StarSeeker: an automated tool for mature duplex microRNA sequence identification based on secondary structure modeling of precursor molecule.

Pub Date : 2018-06-15 eCollection Date: 2018-12-01 DOI:10.1186/s40709-018-0081-7

Paschalis Natsidis, Ilias Kappas, Wojciech M Karlowski

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引用次数: 2

Abstract

Background: MicroRNAs (miRNAs) are small, non-coding RNA molecules that play a key role in gene regulation in both plants and animals. MicroRNA biogenesis involves the enzymatic processing of a primary RNA transcript. The final step is the production of a duplex molecule, often designated as miRNA:miRNA*, that will yield a functional miRNA by separation of the two strands. This miRNA will be incorporated into the RNA-induced silencing complex, which subsequently will bind to its target mRNA in order to suppress its expression. The analysis of miRNAs is still a developing area for computational biology with many open questions regarding the structure and function of this important class of molecules. Here, we present StarSeeker, a simple tool that outputs the putative miRNA* sequence given the precursor and the mature sequences.

Results: We evaluated StarSeeker using a dataset consisting of all plant sequences available in miRBase (6992 precursor sequences and 8496 mature sequences). The program returned a total of 15,468 predicted miRNA* sequences. Of these, 2650 sequences were matched to annotated miRNAs (~ 90% of the miRBase-annotated sequences). The remaining predictions could not be verified, mainly because they do not comply with the rule requiring the two overhanging nucleotides in the duplex molecule.

Conclusions: The expression pattern of some miRNAs in plants can be altered under various abiotic stress conditions. Potential miRNA* molecules that do not degrade can thus be detected and also discovered in high-throughput sequencing data, helping us to understand their role in gene regulation.

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StarSeeker:基于前体分子二级结构建模的成熟双工microRNA序列鉴定自动化工具。

背景:MicroRNAs (miRNAs)是一种小的非编码RNA分子，在植物和动物的基因调控中起着关键作用。MicroRNA生物发生涉及初级RNA转录物的酶处理。最后一步是产生一个双分子，通常被称为miRNA:miRNA*，它将通过两条链的分离产生功能性的miRNA。该miRNA将被纳入rna诱导的沉默复合物中，该复合物随后将结合其靶mRNA以抑制其表达。mirna的分析仍然是计算生物学的一个发展领域，关于这类重要分子的结构和功能有许多悬而未决的问题。在这里，我们提出StarSeeker，一个简单的工具，输出假定的miRNA*序列给定前体和成熟序列。结果:我们使用miRBase中所有植物序列(6992个前体序列和8496个成熟序列)组成的数据集对StarSeeker进行了评估。该程序总共返回了15,468个预测的miRNA*序列。其中，2650个序列与注释的mirna匹配(约90%的mirbase注释序列)。其余的预测无法得到验证，主要是因为它们不符合要求双分子中有两个悬垂核苷酸的规则。结论:植物中一些mirna的表达模式在不同的非生物胁迫条件下会发生改变。因此，潜在的不降解的miRNA*分子可以被检测到，也可以在高通量测序数据中发现，帮助我们了解它们在基因调控中的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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