依赖RNA的RNA聚合酶介导RNA干扰的扩增效应

RNA干扰(RNA interference,RNAi)是一种非常高效的基因沉默效应,RNA依赖性RNA聚合酶(RNA—de—pendent RNA polymerase,RdRP)介导的扩增作用可能是RNAi具有高效性的一个主要原因。了解RdRP在生物体中存在的证据、RdRP及其复合体的结构、次级siRNA的产生及转移性RNAi的发生机制等问题,对深入理解RNAi的作用机制和促进RNAi的临床应用有重要意义。     

RNA诱导基因沉默

RNA沉默在动植物进化中起着重要作用,具有抵抗病毒入侵、抑制转座子活动等作用,并调控蛋白编码基因的表达。该文着重对RNA沉默现象的作用机制和模式、功能及其应用前景作一综述。     

RNA空间编码探析

RNA空间结构同线性结构一样包含着重要的生物信息。RNA空间编码蕴含了RNA功能信息。RNA空间编码具有简并性、通用性、动态性、重叠性、间隔性和方向性等性质。本文对RNA空间编码的概念和性质进行了初步探讨。     

反义RNA技术

反义RNA(antisence RNA)是一种与特异mRNA互补的RNA分子,它通过配对碱基间氢键作用与对应的RNA形成双链复合物,抑制RNA的翻译过程。利用人工合成或生物体合成特定互补RNA片段(或其化学修辞产物)抑制或封闭基因表达技术,称为反义RNA技术。本文综述了反义RNA作用机理,合成途径,并展示了该技术在研究基因功能,防治肿瘤、遗传病以及人工免疫等方面广阔的应用前景。一、反义RNA抑制基因表达机理许多实验证明,原核类生物如细菌、粘菌,     

环状RNA:潜在的新型miRNA活性调控分子

环状RNA(circular RNA,circRNA)是近年来RNA领域最新的研究热点.它是一类由特殊的选择性剪切产生且在真核细胞中广泛表达的环形内源性RNA分子.研究发现,circRNA富含microRNA(miRNA)结合位点,可以发挥竞争性内源RNA作用,作为miRNA"海绵"来解除对其靶基因的抑制效应.近年来,circRNA作为一种新型调控分子调控miRNA功能的发挥,受到众多研究者的青睐.本文综述circRNA的产生机制,及其调控miRNA的最新研究进展与研究方法等.     

tsRNAs的作用机制及其在相关疾病中的潜在应用*

近年来,转运RNA(transfer RNA,tRNA)衍生的小RNA(tRNA-derived small RNA,tsRNAs)被认为是一种新的、潜在的非编码RNAs(non-coding RNA,ncRNAs)。根据在前体或成熟tRNA上切割位置的不同,tsRNAs主要被分为两种类型,即tRNA halves(tRNA-derived stress-induced RNA,tiRNAs)和tRNA衍生片段(tRNA-derived fragment,tRFs)。越来越多的证据表明,tsRNAs参与翻译起始抑制、基因沉默和调节核糖体发生等多种细胞代谢过程,并在癌症、神经退行性疾病、代谢性疾病和病毒感染等相关疾病的发生、发展中都起着重要的作用。综述tsRNAs生物学功能和作用机制及其在相关疾病中的潜在应用,总结tsRNAs研究目前存在的问题和未来的研究方向。     

miRNA研究进展

近年来,在许多真核生物中发现了一类内源性的、长度约22个核苷酸的单链非编码RNA-微RNA,研究发现它与基因表达、细胞周期及个体发育过程都有关系,因此,微RNA的研究可能对基因功能研究、人类疾病防治及生物进化探索具有重要意义。就近几年来对微RNA的研究作简要概述。     

RNA调控与作物农艺性状改良

具有重要育种价值的基因资源挖掘与功能研究对于现代农业育种应用至关重要.已有大量研究显示,核糖核酸(ribonucleic acid, RNA)在多种植物的生长发育和环境信号应答中发挥重要作用,是调控多种农作物与经济作物复杂农艺性状的重要基因资源.本文综述了小RNA和长链非编码RNA的生成代谢和功能机制,着重介绍了小RNA、长链非编码RNA及其RNA修饰在调控作物产量与品质、抗病与抗逆等方面的研究进展.同时介绍了利用RNA技术改良遗传性状的研究,并展望了RNA技术的开发与利用对于未来农业生物技术应用的重要意义.     

猪繁殖与呼吸综合征病毒ORF2～4特异siRNA的筛选及其抑制病毒复制效果的研究

RNA干扰(RNAi)技术是基因功能研究的有效工具,为了了解猪繁殖与呼吸综合征病毒(PRRSV)次要结构蛋白GP2、GP3、GP4在病毒复制中的作用,针对各自的编码基因ORF2、ORF3、ORF4分别选取4个小干扰RNA(siRNA)位点(共12个),构建相应的短发夹RNA(shRNA)表达载体,转染MARC-145细胞后,通过荧光定量PCR和病毒滴度检测干扰效果。筛选了可以减少GP2、GP3、GP4相应基因mRNA含量的ORF2、ORF3、ORF4特异shRNA表达载体,病毒效价滴定表明shRNA表达载体处理细胞可以减少GP2、GP3、GP4相应基因mRNA含量,细胞培养上清中的病毒滴度比对照低184~4.65倍。     

Identification of miRNAs and Their Target Genes in Peach (Prunus persica L.) Using High-Throughput Sequencing and Degradome Analysis

MicroRNAs play critical roles in various biological and metabolic processes. The function of miRNAs has been widely studied in model plants such as Arabidopsis and rice. However, the number of identified miRNAs and related miRNA targets in peach (Prunus persica) is limited. To understand further the relationship between miRNAs and their target genes during tissue development in peach, a small RNA library and three degradome libraries were constructed from three tissues for deep sequencing. We identified 117 conserved miRNAs and 186 novel miRNA candidates in peach by deep sequencing and 19 conserved miRNAs and 13 novel miRNAs were further evaluated for their expression by RT-qPCR. The number of gene targets that were identified for 26 conserved miRNA families and 38 novel miRNA candidates, were 172 and 87, respectively. Some of the identified miRNA targets were abundantly represented as conserved miRNA targets in plant. However, some of them were first identified and showed important roles in peach development. Our study provides information concerning the regulatory network of miRNAs in peach and advances our understanding of miRNA functions during tissue development.     

Identification of novel microRNAs in rice (Oryza sativa) based on the cleavage signals in precursors

MicroRNAs (miRNAs) are crucial regulators of gene expression in plants and a growing number of novel miRNA genes have been cloned in rice in recent years. However, there is no evidence that all miRNAs have been discovered, especially for those low expression ones which are difficult to be found by conventional methods. By taking advantage of the finding that DCL1-mediated cleavage signals for the processing of the miRNA precursors could be used as the clues for novel miRNAs’ discovery, a genome-wide search for rice miRNA candidates was carried out. As a result, 51 previously validated miRNAs and 24 novel miRNA candidates were discovered. After target prediction and degradome sequencing data-based validation, coupled with reverse approach retest, 10 miRNA candidate–mRNA target pairs were further identified, providing a basis for in-depth functional analysis of these miRNA candidates. Besides, some isomiRs found in this study showed more likely to be the real miRNAs. We also found an exceptional example which did not obey the rule that 22-nt miRNAs have the ability to trigger the phased siRNAs production from the cleaved targets.     

Global analysis of non-coding small RNAs in Arabidopsis in response to jasmonate treatment by deep sequencing technology

In plants, non-coding small RNAs play a vital role in plant development and stress responses. To explore the possible role of non-coding small RNAs in the regulation of the jasmonate (JA) pathway, we compared the non-coding small RNAs between the JA-deficient aos mutant and the JA-treated wild type Arabidopsis via high-throughput sequencing. Thirty new miRNAs and 27 new miRNA candidates were identified through bioinformatics approach. Forty-nine known miRNAs (belonging to 24 families), 15 new miRNAs and new miRNA candidates (belonging to 11 families) and 3 tasiRNA families were induced by JA, whereas 1 new miRNA, 1 tasiRNA family and 22 known miRNAs (belonging to 9 families) were repressed by JA.     

Deep sequencing identified potential miRNAs involved in defence response,stress and plant growth characteristics of wild genotypes of cardamom

• Cardamom has long been used as a food flavouring agent and in ayurvedic medicines for mouth ulcers, digestive problems and even depression. Extensive occurrence of pests and diseases adversely affect its cultivation and result in substantial reductions in total production and productivity. Numerous studies revealed the significant role of miRNAs in plant biotic stress responses.
• In the current study, miRNA profiling of cultivar and wild cardamom genotypes was performed using an Ion Proton sequencer.
• We identified 161 potential miRNAs representing 42 families, including monocot/tissue‐specific and 14 novel miRNAs in both genotypes. Significant differences in miRNA family abundance between the libraries were observed in read frequencies. A total of 19 miRNAs (from known miRNAs) displayed a twofold difference in expression between wild and cultivar genotypes. We found 1168 unique potential targets for 40 known miRNA families in wild and 1025 potential targets for 42 known miRNA families in cultivar genotypes. The differential expression analysis revealed that most miRNAs identified were highly expressed in cultivars and, furthermore, lower expression of miR169 and higher expression of miR529 in wild cardamom proved evidence that wild genotypes have stronger drought stress tolerance and floral development than cultivars.
• Potential targets predicted for the newly identified miRNAs from the miRNA libraries of wild and cultivar cardamom genotypes involved in metabolic and developmental processes and in response to various stimuli. qRT‐PCR confirmed miRNAs were differentially expressed between wild and cultivar genotypes. Furthermore, four target genes were validated experimentally to confirm miRNA–mRNA target pairing using RNA ligase‐mediated 5′ Rapid Amplification of cDNA Ends (5′RLM‐RACE) PCR.