Novel aspects of RNA regulation in Staphylococcus aureus

A plethora of RNAs with regulatory functions has been discovered in many non-pathogenic and pathogenic bacteria. In Staphylococcus aureus, recent findings show that a large variety of RNAs control target gene expression by diverse mechanisms and many of them are expressed in response to specific internal or external signals. These RNAs comprise trans-acting RNAs, which regulate gene expression through binding with mRNAs, and cis-acting regulatory regions of mRNAs. Some of them possess multiple functions and encode small but functional peptides. In this review, we will present several examples of RNAs regulating pathogenesis, antibiotic resistance, and host-pathogen interactions and will illustrate how regulatory proteins and RNAs form complex regulatory circuits to express the virulence factors in a dynamic manner.     

Identification of microRNA-Size, Small RNAs in Escherichia coli

Noncoding small regulatory RNA molecules control gene expression and microRNAs provide one of the best examples in eukaryotes. However, bacterial RNAs of comparable size to eukaryotic microRNAs have received little attention. Here, we demonstrate the existence of microRNA-size, small RNAs (msRNAs) in the model bacterium Escherichia coli. We examined the small RNAs in E. coli using a deep sequencing approach, and analyzed 33.2 million small RNA clone reads after size fractionation. Bioinformatic analysis of the whole set revealed more than 400 individual msRNA species. The cellular contents of selected highly expressed msRNAs were verified by quantitative RT-PCR and northern blotting. Although, the functional significance of these RNAs is unclear, their high abundance suggests that they may play specialized roles in bacteria, analogous to miRNAs in eukaryotes.     

Characterization of the small RNA transcriptome in plant–microbe (Brassica/Erwinia) interactions by high-throughput sequencing

Non-coding, small RNAs (sRNAs) have been identified in a wide spectrum of organisms ranging from bacteria to humans; however, the role and mechanisms of these sRNA in plant immunity is largely unknown. To determine possible roles of sRNA in plant–pathogen interaction, we carried out a high-throughput sRNA sequencing of Brassica campestris using non-infected plants and plants infected with Erwinia carotovora. Consistent with our hypothesis that distinct classes of host sRNAs alerts their expression levels in response to infection, we found that: (1) host 28-nt sRNAs were strongly increased under pathogen infection; and (2) a group of host sRNAs homologous to the pathogen genome also accumulated at significantly higher level. Our data thus suggest several distinct classes of the host sRNAs may enhance their function by up-regulation of their expression/stability in response to bacterial pathogen challenges.     

Bacterial noncoding Y RNAs are widespread and mimic tRNAs

Many bacteria encode an ortholog of the Ro60 autoantigen, a ring-shaped protein that is bound in animal cells to noncoding RNAs (ncRNAs) called Y RNAs. Studies in Deinococcus radiodurans revealed that Y RNA tethers Ro60 to polynucleotide phosphorylase, specializing this exoribonuclease for structured RNA degradation. Although Ro60 orthologs are present in a wide range of bacteria, Y RNAs have been detected in only two species, making it unclear whether these ncRNAs are common Ro60 partners in bacteria. In this study, we report that likely Y RNAs are encoded near Ro60 in >250 bacterial and phage species. By comparing conserved features, we discovered that at least one Y RNA in each species contains a domain resembling tRNA. We show that these RNAs contain nucleotide modifications characteristic of tRNA and are substrates for several enzymes that recognize tRNAs. Our studies confirm the importance of Y RNAs in bacterial physiology and identify a new class of ncRNAs that mimic tRNA.     

细菌非编码小RNA功能及作用机制研究进展

生物体中除了编码蛋白质的mRNA外,还存在多种具有重要调控功能的非编码RNA。细菌中长度50~500 nt的非编码RNA通常定义为sRNA。sRNA在细菌的整个生命活动中发挥着极为广泛的作用,在感受环境压力、基因表达、细胞周期乃至个体发育等过程中均具有重要的调控作用。sRNA的功能学和调控机制的研究已成为当今细菌学研究的热点。本研究就细菌中的sRNA的特征,在细菌中的作用和作用机制进行文献综述。     

Key players in regulatory RNA realm of bacteria

Precise regulation of gene expression is crucial for living cells to adapt for survival in diverse environmental conditions. Among the common cellular regulatory mechanisms, RNA-based regulators play a key role in all domains of life. Discovery of regulatory RNAs have made a paradigm shift in molecular biology as many regulatory functions of RNA have been identified beyond its canonical roles as messenger, ribosomal and transfer RNA. In the complex regulatory RNA network, riboswitches, small RNAs, and RNA thermometers can be identified as some of the key players. Herein, we review the discovery, mechanism, and potential therapeutic use of these classes of regulatory RNAs mainly found in bacteria. Being highly adaptive organisms that inhabit a broad range of ecological niches, bacteria have adopted tight and rapid-responding gene regulation mechanisms. This review aims to highlight how bacteria utilize versatile RNA structures and sequences to build a sophisticated gene regulation network.