Porphyrin biosynthesis—immobilized enzymes and ligands. IX. Studies on δ-aminolaevulinate synthetase from cultured soybean cells

Soybean callus δ-aminolaevulinate synthetase (ALA-S) has been covalently attached to Sepharose 4B. The optimal conditions for binding have been determined. The water-insoluble ALA-S retained 40% of the activity of the original soluble preparation, the coupling yield was also high. Sepharose — ALA-S could be stored at 4°C for periods up to 40 days with only 25% loss of activity and it could be repeatedly used with little alteration of its enzymic activity. pH optima of the free and bound enzyme were the same.     

Catalytic properties of sepharose-bound l-Alanine dehydrogenase from Bacillus cereus

(1) l-Alanine dehydrogenase from Bacillus cereus was purified by a two-step chromatographic procedure involving Cibacron-Blue 3G-A Sepharose 4B-CL, and Sepharose 6B-CL, and immobilized on CNBr-activated Sepharose 4B. (2) Following immobilization via two of the six subunits, l-alanine dehydrogenase retained 66% of the specific activity of the soluble enzyme. The affinity of the immobilized enzyme for NH₄⁺, pyruvate and l-alanine, was not different to that of the soluble form. The K_m of the Sepharose-bound l-alanine dehydrogenase for pyridine coenzymes was 6–8-times higher than in the soluble case. (3) The stability of l-alanine dehydrogenase towards urea or thermal denaturation was increased by immobilization. (4) The incubation at 37°C for 24 h of the immobilized l-alanine dehydrogenase with 3 M NH₄Cl/NH₄OH buffer (pH 9) released 70% of the enzyme. The specific activity and the affinity of the ‘solubilized’ l-alanine dehydrogenase for the pyridine coenzymes was the same as that obtained with the original, soluble l-alanine dehydrogenase.     

Porphyrin biosynthesis: immobilized enzymes and ligands. VI. Studies on succinyl CoA synthetase from cultured soya bean cells

Soybean callus succinyl CoA synthetase (succinate: CoA ligase, (ADP-forming), EC 6.2.1.5), has been chemically bound to Sepharose 4B and some of its properties have been studied. The optimal conditions for binding have been determined. The immobilized enzyme retained 48% of the activity of the soluble enzyme and the coupling yield amounted to 50%. Sepharose-succinyl CoA synthetase can be stored at 4 degrees C for periods up to 90 days with only 25% loss of activity; it can also be repeatedly used without alteration of its enzymic activity. The complex showed enhanced thermal stability; pH optimum was between 7.0 and 8.0 for the bound enzyme, and 8.0 for the free enzyme. A general decrease in the Michaelis-Menten constants for the different substrates of the insoluble enzyme, as compared with values obtained for the free enzyme, was found. Plots of the rate product formation against ATP concentration changed from sigmoideal for the soluble succinyl CoA synthetase to hyperbolic for the immobilized enzyme.     

Purification of human milk bile salt-activated lipase by cholic acid-coupled sepharose 4B affinity chromatography

Sequential chromatography of human milk whey on concanavalin A—Sepharose 4B followed by cholate—Sepharose 4B yielded a bile salt-activated lipase with 150-fold purification. The lipase was not retained by concanavalin A—Sepharose 4B but was retained by the cholate—Sepharose 4B, from which it was eluted with 2% sodium cholate. The affinity chromatography procedure on cholate—Sepharose 4B was based on the specific structural requirement of the enzyme for a 7-hydroxyl group of bile salt. Sodium deoxycholate, which lacks the 7-hydroxyl group, was effective in removing the nonspecifically bound proteins without affecting the binding of the enzyme. Bile salt-activated lipase showed a single band on urea-sodium dodecyl sulfate—polyacrylamide gel electrophoresis with an apparent molecular weight of 125,000, and based on densitometric measurement accounted for 0.5–1.0% of the protein mass of human whole milk. A rabbit antiserum to the purified bile salt-activated lipase caused no inhibition of human milk lipoprotein lipase activity but completely inhibited bile salt-activated lipase activity.     

The preparation of CMP-sialic acids by using CMP-acylneuraminate synthase from frog liver immobilized on sepharose 4B.

A preparation of frog liver CMP-acylneuraminate synthase (2-10-fold enriched over the homogenate) obtained from DEAE-Sephadex A-50 chromatography of a 105,000g liver supernatant was bound to Sepharose 4B by the CNBr method. The enzyme retained 80-100% activity on binding and showed similar properties to the purified soluble enzyme from the same source with respect to Km, pH optimum and inhibition. The bound enzyme was stable to temperatures above 40 degrees C, in contrast with the soluble enzyme, and could be stored for 4 months at 2 degrees C with loss of 20% activity. The bound enzyme was used preparatively for the synthesis of radioactive and non-radioactive CMP-N-acetylneuraminic acid and CMP-N-glycolloylneuraminic acid. With suitable substrate concentrations and ratios, yields of 80% and over can be achieved.     

Coupled-enzyme and direct assays for uroporphyrinogen III synthase activity in human erythrocytes and cultured lymphoblasts: Enzymatic diagnosis of heterozygotes and homozygotes with congenital erythropoietic porphyria

Rapid and reproducible assays for uroporphyrinogen III synthase (URO-S; EC 4.2.1.75) have been developed and used to determine the enzymatic activity in human erythrocytes and cultured lymphoid cells. In the coupled-enzyme assay, porphobilinogen was first converted to hydroxymethylbilane, the natural substrate for URO-S, by hydroxymethylbilane synthase which was conveniently obtained from heat-treated erythrocyte lysates. In the direct assay, synthetic hydroxymethylbilane was used as substrate. In both assays, the uroporphyrinogen reaction products were oxidized to their respective uroporphyrin isomers, which were then resolved and quantitated by reversed-phase high-pressure liquid chromatography. Both assays were optimized for pH, substrate concentration, and linearity with time and protein concentration. The mean URO-S activities in normal human erythrocyte lysates determined by the coupled-enzyme and direct assays were 7.41 ± 1.35 and 7.64 ± 1.73 units/mg protein, respectively. In normal human cultured lymphoid cells, the mean activities were 13.7 ± 1.39 and 17.6 ± 1.15 units/mg protein for the coupled-enzyme and direct assays, respectively. In four families with congenital erythropoietic porphyria, both assays reliably identified the markedly decreased URO-S activities in erythrocytes and cultured lymphoid cells from affected homozygotes and the half-normal activities in these sources from obligate heterozygotes. The coupled-enzyme assay was easier to perform and was suited for clinical diagnostic assays and for monitoring enzyme purification procedures, while the direct assay, which required substrate preparation and technical dexterity, was best for kinetic studies of URO-S.     

Uroporphyrinogen synthase in human blood: developmental studies.

Uroporphyrinogen synthase (URO-S), the enzyme that catalyzes the conversion of porphobilinogen to uroporphyrinogen I, has been measured in whole blood lysates by a fluorometric microassay. Cord and fetal bloods have 3 and 6 times the specific activity, respectively, of adult control subjects. The three groups seem to present a similar genetic heterogenity with ratios of highest to lowest URO-S specific activity close to 2. These results establish normal ranges for URO-S activity in human blood, which may be useful for the early detection of carriers of a gene for acute intermittent porphyria.     

The effect of lead on the calcium-handling capacity of rat heart mitochondria.

1. Glucose 6-phosphate dehydrogenase (D-glucose 6-phosphate-NADP+ oxidoreductase, EC 1.1.1.49) from baker's yeast (Saccharomyces cerevisiae) was immobilized on CNBr-activated Sepharose 4B with retention of about 3% of enzyme activity. This uncharged preparation was stable for up to 4 months when stored in borate buffer, pH7.6, at 4 degrees C. 2. Stable enzyme preparations with negative or positive overall charge were made by adding valine or ethylenediamine to the CNBr-activated Sepharose 4B 30min after addition of the enzyme. 3. These three immobilized enzyme preparations retained 40-60% of their activity after 15 min at 50 degrees C. The soluble enzyme is inactivated by these conditions. 4. The soluble enzyme lost 45 and 100% of its activity on incubation for 3h at pH6 and 10 respectively. The three immobilized-enzyme preparations were completely stable over this entire pH range. 5. The pH optimum of the positively and negatively charged immobilized-enzyme preparations were about 8 and 9 respectively. The soluble enzyme and the uncharged immobilized enzyme had an optimum pH at about 8.5 6. Glucose 6-phosphate dehydrogenase immobilized on CNBr-activated Sephadex G-25 was unstable, as was enzyme attached to CNBr-activated Sepharose 4B to which glycine, asparitic acid, valine or ethylenediamine was added at the same time as the enzyme.     

Evidence for alpha-ketoglutarate dehydrogenase monomer activity with the aid of enzyme immobilization

Immobilization of pigeon breast muscle alpha-ketoglutarate dehydrogenase on CNBr-activated Sepharose 4B was carried out. Conditions for dissociation of the dimeric enzyme bound to the carrier via a single subunit were determined. Immobilized enzyme monomers with a specific activity higher than that of the dimer were obtained. The immobilized subunits are capable of reassociating with the soluble ones; this is accompanied by the restoration of the initial amount of the matrix-bound protein and the reconstitution of the activity typical of the immobilized enzyme original preparations.     

The immobilization of adenine nucleotides on polysaccharides by using glutaraldehyde coupling and borohydride reduction.

Adenine nucleotides were immobilized on modified Sepharose 4B or Dextran T40 with glutaraldehyde and reduced with KBH4. Binding was dependent on pH and the nature of the amino group on the modified polysaccharide. ATP bound to soluble dextran retained coenzyme activity with glycerol kinase. Binding is proposed to occur via a Schiff base.     

Porphyrin biosynthesis. Immobilized enzymes IV. Studies on aminolaevulate dehydratase attached to Sepharose

Summary Bovine liver aminolaevulate dehydratase (ALAD) has been chemically attached to Sepharose 4B and its properties have been studied. The optimal conditions for coupling have been determined. It was found that the immobilized enzyme retained a significant percentage of the activity of the free enzyme. The coupling yield was rather high. The insolubilized enzyme requires both anaerobiosis and a thiol activator for maximal activity. It can be stored at 4 °C for long periods with little loss of activity and it can be repeatedly used without alteration of its enzymic capacity. Attachment of ALA-D to the gel has led to an enhanced thermal stability. pH optima of free and bound enzyme was the same while a small decrease in the Km of the matrix bonded ALA-D as compared to that of the soluble enzyme was observed. The use of the fixed-ALA-D for the preparation of PBG is described.Dedicated to Professor Luis F. Leloir on occasion of his 70th Birthday.     

Agarose-bound horse-liver alcohol dehydrogenase. Dependence of molecular properties and activity on coupling conditions.

1. Spectroscopic methods for protein and active-site determination with the same sample of immobilised horse liver alcohol dehydrogenase have been developed. 2. The influence of pH, active-site protection of the soluble enzyme and protein concentration on coupling of alcohol dehydrogenase with cyanogen-bromide-activated Sepharose has been investigated. In phosphate buffer (pH 8.0) products with over 90% active-site retention have been synthesized. The binary complex alcohol-dehydrogenase . NADH gives a preparation with the same active-site content but a lower apparent specific activity compared to the unprotected enzyme. Increase in protein concentration yields products with the same active-site content relative to bound protein but the apparent specific activity is decreased. 3. The great similarity in spectroscopic properties of soluble and immobilised enzyme, as well as of their ternary complexes, shows that no significant conformational change has taken place during immobilisation. 4. Exchange of the non-catalytic Zn2+ against Co2+ yields a hybrid Sepharose--Co2Zn2-alcohol-dehydrogenase with over 90% active-site retention during metal exchange. The absorption spectra of the soluble and immobilised hybrid are identical.     

5'-N-ethylcarboxamido [3H] adenosine binding sites of mouse P815 mastocytoma cell membranes: solubilization and partial purification by affinity chromatography

A 5'-N-ethylcarboxamido[3H]adenosine ([3H]NECA) binding site of mouse mastocytoma P815 cell membranes has been purified approximately 100-fold by affinity chromatography. This adenosine binding site, which has a similar specificity to that of the A2 adenosine receptor, was absorbed on NECA-linked Sepharose 6B and eluted with NECA. The adsorption of the [3H]NECA binding site to the affinity matrix was specifically blocked by NECA. The [3H]NECA binding site bound on the affinity matrix was also specifically eluted by NECA. This affinity matrix adsorbed approximately 90% of the digitonin-solubilized [3H]NECA binding activity applied, and after the gel was washed, 30-50% of the adsorbed binding activity could be eluted with 500 microM NECA with specific binding activity of 50-70 pmol/mg of protein. The affinity-purified [3H]NECA binding site retained the same ligand binding specificities as the original membrane preparation. The results indicate that the NECA-Sepharose Sepharose 6B should provide a powerful tool for the eventual purification of [3H]NECA binding sites of P815 cell membranes.     

Purification and properties of a carboxymethylcellulase from phytopathogenic fungus Macrophomina phaseolina

From the culture filtrate of Macrophomina phaseolina, two forms of carboxymethylcellulase were separated by ion-exchange chromatography and designated as CMCase-I and CMCase-II. CMCase-I was purified following a four-step procedure involving gel filtration on Sephadex G-75, Con-A Sepharose 4B affinity chromatography, fast protein liquid chromatography on mono Q anion-exchanger and on Superose 12 gel filtration. The final preparation was homogeneous by SDS-PAGE, isoelectric focussing in thin layers of polyacrylamide gels and immunoelectrophoresis. The enzyme showed optimum activity at pH 5.5 and 65 degrees C, was stable to heating at 65 degrees C for 10 min, and retained 31% of original activity after heating at 80 degrees C for 10 min. The molecular weight of the enzyme was 3.5 x 10(4) Da. A Km of 0.25 mg/ml was determined using carboxymethyl-cellulose as the substrate.     

Characterization of molecular-sieve-bound inulinase

The enzyme inulinase (2,1-β-d-fructan fructanohydrolase, EC 3.2.1.7), prepared from Kluyveromyces marxianus has been immobilized using an inorganic solid support, molecular sieve 4A via the metal link method. The immobilized enzyme had around 22 units of inulinase activity per g of the support with retention of 72% of the original activity. The optimum protein to molecular sieve ratio for the maximum retention of inulinase activity was 9 mg/g molecular sieve. The properties of soluble and immobilized enzyme differed in many respects. The optimum pH of the enzyme shifted from 6 to 5 and the optimum temperature of enzyme activity changed from 50 to 55°C. K_m values were 6.7 mM for soluble enzyme and 10 mM for immobilized enzyme. The heat stability of the enzyme was improved by immobilization. Immobilized enzyme retained about 76% of the original activity after 40 days of storage at room temperature (30±2°C).     

Structural and catalytic properties of L-alanine dehydrogenase from Bacillus cereus

Alanine dehydrogenase from Bacillus cereus, a non-allosteric enzyme composed of six identical subunits, was purified to homogeneity by chromatography on blue-Sepharose and Sepharose 6B-CL. Like other pyridine-linked dehydrogenases, alanine dehydrogenase is inhibited by Cibacron blue, competitively with respect to NADH and noncompetitively with respect to pyruvate. The enzyme was inactivated by 0.1 M glycine/HCl (pH 2) and reactivated by 0.1 M phosphate (pH 8) supplemented with NAD+ or NADH. The reactivation was characterized by sigmoidal kinetics indicating a complex mechanism involving rate-limiting folding and association steps. Cibacron blue interfered with renaturation, presumably by competition with NADH. Chromatography on Sepharose 6B-CL of the partially renatured alanine dehydrogenase led to the separation of several intermediates, but only the hexamer was characterized by enzymatic activity. By immobilization on Sepharose 4B, alanine dehydrogenase from B. cereus retained 66% of the specific activity of the soluble enzyme. After denaturation of immobilized alanine dehydrogenase with 7 M urea, 37% of the initial protein was still bound to Sepharose, indicating that on the average the hexamer was attached to the matrix via, at most, two subunits. The ability of the denatured, immobilized subunits to pick up subunits from solution shows their capacity to fold back to the native conformation after urea treatment. The formation of "hybrids" between subunits of enzyme from B. cereus and Bacillus subtilis demonstrates the close resemblance of the tertiary and quaternary structures of alanine dehydrogenases from these species.     

集成干扰素突变体IIFN72C的构建及其聚乙二醇定点修饰

目的：设计构建集成干扰素突变体IIFN72C并进行聚乙二醇定点修饰,以获得高活性的长效干扰素分子。方法：利用蛋白质分子同源模建,选择在集成干扰素分子IIFN的第72位引入半胱氨酸残基构成集成干扰素突变体IIFN72C。诱导表达后经包涵体变复性和层析纯化,与单甲氧基聚乙二醇（mPEGMAL）定点偶联。修饰产物经纯化后,以SDSPAGE考察其纯度,用WISHVSV系统进行生物活性测定。结果：IIFN72C以包涵体形式表达,表达量占菌体总蛋白的30%以上,比活性与突变前相当;修饰产物大多数为单修饰体,纯化后纯度大于98%,比活性保留约为修饰前的8%。结论：成功设计并表达IIFN72C用于PEG定点修饰,修饰产物活性保留得以提高。     

无花果蛋白酶在阴离子交换树脂上的固定化

无花果蛋白酶通过８％戊二醛活化载体,共价结合到聚苯乙烯阴离子交换树脂ＧＭ２０１上,固定化作用在ｐＨ７．７,酶浓度０．８ｍｇ／ｇ树脂,４℃下进行６ｈ。得到的固定化酶表观Ｋ_ｍ值（酪蛋白,１．１１×１０~（－４）ｍｏｌ／Ｌ）小于溶液酶Ｋ_ｍ值（１．９６×１０~（－４）ｍｏｌ／Ｌ）;固定化酶活性在ｐＨ６～８保持稳定,溶液酶最适ｐＨ为７．２;固定化酶最适温度由溶液酶的５０～６０℃移至３７℃;固定化酶２５℃保持７ｄ,重复水解酪蛋白７次后,保留８３．３％活性。固定化酶对酪蛋白水解度达４７．５％,对大豆球蛋白达１１．６％。     

胸腺素a1与复合a干扰素融合蛋白的表达及其生物学活性

实验旨在获得具有双重生物学活性的重组胸腺素a1(Thymosin alpha1, TM-a1)与复合a干扰素(IFNa-con)融合蛋白。选择大肠杆菌偏爱的密码子, 将合成的TM-a1与IFNa-con编码序列构成的融和基因克隆至大肠杆菌表达载体pET-22b(+)、在宿主菌BL21(DE3)-Codon plus-RP-X中成功表达了可溶性融合蛋白(TM-a1-IFN-con)。表达量占总蛋白的20%以上。通过硫酸铵沉淀、疏水层析、阴离子交换层析、阳离子交换层析、分子筛层析后, 产品纯度达到96%以上。采用细胞病变抑制法测定融合蛋白的抗病毒活性, 采用细胞增殖实验检测融合蛋白对小鼠脾淋巴细胞增殖的影响。结果表明, 融合蛋白的抗病毒活性优于市售的IFNa1b和IFNa2a。对小鼠脾淋巴细胞增殖的影响与市售的合成胸腺素a1相同。已有研究证实, 该融合蛋白具有良好的体外抗HBV作用, 其体外抗HBV活性比联合应用TM-a1和干扰素a强, 且细胞毒性明显低于联合应用TM-a1和干扰素a。以上结果表明, 通过大肠杆菌表达的可溶性融合蛋白(TM-a1- IFN-con), 既具有良好的干扰素a抗病毒作用, 也具有胸腺素a1促淋巴细胞增殖作用。     

尼龙固定化木瓜蛋白酶及其应用研究

 尼龙经CaCl_2和H_2O的甲醇溶液处理,稀HCl水解用戊二醛交联以制备固定化木瓜蛋白酶。在溶液酶浓度为1mg/mL pH7.5—8.0、4—15℃条件下固定3h,活力回收42.5％,相对活力46％,偶联效率52％,半衰期72天。溶液酶Km值和固定化酶K_m~(aPP)值(底物酪蛋白W/V,％)分别为0.28％和0.35％。溶液酶和固定化酶分别在pH6.5和pH8.0以下活力稳定;最适pH分别为7.0和8.0;在65℃处理30min活力分别为原有活力的89％和66％。当酪蛋白浓度为1.5％和2.5％以上活力分别受到抑制。固定化酶在6mol/L脲中连续浸洗5次共6h其活力稳定,仍有原活力的44.4％;用以处理啤酒浊度比对照下降了2-11倍;蛋白质含量下降了55％;冷藏(4℃)120天,无冷混浊发生;同时各项理化指标和风味不变。