Genome-wide bioinformatic prediction and experimental evaluation of potential RNA thermometers

Only recently, the fundamental role of regulatory RNAs in prokaryotes and eukaryotes has been appreciated. We developed a pipeline from bioinformatic prediction to experimental validation of new RNA thermometers. Known RNA thermometers are located in the 5′-untranslated region of certain heat shock or virulence genes and control translation by temperature-dependent base pairing of the ribosome binding site. We established the searchable database RNA-SURIBA (Structures of Untranslated Regions In BActeria). A structure-based search pattern reliably recognizes known RNA thermometers and predicts related structures upstream of annotated genes in complete genome sequences. The known ROSE₁ (Repression Of heat Shock gene Expression) thermometer and several other functional ROSE-like elements were correctly predicted. For further investigation, we chose a new candidate upstream of the phage shock gene D (pspD) in the pspABCDE operon of E. coli. We established a new reporter gene system that measures translational control at heat shock temperatures and we demonstrated that the upstream region of pspD does not confer temperature control to the phage shock gene. However, translational efficiency was modulated by a point mutation stabilizing the predicted hairpin. Testing other candidates by this structure prediction and validation process will lead to new insights into the requirements for biologically active RNA thermometers. The database is available on . Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

RRM RNA结合蛋白的结构与功能

RRM RNA结合蛋白是一类含一个或数个RRM结构域及附属结构域的RNA结合蛋白,参与RNA前体的剪接、RNA的细胞定位、RNA的稳定性等多种转录后调控过程.在RRM基序中含有许多保守的氨基酸以保证对RNA的结合活性,但是这一家族的不同蛋白质却能特异地结合各种不同的RNA分子.RRM RNA结合蛋白与某些人类遗传性疾病及肿瘤相关.     

RNA interference: Biology and prospects of application in biomedicine and biotechnology

RNA interference is one of the most important mechanisms regulating gene expression. Small interfering RNAs (siRNAs) play an essential role in cell defense against virus infection or retrotransposons. The use of siRNAs gives wide opportunities for treating virus infections and cancer. RNA interference allows rapid construction of monogenic functional knockouts, thereby providing a convenient tool for researchers. The review considers the current views of the mechanisms of RNA interference and modern approaches to its practical application.     

Hierarchy in Hfq Chaperon Occupancy of Small RNA Targets Plays a Major Role in Their Regulation

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Interfacial amino acids support Spa47 oligomerization and shigella type three secretion system activation

Like many Gram-negative pathogens, Shigella rely on a type three secretion system (T3SS) for injection of effector proteins directly into eukaryotic host cells to initiate and sustain infection. Protein secretion through the needle-like type three secretion apparatus (T3SA) requires ATP hydrolysis by the T3SS ATPase Spa47, making it a likely target for in vivo regulation of T3SS activity and an attractive target for small molecule therapeutics against shigellosis. Here, we developed a model of an activated Spa47 homo-hexamer, identifying two distinct regions at each protomer interface that we hypothesized to provide intermolecular interactions supporting Spa47 oligomerization and enzymatic activation. Mutational analysis and a series of high-resolution crystal structures confirm the importance of these residues, as many of the engineered mutants are unable to form oligomers and efficiently hydrolyze ATP in vitro. Furthermore, in vivo evaluation of Shigella virulence phenotype uncovered a strong correlation between T3SS effector protein secretion, host cell membrane disruption, and cellular invasion by the tested mutant strains, suggesting that perturbation of the identified interfacial residues/interactions influences Spa47 activity through preventing oligomer formation, which in turn regulates Shigella virulence. The most impactful mutations are observed within the conserved Site 2 interface where the native residues support oligomerization and likely contribute to a complex hydrogen bonding network that organizes the active site and supports catalysis. The critical reliance on these conserved residues suggests that aspects of T3SS regulation may also be conserved, providing promise for the development of a cross-species therapeutic that broadly targets T3SS ATPase oligomerization and activation.     

Induction of the Yersinia type 3 secretion system as an all-or-none phenomenon

Pathogenic Yersinia spp. possess a protein secretion system, designated as type 3, that plays a clear role in promoting their survival vis-à-vis the macrophage. Inductive expression of the Yersinia type 3 secretion system (T3SS), triggered either by host cell contact, or, in the absence of host cells, by a reduction in extracellular calcium ion levels, is accompanied by a withdrawal from the bacterial division cycle. Here, we analyzed Ca(2+)-dependent induction of the T3SS at the single-cell level to understand how Yersinia coordinates pro-survival and growth-related activities. We utilized a novel high-throughput quantitative microscopy approach as well as flow cytometry to determine how Ca(2+) levels, T3SS expression, and cellular division are interrelated. Our analysis showed that there is a high degree of homogeneity in terms of T3SS expression levels among a population of Y. pseudotuberculosis cells following the removal of Ca(2+), and that T3SS expression appears to be independent of the cellular division cycle. Unexpectedly, our analysis showed that Ca(2+) levels are inversely related to the initiation of inductive T3SS expression, and not to the intensity of activation once initiated, thus providing a basis for the seemingly graded response of T3SS activation observed in bulk-level analyses. The properties of the system described here display both similarities to and differences from that of the lac operon first described 50 years ago by Novick and Weiner.     

鼠疫菌毒力调控研究

鼠疫菌通过一系列转录调控子(如CRP、PhoP、RovA和Fur)控制着一些关键毒力因子(如Pla、强毒力岛、III型分泌系统等)的基因表达。鼠疫菌可感应宿主体内信号刺激,紧密调控毒力因子的表达。在这个紧密调控过程中,调控子、毒力相关基因构成了一个动态网络。鼠疫菌在从假结核菌祖先演化的进程中,基因表达调控网络的重塑在鼠疫菌毒力进化过程中发挥着不可取代的作用。     

空肠弯曲菌Ⅵ型分泌系统研究进展

Ⅵ型分泌系统(Type Ⅵ Secretion System,T6SS)是一种倒置于细胞膜上的类噬菌体样结构,能够输送效应蛋白并在定殖和生态位建立中发挥作用.近年来,在空肠弯曲菌(Campylobacter jejuni)中发现了T6SS同源基因且能够表达组装成结构完整的T6SS,但T6SS对空肠弯曲菌的毒力影响尚不清...     

Automated classification of RNA 3D motifs and the RNA 3D Motif Atlas

The analysis of atomic-resolution RNA three-dimensional (3D) structures reveals that many internal and hairpin loops are modular, recurrent, and structured by conserved non-Watson–Crick base pairs. Structurally similar loops define RNA 3D motifs that are conserved in homologous RNA molecules, but can also occur at nonhomologous sites in diverse RNAs, and which often vary in sequence. To further our understanding of RNA motif structure and sequence variability and to provide a useful resource for structure modeling and prediction, we present a new method for automated classification of internal and hairpin loop RNA 3D motifs and a new online database called the RNA 3D Motif Atlas. To classify the motif instances, a representative set of internal and hairpin loops is automatically extracted from a nonredundant list of RNA-containing PDB files. Their structures are compared geometrically, all-against-all, using the FR3D program suite. The loops are clustered into motif groups, taking into account geometric similarity and structural annotations and making allowance for a variable number of bulged bases. The automated procedure that we have implemented identifies all hairpin and internal loop motifs previously described in the literature. All motif instances and motif groups are assigned unique and stable identifiers and are made available in the RNA 3D Motif Atlas (http://rna.bgsu.edu/motifs), which is automatically updated every four weeks. The RNA 3D Motif Atlas provides an interactive user interface for exploring motif diversity and tools for programmatic data access.     

YscU/FlhB of Yersinia pseudotuberculosis Harbors a C-terminal Type III Secretion Signal

All type III secretion systems (T3SS) harbor a member of the YscU/FlhB family of proteins that is characterized by an auto-proteolytic process that occurs at a conserved cytoplasmic NPTH motif. We have previously demonstrated that YscU_CC, the C-terminal peptide generated by auto-proteolysis of Yersinia pseudotuberculosis YscU, is secreted by the T3SS when bacteria are grown in Ca²⁺-depleted medium at 37 °C. Here, we investigated the secretion of this early T3S-substrate and showed that YscU_CC encompasses a specific C-terminal T3S signal within the 15 last residues (U₁₅). U₁₅ promoted C-terminal secretion of reporter proteins like GST and YopE lacking its native secretion signal. Similar to the “classical” N-terminal secretion signal, U₁₅ interacted with the ATPase YscN. Although U₁₅ is critical for YscU_CC secretion, deletion of the C-terminal secretion signal of YscU_CC did neither affect Yop secretion nor Yop translocation. However, these deletions resulted in increased secretion of YscF, the needle subunit. Thus, these results suggest that YscU via its C-terminal secretion signal is involved in regulation of the YscF secretion.     

Conserved Salt Bridges Facilitate Assembly of the Helical Core Export Apparatus of a Salmonella enterica Type III Secretion System

Virulence-associated type III secretion systems (T3SS) are utilized by Gram negative bacterial pathogens for injection of effector proteins into eukaryotic host cells. The transmembrane export apparatus at the core of T3SS is composed of a unique helical complex of the hydrophobic proteins SctR, SctS, SctT, and SctU. These components comprise a number of highly conserved charged residues within their hydrophobic domains. The structure of the closed state of the core complex SctR₅S₄T₁ revealed that several of these residues form inter- and intramolecular salt bridges, some of which have to be broken for pore opening. Mutagenesis of individual residues was shown to compromise assembly or secretion of both, the virulence-associated and the related flagellar T3SS. However, the exact role of these conserved charged residues in the assembly and function of T3SS remains elusive. Here we performed an in-depth mutagenesis analysis of these residues in the T3SS of Salmonella Typhimurium, coupled to blue native PAGE, in vivo photocrosslinking and luciferase-based secretion assays. Our data show that these conserved salt bridges are not critical for assembly of the respective protein but rather facilitate the incorporation of the following subunit into the assembling complex. Our data also indicate that these conserved charged residues are critical for type III-dependent secretion and reveal a functional link between SctS_E44 and SctT_R204 and the cytoplasmic domain of SctU in gating the T3SS injectisome. Overall, our analysis provides an unprecedented insight into the delicate requirements for the assembly and function of the machinery at the core of T3SS.     

细菌Ⅵ型分泌系统的调控与功能研究进展

Ⅵ型分泌系统(Type Ⅵ Secretion System,T6SS)是近年来研究较多的一种细菌分泌系统,广泛存在于革兰氏阴性菌中,在细菌的毒力、定殖、扩散及竞争遗传中发挥着重要的作用.本文综述了细菌T6SS的结构、调控以及生物学功能的最新研究进展,以期为基于T6SS的抗菌药物研制及细菌感染的诊断与防控提供新思路.