Oxidation of Methanol by the Yeast,Pichia pastoris. Purification and Properties of the Alcohol Oxidase

The enzymes of methanol oxidation were investigated in a new yeast strain, Pichia pastoris IFP 206, with high yield (0.42 g cell per g of methanol). The following enzymes were detected in cell free extracts of P. pastoris: alcohol oxidase, catalase, formaldehyde and formate dehydrogenases. The alcohol oxidase was purified from cell free extracts of P. pastoris containing high amount of the enzyme (33%) with a good yield (55%). The preparation was homogenous by immunochemical methods. The enzyme had a molecular weight of 675,000 and was composed of eight identical subunits of M.W. 80,000. Each subunit contained one FAD. The N-terminal sequence was found to be: Ala-Ile-Pro-Glu-Glu-Phe-Asp-Ile-Leu-Val-Leu-Gly-The protein had 65 free ?SH groups per molecule. The optimum temperature for the enzyme activity was 37°C and the activation energy was 11.1 kcal/mol. Optimum pH was 7.5 and the enzyme activity was unstable at acidic pH. The apparent Km for methanol were 1.4 and 3.1 mm at oxygen concentrations of 0.19 and 0.93 mm. Similarly, the apparent Kms for oxygen were 0.40 and 1.0 mm at methanol concentrations of 1, 10 and 100 mm. The enzyme oxidized primary alcohols with short carbon chains like ethanol and propanol. Inhibition of enzyme activity by hydrogen peroxide was a consequence of the oxidation of essential ?SH groups. The inhibition was reversed by reducing agents.     

毕赤酵母甲酸脱氢酶在大肠杆菌中的融合表达及其酶学性质

为了获得高效融合表达的甲酸脱氢酶(FDH)工程菌,用PCR方法从毕赤酵母GS115(Pichia pastoris GS115)基因组DNA中克隆FDH基因,测序发现第106位多出一个脱氧腺嘌呤核苷酸,基因定点突变后重组至胞内融合表达型T载体pET-DsbA-T,得到重组质粒pET-DsbA-FDH,转化E.coli BL21(DE3),获得胞内融合表达型FDH工程菌。SDS-PAGE分析表明,融合蛋白表观分子量约为65×103,主要以可溶形式存在于胞内。进一步研究得知,酶的最适温度为54℃,最适pH为8.5;金属离子对酶活有较强的抑制作用,EDTA能增强酶活性。     

Purification and Properties of Methanol Dehydrogenase and Aldehyde Dehydrogenase from Methylobacillus glycogenes

Methanol dehydrogenase (MDH) and aldehyde dehydrogenase (ALDH) were purified to a homogenous state from Methylobacillus glycogenes, an obligate methylotroph. MDH (M_r 140,000) was composed of two different subunits (M_r 60,000 and 9,000) forming an α₂β₂ structure. MDH was indicated as a metalloquinoprotein containing one atom of calcium (Ca) per enzyme molecule. Binding of Ca was so tight that it was hard to remove Ca completely without denaturation of enzyme protein. A partially resolved enzyme resumed its original enzyme activity upon exogenous addition of Ca. Purified ALDH (M_r 144,000) was composed of two identical subunits of molecular mass of 72,000. ALDH was proved to be a quinoprotein in which PQQ is bound covalently.     

Production and Characterization of Recombinant Phanerochaete chrysosporium Cellobiose Dehydrogenase in the Methylotrophic Yeast Pichia pastoris

The hemoflavoenzyme cellobiose dehydrogenase (CDH) from the white-rot fungus Phanerochaete chrysosporium has been heterologously expressed in the methylotrophic yeast Pichia pastoris. After 4 days of cultivation in the induction medium, the expression level reached 1800 U/L (79 mg/L) of CDH activity, which is considerably higher than that obtained previously for wild-type CDH (wtCDH) and recombinant CDH (rCDH) produced by P. chrysosporium. Analysis with SDS-PAGE and Coomassie Brilliant Blue (CBB) staining revealed a major protein band with an approximate molecular mass of 100 kDa, which was identified as rCDH by Western blotting. The absorption spectrum of rCDH shows that the protein contains one flavin and one heme cofactor per protein molecule, as does wtCDH. The kinetic parameters for rCDH using cellobiose, ubiquinone, and cytochrome c, as well as the cellulose-binding properties of rCDH were nearly identical to those of wtCDH. From these results, we conclude that the rCDH produced by Pichia pastoris retains the catalytic and cellulose-binding properties of the wild-type enzyme, and that the Pichia expression system is well suited for high-level production of rCDH.     

Isolation, Purification, and Characterization of Catalase from the Methylotrophic Yeast Pichia pastoris

Catalase (CAT_pp) with molecular weight 223 kD was isolated from the methylotrophic yeast Pichia pastoris and purified 90-fold by ion-exchange chromatography and gel filtration. Quantitative parameters of absorption and CD spectra of CAT_pp solutions and of its membrane-concentrated form (CAT_pp-conc) were studied. Rates of H₂O₂ decomposition and kinetic characteristics K _m and k _cat of CAT_pp and CAT_pp-conc were determined in 10 mM phosphate buffer (pH 7.4) at 30°C, as well as the effective constant k _in of the enzyme inactivation rate during the catalysis and the constant k ₂ of the interaction rate of the Complex I catalases with H₂O₂. Thermal inactivation of CAT_pp in solutions at 45°C was characterized by the effective rate constant k _in ^*, and the low-frequency (27 kHz) ultrasonic inactivation of CAT_pp at 20°C was characterized by the firstorder rate constant k _in (US). All spectral and kinetic characteristics of CAT_pp and CAT_pp-conc were compared with the corresponding values for catalase from bovine liver (CAT) and for catalase from the methylotrophic yeast Candida boidinii (CAT_cb). All three catalases were rather similar in their spectral properties but strongly varied in their kinetic parameters, and their comparison suggests that CAT_pp should be the best enzyme in its overall properties as it displayed the maximal efficiency in terms of k _cat/K _m, thermal stability comparable with the thermal stability of CAT in terms of k _in ^*, the minimal k _in, and high stability in the ultrasonic cavitation field at the US power of 60 W/cm².     

Purification and Properties of Polyol: NADP Oxidoreductase from Pichia quercuum

In order to explain the fermentation mechanism of xylitol production from d-xylose by Pichia quercuum, enzymatic study was carried out. Three kinds of enzymes that catalyzed the reduction of d-xylose to xylitol were purified from the extract of the yeast cells by ammonium sulfate fractionation, Sephadex G-200 gel filtration, hydroxylapatite chromatography and disc electrophoresis. The purification showed 27-fold, 135-fold and 93-fold increases of specific activities of reductase I, IIa and lib, respectively, over the crude extract. The reductase Ha was homogeneous in disc gel electrophoresis. The activity ratio of reductase I: IIa: IIb in the crude extract was estimated to be approximately 2: 1:1. The three enzymes were active with a variety of aldoses and had a specific requirement for NADPH. On the basis of the substrate specificity, coenzyme requirement and the stoichiometry of the reaction, the enzymes belong to polyol: NADP oxidoreductase (EC 1.1.1.21, trivial name, aldose reductase). The molecular weights for reductase I, IIa and IIb were estimated to be 160,000, 61,000 and 61,000, respectively, by gel filtration. Disc gel electrophoresis suggested that reductase Ila and lib were charge isomeric proteins with the same molecular size. Some other properties of the three enzymes were also described.     

Oxidation of Methanol,Formaldehyde and Formate by a Candida Species

1. The oxidation of methanol to carbon dioxide by Candida N–16 grown on methanol was investigated. The presence of enzymes which catalyze the following reaction was found in the cell-free extract of the yeast employed; CH₃OH→HCHO→HCOOH→CO₂. 2. Methanol was oxidized to formaldehyde by an alcohol oxidase. The reaction was as follows; CH₃OH+O₂→HCHO+H₂O₂. The alcohol oxidase was crystallized after purification by ammonium sulfate-precipitation and column chromatography using DEAE-Sephadex A-50. A prosthetic group of the enzyme was proved to be FAD. The enzyme possessed a broad specificity for alcohols such as methanol, ethanol, n-propanol, n-butanol and n-amylalcohol. The enzyme was inducibly formed only by the addition of methanol. 3. The oxidation of formaldehyde to formate was catalyzed by a NAD-linked dehydrogenase dependent on GSH. 4. Formate was oxidized by a NAD-linked dehydrogenase. 5. Catalase was also found in the extract, and methanol was chemically oxidized by the reaction of catalase and hydrogen peroxide which was generated by the alcohol oxidase system. 6. The oxidation pathway from methanol to carbon dioxide was also found in other methanol-utilizing yeasts such as Candida N-17, Saccharomyces H-1 and Torulopsis M-1.     

Microbial Oxidation of Methane and Methanol: Crystallization of Methanol Dehydrogenase and Properties of Holo- and Apo-Methanol Dehydrogenase from Methylomonas methanica

Procedures are described for the purification and crystallization of methanol dehydrogenase from the soluble fraction of the type I obligate methylotroph Methylomonas methanica strain S1. The crystallized enzyme is homogeneous as judged by acrylamide gel electrophoresis and ultracentrifugation. The enzyme had a high pH optimum (9.5) and required ammonium salt as an activator. In the presence of phenazine methosulfate as an electron acceptor, the enzyme catalyzed the oxidation of primary alcohols and formaldehyde. Secondary, tertiary, and aromatic alcohols were not oxidized. The molecular weight as well as subunit size of methanol dehydrogenase was 60,000, indicating that it is monomeric. The sedimentation constant (s(20,w)) was 3.1S. The amino acid composition of the crystallized enzyme is also presented. Antisera prepared against the crystalline enzyme were nonspecific; they cross-reacted with and inhibited the isofunctional enzyme from other obligate methylotrophic bacteria. The crystalline methanol dehydrogenase had an absorption peak at 350 nm in the visible region and weak fluorescence peaks at 440 and 470 nm due to the presence of a pteridine derivative as the prosthetic group. A procedure was developed for the preparation of apo-methanol dehydrogenase. The molecular weights, sedimentation constants, electrophoretic mobilities, and immunological properties of apo- and holo-methanol dehydrogenases are identical. Apo-methanol dehydrogenase lacked the absorption peak at 350 nm and the fluorescence peaks at 440 and 470 nm and was catalytically inactive. All attempts to reconstitute an active enzyme from apo-methanol dehydrogenase, using various pteridine derivatives, were unsuccessful.     

白藜芦醇的生物活性及作用机制

白藜芦醇(RSV)是一种广泛存在的非黄酮类多酚化合物,具有抗氧化、抗炎、抗菌、抗病毒以及调节细胞代谢等多种生物学功能,目前在人体健康领域和动物生产中具有广泛的应用。本文简要综述了RSV的来源及理化性质、生物利用率、生物活性及其作用机制,为RSV的深入研究和进一步开发应用提供参考依据。     

CALA在毕赤酵母中的表达、纯化及酶学特性研究

将南极假丝酵母脂肪酶A(cala)基因克隆至组成型表达载体pGAPZαA中,电激转入X-33,获得高效表达的CALA酵母工程菌株.发酵液上清经超滤浓缩、硫酸铵沉淀和阴离子交换层析等步骤,获得纯化的重组CALA,其比酶活达384.90 U/mg.该酶最适温度为70℃,最适pH值为8.0.经50℃保温2 h,仍含有60%水解酶活力;在pH7.0和8.0溶液中比较稳定.经DMSO处理1 h,仍保持90%的活性;非离子型表面活性剂能提高CALA的酶活,金属离子在不同程度上抑制CALA的酶活.     

透明颤菌血红蛋白基因vgb和腈水解酶基因bxn在毕赤酵母中的表达研究

为获得高效表达外源蛋白的Pichia pastoris菌株而设计了重组质粒pPIC9K—vgbbxn,其中透明颤菌血红蛋白基因vgb胞内表达以提高菌体的发酵密度,腈水解酶基因bxn分泌表达。转化GS115菌株后,通过PCR、SDS-PAGE检测证实两基因已经整合进酵母基因组且能高效表达,以及用准确的蛋白活性测定方法成功地检测到二所表达的产物均具有正常的活性。摇瓶发酵实验证明,血红蛋白在贫氧条件下可明显促进酵母菌体生长和bxn基因分泌表达。     

草鱼生长激素在毕赤酵母中的高效分泌表达

为大量获得具有生物学活性的草鱼生长激素,对草鱼生长激素cDNA在毕赤酵母中的表达进行了研究。将草鱼生长激素cDNA克隆入毕赤酵母表达载体pGAPZ-α-B,构建表达载体pGAPZ-α-B-GH。在三磷酸甘油醛脱氢酶（GAP）启动子的调控作用下,一个类似于天然生长激素大小、分子量约22kD的蛋白获得表达,其表达量约50mg/L。Western杂交表明：表达的蛋白与兔抗草鱼生长激素的多克隆抗体特异结合,证实该表达蛋白为草鱼生长激素;受体夹心式ELISA检测表明：表达的草鱼生长激素具生物学活性,能与不同种鱼来源的肝膜受体特异结合。     

巴氏毕赤酵母表达系统的特点及其研究进展

巴氏毕赤酵母表达系统具有真核生物表达的特点。本文综述了巴氏毕赤酵母菌及其表达载体的特点以及外源基因在该系统中表达存在的一些问题。     

Reactions of NADH Oxidation by Tetrazolium and Ubiquinone Catalyzed by Yeast Alcohol Dehydrogenase

The processes of NADH oxidation by p-NTF violet and ubiquinone catalyzed by isolated yeast alcohol dehydrogenase in aqueous and water-alcohol buffer solutions were studied. In the presence of p-NTF in aqueous solution at a pH of 6–7, NADH oxidation was extremely slow due to inhibition of the enzyme by the remaining enzyme-bound hydrophobic product, formazan, which forms during the reduction of p-Nitrotetrazolium. However, when the medium was alkalinized to a pH of 8–9 or when alcohol (ethanol or isopropanol) was added, formazan was desorbed from the enzyme, leading to an increase in the NADH oxidation rate. It was assumed that this redox reaction can be used as the basis for colorimetric measurement of the activity of different alcohol dehydrogenases. Tetrazolium reduction by alcohol was not observed at any value within the entire pH range. NADH oxidation in the presence of the enzyme and ubiquinone was also slow, even with the addition of alcohol, but its rate increased when the medium was acidified to a pH of 5.5–6. When a Tris-phosphate buffer was replaced with HEPES, a quasi-vibrational process was observed: NADH oxidization with ubiquinone to NAD⁺ and its subsequent reverse recovery with alcohol to NADH.     

毕赤酵母表达重组人白细胞介素11的纯化与鉴定

报道了毕赤酵母表达人白细胞介素11的下游工艺研究,并对其产物进行了分析鉴定。所用工艺流程为离心收集上清、超滤浓缩脱盐、离子交换层析、疏水层析、凝胶过滤。所得产物经SDSPAGE电泳、RPHPLC分析、N端和C端序列分析、质谱、等电点分析和生物学活性分析,结果表明：产品纯度大于97%,结构和性质与E.coli融合表达的Neumega完全一致。     

毕赤酵母发酵液的脱色和重组水蛭素的分离

用毕赤酵母表达重组水蛭素的发酵液中含有大量色素和一些杂蛋白。本文对发酵上清的脱色和重组水蛭素的分离进行了探讨。鉴于水蛭素的稳定性 ,用加热法预处理发酵上清取得了满意的效果。对离子交换、疏水层析、凝胶过滤、羟基磷灰石吸附层析以及它们的优化组合进行了研究 ,结果表明 ,阳离子交换层析、凝胶过滤和阴离子交换层析的组合对发酵上清的脱色和重组水蛭素的分离是有效的。     

Dielectric Analysis and Multi-cell Electrofusion of the Yeast Pichia pastoris for Electrophysiological Studies

The yeast Pichia pastoris has become the most favored eukaryotic host for heterologous protein expression. P.?pastoris strains capable of overexpressing various membrane proteins are now available. Due to their small size and the fungal cell wall, however, P. pastoris cells are hardly suitable for direct electrophysiological studies. To overcome these limitations, the present study aimed to produce giant protoplasts of P.?pastoris by means of multi-cell electrofusion. Using a P. pastoris strain expressing channelrhodopsin-2 (ChR2), we first developed an improved enzymatic method for cell wall digestion and preparation of wall-less protoplasts. We thoroughly analyzed the dielectric properties of protoplasts by means of electrorotation and dielectrophoresis. Based on the dielectric data of tiny parental protoplasts (2?C4???m diameter), we elaborated efficient electrofusion conditions yielding consistently stable multinucleated protoplasts of P.?pastoris with diameters of up to 35???m. The giant protoplasts were suitable for electrophysiological measurements, as proved by whole-cell patch clamp recordings of light-induced, ChR2-mediated currents, which was impossible with parental protoplasts. The approach presented here offers a potentially valuable technique for the functional analysis of low-signal channels and transporters, expressed heterologously in P.?pastoris and related host systems.     

Purification and Properties of an Alcohol Dehydrogenase Isozyme from a Methanol-using Yeast,Candida sp. N-16

The distribution coefficients of glucose, maltose, and maltotriose on cation-exchange resin in Na⁺ form with a divinylbenzene content of 4% were determined in the temperature range of 5 to 60°C. The coefficients increased with decreasing temperature. The temperature dependence of the distribution coefficient was analyzed based on the swelling pressure of the resin.