Federal University of Technology, Paraná (UTFPR), Brazil.
Interdisciplinary Center for Bioinformatics, University of Leipzig, Germany.
Brief Bioinform. 2018 Nov 27;19(6):1273-1289. doi: 10.1093/bib/bbx058.
The competing endogenous RNA hypothesis has gained increasing attention as a potential global regulatory mechanism of microRNAs (miRNAs), and as a powerful tool to predict the function of many noncoding RNAs, including miRNAs themselves. Most studies have been focused on animals, although target mimic (TMs) discovery as well as important computational and experimental advances has been developed in plants over the past decade. Thus, our contribution summarizes recent progresses in computational approaches for research of miRNA:TM interactions. We divided this article in three main contributions. First, a general overview of research on TMs in plants is presented with practical descriptions of the available literature, tools, data, databases and computational reports. Second, we describe a common protocol for the computational and experimental analyses of TM. Third, we provide a bioinformatics approach for the prediction of TM motifs potentially cross-targeting both members within the same or from different miRNA families, based on the identification of consensus miRNA-binding sites from known TMs across sequenced genomes, transcriptomes and known miRNAs. This computational approach is promising because, in contrast to animals, miRNA families in plants are large with identical or similar members, several of which are also highly conserved. From the three consensus TM motifs found with our approach: MIM166, MIM171 and MIM159/319, the last one has found strong support on the recent experimental work by Reichel and Millar [Specificity of plant microRNA TMs: cross-targeting of mir159 and mir319. J Plant Physiol 2015;180:45-8]. Finally, we stress the discussion on the major computational and associated experimental challenges that have to be faced in future ceRNA studies.
竞争性内源 RNA 假说作为 microRNA(miRNA)的一种潜在的全局调控机制,以及预测许多非编码 RNA(包括 miRNA 本身)功能的强大工具,越来越受到关注。大多数研究都集中在动物身上,尽管在过去十年中,植物在靶 mimic(TM)发现以及重要的计算和实验进展方面已经取得了进展。因此,我们的贡献总结了 miRNA:TM 相互作用研究中计算方法的最新进展。我们将本文分为三个主要贡献。首先,介绍了植物中 TM 研究的一般概述,包括对现有文献、工具、数据、数据库和计算报告的实用描述。其次,我们描述了一种用于 TM 计算和实验分析的通用方案。第三,我们提供了一种基于识别已知 TM 中一致的 miRNA 结合位点的生物信息学方法,来预测潜在跨靶向同一 miRNA 家族或不同 miRNA 家族成员的 TM 基序。与动物相比,由于植物中的 miRNA 家族很大,具有相同或相似的成员,其中一些成员也高度保守,因此这种计算方法很有前途。从我们的方法中发现的三个共识 TM 基序:MIM166、MIM171 和 MIM159/319 中,最后一个在最近由 Reichel 和 Millar [Specificity of plant microRNA TMs: cross-targeting of mir159 and mir319. J Plant Physiol 2015;180:45-8] 的实验工作中得到了强有力的支持。最后,我们强调了在未来的 ceRNA 研究中必须面对的主要计算和相关实验挑战的讨论。
