植物长链非编码RNA的生物信息学预测与分析研究进展

长链非编码RNA(Long non-coding RNAs,lncRNAs)是一类广泛存在于真核生物中,长度大于200个核苷酸、无蛋白编码功能,具有调控基因转录后表达的RNA转录本。新近研究表明,lncRNA在多种生物途径中起着重要调节作用。生物信息学由生物、数学、计算机科学,统计学等多学科交叉产生,能从全局和系统水平对大数据信息进行深入挖掘与分析。采用生物信息学方法预测与分析lncRNA是当前发现和鉴定植物lncRNA的重要策略之一。本文梳理和总结了近年来采用生物信息学预测植物lncRNA及其靶基因的方法策略,以期为今后深入认知植物lncRNA在植物的生长发育过程、抗逆境胁迫及系统进化等过程中的作用研究提供一定参考。     

长链非编码RNA生物学功能及其意义研究进展

人类基因组DNA核苷酸序列中约93%能被转录为RNA,其中仅2%的转录产物被翻译为蛋白质,余下98%属于非编码RNA（non-coding RNA,ncRNA）。ncRNA中长度超过200 nt的称为长链非编码RNA（long non-coding RNA,LncRNA）,长期以来LncRNA被认为是转录过程中的副产物而不具有生物学功能。近年随着微小RNA（microRNA,miRNA）的研究进展,揭示了ncRNA在人类基因转录后调节、细胞生长、分化、增殖中起着相当重要的作用。同时也提示,相比miRNA,在细胞内转录比例更高的LncRNA具有极其复杂而重要的生物学功能,并与人类疾病密切相关。结合LncRNA的表观遗传学功能及其病理生理意义作一简述。     

长链非编码RNA研究进展

基因组计划研究表明, 在组成人类基因组的30亿个碱基对中, 仅有1.5%的核酸序列用于蛋白质编码, 其余98.5%的基因组为非蛋白质编码序列。这些序列曾被认为是在进化过程中累积的“垃圾序列”而未予以关注, 但在随后启动的ENCODE研究计划中却发现, 75%的基因组序列能够被转录成RNA, 其中近74%的转录产物为非编码RNA(Non-coding RNA, ncRNA)。在非编码RNA中, 绝大多数转录本的长度大于200个碱基, 这些“长链非编码RNA(Long non-coding RNA, lncRNA)”能够在转录及转录后水平上调节蛋白编码基因的表达, 从而广泛地参与包括细胞分化、个体发育在内的重要生命过程, 其异常表达还与多种人类重大疾病的发生密切相关。文章综述了长链非编码RNA的发现、分类、表达、作用机制以及其在个体发育和人类疾病中的作用。     

微小RNA和长链非编码RNA介导的昼夜节律调控

非编码RNA(ncRNA)是生物体细胞内一类重要的调控分子,其介导的昼夜节律调控日益受到研究者的重视。本文主要以黑腹果蝇Drosophila melanogaster和哺乳动物的相关研究为背景,阐述了微小RNA(miRNA)和长链非编码RNA(lncRNA)对昼夜节律的调控。miRNA介导的昼夜节律调控包括:生物体内(尤其是钟神经元中)具有节律性表达的miRNA;输入系统和miRNA存在相互调控,这主要是通过光照这个授时因子起作用;miRNA可直接调控核心振荡器,还可以调控其他基因而间接影响到核心振荡器;miRNA对输出系统的调控主要集中在代谢取食节律、运动节律、睡眠节律等。昼夜节律可调控lncRNA的表达,同时lncRNA也可调控昼夜节律,且lncRNA对基因调控范围广,作用机制复杂,这些都具有广阔的研究前景。本文将有助于进一步深入研究ncRNA对昼夜节律的调控。     

长链非编码RNA研究进展

长链非编码RNA(long noncoding RNAs,lncRNAs)是一类长度超过200nt的非编码RNA分子,通过信号分子、诱饵分子、引导分子、支架分子等4种方式在转录水平和转录后水平调控基因的表达。lncRNAs的表达水平相对于蛋白编码基因较低,但它们在X染色体沉默、基因组印迹、染色体修饰、转录激活、转录干扰以及核内运输等方面具有重要的功能。相对于研究较多的非编码小RNA,lncRNAs的功能目前尚不完全清楚。该文从lncRNAs的起源、分类、分子机制、功能和进化等方面综述了lncRNAs的研究进展,为进一步探究lncRNAs的功能和作用机制提供依据。     

非编码RNA与相分离

相分离是细胞内无膜细胞器动态组装的主要驱动力,参与多种生物学过程,成为近年来生命科学领域的研究热点.已有研究发现两类非编码RNA(non-coding RNA,ncRNA)与相分离密切相关,其中微小RNA(microRNA,miRNA)的加工受相分离的调节,并通过相分离诱导基因沉默.另一类长链非编码RNA(long n...     

植物长链非编码RNA的研究进展

长链非编码RNA(long non-coding RNAs,lnc RNAs)是真核生物中一类长度大于200个核苷酸、无蛋白编码能力或编码能力极低的RNA转录本。lnc RNA种类和功能的多样性导致了对其进行研究的复杂性,特别是对植物中lnc RNA的认识相当有限。该文就近年来植物中已发现的lnc RNA的种类、相关转录酶、参与的生物学过程、发挥功能的分子机制以及其相关的研究策略等方面进行综述和展望,以期为深入认识植物lnc RNA提供借鉴。     

长链非编码RNA在心血管疾病发病中的研究进展

心血管疾病是一种威胁人类,特别是中老年人健康的常见疾病。每年死于心血管疾病的人数位居全球榜首。长链非编码RNA是长度大于200个核苷酸且不编码蛋白质的RNA,也是体内表达数量最多的RNA。越来越多的研究发现长链非编码RNA在心血管疾病的发生、发展中有重要的调节作用。本文将就长链非编码RNA和心血管疾病的最新研究进展进行综述。     

动物长链非编码RNA研究进展

长链非编码RNA(long non-coding RNA,lncRNA)是一类广泛存在于动植物体内、长度大于200nt、基本不编码蛋白质的转录本。研究表明,lncRNA能够协助蛋白质复合体转运、参与基因和染色体的激活与失活调控等,在胚胎发育、肌肉生长、脂肪沉积以及免疫应答等过程中发挥重要作用。近年来,在人类基因组计划和ENCODE(The Encyclopedia of DNA Elements)计划推动下,在动物中不仅鉴定出数量众多的lncRNA,而且在lncRNA调控脂肪代谢、肌肉发育以及免疫抗病等重要生物学过程的机理研究方面也取得了突破性的进展。这些研究结果颠覆了lncRNA不编码蛋白的传统观念,提出了lncRNA编码功能性小肽调控生物学过程的新模型。本文主要介绍了动物lncRNA的特征与类型、常用数据库、生物学功能、分子调控模型以及未来lncRNA的研究方向,以期为动物lncRNA功能研究提供参考信息。     

长链非编码RNA 在乳腺癌中的研究进展

乳腺癌是女性最常见的恶性肿瘤之一,且其发病率呈逐年上升的趋势,尽管随着诊疗技术的进步,乳腺癌的死亡率得到了实质性的降低,但它仍是女性肿瘤死亡的第二大原因,目前对乳腺癌的治疗还面临很大的挑战。长链非编码RNA(Longnon-codingRNA,LncRNA)是一类长度超过200个核苷酸的非编码RNA分子,缺乏开放的阅读框,无编码蛋白质的功能。近年来研究发现,LncRNA可能在多种恶性肿瘤的发生、发展、侵袭及转移过程中起调控作用,且目前对其与乳腺癌的关系研究较多,对LncRNA与乳腺癌相关性的研究有望为乳腺癌的诊治提供新思路。现就LncRNA在乳腺癌中的研究进展做一综述。     

From structure to function: Route to understanding lncRNA mechanism

RNAs have emerged as a major target for diagnostics and therapeutics approaches. Regulatory nonprotein-coding RNAs (ncRNAs) in particular display remarkable versatility. They can fold into complex structures and interact with proteins, DNA, and other RNAs, thus modulating activity, localization, or interactome of multi-protein complexes. Thus, ncRNAs confer regulatory plasticity and represent a new layer of regulatory control. Interestingly, long noncoding RNAs (lncRNAs) tend to acquire complex secondary and tertiary structures and their function—in many cases—is dependent on structural conservation rather than primary sequence conservation. Whereas for many proteins, structure and its associated function are closely connected, for lncRNAs, the structural domains that determine functionality and its interactome are still not well understood. Numerous approaches for analyzing the structural configuration of lncRNAs have been developed recently. Here, will provide an overview of major experimental approaches used in the field, and discuss the potential benefit of using combinatorial strategies to analyze lncRNA modes of action based on structural information.     

Clinicopathological and prognostic value of lncRNA PANDAR expression in solid tumors: Evidence from a systematic review and meta-analysis

PANDAR (promoter of CDKN1A antisense DNA damage activated RNA) has been shown to be aberrantly expressed in many types of cancer. Considering conflicting data, the current study was aimed to assess its potential role as a prognostic marker in malignant tumors. A comprehensive literature search of PubMed, Medline, and Web of Science was performed to identify all eligible studies describing the use of PANDAR as a prognostic factor for different types of cancer. Data related to overall survival (OS) and clinicopathologic features were collected and analyzed. The pooled hazard ratio (HR) and odds radio (OR) with a 95% confidence interval (CI) were used to estimate associations. Ten original studies containing 1,231 patients were included. The results showed that in patients with cancer, high PANDAR expression is correlated with lymph node metastasis (LNM; OR = 2.57; 95% CI, 1.76–3.81; p < 0.001), tumor stage (OR = 2.90; 95% CI, 1.25–6.75; p = 0.013), and tumor size (OR = 1.79; 95% CI, 1.11–2.91; p = 0.018). However, sensitivity analysis further demonstrated a significant association between high PANDAR expression and OS, both in multivariate and univariate analysis models (pooled HR 2.01; 95% CI, 1.17–3.44 and pooled HR 2.62; 95% CI, 1.98–3.47, respectively), after omitting one study. These results suggested that PANDAR expression might be indicative of advanced disease and poor prognosis in patients with cancer. Further studies are necessary to determine the value of this risk stratification biomarker in clinical management of patients with cancer.     

Microarray expression profiles analysis revealed lncRNA OXCT1-AS1 promoted bladder cancer cell aggressiveness via miR-455-5p/JAK1 signaling

Bladder cancer (BCa) is one of the most prevalent cancers of the urinary system worldwide. Accumulating evidence suggests that long noncoding RNAs (lncRNAs) perform a vital function in the pathogenesis and progression of BCa. In the current study, we identified a novel lncRNA OXCT1-AS1 and investigated its role and potential mechanisms in BCa. The microarray results showed the expression of lncRNAs, microRNAs, and messenger RNAs between BCa primary tumor tissues and metastatic lymph nodes were significantly different. The quantitative polymerase chain reaction verification was performed to ensure the reliability of the screening results. The Cell Counting Kit 8 and transwell assay were used to assess the tumor cell proliferation and invasion abilities in vitro, respectively. The dual-luciferase activity assay was performed to investigate the potential mechanism of competing endogenous RNA network. lncRNA OXCT1-AS1, which elevated in metastasis lymph node, was significantly upregulated in BCa cell lines compared with SVHUC-1. We demonstrated OXCT1-AS1 inhibited miR-455-5p to decrease its binding to the JAK1 3′-untranslated region, which could upregulate the expression of JAK1 at the protein level, thus promoting BCa proliferation and invasion. Therefore, lncRNA OXCT1-AS1 could act as a potential biomarker and therapeutic target for patients with BCa.     

基于lncRNA测序探讨瑞舒伐他汀对糖尿病大鼠心肌损伤的治疗途径和潜在靶点

他汀类药物能为糖尿病心肌病(diabetic cardiomyopathy, DCM)的治疗带来一定的收益,但是其发挥作用的具体分子途径尚不明确。近期研究表明,长非编码lncRNA(long noncoding RNA, lncRNA)的异常表达与DCM的病理发展过程密切相关。为比较经瑞舒伐他汀(rosuvastatin)干预的糖尿病大鼠与常规治疗大鼠的心肌损伤程度差异,探讨瑞舒伐他汀对DCM的治疗途径和潜在靶点,本文提取DCM大鼠心肌组织总RNA,制备lncRNA芯片,筛选出差异表达的lncRNA并进行生物信息学分析。结果显示,与模型组相比,治疗组中表达呈显著差异的靶点基因有770个被上调,884个表达下调,主要与改善代谢紊乱、调节心肌细胞与胶原纤维的比例、减轻心肌损伤与运动负担、预防自主神经及微循环病变、改变生物进食习惯等功能相关;所参与的信号通路则主要富集在感官途径、信号传导、脂质代谢等方面。提示瑞舒伐他汀可通过调节这些lncRNA,参与糖脂能量代谢与离子平衡、抑制心肌纤维化进程、改善高糖毒性对自主神经功能的影响等治疗途径,发挥治疗DCM的作用。     

LncRNA TP73-AS1 predicts poor prognosis and functions as oncogenic lncRNA in osteosarcoma

TP73 antisense RNA 1 (TP73-AS1), a novel long noncoding RNA (lncRNA), has been suggested to be deregulated in various human cancers and serve as a tumor suppressor or promoter, depending on tumor types. The role of TP73-AS1 in osteosarcoma is still unknown. In our results, TP73-AS1 was highly expressed in osteosarcoma tissue samples and cell lines compared with matching adjacent nontumor tissue specimens and a normal human osteoblast cell line, respectively. Moreover, high expression of TP73-AS1 was statistically associated with advanced Enneking stage, large tumor size, present distant metastasis, and poor histological grade, while exhibiting no statistical association with age, sex, and tumor site. The survival analyses showed that patients with osteosarcoma with high expression of TP73-AS1 obviously had lower overall survival than osteosarcoma patients with low expression of TP73-AS1, and high expression of TP73-AS1 was an independent poor prognostic factor for osteosarcoma patients. The experiments in vitro indicated that inhibition of TP73-AS1 expression depressed osteosarcoma cell viability, migration, and invasion, and arrested cell cycle. In conclusion, TP73-AS1 serves as oncogenic lncRNA participated in osteosarcoma progression.     

Senescence-associated Long Non-coding RNA (SALNR) Delays Oncogene-induced Senescence through NF90 Regulation

Long non-coding RNAs (lncRNAs) have recently emerged as key players in many physiologic and pathologic processes. Although many lncRNAs have been identified, few lncRNAs have been characterized functionally in aging. In this study, we used human fibroblast cells to investigate genome-wide lncRNA expression during cellular senescence. We identified 968 down-regulated lncRNAs and 899 up-regulated lncRNAs in senescent cells compared with young cells. Among these lncRNAs, we characterized a senescence-associated lncRNA (SALNR), whose expression was reduced during cellular senescence and in premalignant colon adenomas. Overexpression of SALNR delayed cellular senescence in fibroblast cells. Furthermore, we found that SALNR interacts with NF90 (nuclear factor of activated T-cells, 90 kDa), an RNA-binding protein suppressing miRNA biogenesis. We demonstrated that NF90 is a SALNR downstream target, whose inhibition led to premature senescence and enhanced expressions of senescence-associated miRNAs. Moreover, our data showed that Ras-induced stress promotes NF90 nucleolus translocation and suppresses its ability to suppress senescence-associated miRNA biogenesis, which could be rescued by SALNR overexpression. These data suggest that lncRNA SALNR modulates cellular senescence at least partly through changing NF90 activity.     

lncRNA与miRNA相互调控作用及其与肿瘤的关系研究

长链非编码RNA (long non-coding RNA,lncRNA)是一类转录本长度大于200 bp的非编码RNA,可作为人类基因组中一类重要的调控分子通过多种方式发挥其生物学功能.近年来的研究表明,lncRNA也可以作为一种竞争性内源性RNA (competing endogenous RNA, ceRNA) 与miRNA相互作用,参与靶基因的表达调控,并在肿瘤的发生发展中发挥重要的作用.本综述在简要介绍lncRNA功能研究现状和主要研究方法的基础上,进一步分析了lncRNA与miRNA之间的互相调控关系及其在肿瘤发生发展中的作用,以便为后续的研究提供新的思路.     

Different expression profile of mRNA and long noncoding RNA in autoimmune thyroid diseases patients

Increasing evidence has found that long noncoding RNAs (lncRNAs) and message RNAs (mRNAs) play an important role in the progress of autoimmune thyroid diseases (AITD). So, in this study, the different expressed of lncRNA and mRNA was screened by microarray analysis and quantitative real-time polymerase chain reaction (PCR). To further investigate the relationship among the differentially expressed genes, the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis and Gene ontology (GO) were used for biofunctions and signaling pathways analysis, respectively. Finally, the interaction relationship between lncRNA and mRNAs was analysis with lncRNA-mRNA coexpression network. The result found that the abnormal expression of lncRNAs and mRNAs were 1615 and 1913, respectively. The altered genes included CD40LG, IFNG, CTLA4, FAS, STAT1, STAT3, and STAT4. These were enriched in presentation and antigen processing, Th1 and Th2 cell differentiation, natural killer cell-mediated cytotoxicity, B cell receptor signaling pathway, Th17 cell differentiation, and cell adhesion molecules (CAMs), all of which had been suggested to be associated with immunopathogenic mechanisms and AITD-induced pathophysiologic changes. A coexpression network profile was contained with 126 network nodes and 477 connections which were based on seven mRNAs and 119 interacted lncRNAs. The outcomes of differentially expressed lncRNAs and their coreralated mRNAs in our study revealed that lncRNAs involved in immunopathogenic mechanisms may play a crital role in the pathogenesis of AITD.