A new mutation rpoD800, affecting the sigma subunit of E. coli RNA polymerase is allelic to two other sigma mutants

Summary We have characterized a new mutation rpoD800 affecting the sigma gene of E. coli. Upon transfer to high temperature, a strain with the rpoD800 mutation ceases growth within 30 min. We find that this mutation renders sigma about 10-fold more thermolabile than the wild type sigma at 45°C in vitro. We have compared the temperature profile for inactivation of wild type and mutant sigma and find that the mutant inactivates at a temperature about 9° C lower than does the wild type.The chromosomal locus affected by rpoD800 is shown to be allelic to the locus affected by the spontaneous mutants ts285 and alt-1. All three mutations result in altered sigma and in altered growth at high temperature. We argue that the single locus affected is the structural gene for the sigma subunit of E. coli RNA polymerase.     

On the role of the Escherichia coli RNA polymerase sigma factor in T4 phage development

Summary The rpoD800 mutation causing the temperature sensitivity of Escherichia coli RNA polymerase sigma factor has been used to demonstrate that the bacterial sigma factor is necessary throughout T4 phage development. In T4-infected RpoD800 mutant cells RNA synthesis is equally depressed at restrictive temperature at early and late stages of infection. The results show the bacterial sigma factor to be necessary for the synthesis of all RNA types in infected cells.     

Sensitivity to plating of Escherichia coli cells expressing the cryA gene from Bacillus thuringiensis var. israelensis

Summary The gene (cytA) coding for the 27 kDa polypeptide of the Bacillus thuringiensis var. israelensis mosquito larvicidal -endotoxin, was cloned into a plasmid containing the T7 bacteriophage promoter. The plasmid was used to transform an Escherichia coli strain containing the T7 RNA polymerase gene 1, under the control of lacP. Loss of colony-forming ability without substantial lysis, associated with immediate inhibition of DNA synthesis, was observed after induction of transformed cells. The cytA gene product may kill E. colicells by disrupting their chromosome replicating apparatus.     

酿酒酵母中双链RNA介导基因沉默技术研究GRE3基因表达抑制

RNA沉默技术作为探索基因功能的实验手段应用于多种生物. 以编码酿酒酵母NADPH依赖型醛糖还原酶的GRE3基因为对象，检测酿酒酵母双链RNA介导的基因沉默效应. 以pESC-LEU为骨架，构建重组质粒psiLENT-GRE3并用于转化酿酒酵母YPH499. 用RT-PCR检测到诱导1 kb RNA双螺旋和136 bp loop结构引起的GRE3基因表达下调. 结果表明，双链RNA介导的基因沉默技术，能够用作降低酿酒酵母某一特定基因表达水平的工具. 并有助于理解芽殖酵母的RNA干扰现象.     

Analysis of the 3-hydroxyl group in Drosophila siRNA function

Members of the RNA-dependent RNA polymerase (RdRP) gene family have been shown to be essential for dsRNA-mediated gene silencing based on genetic screens in a variety of organisms, including Caenorhabditis elegans, Arabidopsis, Neurospora, and Dictyostelium. A hallmark of this process is the formation of small 21- to 25-bp dsRNAs, termed siRNAs for small interfering RNAs, which are derived from the dsRNA that initiates gene silencing. We have developed methods to demonstrate that these siRNAs produced in Drosophila embryo extract can be uniformly incorporated into dsRNA in a template-specific manner that is subsequently degraded by RNase III-related enzyme activity to create a second generation of siRNAs. SiRNA function in dsRNA synthesis and mRNA degradation depends upon the integrity of the 3^′-hydroxyl of the siRNA, consistent with the interpretation that siRNAs serve as primers for RdRP activity in the formation of dsRNA. This process of siRNA incorporation into dsRNA followed by degradation and the formation of new siRNAs has been termed “degradative PCR” and the proposed mechanism is consistent with the genetic and biochemical data derived from studies in C. elegans, Arabidopsis, Drosophila, and Dictyostelium. The methods used to study the function of both natural and synthetic siRNAs in RNA interference in Drosophila embryo extracts are detailed. The importance of the 3^′-hydroxyl group for siRNA function and its incorporation into dsRNA is emphasized and the results support a model that places RNA-dependent RNA polymerase as a key mediator in the RNA interference mechanism in Drosophila.     

Amber mutants of Salmonella-phage P22 in genes engaged in the establishment of lysogeny

Summary Phage mutants were isolated with amber mutations in genes necessary for establishment of lysogeny. These mutants form turbid plaques on su ⁺ strain 527R1 and clear plaques of different types on LT2. According to complementation tests, fourteen mutants fall in the c ₂ gene, four in the c ₃ gene but no amber mutants were found belonging to the c ₁ gene. Pulse labelling experiments to follow DNA synthesis after phage infection were done with the mutants classified by complementation tests. Furthermore the labelling experiments demonstrated that the nonleaky c ₃ amber mutants displayed the same DNA synthesis pattern as c ₁ missense mutants. Since these c ₃ amber mutants complement missense c ₁ mutants it is concluded that the c ₃ and c ₁ genes must act together for the first transient repression of DNA synthesis, i.e., seven minutes after infection. It is suggested that clear plaque forming c ₁ amber mutants cannot be isolated because of polarity leading to defectivity of lysogenic as well as of lytic functions.The majority of the experiments presented are a part of the dissertation of H. D. Dopatka at the University of Göttingen.     

RNA干扰技术在果蝇中的应用

RNA干扰是双链RNA特异诱导的转录后期基因沉默.该技术随着不断完善而越来越被广泛地运用于果蝇的功能基因组研究上,双链RNA已经成为果蝇中功能基因的一个十分有效的抑制子,势必使RNA干扰技术成为研究果蝇体内基因功能的强有力的反向遗传学研究技术.     

抗菌肽P7抑制大肠杆菌的非膜作用机制北大核心CSCD

【目的】研究抗菌肽P7抑制大肠杆菌的非膜作用机制。【方法】P7与溴化乙锭竞争结合大肠杆菌基因组DNA的荧光光谱,分析P7与DNA的结合方式;流式细胞术分析P7与大肠杆菌基因组DNA结合对细菌细胞周期的影响;采用磁珠富集和PCR扩增相结合的方法分析P7特异结合的DNA序列;通过实时荧光定量PCR分析P7对大肠杆菌DNA复制和SOS损伤修复基因表达的影响;核酸染料的荧光分析研究P7对大肠杆菌DNA和RNA合成的影响。【结果】P7以嵌插的方式作用于大肠杆菌基因组DNA碱基对并形成肽-DNA复合物,使溴化乙锭-DNA复合体系的荧光强度减弱。P7可以显著增加大肠杆菌细胞周期中S期细胞数目,抑制大肠杆菌DNA复制。P7特异性结合rnh A使该基因表达水平显著下调2.24倍。同时,在肽的影响下参与大肠杆菌DNA复制相关的ssb、dna G、lig B和rnh A基因的表达水平显著下调(P<0.05),DNA损伤修复的rec A和rec N基因显著上调(P<0.05)。P7可降低大肠杆菌DNA和RNA的合成。【结论】P7特异性地结合rnh A序列引起大肠杆菌DNA的损伤并抑制大肠杆菌的DNA复制。在P7的影响下,参与大肠杆菌DNA复制相关的基因的表达水平下调,DNA损伤修复基因显著上调,同时抑制大肠杆菌DNA和RNA的合成。     

嗜水气单胞菌菌落多重PCR方法的建立及应用

[背景]嗜水气单胞菌(Aeromonas hydrophila)对水产动物、畜禽和人类均有致病性.基因表达的溶血素、气溶素和肠毒素是重要毒力因子,在致病性嗜水气单胞菌早期检测及防治中尤为重要.目前采用菌落直接提取DNA用于多重PCR研究的相关报道较少.[目的]基于菌落PCR方法建立针对嗜水气单胞菌溶血性基因、肠毒素基因...     

生物大分子从头合成和设计的研究进展

生物大分子指生物体内存在的DNA、蛋白质、多糖等物质,其对生物体正常生命活动至关重要.从头合成和设计技术在生物大分子的合成和结构设计上具有自由度高、前体简单等特点,能够按照特定研究目的对生物大分子进行全新设计和高效合成.近年来,从头合成与设计技术在人造基因组合成、新型蛋白质类药物设计、糖缀合物合成等领域已开始受到重视.基于生物大分子从头合成和设计技术,可以定向制备全新设计的DNA或全新的基因表达产物,以及具有识别功能的糖链或糖缀合物,将大大推进诸如细胞因子模拟物、基因治疗递送载体等生物活性物质的开发,为人工生物系统的构建、罕见疾病的治疗等提供新的解决方法.本文就DNA、蛋白质和多糖的从头合成和设计进行了综述,阐述了相关方法及应用,最后概括分析了三者之间的关系.     

荧光素酶mRNA的构建及电穿孔介导的mRNA体内表达特性北大核心CSCD

为构建一种非复制型mRNA平台并探究电穿孔介导的mRNA对小鼠健康状况的影响及蛋白的表达情况,以荧光素酶作为靶标基因,用T7 RNA聚合酶体外转录及酶法加帽加尾的策略制备mRNA,用活体基因导入仪通过电穿孔的方式体内递送mRNA,借助小动物活体成像系统观测荧光素酶蛋白在小鼠体内的表达强度和持续时间。结果表明,使用该非复制型mRNA平台得到的mRNA成功在体内外表达,电穿孔介导的mRNA对小鼠健康体征无明显影响,所有的小鼠均成功表达了荧光素酶蛋白,蛋白表达在电穿孔后第1天达到峰值,在第4天迅速下降,但蛋白表达强度和持续时间存在较大的小鼠个体间差异。研究对非复制型mRNA的构建及其应用于疫苗或肿瘤药物研发具有重要参考价值。     

altFGF-2, A Novel ER-Associated FGF-2 Protein Isoform: Its Embryonic Distribution and Functional Analysis during Neural Tube Development

A novel fibroblast growth factor-2 (FGF-2) protein isoform, calledaltFGF-2, is expressed abundantly during chicken embryogenesis. The amino-terminal domain of the 21.5-kDaaltFGF-2 protein diverges completely from the other three FGF-2 proteins due to alternative splicing of their first coding exons. Furthermore, thealtFGF-2 protein, in contrast to FGF-2 proteins, is targeted predominantly to the endoplasmic reticulum. In chicken embryos,altFGF-2 and FGF-2 proteins are differentially distributed in several mesodermal structures including developing limbs and kidneys. All four FGF-2 protein isoforms are also expressed in the developing neural tube from early neural plate stages onward. In contrast to FGF-2 proteins, thealtFGF-2 isoform is distributed in a dynamic, spatially restricted pattern in notochord and ventral neural tube (floor plate and motor neurons) during specification of neuronal populations. To study the possible shared or differential signaling functions of chickenaltFGF-2 and FGF-2 gene products, they were ectopically expressed in the dorsal neural tube aspect of transgenic mouse embryos. Dorsal expression ofaltFGF-2, but not FGF-2 gene products, induced alteration of neural tube morphology in a significant fraction of mouse embryos (25%). However, no alterations of dorsoventral (d/v) neural tube polarity were detected, indicating thataltFGF-2 and FGF-2 gene products either function as permissive cofactors or regulate neural tube growth without affecting establishment of its primary d/v polarity.     

Molecular cloning of a gene required for DNA replication in Ustilago maydis

TSD2, a gene necessary for DNA synthesis in Ustilago maydis, was cloned by complementation of the temperature sensitive growth defect of a mutant known previously as pol1-1 and renamed here tsd2-1. Linkage analysis established that the cloned fragment contained an allele of tsd2-1 and not a suppressor. DNA sequence determination of the cloned DNA fragment indicated the presence of a single large uninterrupted open reading frame capable of encoding a protein of 845 amino acids without homology to any known gene involved in DNA synthesis. TSD2 was found to be cell cycle-regulated and mRNA levels peaked in early S or G₁ phase. Received: 27 March 1996 / Accepted: 28 August 1996     

Rates of growth, ribosome synthesis and elongation factor synthesis in a tufA defective strain of E. coli

Summary A tufA defective strain of E. coli was isolated which by a single deletion event acquired a tufA-lacZ fusion gene and lost the normal functional tufA gene (see accompanying paper). A correlation between the growth rate and the rate of ribosome synthesis showed that the average rate of protein synthesis was decreased to about 50% in the tufA defective strain whereas the number of EF-Tu molecules per ribosome was about 80% compared to a normal strain. The results indicate that tufB gene expression was preferentially stimulated in the tufA defective strain but the increased EF-TuB synthesis was not sufficient to make up for the loss of normal EF-TuA synthesis. Introduction of a plasmid that carries a complete tufA gene and the preceeding fusA gene but not the str-promotor into the tufA defective strain did not alleviate the slow growth or low rate of EF-Tu synthesis showing that the high rate of EF-TuA synthesis compared to the other proteins in the str operon is not augmented by a strong second promotor for the tufA gene. The tufA-lacZ fusion which takes the place of the normal tufA gene was expressed at a high rate and the -galactosidase activity increased with the growth rate as expected.     

FemA, a host-mediated factor essential for methicillin resistance in Staphylococcus aureus: Molecular cloning and characterization

Summary The methicillin resistance determinant (mec) in Staphylococcus aureus resides on additional DNA not present in isogenic sensitive cells. However, besides mec, other chromosomally determined factors are essential for expression of methicillin resistance. We cloned and characterized a chromosomally determined gene which encodes a factor essential for the expression of methicillin resistance (femA) in S. aureus. femA mapped in chromosomal segment number 18, genetically very distant from the methicillin resistance determinant (mec). The product of femA was a protein of an apparent size of 48 kDa. FemA restored methicillin resistance in S. aureus that had become sensitive to methicillin by insertion of 22003 (femA::Tn551). Although FemA was needed for cell growth in the presence of -lactam antibiotics, it had no influence on the synthesis of the low affinity, additional penicillin-binding protein (PBP2) encoded by mec and known to be essential for cell wall synthesis in the presence of inhibitory concentrations of methicillin. Nucleotide sequence analysis, Northern RNA blotting and S1 nuclease RNA mapping suggested that femA was transcribed on a polycistronic mRNA. This mRNA contained the coding region for FemA (ORF433) and a second coding region (ORF419) producing a protein of 47 kDa. The nucleotide and amino acid sequence of FemA showed homologies with ORF419, suggesting that these genes arose by gene duplication. In addition we present evidence for a second chromosomal factor, femB, involved in expression of methicillin resistance which maps close to femA.