正弦衍生的短非编码rna:它们的进化起源、分子机制和生理意义

Rei Yoshimoto, Shinichi Nakagawa
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摘要

短穿插元素(Short Interspersed Elements,简称SINEs)构成了包括人类和小鼠在内的高等真核生物基因组的重要组成部分。这篇综述主要集中在sin衍生的非编码RNA (ncRNAs),特别是BC1, BC200和4.5SH RNA,它们以物种特异性的方式大量表达。这些ncRNA似乎在进化过程中独立进化了它们的功能:BC1和BC200已经成为细胞质翻译抑制剂,而4.5SH RNA已经发展成为调节剪接的核ncRNA。这篇综述深入探讨了这些ncrna的独特作用,特别强调了最近发现的4.5SH RNA的剪接调节功能。此外,我们还讨论了它们的进化轨迹和对理解基因调控复杂性的潜在影响。
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SINE-derived short noncoding RNAs: their evolutionary origins, molecular mechanisms, and physiological significance
Short Interspersed Elements (SINEs) comprise a significant portion of the genomes of higher eukaryotes, including humans and mice. This review focuses on SINE-derived noncoding RNAs (ncRNAs), particularly BC1, BC200, and 4.5SH RNA, which are expressed abundantly and in a species-specific manner. These ncRNAs seem to have independently evolved their functions during evolutionary processes: BC1 and BC200 have become cytoplasmic translation inhibitors, while 4.5SH RNA has developed into a nuclear ncRNA that regulates splicing. This review delves into the unique roles of these ncRNAs, with a special emphasis on the recently discovered splicing regulation function of 4.5SH RNA. Furthermore, we discuss their evolutionary trajectories and potential implications for understanding the complexities of gene regulation.
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