植物微小RNA:生物合成、组织及起源
Plant miRNAs: biogenesis, organization and origins.
作者信息
Budak Hikmet, Akpinar B Ani
机构信息
Faculty of Engineering and Natural Sciences, Molecular Biology, Genetics and Bioengineering, Sabanci University, Orhanlı, 34956, Tuzla, Istanbul, Turkey,
出版信息
Funct Integr Genomics. 2015 Sep;15(5):523-31. doi: 10.1007/s10142-015-0451-2. Epub 2015 Jun 26.
MicroRNAs, or miRNAs, are posttranscriptional regulators of gene expression. A wealth of observations and findings suggest highly complex, multicomponent, and intermingled pathways governing miRNA biogenesis and miRNA-mediated gene silencing. Plant miRNA genes are usually found as individual entities scattered around the intergenic and-to a much lesser extent-intragenic space, while miRNA gene clusters, formed by tandem or segmental duplications, also exist in plant genomes. Genome duplications are proposed to contribute to miRNA family expansions, as well. Evolutionarily young miRNAs retaining extensive homology to their loci of origin deliver important clues into miRNA origins and evolution. Additionally, imprecisely processed miRNAs evidence noncanonical routes of biogenesis, which may affect miRNA expression levels or targeting capabilities. Majority of the knowledge regarding miRNAs comes from model plant species. As ongoing research progressively expands into nonmodel systems, our understanding of miRNAs and miRNA-related pathways changes which opens up new perspectives and frontiers in miRNA research.
微小RNA(miRNA)是基因表达的转录后调节因子。大量的观察和发现表明,调控miRNA生物合成和miRNA介导的基因沉默的途径高度复杂、多组分且相互交织。植物miRNA基因通常以单个实体的形式分散在基因间区域,在基因内区域的分布则少得多,而由串联或片段重复形成的miRNA基因簇也存在于植物基因组中。基因组重复也被认为有助于miRNA家族的扩展。与起源位点保持广泛同源性的进化上年轻的miRNA为miRNA的起源和进化提供了重要线索。此外,加工不精确的miRNA证明了非经典的生物合成途径,这可能会影响miRNA的表达水平或靶向能力。关于miRNA的大部分知识来自模式植物物种。随着正在进行的研究逐渐扩展到非模式系统,我们对miRNA和miRNA相关途径的理解发生了变化,这为miRNA研究开辟了新的视角和前沿领域。
Zotero 插件