黑曲霉阿魏酸酯酶在毕赤酵母中的组成型表达

【目的】实现黑曲霉来源的阿魏酸酯酶在毕赤酵母(Pichia pastoris GS115)中的组成型表达。【方法】以黑曲霉(Aspergillus niger)基因组为模板,经重叠延伸PCR扩增得到阿魏酸酯酶基因(AnfaeA),将其与载体pGAP9K相连,构建重组表达载体p GAP9KAnfae A,经SalI线性化后电转入毕赤酵母GS115中,得到重组菌株。高效液相色谱法测定发酵液中阿魏酸酯酶活力,并对重组菌进行了发酵优化。【结果】克隆得到783 bp的阿魏酸酯酶编码基因并实现了其在毕赤酵母中的组成型表达。重组菌发酵84 h后,上清液中酶活达5.72±0.10 U/m L。重组酶(reAnfaeA)经分离纯化后比酶活为59.75 U/mg,大小约为40 k D。发酵优化结果为:葡萄糖40.0 g/L,蛋白胨10.0 g/L,酵母膏30.0 g/L,CaCO_3 0.2 g/L,种龄28 h,接种量3%(体积比),装液量50 m L/250 m L。在此条件下发酵培养,酶活达15.60±0.23 U/m L。【结论】阿魏酸酯酶在毕赤酵母中的组成型表达,对研究毕赤酵母组成型表达系统和阿魏酸酯酶的发酵生产具有一定的借鉴意义。     

嗜热棉毛菌木糖苷酶Xyl43基因优化及其在毕赤酵母中高效表达

【目的】通过外源表达手段构建重组毕赤酵母实现木糖苷酶的高效表达。【方法】基于毕赤酵母密码子偏好性优化嗜热棉毛菌β-木糖苷酶(Xyl43)基因密码子,将其导入毕赤酵母GS115中实现分泌表达,并对重组木糖苷酶酶学性质进行分析。通过单因素实验优化高产菌株的摇瓶发酵条件,并在5 L发酵罐中进行扩大培养。【结果】Xyl43基因优化后的序列中222个碱基发生改变,G+C含量由52.8%降低到44.6%,序列一致性为78.17%;将构建的表达载体p PIC9K-Opt Xyl43电击转入毕赤酵母中,利用平板初筛和摇瓶复筛获得一株高效表达重组菌(命名为P.pastoris GS115-Xyl43);其所产重组木糖苷酶大小为51.5 k D,动力学参数Km为2.93 mmol/L、Vmax为157.9μmol/(min·mg),最适反应温度55°C,最适p H 7.0,在p H 6.0-9.5条件下具有良好的稳定性;摇瓶优化结果表明:培养基初始p H 6.0、甲醇补加浓度1.0%、培养温度28°C、摇床转速250 r/min为最佳产酶条件,在此条件下发酵144 h胞外酶活达到42 U/m L(蛋白含量0.54 g/L);5 L发酵罐放大培养,发酵156 h(甲醇诱导96 h),木糖苷酶酶活为222.2 U/m L,蛋白含量2.36 g/L,较摇瓶提高了4.3倍。【结论】木糖苷酶在毕赤酵母中实现了高效表达,具有较好的工业化应用前景。     

钝顶螺旋藻sod基因真核表达载体的构建与表达

目的:在毕赤酵母中表达钝顶螺旋藻超氧化物歧化酶SOD。方法:以质粒p ET30-sod为模板,采用PCR扩增sod基因,并将其与表达载体p PIC9K相连,构建重组表达质粒p PIC9K-sod。将重组质粒p PIC9K-sod用限制性内切酶PmeⅠ线性化,并电转化入毕赤酵母GS115。利用单菌落PCR筛选整合有重组质粒的阳性转化子,用甲醇进行诱导表达,并在5L发酵罐内进行发酵表达目的蛋白。用改进的邻苯三酚自氧化法测定重组SOD的活性。结果:成功构建了钝顶螺旋藻的sod的真核表达载体,并在毕赤酵母中表达了分子量为22k Da的重组蛋白SOD。发酵罐高密度发酵所获目的蛋白的平均浓度为0.36±0.4 mg/m L,比活性为409±17U/mg。结论:在毕赤酵母中表达了分子量为22k Da的钝顶螺旋藻SOD。     

用GAP启动子在Pichia pastoris GS115中组成型表达鼠灰链霉菌腺苷酸脱氨酶

【目的】构建产AMP脱氨酶的重组毕赤酵母(Pichia pastoris GS115)菌株,并初步优化其发酵条件。【方法】以鼠灰链霉菌(Streptomyces murinus)基因组为模板PCR扩增获得腺苷酸脱氨酶基因AMPD,以pGAP9K为载体构建重组表达质粒pGAP9K-AMPD并通过电转化法转入Pichia pastoris GS115,筛选转化子对其酶活进行测定,并初步优化其发酵条件。【结果】构建了毕赤酵母重组菌,通过分光光度法测定,显示重组菌有明显的酶活;初步优化发酵条件为:该重组菌最适发酵培养基为:甘油2%,蛋白胨2%,酵母膏1%,KH2PO40.5%,MgSO4·7H2O0.05%,pH 6.0;发酵条件为:接种龄24 h,转接量3%,30°C﹑200 r/min培养96 h,取发酵上清液测定酶活,重组菌腺苷酸脱氨酶酶活达到2 230±60 U/mL。【结论】构建了一株产AMP脱氨酶活性较高的重组毕赤酵母菌株,并通过优化发酵条件使其酶活达到2 230±60 U/mL。为AMP脱氨酶工业化生产奠定了一定的基础。     

甘露聚糖酶基因在毕赤酵母中的表达及酶学性质研究

采用PCR的方法,以枯草芽孢杆菌Bacillus subtilis基因组 DNA 为模板,克隆出甘露聚糖酶MAN的成熟肽编码序列,将其插入巴斯德毕赤酵母Pichia pastoris表达载体pPIC9K中,并位于α-因子信号肽序列的下游,获得重组质粒pPIC9K-MAN。重组质粒线性化后用聚乙二醇法导入毕赤酵母Pichia pastoris菌株GS115中,经大量筛选,获得高效分泌表达甘露聚糖酶的毕赤酵母工程菌株MAN22。将此菌株在5 L发酵罐中进行高密度发酵,测定酶活最高达1102IU /mL,同时对重组甘露聚糖酶的性质进行了初步研究。     

里氏木霉Cel5A基因优化及其在毕赤酵母中的高效表达

内切纤维素酶Cel5A缺乏是限制纤维素酶制剂高效酶解天然纤维素的关键因素。本文尝试构建高效表达里氏木霉Cel5A的毕赤酵母重组菌株以弥补目前Cel5A的天然分泌不足,通过基因密码子偏好性优化里氏木霉Cel5A基因和构建表达载体p PIC9K-eg2,并将其电转入毕赤酵母GS115以构建重组子,利用浓度梯度平板和摇瓶发酵筛选获得一株高产毕赤酵母Pichia pastoris菌株GS115-EGⅡ。重组酶的酶学性质分析显示,该酶分子量50 k Da、最适p H(p H 4.5)略有降低及最适反应温度为60℃,专一性地作用于非结晶纤维素,与天然里氏木霉Cel5A并无明显区别。通过摇瓶发酵的初步优化,该菌摇瓶培养条件:培养温度28℃、起始p H 5.0、接种量2%、每24 h添加甲醇1.5%(V/V)、每24 h添加山梨醇4 g/L及吐温80添加4 g/L,发酵192 h重组酶酶活达到24.0 U/m L。进一步上罐(5 L)发酵180 h,该重组酶Cel5A酶活高达270.9 U/m L,蛋白含量达到4.16 g/L。重组毕赤酵母P.pastoris GS115-EGⅡ是一株适合于外源表达Cel5A的工程菌,该重组酶可替代天然分泌Cel5A适用于当前酶基生物炼制模式下木质纤维素基质高效水解中。     

重组瑞替普酶在毕赤酵母中的表达

【目的】瑞替普酶(重组组织纤溶酶原激活物,rt PA)被认为是第三代安全有效的溶栓剂,以p PIC9K为载体,以3种不同表型的毕赤酵母(Pichia pastoris)为宿主,探索适合rt PA分泌型表达的最佳体系。【方法】以质粒p ET28a-rt PA为模板,设计特异性引物,PCR扩增目的基因rt PA,插入分泌型表达载体p PIC9K中,获得重组表达质粒p PIC9K-rt PA。重组质粒经限制性内切酶Sal I线性化后,电击转化至3种不同表型的P.pastoris(GS115、SMD1168、KM71)中进行组成型表达;重组表达体系进行甲醇诱导表达,对产物进行Western blot鉴定,并采用纤维蛋白平板溶圈法测定其活性。【结果】重组蛋白分子量约为43 k D;rt PA-GS115和rt PA-KM71均在39 k D处有特异性条带,且前者在32 k D处有轻微降解条带,而后者并无此现象;rt PA-SMD1168无降解现象,且rt PA-SMD1168比活性较rt PA-GS115高27%;rt PA-KM71表达量和活性均为最低。【结论】从重组蛋白生物活性出发,P.pastoris SD1168可作为rt PA的最佳表达体系,在控制宿主蛋白酶活性、减少产物降解的前提下,P.pastoris GS115也是rt PA表达的优选体系。     

耐热羧肽酶Taq基因在毕赤酵母中的表达

为了获取表达羧肽酶Taq毕赤酵母工程菌,通过密码子优化,依据毕赤酵母密码子偏爱性,在体外合成了栖热水生菌的耐热羧肽酶Taq基因。将该基因克隆到毕赤酵母表达载体p HBM905A上并引入6×His标签,构建了重组质粒p HBM905A-Cpase Taq。将该重组质粒转化毕赤酵母GS115,经1%甲醇诱导表达72 h,酶产量达0.1 mg/m L。对纯化的重组酶进行酶活性分析表明在75℃,p H为7.5时,该酶比酶活性为80 U/mg。本研究首次证明了羧肽酶Taq能在毕赤酵母中有效分泌表达,可以被大量制备,进而为多肽水解为氨基酸奠定工业基础。     

黑曲霉h408阿魏酸酯酶基因的克隆及在毕赤酵母中的高效表达

【目的】实现在巴斯德毕赤酵母(Pichia pastoris)中高效表达黑曲霉(Aspergillus niger)h408阿魏酸酯酶A基因(AnfaeA),并对重组酶特性进行表征。【方法】采用重叠延伸PCR扩增黑曲霉h408的阿魏酸酯酶A基因。将AnfaeA基因和毕赤酵母表达载体pPIC9K连接,成功构建重组质粒pPIC9K-Anfae,经线性化后电转化P.pastoris GS115,透明圈法筛选活性高的转化子后进行诱导表达。利用紫外吸收法测定温度及pH对重组阿魏酸酯酶活性的影响。【结果】成功从A.niger h408中克隆得到阿魏酸酯酶A的cDNA基因(GenBank:KF911349),并实现了其在P.pastoris GS115中的高效表达。该基因长度为783bp,含有1个开放阅读框架(ORF),编码260个氨基酸,Blast分析显示该基因和GenBank中黑曲霉阿魏酸酯酶序列同源性为99%。翻译的氨基酸序列含有脂酶典型的活性盖子和催化三联体结构。从转化板上获得1株编号为pPIC9K-Anfae5的转化子阿魏酸酯酶活性最高,酶活达24.72 U/mL,比活力为40.84 U/mg,比黑曲霉出发菌株(22.1 mU/mL)提高了1100倍左右。重组阿魏酸酯酶的最适pH为5.0,且在pH 4.0-9.0稳定性较好;最适反应温度50℃,在40-60℃时较稳定。【结论】阿魏酸酯酶在毕赤酵母中的高效分泌表达为其在饲料工业和造纸工业等工业化应用提供了前提,也为后续改进酶学特性的定向进化奠定实验基础。     

商陆抗病毒蛋白重组子筛选及发酵条件初探

目的：筛选体外高表达商陆抗病毒蛋白的毕赤酵母重组菌株,并摸索其适合的发酵条件。方法：通过电击转化将含有商陆抗病毒蛋白（pokeweed antiviral proteins,PAP）基因的分泌型表达载体PIC9K-P导入到毕赤酵母（Pachia pastoris）GS115菌株中。利用免疫印迹法筛选表达量较高的转化子。在摇瓶发酵水平对重组菌株产PAP条件进行初步研究。结果：高表达PAP的重组菌株在发酵时间为96h,10g/L的甲醇浓度,培养基pH值为6.0～6.4时PAP的表达量较高。结论：免疫印迹法适合用于毕赤酵母高表达重组菌株的筛选,重组毕赤酵母的PAP表达量可高达30mg/L。     

Metabolic engineering of fatty acyl-ACP reductase-dependent pathway to improve fatty alcohol production in Escherichia coli

Fatty alcohols are important components of surfactants and cosmetic products. The production of fatty alcohols from sustainable resources using microbial fermentation could reduce dependence on fossil fuels and greenhouse gas emission. However, the industrialization of this process has been hampered by the current low yield and productivity of this synthetic pathway. As a result of metabolic engineering strategies, an Escherichia coli mutant containing Synechococcus elongatus fatty acyl-ACP reductase showed improved yield and productivity. Proteomics analysis and in vitro enzymatic assays showed that endogenous E. coli AdhP is a major contributor to the reduction of fatty aldehydes to fatty alcohols. Both in vitro and in vivo results clearly demonstrated that the activity and expression level of fatty acyl-CoA/ACP reductase is the rate-limiting step in the current protocol. In 2.5-L fed-batch fermentation with glycerol as the only carbon source, the most productive E. coli mutant produced 0.75 g/L fatty alcohols (0.02 g fatty alcohol/g glycerol) with a productivity of up to 0.06 g/L/h. This investigation establishes a promising synthetic pathway for industrial microbial production of fatty alcohols.     

Application of high-performance liquid chromatography of plasma fatty acids as their phenacyl esters to evaluate splanchnic and renal fatty acid balance in vivo

Plasma fatty acids from renal and hepatic veins, and arterialized hand vein obtained in 20 subjects before and after insulin infusion were separated by reversed-phase high-performance liquid chromatography following phenacyl esterification. Separation and quantification over the range 1.0–100 nmol per injection of nine fatty acids was achieved within 60 min using [²H₃₁]palmitic acid as internal standard. Analytical recoveries were greater than 90% and the intra- and inter-assay coefficients of variation were less than 2.5 and 4.0%, respectively. Following insulin infusion, net splanchnic uptake of total fatty acids decreased from 3.0±0.3 to 1.0±0.1 μmol/kg min (p<0.01), whereas net renal balance remained neutral (−0.04±0.04 vs. −0.06±0.03 μmol/kg min, p=N.S.). Individual fatty acid balance varied from a low of 0.012±0.005 (myristic acid) to a high of 0.95±0.08 (oleic acid) μmol/kg min across the splanchnic tissues and from 0.005±0.002 (stearic acid) to 0.21±0.1 (oleic acid) μmol/kg min across the kidney. There is a substantial diversity in changes in plasma concentration and regional balance of individual fatty acid during short-term fasting and hyperinsulinemia. This method is simple, accurate, and can be applied to assess individual fatty acid metabolism in vivo.     

茄科雷尔氏菌脂酰-CoA合成酶的功能鉴定

【目的】茄科雷尔氏菌是一种常见的农作物致病菌,引起植物青枯病。研究其脂肪酸代谢途径将有助于寻找新的抗菌药物靶点,为防治青枯病害提供新的思路。【方法】利用大肠杆菌FadD序列,进行同源比对发现茄科雷尔氏菌GMI1000中RSc2857(RsFadD)具有较高的相似性,推测其具有脂酰-CoA合成酶活性。采用PCR扩增方法获得RsfadD基因,连入表达载体pBAD24M后互补大肠杆菌fadD突变株,并检测转化子的生长情况。RsfadD与pET-28b连接后,在大肠杆菌BL(DE3)中表达,并利用Ni-NTA纯化获得带有组氨酸标签的RsFadD,体外测定RsFadD的活性。利用同源重组方法,获得RsfadD敲除突变株,分析突变株的生长性状。【结果】RsfadD异体互补大肠杆菌fadD突变株,恢复突变株在以脂肪酸为碳源的基础培养基上生长。体外活性测定RsFadD具有脂酰-CoA合成酶活性,对不同链长的脂肪酸都具有活性,但活性低于大肠杆菌FadD。RsfadD突变株在添加不同链长脂肪酸的基础培养上仅能微弱生长,而在丰富培养基上生长无差异。【结论】茄科雷尔氏菌中RsfadD编码脂酰-CoA合成酶,在脂肪酸利用过程中发挥重要作用。但RsfadD突变株在基础培养基上微弱生长,说明茄科雷尔氏菌基因组中还有其他的脂酰-CoA合成酶基因。以上研究结果为进一步研究茄科雷尔氏菌中脂酰-CoA合成酶以及脂肪酸利用机制奠定了基础。     

Fatty acid induced remodeling within the human liver fatty acid-binding protein

We crystallized human liver fatty acid-binding protein (LFABP) in apo, holo, and intermediate states of palmitic acid engagement. Structural snapshots of fatty acid recognition, entry, and docking within LFABP support a heads-in mechanism for ligand entry. Apo-LFABP undergoes structural remodeling, where the first palmitate ingress creates the atomic environment for placement of the second palmitate. These new mechanistic insights will facilitate development of pharmacological agents against LFABP.     

A Dictyostelium long chain fatty acyl coenzyme A-synthetase mediates fatty acid retrieval from endosomes

We have identified a subset of Dictyostelium endosomes that carry a long chain fatty acyl coenzyme A-synthetase (LC-FACS 1) on their cytosolic surface. Immunofluorescence studies and observations using GFP-fusion proteins collectively suggest that LC-FACS 1 associates with endosomes a few minutes after their formation, remains bound through the acidic phase of endocytic maturation and dissociates early in the phase where the endosomal content is neutralised prior to exocytosis. Mutants in the fcsA gene, encoding the LC-FACS 1 protein, were constructed by homologous recombination. These cells show a strong defect in the intracellular accumulation of fatty acids, either taken up together with the liquid medium or bound to the surface of particles. Because the mutant cells are otherwise fully competent for macropinocytosis and phagocytosis, we conclude that the LC-FACS 1 protein mediates the retrieval of fatty acids from the lumen of endosomes into the cytoplasm.     

Biochemical characterization of a chloroplast localized fatty acid reductase from Arabidopsis thaliana

Primary long-chain fatty alcohols are present in a variety of phyla. In eukaryotes, the production of fatty alcohols is catalyzed by fatty acyl-CoA reductase (FAR) enzymes that convert fatty acyl-CoAs or acyl-ACPs into fatty alcohols. Here, we report on the biochemical properties of a purified plant FAR, Arabidopsis FAR6 (AtFAR6). In vitro assays show that the enzyme preferentially uses 16 carbon acyl-chains as substrates and produces predominantly fatty alcohols. Free fatty acids and fatty aldehyde intermediates can be released from the enzyme, in particular with suboptimal chain lengths and concentrations of the substrates. Both acyl-CoA and acyl-ACP could serve as substrates. Transient expression experiments in Nicotiana tabacum showed that AtFAR6 is a chloroplast localized FAR. In addition, expression of full length AtFAR6 in Nicotiana benthamiana leaves resulted in the production of C16:0-alcohol within this organelle. Finally, a GUS reporter gene fusion with the AtFAR6 promoter showed that the AtFAR6 gene is expressed in various tissues of the plant with a distinct pattern compared to that of other Arabidopsis FARs, suggesting specialized functions in planta.     

Selective screening for fatty acid oxidation disorders by tandem mass spectrometry: difficulties in practical discrimination

In a selective screening for fatty acid oxidation disorders by tandem mass spectrometry, we tested the diagnostic ratios and acylcarnitine concentrations in sera or blood spots, which were reported to be specific to very long-chain acyl CoA dehydrogenase deficiency, carnitine palmitoyltransferase I deficiency, and carnitine palmitoyltransferase II deficiency. While the acylcarnitine profiles in the majority of these patients were typical in the respective disorders, some overlapping of the indices was observed between these patients and the infants, who showed symptoms mainly related to hypoglycemia but did not have the disorders mentioned above. Although the diagnostic ratio of tetradecenoylcarnitine to dodecanoylcarnitine for very long-chain acyl CoA dehydrogenase deficiency seemed to minimize the overlapping in this study, additional measures including careful assessment of clinical data and enzyme assays may be necessary for the diagnosis in atypical cases.     

13种微藻的脂肪酸组成分析

分析了13种微藻(包括7种绿藻,5种杂色藻和1种红藻)的总脂含量和脂肪酸组成,结果表明,不同门类微藻的脂肪酸组成差异较大:绿藻的脂肪酸组成以C16和C18为主;杂色藻类的脂肪酸组成相近,金藻门含有14:0、16:0、18:1、18:4等特征脂肪酸,三角褐指藻主要的脂肪酸为14:0、16:0、16:1、16:3和20:5,而粉核油球藻的脂肪酸以14:0、16:0、20:5为主;紫球藻的脂肪酸组成以16:0、20:4和20:5为主。在测试的13种微藻中,杜氏盐藻的亚麻酸含量最高,占总脂肪酸的60.9%;等鞭金藻的十八碳四烯酸含量最高,占总脂肪酸的19.6%;紫球藻和粉核油球藻中花生四烯酸与二十碳五烯酸(EPA)含量分别占总脂肪酸的17.1%和20.9%。     

Cell culture models of fatty acid overload: Problems and solutions

High plasma levels of fatty acids occur in a variety of metabolic diseases. Cellular effects of fatty acid overload resulting in negative cellular responses (lipotoxicity) are often studied in vitro, in an attempt to understand mechanisms involved in these diseases. Fatty acids are poorly soluble, and thus usually studied when complexed to albumins such as bovine serum albumin (BSA). The conjugation of fatty acids to albumin requires care pertaining to preparation of the solutions, effective free fatty acid concentrations, use of different fatty acid species, types of BSA, appropriate controls and ensuring cellular fatty acid uptake. This review discusses lipotoxicity models, the potential problems encountered when using these cellular models, as well as practical solutions for difficulties encountered.     

Glucose stimulates a decrease of the fatty acid saturation degree in Acinetobacter calcoaceticus

The fatty acid composition of Acinetobacter calcoaceticus 69-V was determined under various growth conditions. Saturated, unsaturated, and hydroxy fatty acids with chain lengths of 12–18 carbon atoms predominated in the fatty acid profile. With acetate or propanol as growth substrates, the ratio of saturated to unsaturated fatty acids varied with changes in the temperature. This was the only adaptive mechanism detected that compensated for the physical effects of temperature alterations on the cell membranes. The fatty acid composition of A. calcoaceticus grown at 40 °C had a saturation degree of approximately 50%; after growth at 20 °C it was approximately 35%. In the presence of a carbon and energy source, A. calcoaceticus was able to respond to temperature reductions under oxic conditions regardless of whether fatty acid biosynthesis was inhibited or not. This suggests an aerobic mechanism of fatty acid biosynthesis and the involvement of a fatty acid desaturase system. Addition of the non-growth substrate, glucose, helped the organism to adapt to lower temperature. The molecular mechanism of the aid is not really understood. The oxidation of glucose could provide the desaturase either with electrons directly via a pyrrolo-quinoline-quinone-linked glucose dehydrogenase or with NADH after fatty acid degradation has been initiated by ATP generated by the oxidation of glucose. Received: 19 June 1998 / Accepted: 28 December 1998