Feedback regulation of RNA polymerase subunit synthesis after the conditional overproduction of RNA polymerase in Escherichia coli

Summary The and subunit of RNA polymerase are thought to be controlled by a translational feedback mechanism regulated by the concentration of RNA polymerase holoenzyme. To study this regulation in vivo, an inducible RNA polymerase overproduction system was developed. This system utilizes plasmids from two incompatibility groups that carry RNA polymerase subunit genes under lac promoter/operator control. When the structural genes encoding the components of core RNA polymerase (, and ) or holoenzyme (, , and ⁷⁰) are present on the plasmids, induction of the lac promoter results in a two fold increase in the concentration of functional RNA polymerase. The induction of RNA polymerase overproduction is characterized by an initial large burst of synthesis followed by a gradual decrease as the concentration of RNA polymerase increases. Overproduction of RNA polymerase in a strain carrying an electrophoretic mobility mutation in the rpoB gene results in the specific repression of synthesis off the chromosome. These results indicate that RNA polymerase feedback regulation controls synthesis in vivo.     

利用ELP自断裂标签在大肠杆菌中生产抗菌肽Oxysterlin 1

抗菌肽是目前最有希望的抗生素替代品,但是使用重组技术生产抗菌肽的策略大多步骤烦琐且价格昂贵,不利于抗菌肽的规模化生产.Oxysterlin 1是一种新型的天蚕素抗菌肽,主要对革兰氏阴性菌有抗菌活性,具有较低的细胞毒性.文中利用一种简单经济的方法在大肠杆菌中实现Oxysterlin 1的表达和纯化.将Oxysterlin...     

Monoclonal antibodies inhibiting RNA polymerase from Escherichia coli

Monoclonal hybridoma antibodies directed against RNA polymerase from E. coli have been obtained. Only a few have been found to inhibit the enzyme activity. Antibodies produced by two clones, PYN-1 and PYN-2, inhibit RNA polymerase at the stage of RNA chain elongation. The PYN-1 antibodies react with the beta'-subunit of the enzyme. The PYN-2 antibodies react with the beta-subunit and with its 130 kDa amber fragment.     

Heat shock response in Escherichia coli promotes assembly of plasmid encoded RNA polymerase beta-subunit into RNA polymerase

Summary Escherichia coli cells, carrying a rifampicin sensitive RNA polymerase -subunit gene in the chromosome and a rifampicin resistant -subunit gene placed under the control of a strong promoter in a multicopy plasmid, are unable to grow in the presence of rifampicin, despite the accumulation of large quantities of the resistant subunit. A major portion of the overproduced subunit is found in an insoluble form. Conditions known to induce the heat shock proteins (hsps), e.g. elevated temperature or the presence of ethanol in the growth medium, increase the amount of the plasmid-borne -subunit which apparently assembles into active RNA polymerase and makes the plasmid bearing cells rifampicin resistant. Alternatively, plasmid-borne subunits assemble into RNA polymerase with low efficiency in rpoH mutant cells known to have reduced level of hsps. We suggest that the plasmid-borne subunit is poorly assembled into RNA polymerase and that hsps promote the assembly by interfering with -subunit aggregation.     

Expression of srnB gene of F plasmid by altered RNA polymerase in Escherichia coli

Degradation of otherwise stable rRNA and tRNA takes place in the presence of rifampin, dependent on the F plasmid srnB gene. We have reported that a protein newly synthesized in the presence of rifampin might be a product of the srnB gene required for stable RNA degradation (Ito, R. and Ohnishi, Y. (1983) Biochim. Biophys. Acta 739, 27–34). Here we have further studied the mechanism of srnB expression. Among eighteen mutants with altered RNA polymerase, two (TJ2470 (rpoC4) and TJ302 (rpoC56)) showed RNA degradation at high temperature (42°C) when the srnB gene was present. Labeling proteins at 42°C in strain TJ2470 indicated that a protein of molecular weight 12 000 was a product of the srnB gene, and that expression of the srnB gene provoked RNA degradation. Using plasmid pTK4, in which the srnB gene is inserted downstream of the promoter of lacZ, lac promoter-dependent expression of the srnB gene, with production of the putative protein product, also induced RNA degradation at 42°C, with no requirement for added rifampin or altered RNA polymerase. RNA degradation in these conditions was quite similar to that in the case of the addition of rifampin; e.g., it showed some responses to Mg²⁺, temperature and RNAase I content of the cells. Expression of the srnB gene dependent on lac promoter was also observed in minicells. Thus, it is inferred that the srnB gene is probably repressed under normal conditions with its own promoter; its expression initiates RNA turnover.     

Fast microscopical dissection of action scenes played by Escherichia coli RNA polymerase

Using fast-scanning atomic force microscopy, we directly visualized the interaction of Escherichia coli RNA polymerase (RNAP) with DNA at the scan rate of 1-2 frames per second. The analyses showed that the RNAP can locate the promoter region not only by sliding but also by hopping and/or segmental transfer. Upon the addition of 0.05 mM NTPs to the stalled complex, the RNAP molecule pulled the template DNA uni-directionally at the rates of 15 nucleotides/s on average. The present method is potentially applicable to examine a variety of protein-nucleic acid interactions, especially those involved in the process of gene regulation.     

大肠杆菌表达的TaqDNA聚合酶的纯化

Taq DNA聚合酶是分子生物学研究中最常用的热稳定DNA聚合酶之一,与其他热稳定DNA聚合酶具有相似的特征,其纯化策略不但有潜在的应用前景,也对同类聚合酶的分离具有指导意义。已报道的适宜大量制备Taq酶的方案所需成本较高,而文章介绍了一种利用国产阳离子交换树脂廉价制备Taq酶的方案。在本方案中,采用热变性、(NH4)SO4沉淀与724离子交换层析分离大肠杆菌表达的Taq酶,约18 g Na型树脂干粉一次可回收比活约8 131.98 U/mg、总酶活2.2×105U、近27.07 mg Taq酶。纯化的产率可达48.92%,纯化倍数约59.35。所制酶SDS-PAGE电泳只检测到94 kDa单一蛋白条带,未检测到DNA核酸酶污染,与商品酶的PCR扩增能力无区别。此纯化方法成本低,适合实验室一般性的制备和生产应用。     

Interaction of Escherichia coli RNA Polymerase with the Eukaryotic TATA-Binding Protein

Interaction with eukaryotic TATA-binding protein (TBP) was analyzed for natural Escherichia coli RNA polymerase or the recombinant holoenzyme, minimal enzyme, or its subunit. Upon preincubation of full-sized RNA polymerase with TBP and further incubation with a constant amount of a ³²P-labeled phosph-amide derivative of a TATA-containing oligodeoxyribonucleotide, the yield of the holoenzyme–oligonucleotide covalent complex decreased with increasing TBP concentration. This was considered as indirect evidence for complexing of RNA polymerase with TBP. In gel retardation assays, the holoenzyme, but neither the minimal enzyme nor the subunit, interacted with TPB, since the labeled probe formed complexes with both proteins in the reaction mixture combining TBP with the minimal enzyme or the subunit. It was assumed that E. coli RNA polymerase is functionally similar to eukaryotic RNA polymerase II, and that the complete ensemble of all subunits is essential for the specific function of the holoenzyme.     

以类弹性蛋白多肽为标签的表达质粒构建及其用于木聚糖酶的非色谱纯化

【目的】旨在构建一个能以非色谱纯化目标蛋白的表达质粒,使用自行设计的类弹性蛋白多肽(ELPs)作为非色谱纯化标签,以纯化目标蛋白。该ELPs长度短,对盐非常敏感。【方法】从头设计了木聚糖酶,将其通过一段无规则卷曲同ELPs相连,合成了编码上述序列的基因,并构建重组表达载体pET-22b-SoxB-M2-S-ELP,转化至大肠杆菌BLR(DE3)中诱导表达,采用可逆相变循环经高速离心纯化木聚糖酶,并考察纯酶的酶学性质。【结果】成功构建了表达载体并表达,在pH=7.0时0.5 mol/L碳酸钠可使ELPs的相变温度降至22℃。在上述条件下,对木聚糖酶进行了非色谱纯化,其纯化倍数为3.2,回收率为21.2%,纯度为64.3%。经测定,未连接ELPs的酶、粗酶及纯化酶学性质基本一致,其最适温度为60℃,最适pH为6.0,最适反应时间为30 min,粗酶70℃保温1 h相对酶活仍有50%,为嗜热木聚糖酶,与预期相符。【结论】ELPs作为非色谱纯化标签纯化重组木聚糖酶具有操作简单、易于放大、成本较低的优势,故所构建的重组质粒可望通用于分离多种重组蛋白,具有较广泛的用途。     

RNA polymerase II acts as an RNA‐dependent RNA polymerase to extend and destabilize a non‐coding RNA

RNA polymerase II (Pol II) is a well‐characterized DNA‐dependent RNA polymerase, which has also been reported to have RNA‐dependent RNA polymerase (RdRP) activity. Natural cellular RNA substrates of mammalian Pol II, however, have not been identified and the cellular function of the Pol II RdRP activity is unknown. We found that Pol II can use a non‐coding RNA, B2 RNA, as both a substrate and a template for its RdRP activity. Pol II extends B2 RNA by 18 nt on its 3′‐end in an internally templated reaction. The RNA product resulting from extension of B2 RNA by the Pol II RdRP can be removed from Pol II by a factor present in nuclear extracts. Treatment of cells with α‐amanitin or actinomycin D revealed that extension of B2 RNA by Pol II destabilizes the RNA. Our studies provide compelling evidence that mammalian Pol II acts as an RdRP to control the stability of a cellular RNA by extending its 3′‐end.     

TRAF6-GST融合蛋白在大肠杆菌中的表达及纯化

目的:在大肠杆菌中表达肿瘤坏死因子受体相关因子6(TRAF6)与GST的融合蛋白并进行纯化。方法:采用PCR方法从肝文库中扩增编码TRAF6的DNA片段,将其插入原核表达载体pGEX-4T-2,构建GST-TRAF6原核表达载体,并转入大肠杆菌BL21(DE3)中,用IPTG诱导表达;用谷胱甘肽-琼脂糖珠亲和纯化表达的GST-TRAF6融合蛋白。结果:酶切鉴定和测序分析显示,长为1569 bp的TRAF6 DNA片段在pGEX-4T-2-TRAF6中的碱基序列、插入位点及读框正确,且位于表达载体的GST序列下游;经IPTG最佳浓度0.5 mmol/L诱导表达、亲和纯化后,获得了相对分子质量约85×103的GST-TRAF6融合蛋白。结论:构建了重组GST-TRAF6原核表达载体,获得了GST-TRAF6的大肠杆菌BL21表达菌株及GST-TRAF6融合蛋白,利于深入研究TRAF6的功能。     

RNA polymerase sigma-related proteins in Escherichia coli: detection by antibodies against a synthetic peptide

Summary Antibodies were raised against a synthetic tetradecameric peptide with an amino acid sequence, DLIQEGNIGLMKAV, which corresponds to the most highly conserved region of bacterial RNA polymerase factors. In a Western-blot analysis of total Escherichia coli proteins, the antiserum reacted specifically with at least three proteins with apparent molecular weights of 75 kDa, 27 kDa and 23 kDa, in addition to the known factors (⁷⁰ and ³²). The majorities of ⁷⁰ and ³² were recovered as associated forms with the RNA polymerase on glycerol gradient centrifugation, while the other cross-reacting proteins were not. Unambiguous evidence was obtained which indicated that the intracellular level of ³² increased rapidly upon heatshock, at least in the strain containing high copy numbers of the rpoH gene.