College of Horticulture, Nanjing Agricultural University, Nanjing, China.
PLoS One. 2010 Jun 7;5(6):e10861. doi: 10.1371/journal.pone.0010861.
Among the hundreds of genes encoding miRNAs in plants reported, much more were predicted by numerous computational methods. However, unlike protein-coding genes defined by start and stop codons, the ends of miRNA molecules do not have characteristics that can be used to define the mature miRNAs exactly, which made computational miRNA prediction methods often cannot predict the accurate location of the mature miRNA in a precursor with nucleotide-level precision. To our knowledge, there haven't been reports about comprehensive strategies determining the precise sequences, especially two termini, of these miRNAs.
In this study, we report an efficient method to determine the precise sequences of computationally predicted microRNAs (miRNAs) that combines miRNA-enriched library preparation, two specific 5' and 3' miRNA RACE (miR-RACE) PCR reactions, and sequence-directed cloning, in which the most challenging step is the two specific gene specific primers designed for the two RACE reactions. miRNA-mediated mRNA cleavage by RLM-5' RACE and sequencing were carried out to validate the miRNAs detected. Real-time PCR was used to analyze the expression of each miRNA.
The efficiency of this newly developed method was validated using nine trifoliate orange (Poncirus trifoliata) miRNAs predicted computationally. The miRNAs computationally identified were validated by miR-RACE and sequencing. Quantitative analysis showed that they have variable expression. Eight target genes have been experimentally verified by detection of the miRNA-mediated mRNA cleavage in Poncirus trifoliate.
The efficient and powerful approach developed herein can be successfully used to validate the sequences of miRNAs, especially the termini, which depict the complete miRNA sequence in the computationally predicted precursor.
在已报道的植物中数百个编码 miRNA 的基因中,有更多的基因是通过多种计算方法预测的。然而,与由起始和终止密码子定义的蛋白质编码基因不同,miRNA 分子的两端没有可以用来准确定义成熟 miRNA 的特征,这使得计算 miRNA 预测方法通常无法在核苷酸水平上准确预测前体中成熟 miRNA 的位置。据我们所知,还没有关于确定这些 miRNA 的确切序列(尤其是两个末端)的综合策略的报道。
在这项研究中,我们报告了一种有效的方法,该方法结合了 miRNA 富集文库制备、两个特定的 5' 和 3' miRNA RACE(miR-RACE)PCR 反应和序列定向克隆,可确定计算预测的 microRNA(miRNA)的精确序列,其中最具挑战性的步骤是针对两个 RACE 反应设计的两个特定基因特异性引物。通过 RLM-5' RACE 和测序进行 miRNA 介导的 mRNA 切割验证检测到的 miRNAs。使用实时 PCR 分析每个 miRNA 的表达。
使用九种计算预测的枳橙(Poncirus trifoliata)miRNA 验证了新开发方法的效率。通过 miR-RACE 和测序验证了计算识别的 miRNAs。定量分析表明它们具有可变的表达。通过在枳橙中检测 miRNA 介导的 mRNA 切割,已经验证了 8 个靶基因。
本文开发的高效、强大的方法可成功用于验证 miRNA 的序列,尤其是末端,这些末端描绘了计算预测前体中完整的 miRNA 序列。
