精氨酸脱亚胺酶发酵过程特性研究

精氨酸脱亚胺酶有较好的体内体外肿瘤生长抑制作用。通过对粪肠球菌（Enterococcus faecalis）NJ402菌株产精氨酸脱亚胺酶的发酵特性的研究,建立起代谢物的过程变化与精氨酸脱亚胺酶产生机理的内在联系。NJ402菌株生长过程中碳源物质代谢产生乳酸导致发酵体系pH的下降,而培养基中L-精氨酸的脱亚胺作用有利于发酵体系pH的稳定和菌体生长。进一步的研究表明,低pH生长环境有利于NJ402菌株产精氨酸脱亚胺酶,且精氨酸脱亚胺酶的产生与能量代谢无关。NJ402菌株产精氨酸脱亚胺酶受底物L-精氨酸的诱导,但该诱导作用受菌体生长体系pH的调控,即精氨酸脱亚胺酶的产生是低pH生长环境与L－精氨酸共同作用的结果。     

利用定点突变法研究精氨酸脱亚胺酶活性的影响机制

精氨酸脱亚胺酶(ADI)是一种针对精氨酸缺陷型癌症(如:肝癌、黑素瘤)的新药,目前处于临床三期试验。文中通过定点突变技术分析了精氨酸脱亚胺酶的特定氨基酸位点对酶活力的影响机制。针对已报道的关键氨基酸残基A128、H404、I410,采用QuikChange法进行定点突变,获得ADI突变株M1(A128T)、M2(H404R)、M3(I410L)和M4(A128T/H404R)。将突变株在大肠杆菌BL21(DE3)中进行重组表达,并对纯化获得的突变蛋白进行酶学性质研究。结果表明,突变位点A128T和H404R对ADI最适pH的提高,生理中性(pH 7.4)条件下的酶活力和稳定性的提高,以及Km值的降低均具有显著的作用。研究结果为阐明ADI的酶活力影响机制和蛋白质的理性改造提供了一定的依据。     

精氨酸脱亚胺酶在大肠杆菌中的分泌型表达

将变形假单胞菌的精氨酸脱亚胺酶(ADI)编码基因arc A克隆至具有阿拉伯糖启动子的分泌型表达载体pBAD/gⅢB中,经鉴定得到重组质粒pBAD-ADI。将重组质粒转化大肠杆菌TOP10F'后进行诱导表达,分别考察了不同诱导物L-arabinose浓度、诱导温度、诱导时间对重组蛋白表达的影响,最适诱导条件为L-arabinose浓度0.002%(w/v),25℃下诱导5 h,全细胞的酶活为68 mU/mL(指单位发酵液体积,下同)。采用Osmotic Shock法使ADI从胞周质释放出来,经检测分泌到胞周质的重组蛋白活性为53 mU/mL,细胞内的酶活为34 mU/mL。SDS-PAGE分析显示,重组蛋白大小约为46 kD。     

精氨酸脱亚胺酶活性以及瓜氨酸转化研究

目前,L-瓜氨酸的主要生产方法为化学法水解L-精氨酸.利用精氨酸脱亚胺酶可以直接转化L-精氨酸获得L-瓜氨酸,条件温和、效率高、环境友好,因而在工业化生产中具有很好的应用前景.本研究将优化后的单增李斯特菌(Listeriamonocytogenes)精氨酸脱亚胺酶(ADI)基因序列分别克隆到相应的载体pET-21a、pWB980及pAO815中,并分别转化大肠杆菌BL21(DE3)、枯草芽胞杆菌WB600及毕赤酵母GS115中构建表达菌株.发现大肠杆菌能高效表达ADI.经过5L发酵罐验证,发酵后酶活力单位可达200 000～270 000 U·L-1.经过验证,该酶可以很好地应用于L-瓜氨酸生产.在7 920～17 600 U· L-1的ADI存在条件下,5.5h内,可使95％的浓度为94～258 g·L-1的精氨酸转化为瓜氨酸.该方法具备良好的工业化应用前景.     

粪肠球菌精氨酸脱亚胺酶酶学性质研究

经硫酸铵分级沉淀、Q-Sepharose Fast Flow阴离子交换层析、SephadexG-75凝胶柱层析从NJ402自溶细胞超声破碎液中提纯得到精氨酸脱亚胺酶(ADI), 纯化倍数为34.5, 活力回收率为31.4％, 经SDS-PAGE以及Native-PAGE测定结果表明, ADI亚基分子量约为46 kD, 该酶非变性情况下的分子量约为190 kD左右, 该酶为同四聚体结构。酶学性质研究结果表明：ADI催化最适温度和最适pH分别为50℃和6.5, 在45℃以下和pH 5~8之间有很好的稳定性。ADI是L-型脱亚胺酶, 具有严格的光学选择性, 适当浓度的Mn2+、Mg2+、Co2+对ADI催化活力的促进作用较大, 高浓度的Zn2+和Co2+对酶有一定程度的抑制作用, L-瓜氨酸对酶无抑制作用而L-鸟氨酸却表现出较强的抑制作用。ADI在最佳催化条件下作用于L-精氨酸的米氏常数为3.2686 mmol/L, 最大反应速度为2.44 μmol/min。     

变形假单胞菌精氨酸脱亚胺酶基因序列分析及其表达载体构建

通过分子克隆手段获得了变形假单胞菌(Pseudomonas plecoglossicida CGMCC2039)精氨酸脱亚胺酶(arginine deirninasa,简称ADI)基因序列,并将扩增的ADI基因片段插入表达载体pET28a中,构建了ADI的重组表达载体.核苷酸序列分析显示该基因开放阅读框为1254 bp,编码417个氨基酸.Blast分析显示它与其他假单胞茵属菌种具有很高的同源性.SDS-PAGE结果显示出分子量大小为48.5 kDa的明显的蛋白质特异性条带,并具有酶活.该载体的构建为该基因在大肠杆菌中的表达、纯化和抗肿瘤活性研究奠定了基础.     

粪肠球菌精氨酸脱亚胺酶酶学性质研究

经硫酸铵分级沉淀、Q-Sepharose Fast Flow阴离子交换层析、SephadexG-75凝胶柱层析从NJ402自溶细胞超声破碎液中提纯得到精氨酸脱亚胺酶(ADI),纯化倍数为34.5,活力回收率为31.4%,经SDS-PAGE以及Native-PAGE测定结果表明,ADI亚基分子量约为46 kD,该酶非变性情况下的分子量约为190 kD左右,该酶为同四聚体结构.酶学,胜质研究结果表明:ADI催化最适温度和最适pH分别为50℃和6.5,在45℃以下和pH 5～8之间有很好的稳定性.ADI是L-型脱亚胺酶,具有严格的光学选择性,适当浓度的Mn2 、Mg2 、Co2 对ADI催化活力的促进作用较大,高浓度的Zn2 和Co2 对酶有一定程度的抑制作用,L-瓜氨酸对酶无抑制作用而L-鸟氨酸却表现出较强的抑制作用.ADI在最佳催化条件下作用于L-精氨酸的米氏常数为3.2686 mmol/L,最大反应速度为2.44 μmol/min.     

肽基精氨酸脱亚胺酶4(PADI4)对RA的影响

类风湿关节炎(RA)是一种病因和发病机制尚不清楚的自身免疫疾病,一般认为是由多种遗传因素和环境因素共同作用的结果。遗传因素中以组织相容性白细胞抗原HLA最为重要,另外作为非HLA的肽基精氨酸脱亚胺酶4(PADI4)也参与了RA的发病。PADI4是一种翻译后修饰酶,可在钙离子存在的情况下将精氨酸残基转化为瓜氨酸残基,瓜氨酸化后的蛋白质往往改变其分子构象,从而导致其生化活性亦发生改变。在不用种族的人群中,PADI4基因多态性与RA的易感性不尽相同。PADI4在RA患者血清中含量明显升高,在机体内产生自身抗PADI4抗体,并且PADI4瓜氨酸化多种蛋白质引起机体自身的免疫反应参与RA的发生与发展。近些年来的其他研究表明PAID4也参与了肿瘤、溃疡性结肠炎、多发性硬化症的发病。尽管针对PADI4的研究已经取得了很多重大进展,但是仍然存在很多悬而未决的问题等待科研工作者进一步的研究和证实。     

组蛋白脱乙酰化酶—1保守氨基酸中组氨酸定点突变的建立

为了研究蛋白脱乙酰化酶－１（ＨＤＡＣ１）保守氨基酸中组氨酸的定点突变对其功能的影响,需要建立ＨＤＡＣ１保守组氨酸定点突变的突变子。在克隆野生型ＨＤＡＣ１ｃＤＮＡ的基础上,利用Ａｌ－ｔｅｒｅｄ ＳｉｔｅⅡ体外突变系统对ＨＤＡＣ１保守氨基酸中的３个组氨酸位点进行突变,并用全自动测序鉴定。结果分别获得了ＨＤＡＣ１的Ｈ１４０Ｆ、Ｈ１７８Ｆ、Ｈ１７９Ｆ的定点突变子,为进一步研究ＨＤＡＣ１保守氨基酸定点突变对     

N-酰基高丝氨酸内酯酶的分子改造及酶学特性

革兰氏阴性细菌的群体感应系统利用N-酰基高丝氨酸内酯（N-acyl-homoserine lactone, AHL）作为主要信号分子诱导致病因子表达,造成细菌性病害. N-酰基高丝氨酸内酯酶（N-acyl-homoserine lactonase, AHLase）能水解AHL分子的内酯键,减弱致病菌的危害.本研究利用从苏云金芽孢杆菌克隆的N-酰基高丝氨酸内酯酶基因（auto inducer inactivation A, aiiA）,根据Swiss-model模拟aiiA所编码的AiiA蛋白三维结构,预测可能形成的分子内盐桥、活性中心位点等,利用环状诱变方法对AiiA进行定点突变,以期提高其酶活力和热稳定性等酶学性能.对AiiA及其突变蛋白酶学特性分析结果发现,突变体AiiA-N65K-A206E酶活力要比野生型AiiA-wild提高87.4%,并表现出良好的热稳定性和储存稳定性;37 ℃温浴30 min后酶活力剩余73;9%,比AiiA-wild有了大幅提高;4 ℃储存120 h后酶活力剩余12.9%,而AiiA-wild丧失酶活力.酶动力学分析表明,AiiA-N65K-A206E酶促反应的米氏常数Km为1.23 mmol/L,与野生型相当;最大反应速率Vmax为32.36 μmol/L/min,比野生型有较大提高.本研究表明,利用定点突变技术改造AiiA的分子结构,可有效提升AiiA酶活力、热稳定性和储存稳定性.本研究结果为进一步阐明AiiA结构与功能的关系,促进AiiA在植物病害生物防治上的应用,提供了有益的参考和新的思路.     

人双专一性磷酸酶活性位点Cys^124附近精氨酸突变及功能

为研究人双专一性磷酸酶活性位点Cys12 4 附近 3个带正电的精氨酸对酶催化功能的影响 ,用QuikChange定点突变方法获得 6个突变体 :R12 5L、R130 L、R130 K、R130 L/S131A、R158K和R158L。将含突变基因的重组质粒转化大肠杆菌菌株BL2 1(DE3) ,经IPTG诱导表达获得的目的蛋白质均以可溶形式存在。通过镍离子亲和层析纯化得到纯度大于 90 %的蛋白质。对人痘苗病毒H1相关磷酸酶 (VHR)及其突变体进行稳态动力学参数和竞争性抑制常数Ki 的测定 ,结果显示上述Arg130 和Arg158突变体的kcat/Km 值都较野生型有大幅度下降 ,而Ki 值有明显上升 ,表明 130和 15 8位的精氨酸是VHR活性所必需 ,而且可能与底物上带负电的磷酸基团结合有关。另外 ,单突变体R130 L和双突变体R130 L/S131A之间的kcat值相差很小 ,提示Arg130 单点突变后可能破坏了Ser131与Cys12 4 间的氢键。再者 ,R12 5L、R130 L和R158L突变体都降低了砷酸盐结合亲和性 ,暗示这 3个精氨酸残基侧链上的正电荷可能有助于底物与酶的结合。     

Computer-Aided Design of the Stability of Pyruvate Formate-Lyase from Escherichia coli by Site-Directed Mutagenesis

Using computer-aided design of single-site mutations, three amino acid residues determined by changes in folding free energy between wild-type (wt) and mutant proteins were exchanged to enhance the stability of pyruvate formate-lyase (PFL). The mutant enzymes were tested for properties such as optimum temperature, optimum pH, kinetic parameters, and stability to temperature. There were two mutant variants, Glu336Cys and Glu400Ile, that exhibited increased thermostability as compared to the wt enzyme. The melting temperatures (T _m, the temperature at which 50% inactivation occurs after heat treatment for 20 min) of Glu336Cys and Glu400Ile increased by 3.7 and 2.2 respectively. They also showed an increase in half life of about 1.80 and 2.21-fold, whereas Ala273Cys showed a slight decrease as compared with the wt enzyme.     

Improvement of the Optimum Temperature of Penicillium expansum Lipase by Site-Directed Mutagenesis

In order to improve the optimum temperature of lipases,the Penicillum expansum lipase (PEL) gene was mutated by site-directed mutagenesis using overlap extension PCR technique.The recombinant plasmid containing mutant E83 V pPIC3.5K-lip-E83V was expressed in Pichia pastoris GS 115.Comparison experiments of the mutant PEL-E83 V-GS and the wild-type PEL-GS showed that the optimum temperature (45℃) of the mutant was 5℃ higher than that of the wild type.The thermostability of the mutant was similar to that of the wild type.The enzymatic activity of the mutant was 188 U/ml at 37℃,which was 80% that of the wild type in the same conditions.Hydrophobic interaction may be enhanced in the surface region by the hydrophilic amino acid Glu substituted with the hydrophobic amino acid Val,and may be responsible for the improvement of the optimum temperature.     

Site-Directed Mutagenesis Evidence for Arginine-384 Residue at the Active Site of Maize Branching Enzyme II

Essential arginine residues are suggested to be located at the active sites of maize branching enzymes (BE) based on the evidence that two arginine residues are conserved in all BE from various species and that as little as one arginine residue is located at the active site of maize BE by phenylglyoxal (PGO) modification. To determine the exact location of the active-site arginine residue in BE, we employed peptide mapping and site-directed mutagenesis approaches. A single trypsin-digested, [¹⁴C]PGO-labeled peptide was purified from maize BEII by two rounds of HPLC separation, but we failed to obtain amino acid sequencing information. Site-directed mutagenesis was then used to create one mutant (arginine-384 to alanine-384), R384A. Immunoblotting result showed that BEII protein was expressed at a similar level in the wild type and the R384A mutant. However, BE activity in the R384A mutant was only 1.4% of the wild type. These results support the conclusion that the conserved arginine-384 residue is important in BEII catalysis.     

枯草蛋白酶E的定点突变及其对酶性质的影响

用定点突变的方法研究S221C/P225A,N118S/S221C/P225A,D60N/S221C/P225A和Q103R/S221C/P225A突变对蛋白酶活性,酯酶活性与蛋白酶活性之比的影响。结果表明：S221C/P225A突变使蛋白酶活性比枯草蛋白酶E低73000多倍,酯酶活性与蛋白酶活性之比是Subtiligase的3倍;N118S/S221C/P225A突变使蛋白酶活性和酯酶活性分别比S221C/P225A突变下降3.6倍和15倍,酯酶与蛋白酶活性之比下降4倍,同时增加变体酶的热稳定性;D60N/N118S/S221C/P225A突变使蛋白酶活性比N118S/S221C/P225A突变体下降15倍,但对酯酶活性几乎没有影响,酯酶与蛋白酶活性之比增加14倍,分别是S221C/P225A突变体和Subtiligase的3.3倍和10.3倍;但是,Q103R/N118S/S221C/P225A突变使蛋白酶活性比N118S/S221C/P225A突变体增加5倍,酯酶活性下降55倍,酯酶与蛋白酶活性之比下降1000倍。     

Improvement of the Optimum Temperature of Penicillium expansum Lipase by Site-Directed Mutagenesis

In order to improve the optimum temperature of lipases, the Penicillum expansum lipase (PEL) gene was mutated by site-directed mutagenesis using overlap extension PCR technique. The recombinant plasmid containing mutant E83V pPIC3.5K-lip-E83V was expressed in Pichia pastoris GS115. Comparison experiments of the mutant PEL-E83V-GS and the wild-type PEL-GS showed that the optimum temperature (45°C) of the mutant was 5°C higher than that of the wild type. The thermostability of the mutant was similar to that of the wild type. The enzymatic activity of the mutant was 188 U/ml at 37°C, which was 80% that of the wild type in the same conditions. Hydrophobic interaction may be enhanced in the surface region by the hydrophilic amino acid Glu substituted with the hydrophobic amino acid Val, and may be responsible for the improvement of the optimum temperature. Translated from Microbiology, 2005, 32(1) (in Chinese)     

定点突变技术研究苏云金杆菌Cry1类晶体蛋白结构与功能的进展

近年来利用定点突变技术研究苏云金杆菌（Bacillus thuringiesis,Bt）杀虫晶体蛋白（Insecticidal crystal proteins,ICP）作用机制已取得良好进展.杀虫晶体蛋白不同结构域上氨基酸残基的突变将影响其稳定性,与受体的结合,不可逆的昆虫中肠膜插入及离子通道活性的强弱等.突变研究表明,结构域Ⅰ参与不可逆结合及插入昆虫中肠膜过程;结构域Ⅱ参与受体结合,包括初始结合与不可逆结合;结构域Ⅲ在杀虫特异性和维持三维结构的稳定性方面起重要作用,同时,可能参与离子通道的形成,受体结合和插入昆虫中肠膜过程.利用各种定点突变技术对各位点进行突变可以研究单一位点的功能,到目前为止,已有很多关于这方面的研究,并且筛选到了毒力提高的工程菌株.     

Mutagenesis of histidine 26 demonstrates the importance of loop-loop and loop-protein interactions for the function of iso-1-cytochrome c.

In yeast iso-1-cytochrome c, the side chain of histidine 26 (His26) attaches omega loop A to the main body of the protein by forming a hydrogen bond to the backbone atom carbonyl of glutamic acid 44. The His26 side chain also forms a stabilizing intra-loop interaction through a hydrogen bond to the backbone amide of asparagine 31. To investigate the importance of loop-protein attachment and intra-loop interactions to the structure and function of this protein, a series of site-directed and random-directed mutations were produced at His26. Yeast strains expressing these variant proteins were analyzed for their ability to grow on non-fermentable carbon sources and for their intracellular production of cytochrome c. While the data show that mutations at His26 lead to slightly decreased intracellular amounts of cytochrome c, the level of cytochrome c function is decreased more. The data suggest that cytochrome c reductase binding is affected more than cytochrome c oxidase or lactate dehydrogenase binding. We propose that mutations at this residue increase loop mobility, which, in turn, decreases the protein's ability to bind redox partners.     

F43Y及I354M,L358F定点突变对植酸酶热稳定性及酶活性的改善

对重组酵母PPNPm8的植酸酶phyAm基因进行PCR介导的定点突变,即将植酸酶43位的苯丙氨酸替换为酪氨酸(F43Y),将其354、358位的异亮氨酸、亮氨酸分别替换为甲硫氨酸和苯丙氨酸(I354M,L358F),得到了2个突变体PPNPm-1(F43Y)及PPNPm-2(I354M,L358F).含突变基因的重组表达载体pPIC9kphyAm-1,pPIC9kphyAm-2在毕赤酵母GS115中表达,对表达产物进行酶活性测定及热稳定性检测.结果表明:突变体PPNPm-1最适反应温度比未突变体PPNPm8上升了3℃,75℃处理10min,热稳定性提高15%,比活力提高11%;PPNPm-2最适反应温度未改变,热稳定性比PPNPm8仅提高3%,比活力降低6.5%.对突变前后的植酸酶空间结构进行比较预测,发现突变氨基酸Tyr43与空间位置相邻的Asn416之间形成氢键,增强了酶的热稳定性.