Instituto de Biología Molecular y Celular de Rosario, Suipacha 531, 2000 Rosario, Argentina.
Curr Biol. 2010 Jan 12;20(1):49-54. doi: 10.1016/j.cub.2009.10.072. Epub 2009 Dec 10.
MicroRNAs (miRNAs) are widespread posttranscriptional regulators of gene expression. They are processed from longer primary transcripts that contain foldback structures (reviewed in). In animals, a complex formed by Drosha and DGCR8/Pasha recognizes the transition between the single-stranded RNA sequences and the stem loop to produce the first cleavage step in miRNA biogenesis. Whereas animal precursors are of uniform size and shape, their plant counterparts comprise a collection of variable stem loops, and little is known about the structural clues recognized during their processing. Here, we designed an unbiased approach based on the random mutagenesis of the MIR172a precursor to study miRNA processing in plants. Randomly mutated precursors were overexpressed in Arabidopsis, and their activity was determined in vivo. We gathered sequence data from these transgenes and used it to build a MIR172a precursor map highlighting relevant and neutral positions for its processing. A 15 nucleotide stem segment below the miRNA/miRNA(*) duplex was essential for MIR172a processing. In contrast, mutations in the terminal-loop region were mostly neutral, yet a loop was required for miR172 biogenesis. The results could be extended to other precursors, suggesting the existence of common features in at least part of the plant precursors.
微 RNA(miRNAs)是一种广泛存在的基因表达后转录调控因子。它们是从包含回折结构的较长初级转录本中加工而来的(综述于)。在动物中,由 Drosha 和 DGCR8/Pasha 形成的复合物识别单链 RNA 序列和茎环之间的转换,从而产生 miRNA 生物发生的第一步切割。虽然动物前体的大小和形状是一致的,但它们的植物对应物包含一系列可变的茎环,而对于在其加工过程中识别的结构线索知之甚少。在这里,我们设计了一种基于 MIR172a 前体随机诱变的无偏方法来研究植物中的 miRNA 加工。随机突变的前体在拟南芥中过表达,并在体内测定其活性。我们从这些转基因中收集序列数据,并利用它构建了 MIR172a 前体图谱,突出了其加工的相关和中性位置。miRNA/miRNA(*) 双链体下方的 15 个核苷酸茎段对于 MIR172a 的加工是必需的。相比之下,末端环区的突变大多是中性的,但 miR172 的生物发生需要一个环。该结果可以扩展到其他前体,表明至少部分植物前体中存在共同特征。
