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Investigations of Hfq-RNA Interactions

Hfq-RNA 相互作用的研究

基本信息

批准号：
7484120
负责人：
ANDREW L FEIG
金额：
$ 21.72万
依托单位：
WAYNE STATE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2005
资助国家：
美国
起止时间：
2005-08-01 至 2010-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7484120
关键词：
Address Affinity Amino Acids Area Bacteria Bacteria sigma factor KatF protein Bacteriophages Binding Binding Sites Biological Biological Assay Biological Process Biology Chemicals Clostridium perfringens Complex Condition Data Defect Distal Elements Enteral Environment Escherichia coli Face Functional RNA Gap Junctions Gas Gangrene Gene Expression Regulation Goals Growth Heat-Shock Response Heterogeneous Nuclear RNA In Vitro Integration Host Factors Internet Investigation LacZ Genes Lead Libraries Link Listeria monocytogenes Localized Maps Mass Spectrum Analysis Mediating Messenger RNA Metabolism Modeling Molecular Mutation Nexus (resin cement)Nucleotides Organism Osmotic Shocks Oxidative Stress Pathogenesis Pathway interactions Phylogenetic Analysis Play Polyadenylation Polyadenylation Pathway Polymerase Proteins Pseudomonas aeruginosa RNA RNA Binding RNA Biochemistry RNA Degradation RNA Splicing RNA-Binding Proteins Reaction Regulation Relative (related person)Reporter Research Personnel Ribosomal Proteins Role Series Shock Side Sigma Factor Structure Surface System Temperature Testing Translational Regulation Translations Untranslated Regions Vibrio cholerae Virulence Work base crosslink domain mapping gene repression in vivo mRNA Precursor member mutant novel nucleotide analog particle pathogen programs protein expression research study response ribonuclease E snRNP Structural Core Protein tool

项目摘要

DESCRIPTION (provided by applicant): Hfq is a bacterial Sm-like protein involved in several aspects of RNA biochemistry. This protein facilitates RNA-RNA interactions during post-transcriptional gene regulation. In these pathways, small non-coding RNAs (ncRNAs) regulate mRNA targets to facilitate adaption to environmental conditions like cold shock, heat shock, osmotic shock and oxidative stress. Hfq interacts tightly with many RNA partners and yet it seems to assemble the correct ncRNA-mRNA partnerships with high fidelity without becoming trapped in inactive complexes. The work in this proposal seeks to understand from a chemical and biological perspective how Hfq functions. Aim 1 looks at the molecular handshakes involved in the strand displacement reaction which alters the translational state of the structurally repressed rpoS mRNA. We have evidence that this interaction involves ternary complexes and seek to trap and analyze intermediates along the reaction pathway. We will then test the validity of our models based on in vitro data by assessing in vivo, the effect of these mutations. Aim 2 probes more deeply the binary interactions invovled in Hfq's recognition of its ncRNA and mRNA partners. By using nucleotide analog interferences mapping and photocrosslinking studies we will characterize the structural features and atomic contacts required for high affinity binding. Aim 3 further analyzes a series of Hfq mutants that we have previously generated. Using this library of mutants, we have begun to differentiate the contact surfaces involved in Hfq's various biological functions. As a continuation of these studies in vivo, we will be addressing the question of whether additional protein components are involved in some of these pathways as part of a larger macromolecular assemblages. Aim 4 takes our work in a new direction. Hfq has recently been implicated in bacterial virulence in several organisms. We have now shown that a novel ncRNA called VR-RNA from C. perfingens (an organism that causes gas gangrene among other ailments) binds Hfq with high affinity. We will be map how Hfq and VR-RNA are invovled in virulence of this Gram positive organism and begin to understand the similarities and differences in these regulatory networks.

描述（由申请人提供）：Hfq是一种细菌Sm样蛋白，参与RNA生物化学的几个方面。该蛋白在转录后基因调控期间促进RNA-RNA相互作用。在这些途径中，小的非编码RNA（ncRNA）调节mRNA靶点以促进对环境条件如冷休克、热休克、渗透压休克和氧化应激的适应。Hfq与许多RNA伴侣紧密相互作用，但它似乎以高保真度组装正确的ncRNA-mRNA伴侣，而不会被困在非活性复合物中。该提案中的工作旨在从化学和生物学角度了解Hfq的功能。目的1着眼于参与链置换反应的分子握手，该反应改变了结构抑制的rpoS mRNA的翻译状态。我们有证据表明，这种相互作用涉及三元复合物，并试图捕获和分析中间体沿着反应途径。然后，我们将通过评估体内这些突变的影响，基于体外数据测试我们模型的有效性。目的2更深入地探讨Hfq识别其ncRNA和mRNA伴侣的二元相互作用。通过使用核苷酸类似物干扰映射和光交联研究，我们将表征高亲和力结合所需的结构特征和原子接触。目的3进一步分析了我们先前产生的一系列Hfq突变体。使用这个突变体库，我们已经开始区分参与Hfq的各种生物功能的接触表面。作为这些研究在体内的延续，我们将解决的问题，是否额外的蛋白质成分参与其中一些途径作为一个更大的大分子组装的一部分。目标4将我们的工作引向新的方向。Hfq最近在几种生物体中与细菌毒力有关。我们现在已经证明，一种新的ncRNA称为VR-RNA从C。产气荚膜梭菌（一种引起气性坏疽和其他疾病的生物体）以高亲和力结合Hfq。我们将绘制Hfq和VR-RNA如何参与这种革兰氏阳性微生物的毒力，并开始了解这些调控网络的相似性和差异。