Active site structure and stereospecificity of Escherichia coli pyridoxine-5'-phosphate oxidase.

Pyridoxine-5'-phosphate oxidase catalyzes the oxidation of either the C4' alcohol group or amino group of the two substrates pyridoxine 5'-phosphate and pyridoxamine 5'-phosphate to an aldehyde, forming pyridoxal 5'-phosphate. A hydrogen atom is removed from C4' during the oxidation and a pair of electrons is transferred to tightly bound FMN. A new crystal form of the enzyme in complex with pyridoxal 5'-phosphate shows that the N-terminal segment of the protein folds over the active site to sequester the ligand from solvent during the catalytic cycle. Using (4'R)-[(3)H]PMP as substrate, nearly 100 % of the radiolabel appears in water after oxidation to pyridoxal 5'-phosphate. Thus, the enzyme is specific for removal of the proR hydrogen atom from the prochiral C4' carbon atom of pyridoxamine 5'-phosphate. Site mutants were made of all residues at the active site that interact with the oxygen atom or amine group on C4' of the substrates. Other residues that make interactions with the phosphate moiety of the substrate were mutated. The mutants showed a decrease in affinity, but exhibited considerable catalytic activity, showing that these residues are important for binding, but play a lesser role in catalysis. The exception is Arg197, which is important for both binding and catalysis. The R197 M mutant enzyme catalyzed removal of the proS hydrogen atom from (4'R)-[(3)H]PMP, showing that the guanidinium side-chain plays an important role in determining stereospecificity. The crystal structure and the stereospecificity studies suggests that the pair of electrons on C4' of the substrate are transferred to FMN as a hydride ion.     

5′端非翻译区对LT-B基因表达的影响

mRNA5＇端非翻译区的不同结构可影响基因表达,为了改善编码人毒素源性大肠杆菌热敏感肠毒素B亚单位的LT-B基因的表达水平,我们把该基因置于pBV220载体的P_RP_L串联启动子下游,构建了带有不同核苷酸组成的5＇端非翻译区的重组体。这些重组体分别在大肠杆菌HB101和DH5α中表达。结果表明,起始密码前有两个连续串联SD序列的LT-B基因的表达水平低于只有单个SD序列下的表达水平,而翻译偶联可使表达改善;用不同的SD序列LT-B基因的表达水平也有所不同,用基因本身SD序列可能要比用pBV220P_L启动子下游的SD序列好;在只含单个LT-B基因SD序列的重组体中,5＇端非翻译区序列的长短对LT-B基因表达没有什么影响;重组体在HB101中的表达水平高于在DH5α中的表达水平。     

高分子量腈水合酶在大肠杆菌中的表达策略及重组菌的细胞催化

【目的】实现红球菌Rhodococcus rhodochrous J1来源的高分子量腈水合酶H-NHase在Escherichia coli BL21(DE3)中过量表达,以提高菌体总酶活,缩短菌体发酵周期,提高生产效率。【方法】将H-NHase中编码α亚基的基因nhh A和调控基因nhh G上游的核糖体结合位点(Shine-Dalgarno sequence,SD)替换成翻译起始强度更高的异源SD,同时优化各亚基之间间隔序列的长度,并根据大肠杆菌密码子偏好性对目的基因进行优化。通过E.coli重组表达系统过表达优化后的腈水合酶基因。采用离子交换层析对H-NHase进行纯化,并通过凝胶过滤层析确定重组酶的相对分子量。优化了全细胞催化条件,并建立底物恒速流加的细胞催化工艺,模拟了烟酰胺的生产工艺。【结果】H-NHase在E.coli中实现了过量表达。重组蛋白粗酶液的活性为85.5±4.3 U/mg,纯酶比活为234.0±11.7 U/mg,H-NHase相对分子质量为504.5±9.8 k D。细胞催化最适p H为7.5,最适温度为25°C,底物浓度为400 mmol/L。在此条件下,重组菌细胞酶活为256.0±10.4 U/m L,流加工艺最终的产物转化率可达99.9%。【结论】重组H-NHase大肠杆菌细胞生长迅速,发酵周期短,应用此重组菌进行细胞催化可以提高酰胺类物质的生产效率,具有潜在的工业价值。     

人颗粒裂解肽片段在大肠杆菌中的表达

目的：建立颗粒裂解肽（NKG5）的原核表达载体系统,并在大肠杆菌中获得表达。方法：采用寡核苷酸合成、PCR扩增得到NKG5编码序列,克隆到pGEM-T载体上,经测序正确后,再切下编码序列连接到重组表达载体pGEx-4T-1中,转化大肠杆菌BL21,用IPTG诱导重组工程菌表达,采用谷胱甘肽偶联的Sepharose 4B纯化重组蛋白。结果：重组菌株可以表达GST-NKG5融合蛋白,用免疫印迹反应鉴定纯化的融合蛋白,在相对分子质量34000处有一条带。结论：获得了在大肠杆菌中低表达的颗粒裂解肽融合蛋白,为后续研究奠定了基础。     

K5裂解酶在大肠杆菌中的表达、纯化及酶学性质分析

K5多糖裂解酶(Elma)能够裂解半合成肝素的底物-K5多糖,裂解产物是半合成法生产低分子量肝素的底物。利用PCR方法扩增elma,构建表达载体pET-28a-Elma,将构建好的质粒转化至大肠杆菌BL21中,以0.2 mmol/L的IPTG在16℃诱导5 h实现了高效表达,SDS-PAGE分析表明Elma表达量可达菌体总蛋白的30%以上。采用Ni2+-NTA亲和层析法和G-75分子筛层析纯化目的蛋白,其纯度大于95%。通过PAGE多糖电泳发现裂解前后的K5多糖分子量有明显的减小。根据Elma裂解产物产生双键从而在232 nm处有吸光度的变化来测Elma的酶活。其最适反应温度为37℃,反应的最适pH值为7.0。底物特异性分析发现Elma除K5多糖外对肝素和透明质酸也有降解作用。     

转录激活因子1(ATF1)内部核糖体进入位点的鉴定及活性分析

蛋白质翻译起始通常有两种机制,一是依赖帽结构的翻译,另一种是依赖5′非翻译区的内部核糖体进入位点(IRES).在后一种方式中,在某些IRES反式作用因子,如La蛋白、多聚嘧啶串结合蛋白1等的参与下,直接招募核糖体小亚基到mRNA的翻译起始位点,启始翻译.研究发现,参与细胞生长、分化、细胞周期进程、凋亡和压力调控的相关蛋白中通常含有IRES元件.基于功能,我们提出假说：转录激活因子1(ATF1)的5′-UTR可能具有IRES活性.为验证假说,首先构建了含全长ATF1 5′-UTR的双荧光素酶报告质粒|质粒转染结合报告酶活性分析显示,ATF1 5′-UTR在Bel7402、HCT-8和HEK293细胞中表现出不同的IRES活性|而此IRES活性与5′-UTR中的隐藏启动子无关.同时还发现,ATF1 5′-UTR在NIH3T3细胞中却没有IRES活性.与此结果相一致,Western印迹检测ATF1在这几种细胞系中的表达.结果显示,Bel7402、HCT 8和HEK293中ATF1蛋白质表达水平较高,而在NIH3T3中却极低. ATF1 5′-UTR的系列5′-删除突变及报告酶分析证明,ATF1 5′-UTR的完整性对其IRES活性大小发挥重要作用|其中5′端的204 bp序列对其IRES活性贡献较大. RNA-蛋白免疫共沉淀实验揭示,ATF1 5′-UTR可与La和PTBP1蛋白结合|抑制La和PTBP1蛋白质的表达,并可减低HEK293细胞中ATF1蛋白质表达水平.这些结果提示,La和PTBP1蛋白（两种ITAFs）为ATF1 5′-UTR发挥IRES活性所必需.总之,上述结果证明,ATF1 5′-UTR具有IRES活性,其活性发挥依赖与La和PTBP1蛋白的结合.上述发现为进一步研究La和PTBP1表达及亚细胞定位对ATF1 IRES调控机制的影响奠定了基础.     

优化的复合自动诱导培养基（CAI-4）对外源蛋白在大肠杆菌中 表达的影响

[目的]原核表达系统是目前最为广泛使用的一种外源蛋白表达系统。在利用原核表达系统表达目的蛋白的过程中,可溶性外源蛋白的产量是决定成本和效率的决定性因素。[方法]本项研究中利用本实验室构建的7种不同的重组质粒(-1、p-2、p-3、p-4、p-5、p-6、p-7),检测其在复合自动诱导培养基中的表达情况,评价哪一种培养基更适合于外源蛋白的表达,提高目的蛋白的产量。[结果]结果显示,这7种重组蛋白在复合自动诱导培养基的表达量是普通LB培养基的4~8倍;并在此基础上,对复合培养基的成份进行进一步优化,形成了一种优化培养基(改良培养基-4),P-1、P-2、P-3这3种融合蛋白在这种改良培养基中的表达量比优化前提高了至少2倍。     

鸡细胞色素P450 1A5的原核表达与活性重组

旨在对鸡细胞色素P450 1A5(CYP1A5)蛋白进行体外功能研究,采用大肠杆菌系统进行CYP1A5的异源表达。以鸡的cDNA为模板,扩增出CYP1A5基因,将该基因的N端编码区进行修饰,并连接到pCW载体中构建His-CYP1A5,经IPTG诱导在大肠杆菌中表达。经CO-差示光谱检测,所获得的His-CYP1A5具有典型的P450吸收峰。该蛋白与细胞色素P450还原酶(CPR)进行体外重组,构成的重组酶系表现出乙氧基试卤灵-O-脱乙基酶活性。结果表明,所采用的表达策略可以成功产生出具有催化活性的鸡细胞色素P450 1A5(CYP1A5)蛋白。     

人工合成人溶菌酶基因在大肠杆菌中表达

利用DNA重组技术生产自然界不能或难以得到的多肽产品用于医药、农业、食品工业等领域,目前在生物领域已有了很大的进展。近年来,科学工作者经体外合成人溶菌酶基因,经克隆、转化,在真核、原核细胞中获得表达^[1-3]。溶菌酶能水解革兰氏阳性菌细胞壁上的β-1,4糖苷键,在内部渗透压的作用下,细胞胀裂开[4,5]。它对有些革兰氏阴性菌,如埃希氏大肠杆菌、伤寒沙门氏菌,也有同样作用。因此此酶在食品,特别是在医药上具有重要意义。在这篇文章中,我们报道人工合成人溶酶的克隆和在 温控启动子P_RP_L调控下在大肠杆菌中的表达。     

Downregulated mRNA expression of ASPP and the hypermethylation of the 5'-untranslated region in cancer cell lines retaining wild-type p53

The p53 protein is one of the best-known tumour suppressors. Recently discovered ASPP1 and ASPP2 are specific activators of p53. To understand, if apoptosis-stimulating protein of p53 (ASPP) inactivation offers a selective advantage to tumors that have wild-type p53, we measured the mRNA expression of ASPP1 and ASPP2 in tumor cell lines retaining wide-type p53. In addition, the CpG island methylation status of ASPP1 gene and ASPP2 gene in the 5'-untranslated region was also investigated in order to understand the possible cause of abnormal expression of ASPP1 and ASPP2 in the tumor cell lines retaining wide-type p53. The data showed that mRNA expression of ASPP1 and ASPP2 is downregulated and CpG island tested is hypermethylated. These results indicated that ASPP CpG island aberrant methylation could be one molecular and genetic alteration in wild-type p53 tumours.     

耐热DNA聚合酶基因的克隆及在大肠杆菌中的表达

用PCR法从水生栖热菌菌株YT－1中扩增耐热DNA聚合酶基因,得到2．5kb的DNA片段t扩增片段重组到pUCl8中测序证实为Taq DNA聚合酶基因,将该片段重组到pBV221温控表达质粒中,在大肠杆菌中表达出94kDa的重组蛋白,100ml培养物的细胞产酶为1．5×10⁵u,表达的蛋白能催化PCR反应的进行。     

Plasmid vectors designed for high-efficiency expression controlled by the portable recA promoter-operator of Escherichia coli

A novel expression vector using the 236-bp promoter-operator fragment of the recA gene (recApo) of Escherichia coli has been constructed. This DNA fragment contains complete signals for the initiation of RNA synthesis, as well as for regulation by the lexA product, but lacks the coding sequence for the RecA protein. The strength of the recA promoter was examined by assaying beta-galactosidase activity expressed from a cro-lacZ fused gene placed downstream of the promoter. Under noninducing conditions, the promoter was regulated by the LexA protein, and the fused gene was expressed only weakly. Upon induction by nalidixic acid in a recA+ strain, high expression was observed for an extended period. After 5 h under inducing conditions, as much as 11% of the total cellular protein was cro-lacZ product. The expression level was higher than that from promoters of lac, trp, and lambda early genes.     

盐藻PDS基因的同源克隆及在大肠杆菌中的表达

【目的】八氢番茄红素脱氢酶PDS为真核膜结合蛋白,我们通过更换不同的表达策略,探索在大肠杆菌中表达真核膜结合蛋白的方式。【方法】利用RACE的方法克隆盐藻PDS的全长c DNA序列。利用原核表达载体p ET-28a构建p ET-28a-PDS表达载体;使用PLtac启动子替换T7启动子构建p ET-PLtacPDS表达载体;合成Mistic序列融合入p ET-28 a中构建了p ET-Mistic-PDS融合表达载体。分别转化入大肠杆菌BL21(DE3)中进行原核表达。【结果】获得了盐藻PDS基因的全长c DNA序列2237 bp,开放阅读框为1749 bp,共编码582个氨基酸(NCBI登录号为GQ923693.1)。利用p ET-28a-PDS和p ET-PLtacPDS表达的PDS蛋白表达量低,并以包涵体形式存在;利用p ET-Mistic-PDS载体表达的PDS蛋白表达量明显提高,且大部分以可溶蛋白形式存在,具有脱氢酶活性。【结论】实验结果表明Mistic作为促溶标签能促进膜蛋白的正确折叠,提高蛋白的可溶性。蛋白酶活测定结果证明了Mistic的融合可以保持蛋白的天然活性。     

重组葡激酶基因在大肠杆菌内的高水平表达及生物学活性研究

将测序后的葡激酶重组质粒ＰＵＣ－ＳＡＫ经酶切后,组装于表达载体ｐＢＶ２２０,构建成ｐＢＶ－ＳＡＫ表达质粒,转化大肠杆菌。重组葡激酶表达水平达６０％～７０％,相对分子质量为 １５ ５００,主要以可溶状态存在于细胞中。生物活性测定证实,重组葡激酶具有很强的纤溶活性。     

Production of bioactive human beta-defensin 5 and 6 in Escherichia coli by soluble fusion expression

This work reports the first successful recombinant expression and purification of human beta-defensin 5 (HBD5) and human beta-defensin 6 (HBD6) in Escherichia coli. HBD5 and HBD6 are cationic antimicrobial peptides with three conserved cysteine disulfide bonds. Two codon-optimized sequences coding the HBD5 gene (sHBD5) and HBD6 gene (sHBD6), respectively, were synthesized, and each gene fused with thioredoxin A (TrxA) to construct the expression vectors. The plasmids were transformed into E. coli BL21 (DE3) strains and cultured in MBL medium, which gave high volumetric productivity of HBD5 and HBD6 fusion proteins of up to 1.49 g L⁻¹ and 1.57 g L⁻¹, respectively. Soluble HBD5 and HBD6 fusion proteins account for 95.2% and 97.6% of the total fusion proteins, respectively. After cell disruption, the soluble fusion proteins were recovered by affinity chromatography and cleaved by enterokinase. Pure HBD5 and HBD6 were recovered using cationic exchange chromatography. The overall recoveries of HBD5 and HBD6 were 38% and 35%, respectively. Importantly, both HBD5 and HBD6 products showed antimicrobial activity against E. coli but not Staphylococcus aureus. Antimicrobial activity against E. coli of both HBD5 and HBD6 were suppressed by NaCl.     

CS3纤毛抗原表达调控机理的研究

CS3亚基结构基因的核苷酸序列分析表明,在其翻译起始位点的上游存在着rbs位点及原核启动子的—10区和—35区DNA序列。凝胶阻滞和启动报告基因表达的实验确证了CS3亚基结构基因具有自身的启动子(Ps),怛它的作用受其上游区域的抑制。核苷酸序列分析发现,在Ps—35区上游550bp和840bp处各存在一个富A-T簇。结合原核启动子的一般作用规律推知,CS3的表达可能受DNA结合蛋白型的正向调节因子的作用,互补实验结果表明cfaD基因不仅可消除上游区对Ps的抑制,而且可大幅度地提高Ps的启动能力。在分析表达调控的基础上获得CS3重组高效表达。同时提出了其表达调控模型。