芽胞杆菌(Bacillus sp.)YX-1耐有机溶剂葡萄糖脱氢酶的基因克隆与酶学性质

[目的] 从芽胞杆菌(Bacillus sp.)YX-1基因组中克隆出一种有机溶剂耐受型的葡萄糖脱氢酶基因,实现了该基因在大肠杆菌中的高效表达,研究了重组蛋白的酶学性质.[方法] 依据芽胞杆菌属中葡萄糖脱氢酶氨基酸序列的保守性,设计合理引物,钓取来源于Bacillus sp.YX-1的葡萄糖脱氢酶基因,构建诱导型表达载体pET28a-gdh,于大肠杆菌中进行表达.镍柱亲和层析法纯化重组蛋白,考察了重组蛋白的酶学性质.[结果] 葡萄糖脱氢酶基因全长为786 bp,编码261个氨基酸.酶学研究结果表明:该酶最适反应温度为45℃,最适pH值为8.0;具有良好的有机溶剂耐受性,于50％的辛烷、环己烷、癸烷中室温放置1h后,酶活仍能保持90％以上;具有较宽的底物谱,对多种糖均具有一定的催化活性,其中催化D-葡萄糖的活力最高,产生还原型辅酶因子;对辅酶NADH和NADPH具有相似的依赖性,对NAD+和NADP+的催化比活分别为8.37 U/mg和8.62 U/mg.[结论]利用生物信息学成功地挖掘出Bacillus sp.YX-1一种耐有机溶剂的葡萄糖脱氢酶,为氧化还原酶在有机相反应中的的辅酶再生循环提供了新型的生物催化剂.     

原玻璃蝇节杆菌D-氨基酸氧化酶及突变体的酶学特性

【目的】研究原玻璃蝇节杆菌(DSM 20168)中D-氨基酸氧化酶的酶学特性。【方法】通过PCR从原玻璃蝇节杆菌(DSM 15035,20168)中克隆获得D-氨基酸氧化酶基因apdaao-1和apdaao-2,构建原核表达载体,以表达质粒pET-ApDAAO-2为模板,采用QuickChange Site-Directed Mutagenesis技术构建定点突变体,经过原核表达及纯化获得重组型和突变体酶蛋白,分析其酶学特性。【结果】通过原核表达及纯化成功获得了2个重组蛋白和4个突变体酶蛋白,SDS-PAGE检测显示其分子量均约为36 kDa;酶学特性分析表明,ApDAAO-2和突变体蛋白的最适反应温度为30℃;ApDAAO-2和T286A的最适反应pH范围为7.0-11.0,其它突变体为8.0-11.0;ApDAAO-2和突变体都具有较广泛的底物特异性,除T256K的最适底物为D-Phe外,其余均为D-Met;动力学参数测定结果显示,以二级表观常数kcat/Km表示,对于底物D-Met或D-Phe,ApDAAO-2和4个突变体的kcat/Km值均比ApDAAO-1和pKDAAO高数倍以上。【结论】ApDAAO-2及突变体具有比ApDAAO-1和pKDAAO更广泛的底物特异性和较高的催化效率,有一定的商业应用价值。     

蜡样芽胞杆菌磷脂酶C在乳酸克鲁维酵母中重组表达、纯化及酶学性质分析

【目的】构建蜡样芽胞杆菌(Bacillus cereus)磷脂酶C(Phospholipase C,PLC)的重组乳酸克鲁维酵母(Kluyveromyces lactis)菌株、纯化重组蛋白并对其进行酶学性质分析。【方法】以B.cereus基因组DNA为模板,PCR扩增得到磷脂酶C基因(bcplc),构建重组乳酸克鲁维酵母表达质粒并转化到乳酸克鲁维酵母中,实现bcplc基因的表达。利用镍柱亲和层析纯化和脱盐柱得到电泳纯的重组磷脂酶C(rbcPLC)。【结果】成功构建产磷脂酶C的重组乳酸克鲁维酵母并纯化了重组磷脂酶C,纯化后rbcPLC经SDS-PAGE分析在40 kDa附近出现显性条带。NPPC法测得rbcPLC酶活为19251 U/mg,最适反应温度为80°C,最适pH为9.0。在低于40°C时,pH 7.0-8.0时,rbcPLC重组酶较稳定。Cu~(2+)和Co~(2+)对其有明显的抑制作用;Zn~(2+)、Mn~(2+)、Ca~(2+)、Mg~(2+)对其有明显的促进作用。【结论】首次实现了对蜡样芽胞杆菌来源的磷脂酶C在乳酸克鲁维酵母中的重组表达、纯化及其酶学性质分析,为其它食品安全性微生物来源的磷脂酶C的研究提供了借鉴意义。     

产碱假单胞菌脂肪酶的克隆表达及酶学性质研究

【目的】克隆产碱假单胞菌的脂肪酶基因,实现其在大肠杆菌中异源表达并进行酶学性质研究。【方法】通过基因文库构建和PCR,获得脂肪酶基因,并以pET30a(+)为表达载体、E.coli BL21(DE3)为宿主菌,在大肠杆菌中进行异源表达,表达产物经HisTrapTM亲和层析柱纯化后进行酶学性质研究。【结果】从产碱假单胞菌中克隆得到一个脂肪酶基因,大小为1 575 bp(GenBank登录号为JN674069)。该酶分子量为55 kD,最适底物为p-NPO,最适反应温度和pH分别为35°C、pH 9.0。重组酶经1 mmol/L的Cu2+处理30 min可使酶活提高至156%。在最适反应条件下重组酶的比活力为275 U/mg,Km和Vmax分别为80μmol/L和290 mmol/(min.g protein)。【结论】产碱假单胞菌脂肪酶基因的克隆与表达不仅积累了脂肪酶基因的资源,并为其在手性拆分中的应用奠定基础。     

嗜热厌氧乙醇杆菌α-葡萄糖苷酶基因的表达及酶学性质的研究

用PCR方法从嗜热厌氧乙醇杆菌(Thermoanaerobacter ethanolicus)JW200中扩增出编码a-葡萄糖苷酶的基因,将其克隆到大肠杆菌(Escherichia coli)表达载体pTrc99A上并获得表达a-葡萄糖苷酶的大肠杆菌重组菌。重组菌经IPTG诱导表达,SDS-PAGE检测出蛋白相对分子量约89kDa,经阴离子交换层析和凝胶层析纯化后的a-葡萄糖苷酶最适反应温度为70℃,最适反应pH为5～5.5,且在pH 5.5～6.5之间有较高的稳定性。重组a-葡萄糖苷酶在70℃下105 min后酶活仍达到80%。     

蜡样芽胞杆菌GXBC-3三个普鲁兰酶基因的表达及其酶学特性

探索获得优良的新型普鲁兰酶基因,丰富普鲁兰酶理论,对实现普鲁兰酶国产化具有重要意义。分析GenBank数据库中蜡样芽胞杆菌假定Ⅰ型、Ⅱ型普鲁兰酶基因序列,从实验室保藏的蜡样芽胞杆菌Bacilluscereus GXBC-3中克隆得到3个普鲁兰酶基因pulA、pulB、pulC,并分别导入大肠杆菌进行胞内诱导表达。纯化重组酶酶学性质研究表明重组酶PulA能水解α-l,6-和α-l,4-糖苷键,为Ⅱ型普鲁兰酶,以普鲁兰糖为底物时,最适反应温度及pH分别为40℃和6.5,比活力为32.89 U/mg;以可溶性淀粉为底物时,最适反应温度及pH分别为50℃和7.0,比活力为25.71 U/mg。重组酶PulB和PulC二者均只能水解α-l,6-糖苷键,为I型普鲁兰酶,以普鲁兰糖为底物时,其最适反应温度及pH分别为45℃、7.0和45℃、6.5,比活力分别为228.54 U/mg和229.65 U/mg。     

融合自组装双亲短肽对重组过氧化氢酶酶学性质的影响

【目的】利用融合自组装双亲短肽策略对源自枯草芽孢杆菌(Bacillus subtilis)的过氧化氢酶Kat A进行改性,以强化重组过氧化氢酶在工业中的应用适应性。【方法】将自组装双亲短肽S1vw通过连接肽PT-linker融合在Kat A的N端,构建重组质粒p HT254-S1vw-PT-kat A,将其与携带天然酶基因的p HT254-kat A分别转入枯草芽孢杆菌WB800N中进行分泌表达,之后将分离纯化得到的纯酶进行酶学性质研究。【结果】成功构建出工程菌并将胞外粗酶液通过乙醇沉淀、DEAE阴离子交换层析、疏水层析和凝胶过滤层析4步纯化,最终获得电泳纯的重组酶蛋白。酶学性质研究结果显示,融合酶S1vw-PT-Kat A和天然酶Kat A的最适反应温度均为30°C,最适反应p H值均为11.0。然而,融合酶在p H 12.0下孵育30 min的相对酶活为77.3%,是相同处理条件下天然酶相对酶活的14.9倍,在65°C和70°C下孵育30 min的相对酶活分别为19.8%和17.5%,是相同处理条件下天然酶相对酶活的1.8倍和1.7倍。此外,融合酶在4°C储存14 d后相对酶活为8...     

聚苹果酸聚合途径中苹果酰辅酶A连接酶基因的克隆、表达及酶学性质

【目的】研究出芽短梗霉聚苹果酸聚合途径中苹果酰辅酶A连接酶基因及其酶学特性。【方法】通过设计兼并引物,采用IPCR技术从出芽短梗霉CCTCC M2012223的基因组中扩增得到苹果酰辅酶A连接酶基因的cDNA全长序列,构建表达载体,通过大肠杆菌异源表达,Ni-NTA柱层析纯化酶蛋白,分析其酶学特性。【结果】获得苹果酰辅酶A连接酶基因序列全长为1498 bp,编码440 aa,含有4个外显子和3个内含子。该重组酶最适反应温度为25℃,最适反应pH值为8.0,高浓度底物ATP明显对酶活性具有抑制作用,单体选择性表明对底物草酸、草酰乙酸、丁酸、丙二酸也具有很好催化活性。【结论】成功从出芽短梗霉CCTCC M2012223中克隆获得聚苹果酸聚合途径的苹果酰辅酶A连接酶基因,为聚苹果酸聚合途径解析及新型可降解材料创制奠定基础。     

假坚强芽孢杆菌四氢嘧啶羟化酶的晶体制备及X-射线衍射研究

摘要:【目的】假坚强芽孢杆菌四氢嘧啶羟化酶蛋白纯化、晶体制备及X-射线衍射研究。【方法】通过PCR从假坚强芽孢杆菌OF4中克隆获得四氢嘧啶羟化酶基因,构建原核表达载体,经过原核表达,采用Ni-NTA亲和层析法和分子排阻色谱法纯化蛋白,289 K下采用座滴法进行晶体筛选和制备,在低温100 K下通过X-射线衍射仪(Rigaku MicroMax-007 HF)收集晶体衍射数据。【结果】通过原核表达及纯化成功获得了适合晶体生长的蛋白BpEctD。通过筛选最终在蛋白浓度为6.5 mg/mL及含有0.2 mol/L MgCl2·6H2O,0.1 mol/L Bis-Tris pH6.5,25% (W/V) 聚乙二醇3,350的缓冲液中获得了理想的蛋白晶体,其大小约为360 μm×240μm×60 μm,并在100K下成功收集了衍射数据,晶体衍射分辨率为2.40,空间群为三斜晶系P1,晶胞参数为a=45.18,b=58.87,c=68.81,α=77.48°,β=86.03°,γ=66.97°,每个不对称单位中含有2 个BpEctD单体,马修斯系数为2.44 3/Da,溶剂含量约为49.53%。【结论】衍射数据的成功收集为假坚强芽孢杆菌OF4四氢嘧啶羟化酶三维结构的解析奠定了前期基础,将有助于阐明四氢嘧啶羟化酶的催化机制。     

蜡样芽孢杆菌聚乙烯醇脱氢酶的表达及酶学特性

【背景】聚乙烯醇脱氢酶(polyvinyl alcohol dehydrogenase,PVADH)能够使聚乙烯醇(polyvinyl alcohol,PVA)氧化脱氢,在PVA的生物降解过程中起到重要作用。【目的】从PVA降解菌株蜡样芽孢杆菌DG01中获取pvadh基因,实现PVADH在毕赤酵母中的异源表达并探究其对不同型号PVA的降解特异性,为PVADH在PVA实际降解中的应用提供指导。【方法】通过反转录扩增技术获得长度为1 965 bp的pvadh基因片段,构建pPIC9K-cpvadh重组表达质粒并在毕赤酵母GS115中实现异源表达,甲醇诱导表达蛋白,进行分离纯化后对其酶学性质及降解特异性进行研究。【结果】最佳发酵条件下PVADH粗酶液酶活达到54.55 U/mL。经分离纯化后表达蛋白PVADH的比酶活为173.42 U/mg,分子量为67.1 kDa,等电点为6.06,该酶最适作用温度为41℃,最适作用pH值为7.5,在27-32℃、pH 7.0-8.0条件下酶的半衰期超过4 h,1 mmol/L的Ca2+对酶活力有激活作用。PVADH分别作用于PVA1788、PVA1799...     

Malate dehydrogenase and lactate dehydrogenase in trematodes and turbellarians

Studies have been made on the activity and properties of malate and lactate dehydrogenases from the cattle rumen trematodes Eurytrema pancreaticum, Calicophoron ijimai and the turbellarian Phagocata sibirica which has a common free-living ancestor with the trematodes. All the species studied have a highly active malate dehydrogenase, its activity in the reaction of reducing oxaloacetate being 6-14 times higher than in the reaction of malate oxidation. The affinity of malate dehydrogenase to oxaloacetate was found to be higher than that to malate. The activity of lactate dehydrogenase (reducing the pyruvate) was lower than the activity of malate dehydrogenase, the difference being 50 times for C. ijimai, 4 times for E. pancreaticum and 10 times for P. sibirica.     

Characterization of succinate dehydrogenase and alpha-glycerophosphate dehydrogenase in pancreatic islets

Succinate dehydrogenase activities in homogenates of rat and ob/ob mouse pancreatic islets were only 13% of the activities in homogenates of liver and were also several times lower than in homogenates of pancreatic acinar tissue. This indicates that the content of mitochondria in pancreatic islet cells is very low. The very low activity of succinate dehydrogenase is in agreement with the low mitochondrial volume in the cytoplasmic ground substance of pancreatic islet cells as observed in morphometric studies. This may represent the poor equipment of pancreatic islet cells with electron transport chains and thus provide a regulatory role for the generation of reducing equivalents and chemical energy for the regulation of insulin secretion. The activities of succinate dehydrogenase in tissue homogenates of pancreatic islets, pancreatic acinar tissue, and liver were significantly inhibited by malonate and diazoxide but not by glucose, mannoheptulose, streptozotocin, or verapamil. Tolbutamide inhibited only pancreatic islet succinate dehydrogenase significantly, providing evidence for a different behavior of pancreatic islet cell mitochondria. Therefore diazoxide and tolbutamide may affect pancreatic islet function through their effects on succinate dehydrogenase activity. The activities of alpha-glycerophosphate dehydrogenase in homogenates of pancreatic islets and liver from rats and ob/ob mice were in the same range, while activities in homogenates of pancreatic acinar tissue were lower. None of the test agents affected alpha-glycerophosphate dehydrogenase activity. Thus the results provide no support for the recent contention that alpha-glycerophosphate dehydrogenase activity may be critical for the regulation of insulin secretion.     

Intralobular distribution of rat liver aldehyde dehydrogenase and alcohol dehydrogenase

1. The activity of liver microsomal high Km-ALDH and mitochondrial low Km-ALDH, which may be primarily responsible for the oxidation of acetaldehyde after ethanol administration was found to be predominantly distributed in the centrilobular area. 2. The activities of other ALDH isozymes in mitochondrial and soluble fractions were evenly distributed in periportal and perivenous regions. 3. The activity of ADH which is involved in production of acetaldehyde was predominantly located in the periportal area. 4. From these results it seems unlikely that a concentration of acetaldehyde after ethanol ingestion is higher in perivenous hepatocytes than in periportal ones. Additional data would be needed to understand fully the mechanism by which ethanol induces predominantly centrilobular liver injury.     

A mutation affecting lipoamide dehydrogenase, pyruvate dehydrogenase and 2-oxoglutarate dehydrogenase activities in Saccharomyces cerevisiae

Summary In Saccharomyces cerevisiae a nuclear recessive mutation, lpd1, which simultaneously abolishes the activities of lipoamide dehydrogenase, 2-oxoglutarate dehydrogenase and pyruvate dehydrogenase has been identified. Strains carrying this mutation can grow on glucose or poorly on ethanol, but are unable to grow on media with glycerol or acetate as carbon source. The mutation does not prevent the formation of other tricarboxylic acid cycle enzymes such as fumarase, NAD⁺-linked isocitrate dehydrogenase or succinate-cytochrome c oxidoreductase, but these are produced at about 50%–70% of the wild-type levels. The mutation probably affects the structural gene for lipoamide dehydrogenase since the amount of this enzyme in the cell is subject to a gene dosage effect; heterozygous lpd1 diploids produce half the amount of a homozygous wild-type strain. Moreover, a yeast sequence complementing this mutation when present in the cell on a multicopy plasmid leads to marked overproduction of lipoamide dehydrogenase. Homozygous lpd1 diploids were unable to sporulate indicating that some lipoamide dehydrogenase activity is essential for sporulation to occur on acetate.     

A sensitive spectorophotometric assay for pyruvate dehydrogenase and oxoglutarate dehydrogenase complexes

The activities of pyruvate dehydrogenase and oxo-glutarate dehydrogenase can be reliably measured by coupling the production of NADH to the reduction of added cytochromec. Maximum activities required the addition of NADH-cytochromec reductase activity prepared from rat heart mitochondria. Compared to other spectrophotometric assays this method provides an eight-fold increase in sensitivity and is particularly suitable for use with small tissue samples such as needle-biopsy samples of human skeletal muscle. Measurements of activities in rat tissues showed them to be in the order skeletal muscle < liver < heart ≤brown adipose tissue. Activities in normal human skeletal muscle were similar to those of rat muscle, tn the rat tissues specific differences were seen in the relative activities of the two complexes and cytochromec oxidase suggesting tissue-specific differences in the activities of the dehydrogenases and components of the electron-transport chain.