent K_m (P₁) values.

4. 4. Acceleration of the esterification resulting from the addition of ADP and P₁ to the medium indicated that these compounds were able to penetrate to the active site of esterification.

5. 5. Ribose 5-phosphate (Rib-5-P) was shown to inhibit P₁ esterification without affecting the apparent K_m for ADP or P₁. The evidence suggests that Rib-5-P interferes with the uptake of P₁, and possibly ADP.

The membrane ATPase of Escherichia coli I. Ion dependence and ATP-ADP exchange reaction

The properties of the membrane-bound ATPase (EC 3.6.1.3) of Escherichia coli have been reexamined using membranes obtained by mechanical disruption of exponentially growing cells.

The activity exhibited an absolute requirement for Mg²⁺ in the neutral pH range, while Ca²⁺ was found able to activate ATPase at more alkaline pH. Optimal activity was observed at pH 7.5, with a Mg/ATP ratio of 0.5.

ADP was found to inhibit ATP hydrolysis and to transform the Michaelian ATP concentration dependence with a K_m of 0.5 mM into a sigmoid curve with increasing K_m and decreasing V.

In contrast ADP activated an ATP-ADP exchange process and this shift from hydrolysis to exchange was stimulated by high Mg²⁺ and by orthophosphate.

All nucleoside triphosphates tested interfered with ATP hydrolysis, all could be hydrolyzed and could donate their terminal phosphate group to ADP. The relative efficiencies of nucleoside triphosphates in these three processes varied in parallel with minor discrepancies.

ATP hydrolysis was inhibited by N,N′-dicyclohexylcarbodiimide (DCCD) Dio 9, NaN₃ and pyrophosphate, the first two being ineffective against ATP-ADP exchange, the third being stimulatory and the last inhibitory.

ATP hydrolysis and ATP-ADP exchange are tentatively attributed to the terminal enzyme of oxidative phosphorylation.     

Characterization of cocaine-sensitive dopamine uptake in PC12 cells

Dopamine uptake in rat pheochromocytoma (PC12) cells is a carrier-mediated process which follows Michaelis Menten kinetics. Uptake was saturable with an apparent K_m of 0.71 μM for dopamine and a V_max of 3.2 pmol/2 × 10⁵ cells/min. The rank order of potency for various amines was norepinephrine copamine > epinephrine. Uptake increased with increasing temperature and showed a sharp break in the Arrhenius plot at 27.5 C. The Q₁₀ was 1.39 above and 2.95 below 27.5 C. Cocaine inhibited uptake in a dose-dependent manner with a K₁ of 0.97 μM. The presence of cocaine lowered the apparent K_m but did not affect the V_max, indicating competitive inhibition. Tunicamycin inhibited [³H]dopamine accumulation in a dose- and time-dependent fashion suggesting the dopamine uptake site in PC12 cells is an asparagine-linked glycoprotein. Kinetic analysis showed a decrease in V_max but not in the apparent K_m after tunicamycin treatment, consistent with the notion that tunicamycin treatment results in the loss of a substantial amount of active carrier molecules.     

Multiple functions of aromatase and the active site structure; aromatase is the placental estrogen 2-hydroxylase

Androgen aromatase was found to also be estrogen 2-hydroxylase. The substrate specificity among androgens and estrogens and multiplicity of aromatase reactions were further studied. Through purification of human placental microsomal cytochrome P-450 by monoclonal antibody-based immunoaffinity chromatography and gradient elution on hydroxyapatite, aromatase and estradiol 2-hydroxylase activities were co-purified into a single band cytochrome P-450 with approx. 600-fold increase of both specific activities, while other cytochrome P-450 enzyme activities found in the microsomes were completely eliminated. The purified P-450 showed M_r of 55 kDa, specific heme content of 12.9 ± 2.6 nmol·mg⁻¹ (±SD, N = 4), reconstituted aromatase activity of 111 ± 19 nmol·min⁻¹·mmg⁻¹ and estradiol 2-hydroxylase activity of 5.85 ± 1.23 nmol·min⁻¹·mg⁻¹. We found no evidence for the existence of catechol estrogen synthetase without concomitant aromatase activity. The identity of the P-450 for the two different hormone synthetases was further confirmed by analysis of the two activities in the stable expression system in Chinese hamster ovarian cells transfected with human placental aromatase cDNA, pH β-Aro. Kinetic analysis of estradiol 2-hydroxylation by the purified and reconstituted aromatase P-450 in 0.1 M phosphate buffer (pH 7.6) showed K_m of 1.58 μM and V_max of 8.9 nmol·min⁻¹·mg⁻¹. A significant shift of the optimum pH and V_max, but not the K_m, for placental estrogen 2-hydroxylase was observed between microsomal and purified preparations. Testosterone and androstenedione competitively inhibited estradiol 2-hydroxylation, and estrone and estradiol competitively inhibited aromatization of both testosterone and androstenedione. Estrone and estradiol showed K_i of 4.8 and 7.3 μM, respectively, for testosterone aromatization, and 5.0 and 8.1 μM, respectively, for androstenedione aromatization. Androstenedione and testosterone showed K_i of 0.32 and 0.61 μM, respectively, for estradiol 2-hydroxylation. Our studies showed that aromatase P-450 functions as estrogen 2-hydroxylase as well as androgen 19-, 1β-,and 2β-hydroxylase and aromatase. The results indicate that placental aromatase is responsible for the highly elevated levels of the catechol estrogen and 19-hydroxyandrogen during pregnancy. These results also indicate that the active site structure holds the steroid ssubstrates to face their β-side of the A-ring to the heme, tilted in such a way as to make the 2-position of estrogens and 19-, 1-, and 2-positions of androgens available for monooxygenation.     

Isothermal and non-isothermal bioreactors in the detoxification of waste waters polluted by aromatic compounds by means of immobilised laccase from Rhus vernicifera

Laccase from Rhus vernicifera was immobilised on a nylon membrane chemically grafted with glycidyl methacrylate (GMA). Hexamethylenediamine (HMDA) and glutaraldehyde (GLU) were used as spacer and bifunctional coupling agent, respectively. Quinol was used as substrate.

To know how the immobilisation procedures affected the enzyme reaction rate the catalytic behaviour of soluble and insoluble laccase was studied under isothermal conditions as a function of pH, temperature and substrate concentration. From these studies, two main singularities emerged from the experimental data: (i) the narrower pH-activity profile of the insoluble enzyme in comparison to that of the soluble counterpart; (ii) the increase of the affinity of the immobilised enzyme for its substrate.

The behaviour of the catalytic membrane was also studied in a non-isothermal bioreactor as a function of substrate concentration and size of the applied transmembrane temperature difference. It was found that, under non-isothermal conditions and keeping constant the average temperature of the bioreactor, the enzyme reaction rate linearly increases with the increase of the temperature difference. These results have been discussed in the frame of reference of the process of thermodialysis driving thermodiffusive transmembrane substrate fluxes, which add to the diffusive ones.

The advantages of the catalytic process carried out under non-isothermal conditions have been thrown in relief through the evaluation of the reduction of the production times and of the percentage increases of the enzyme activity.     

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。     

Modulation of immobilized enzyme activity by altering the hydrophobicity of nylon-grafted membranes: Part 2: Non-isothermal conditions

Lactose hydrolysis by β-galactosidase immobilized on two nylon membranes, differently grafted, has been studied in a bioreactor operating under isothermal and non-isothermal conditions. One membrane (M₁) was obtained by chemical grafting of methylmethacrylate (MAA); the other one (M₂) by a double chemical grafting: styrene (Sty) and MAA. Hexamethylenediamine was used as a spacer between the grafted membranes and the enzyme. Both membranes have been physically characterized studying their permeabilities in presence of pressure or temperature gradients. Under non-isothermal conditions, the increase in activity of membrane M₂ was higher than that of membrane M₁. The and β coefficients, giving the percentage of activity increase when a temperature difference of 1°C is applied across the catalytic membranes, have been calculated. Results have been discussed with reference to the greater hydrophobicity of membrane M₂ with respect to membrane M₁, the hydrophobicity being a prerequisite for the occurrence of the process of thermodialysis.     

Activity and stability of native and modified alanine aminotransferase in cosolvent systems and denaturants

Alanine aminotransferase (ALT) is used in clinical diagnostics, amino acid synthesis and in biosensors. Here we describe the stabilization of soluble porcine ALT by chemical modification with mono- and bis-imidates. The apparent transition temperatures (‘T_m’, the temperature where 50% of initial activity was lost in 10 min) for native and DMS-modified ALT were 46 and 56 °C respectively. The effects of water-miscible organic solvents (methanol, dimethylformamide, dimethylsulphoxide and 1,4-dioxane) on the activity/stability of native and modified forms were determined. In all systems studied, an abrupt decrease in ALT catalytic activity was observed on reaching a certain threshold concentration of the organic solvent. The modified derivatives were more organotolerant than native enzyme. Comparison of the apparent V_max and K_m for 2-oxoglutarate as substrate, determined in 10% (v/v) organic solvent, with the results of thermal inactivation studies showed that the solvents have different effects on ALT's catalytic parameters and on its conformational stability. At 35 °C with no organic solvent the dimethylsuberimidate (DMS)-modified derivative's half-life was 16 times greater than that for native enzyme; in 30% (v/v) solvent at 35 °C, the DMS-modified ALT's half-life was up to 4.6 times greater than native enzyme's. DMS-modified ALT was also more stable in urea and guanidine HCl, and its refolding was more noticeable, than that of native enzyme.     

A nitrite reductase with cytochrome oxidase activity from Micrococcus denitrificans

The formation of nitrite reductase and cytochrome c in Micrococcus denitrificans was repressed by O₂. The purified nitrite reductase utilized reduced forms of cytochrome c, phenazine methosulphate, benzyl viologen and methyl viologen, respectively, as electron donors. The enzyme was inhibited by KCN, NaN₃ and NH₂OH each at 1 mM, whereas CO and bathocuproin, diethyl dithiocarbamate, o-phenanthroline and ,'-dipyridyl at 1 mM concentrations were relatively ineffective. The purified enzyme contains cytochromes, probably of the c and a₂ types, in one complex. A K_m of 46 μM for NO₂⁻ and a pH optimum of 6.7 were recorded for the enzyme. The molecular weight of the enzyme was estimated to be around 130000, and its anodic mobility was 6.8·10⁻⁶ cm²·sec⁻¹·V⁻¹ at pH 4.55.

The most highly purified nitrite reductase still exhibited cytochrome c oxidase activity with a K_m of 27 μM for O₂. This activity was also inhibited by KCN, NaN₃ and NH₂OH and by NO₂⁻.

A constitutive cytochrome oxidase associated with membranes was also isolated from cells grown anaerobically with NO₂⁻. It was inhibited by smaller amounts of KCN, NaN₃ and NH₂OH than the cytochrome oxidase activity of the nitrite reductase enzyme and also differed in having a pH optimum of about 8 and a K_m for O₂ of less than 0.1 μM. Spectroscopically, cytochromes b and c were found to be associated with the constitutive oxidase in the particulate preparation. Its activity was also inhibited by NO₂⁻.

The physiological role of the cytochrome oxidase activity associated with the purified nitrite reductase is likely to be of secondary importance for the following reasons: (a) it accounts for less than 10% of total cytochrome c oxidase activity of cell extracts; (b) the constitutive cytochrome c oxidase has a smaller K_m for O₂ and would therefore be expected to function more efficiently especially at low concentrations of O₂.     

Temperature and the regulation of activity of some mitochondrial enzyme systems in ecto- and endo-thermic animals

1. 1.|No obvious correlation was found between the temperature dependence of the apparent K_m values for either mitochondrial succinoxidase or NADH oxidase systems prepared from rat or rainbow trout liver tissue and the previously observed pattern of susceptibility of these same enzymes to thermal inactivation.

2. 2.|Apparent activation energies (E_A) have been calculated from the data and, although these are equivocal when considered in the above context, it is concluded that the possibility is not excluded that entropy may be a more important variable than enthalpy in the action of these enzymes in ectothermic animals.

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.     

The preparation and properties of the membranal DPNH dehydrogenase from Escherichia coli

1. The membrane bound DPNH oxidase of Escherichia coli can reduce the artificial electron acceptors: ferricyanide, dichlorophenolindophenol (DCIP) and menadione. All three are reduced by the flavoprotein of DPNH oxidase, but at different sites of the enzyme.

2. Freeze-drying of the bacterial membranes causes a selective detachment of DPNH dehydrogenase (DPNH: (acceptor) oxidoreductase, EC 1.6.99.3) from the membranes. This solubilization is accompanied by a decrease of K_m(K₃Fe(CN)₆) from 2.0 to 0.25 mM, while no change is detected in K_m(DPNH). This enzyme is not the DPNH diaphorase found in the bacteria.

3. DPNH dehydrogenase of E. coli is a metalloflavoprotein, containing non-heme iron, labile sulfide, FMN and FAD.

4. Reduction of the enzyme with DPNH in the absence of electron acceptor (ferricyanide or DCIP) causes a rapid and irreversible change to a less active state, Form II. Form II is characterized by a higher K_m(DPNH) and slower v_max., while the K_m(K₃Fe(CN)₆) remains unchanged.

5. The transformation of the enzyme to Form II is accompanied by the reduction of the non-heme iron component. The role of non-heme iron in the enzymic reaction is discussed.     

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.     

Improving the parameterization of stromatoporoid shapes – a detailed approach to stromatoporoid morphometry

Eight specimens of Devonian stromatoporoids with well visible latilaminae arrangement exposed on polished slabs were subjected to a detailed morphometric analysis. The studies have revealed that the so far used stromatoporoid parameterization method leaves a broad field of uncertainty concerning the exact definitions of particular parameters. The possible ways of making the measurements and the propositions of more precise definitions of the parameters used in the method, both of the growth form above the sea bottom and of the whole skeleton are therefore presented in this paper. The B_m - basal length of the skeleton, has been defined as a straight line joining the two ends of the basal surface, which have been pointed basing on the stromatoporoid's overall shape, latilaminae arrangement and angular relation to the main growth axis position in ontogenetical development, length. The B_n - basal length of the growth form above the sea bottom, is to be measured along a straight line joining the ends of the last visible latilamina. From among a number of possible definitions of the V_m - vertical height of the whole skeleton, a straight line joining the initial growth nucleus and the highest point on the specimen's surface above the B_m line has been selected. The V_n - vertical height of the growth form above the sea bottom is defined as the height of the point on the stromatoporoid surface highest above the B_n measured perpendicularly to it. A parameter of burial ratio, BR=(V_m-V_n)/V_m, is introduced.     

Circadian Variation in the Uptake of Tryptophan by Cortical Synaptosomes of the Rat Brain

The kinetics of the high affinity uptake system for L-tryptophan (L-Try)have been measured over 24 hr in cortical synaptosome preparations of rat brain. Both the K_m and V_max, of the uptake process showed a statistically significant 24 hr variation. The highest K_m value, 6.71 ± 10^-5 M, was measured at the beginning of the light phase and the lowest value, 4.23 ± 10^-5 M, 6 hr into the dark phase. V_max was highest at the end of the dark phase (10.43 nmol/mg/5 min) and lowest (4.80 nmol/mg/5 min) 3 hr into the dark phase. In contrast, there was no variation over 24 hr in the V_max/K_m ratio. These results suggest that the high affinity uptake process serves to ensure a constant rate of L-tryptophan entry into the neuron in the face of circadian or ultradian variations in extracellular concentration of tryptophan.     

Carboxypeptidase Y-Catalyzed Reaction in Systems Containing Organic Solvent

The effect of organic solvents on carboxypeptidase Y (a serine carboxypeptidase from yeast)-catalyzed hydrolysis of amino acid ester and peptide synthesis from N-acyl amino acid ester and amino acid amide was investigated.

The K_m value of ester hydrolysis increased with an increase in the solvent content. Dioxane was the most effective and dimethyl sulfoxide (DMSO) the least, whilst K_cat showed a tendency to increase slightly in N, N-dimethylformamide (DMF) and DMSO. For dioxane and acetonitrile (MeCN) a maximum was observed.

In peptide formation from Fua-Phe-OEt and Gly-NH₂, dioxane and MeCN supported high product yield at molar fractions smaller than ca. 0.05 but the yield decreased significantly at higher fractions, although a relatively constant selectivity (ratio of the peptide bond formed to the ester consumed) was maintained. DMSO gave rather low peptide yields and selectivity even at lower molar fractions. DMF showed an intermediate tendency.

An apparent saturation parameter of the amine component was evaluated and the dissociation constant of a complex between acyl-enzyme and amino acid amide (K_n), as well as the rate constant of aminolysis exerted by the amino acid amide bound correctly on the enzyme (K_n), was calculated by initial rate analysis of peptide formation. In contrast to K_m values, K_n decreased with increasing concentrations of organic cosolvent. while a suppressive effect was observed (except for DMSO) on the K_n parameter.

Effects of the solvent practically immiscible in water was also studied by use of the enzyme physically “immobilized” on glass beads.