Reproducible features of small RNAs in C. elegans reveal NU RNAs and provide insights into 22G RNAs and 26G RNAs

Small RNAs regulate gene expression and most genes in the worm Caenorhabditis elegans are subject to their regulation. Here, we analyze small RNA data sets and use reproducible features of RNAs present in multiple data sets to discover a new class of small RNAs and to reveal insights into two known classes of small RNAs—22G RNAs and 26G RNAs. We found that reproducibly detected 22-nt RNAs, although are predominantly RNAs with a G at the 5′ end, also include RNAs with A, C, or U at the 5′ end. These RNAs are synthesized downstream from characteristic sequence motifs on mRNA and have U-tailed derivatives. Analysis of 26G RNAs revealed that they are processed from a blunt end of double-stranded RNAs and that production of one 26G RNA generates a hotspot immediately downstream for production of another. To our surprise, analysis of RNAs shorter than 18 nt revealed a new class of RNAs, which we call NU RNAs (pronounced “new RNAs”) because they have a NU bias at the 5′ end, where N is any nucleotide. NU RNAs are antisense to genes and originate downstream from U bases on mRNA. Although many genes have complementary NU RNAs, their genome-wide distribution is distinct from that of previously known classes of small RNAs. Our results suggest that current approaches underestimate reproducibly detected RNAs that are shorter than 18 nt, and theoretical considerations suggest that such shorter RNAs could be used for sequence-specific gene regulation in organisms like C. elegans that have small genomes.     

病毒microRNA研究进展

microRNA(miRNA)是一类存在于多细胞生物中长约21-24nt的非编码RNA分子,它们与靶mRNA分子互补结合抑制蛋白翻译或导致mRNA降解,从而调控靶基因表达。miRNA已被证实在多种代谢途径中发挥重要作用,调节包括细胞分化和分裂、细胞凋亡及癌症发生在内的多个细胞过程。利用生物信息学以及分子克隆的方法在线虫、哺乳动物以及植物中已发现超过4000条miRNA。最近在病毒中也发现有miRNA基因存在,通过对病毒miRNA靶基因的预测,推测其在病毒复制过程中发挥重要的调控作用。目前病毒编码的miRNA分子的特点、转录机制、功能、进化保守性以及病毒与宿主miRNA的关系都已有一定的了解。对于病毒相关miRNA研究的深入,必将对认识病毒-宿主相互作用以及相关疾病的治疗带来新的启示。     

siRNA与miRNA在生物基因调控中的沉默机制比较

siRNA和miRNA的沉默机制是生物基因调控的重要手段之一. 小干扰RNA（small interfering RNA,siRNA）是RNA干扰的引发物,激发与之互补的目标mRNA沉默. 非编码RNA中的微小RNA（microRNA,miRNA）,能够识别特定的目标mRNA,通过与mRNAs的3′ 非翻译区结合,影响该目标蛋白的翻译水平. siRNA和miRNA的基因调控机制对生物学研究及疾病的病因和治疗等有直接影响. 本文主要对siRNAs和miRNAs的生物起源及沉默机制进行比较性论述：提出Dicers酶蛋白、Ago蛋白以及20 nt~25 nt的双链RNAs的 3类大分子是RNA沉默的特征结构,并进行了说明性论述|总结性叙述了siRNA和miRNA的2类小分子经典沉默机制,并提出其异同点. 最后,本文根据近期研究进展,对siRNA和miRNA的生物起源及沉默机制提出了新的疑问.     

Evaluation of reference genes for quantitative real-time PCR analysis of messenger RNAs and microRNAs in rainbow trout Oncorhynchus mykiss under heat stress

We assessed the expression stability of several messenger (m)RNAs and micro (mi)RNAs from liver and head kidney of rainbow trout Oncorhynchus mykiss using high-throughput RNA sequencing (RNA-seq) and miRNA-seq data. Additionally, four commonly used reference genes and one small non-coding RNA (u6) were also selected to identify ideal reference mRNAs and miRNAs for quantitative real-time (qrt)-PCR analysis of heat stress responses. GeNorm, NormFinder, BestKeeper and comparative ΔC_t were employed for analysis of qrt-PCR data to systematically assess the expression stability of candidate mRNAs and miRNAs and stability was ranked using geometric means. β-actin and ef1-α were the most stably expressed reference mRNAs in liver and head kidney, respectively and ssa-mir-26a-5p and ssa-mir-462b-5p were the most stably expressed miRNAs in these tissues. This is the first identification of appropriate reference mRNAs and miRNAs for qrt-PCR analysis of O. mykiss under heat stress.     

TRBP alters human precursor microRNA processing in vitro

MicroRNAs play central roles in controlling gene expression in human cells. Sequencing data show that many miRNAs are produced at different levels and as multiple isoforms that can vary in length at their 5′ or 3′ ends, but the biogenesis and functional significance of these RNAs are largely unknown. We show here that the human trans-activation response (TAR) RNA binding protein (TRBP), a known molecular partner of the miRNA processing enzyme Dicer, changes the rates of pre-miRNA cleavage in an RNA-structure-specific manner. Furthermore, TRBP can trigger the generation of iso-miRNAs (isomiRs) that are longer than the canonical sequence by one nucleotide. We show that this change in miRNA processing site can alter guide strand selection, resulting in preferential silencing of a different mRNA target. These results implicate TRBP as a key regulator of miRNA processing and targeting in humans.     

Extraordinary transgressive phenotypes of hybrid tomato are influenced by epigenetics and small silencing RNAs

Hybrid organisms may fail to develop, be sterile or they may be more vigorous than either of the parents. Examples of hybrid vigour or hybrid necrosis in the F1 are often not inherited stably in subsequent generations if they are associated with overdominance. There can also be transgressive phenotypes that are inherited stably in these later generations, but the underlying mechanisms are not well understood. Here we have investigated the possibility that stable transgressive phenotypes in the progeny of crosses between cultivated tomato (Solanum lycopersicum cv. M82) and a wild relative (Solanum pennellii, accession LA716) are associated with micro or small interfering(si) RNAs. We identified loci from which these small(s)RNAs were more abundant in hybrids than in either parent and we show that accumulation of such transgressive sRNAs correlated with suppression of the corresponding target genes. In one instance this effect was associated with hypermethylation of the corresponding genomic DNA. Our results illustrate a potential role of transgressive sRNAs in plant breeding and in natural evolution with wild plants.     

World of small RNAs: from ribozymes to siRNA and miRNA

RNAs, besides bridging genetic information to proteins, the major determinants of bio-structures and functions, serve as active regulators of gene expression. Initiated nearly 20 years ago with ribozymes (the small RNAs with catalytic activity providing fine tuning of gene expression and function, used as molecular scissors and tools for gene discovery), an era of more complex and coordinated gene regulation by small RNAs, siRNA, and miRNA has recently started. Simple nucleotide complementarity results in highly ordered and regulated events, such as assembly of RNA and proteins, resulting in gene silencing either by mRNA degradation or suppression of translation. This article reviews our contributions to the understanding of structure, the function of small RNAs, their use in biotechnology, and the understanding of phenotypes such as apoptosis, metastasis, and differentiation.     

植物小分子RNA研究进展

植物体内存在多种不同类型的小分子RNA(small RNA,sRNA),在调节植物生长发育、抑制转座子活性和抵御逆境等过程中发挥着重要的作用。近年来,人们在sRNA的产生机制、效应复合物的形成和对靶基因的调控方式及其生物学功能等方面的研究取得了很大进展。该文对这些进展作简要介绍。     

Gene regulation by non-coding RNAs

Abstract

The past two decades have seen an explosion in research on non-coding RNAs and their physiological and pathological functions. Several classes of small (20–30 nucleotides) and long (>200 nucleotides) non-coding RNAs have been firmly established as key regulators of gene expression in myriad processes ranging from embryonic development to innate immunity. In this review, we focus on our current understanding of the molecular mechanisms underlying the biogenesis and function of small interfering RNAs (siRNAs), microRNAs (miRNAs) and Piwi-interacting RNAs (piRNAs). In addition, we briefly review the relevance of small and long non-coding RNAs to human physiology and pathology and their potential to be exploited as therapeutic agents.     

Novel and stress-regulated microRNAs and other small RNAs from Arabidopsis

MicroRNAs (miRNAs) and short interfering RNAs (siRNAs) are small noncoding RNAs that have recently emerged as important regulators of mRNA degradation, translational repression, and chromatin modification. In Arabidopsis thaliana, 43 miRNAs comprising 15 families have been reported thus far. In an attempt to identify novel and abiotic stress regulated miRNAs and siRNAs, we constructed a library of small RNAs from Arabidopsis seedlings exposed to dehydration, salinity, or cold stress or to the plant stress hormone abscisic acid. Sequencing of the library and subsequent analysis revealed 26 new miRNAs from 34 loci, forming 15 new families. Two of the new miRNAs from three loci are members of previously reported miR171 and miR319 families. Some of the miRNAs are preferentially expressed in specific tissues, and several are either upregulated or downregulated by abiotic stresses. Ten of the miRNAs are highly conserved in other plant species. Fifty-one potential targets with diverse function were predicted for the newly identified miRNAs based on sequence complementarity. In addition to miRNAs, we identified 102 other novel endogenous small RNAs in Arabidopsis. These findings suggest that a large number of miRNAs and other small regulatory RNAs are encoded by the Arabidopsis genome and that some of them may play important roles in plant responses to environmental stresses as well as in development and genome maintenance.     

siRNAs and miRNAs: small RNA molecules for big tasks

Small RNAs have been recently discovered as important regulators of gene expression in Eukaryota. This review compares two categories of small RNAs existing in plants: short interfering RNAs (siRNAs) and microRNAs (miRNAs) and reveals similarities and differences between two intriguing processes: RNA degradation and translational repression directed by small RNAs. The disruption of miRNA-mediated regulation causes developmental abnormalities in plants, proving a fundamental role of miRNAs.