小RNA在原核生物中的调节作用:与真核miRNA的相似性和对比

Derrick Watkins, D. Arya
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引用次数: 7

摘要

在原核生物中,调节翻译和转录过程的小非编码rna继续被发现。这些调控RNA通过小调控RNA (ssrna)和靶mRNA之间的互补碱基配对发生,包括转录衰减、翻译抑制、翻译激活和mRNA保护,这些调控RNA具有多种调控机制的特征。在这里,我们讨论了这些机制的描述,以及促成sreRNA和目标mRNA之间相互作用的关键成分。此外,我们根据srrna的起源将其分类。反义RNA (asRNA)严格定义为顺式编码、反式作用的调控RNA,而小RNA (sRNA)严格定义为反式编码、反式作用的调控RNA。虽然这两种rna通过沃森-克里克碱基配对与mRNA的互补序列结合靶mRNA,但sRNA结合通常需要伴侣蛋白的存在,仅与靶mRNA部分互补,并且通常靶向多个mRNA。因此,我们将sRNA的机制描述为类似于已被充分表征的真核miRNA,并讨论两者之间的相似之处和差异。相比之下,asRNA与其靶mRNA的结合通常独立于伴侣蛋白,与mRNA靶序列完全或几乎完全互补,并且仅靶向单个mRNA。虽然这种分类可能会随着研究确定更多相关和可区分的特征来分类srerna而发展,但在此之前,原核srerna的分类应该会导致更精细的方法来讨论和研究调控rna。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regulatory roles of small RNAs in prokaryotes: parallels and contrast with eukaryotic miRNA
Small non-coding RNAs continue to be identified that regulate the processes of translation and transcription in prokaryotes. A variety of regulatory mechanisms have been characterized by these regulatory RNAs that occur by complementary base pairing between the small regulatory RNA (sreRNA) and a target mRNA, including transcription attenuation, translation inhibition, translation activation, and mRNA protection. Here, we discuss the description of these mechanisms, and the key components that contribute to the interactions between the sreRNA and the target mRNA. Additionally, we classify sreRNAs into categories based on their origins. Antisense RNA (asRNA) is defined strictly as cis-encoded, trans-acting regulatory RNA, while small RNA (sRNA) is strictly defined as trans-encoded, trans-acting regulatory RNA. Although both RNAs bind the target mRNA by Watson-Crick base pairing to the complementary sequence of mRNA, sRNA binding typically requires the presence of a chaperone protein, is only partially complementary to the target mRNA, and often targets multiple mRNAs. Therefore, we characterize the mechanism of sRNA as similar to the well characterized eukaryotic miRNA and discuss the parallels and differences between the two. The binding of asRNA to its target mRNA, by contrast, is typically independent of a chaperone protein, is completely or almost completely complementary to the mRNA target sequence and targets only a single mRNA. While this categorization is likely to evolve as the research identifies more relevant and distinguishing characteristics to classify sreRNAs, the classification used here of prokaryotic sreRNAs should lead to a more refined approach to the discussion and investigation of regulatory RNAs until then.
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