siRNA的分子机制和生物学功能

Hassan Dana, Ghanbar Mahmoodi Chalbatani, H. Mahmoodzadeh, Rezvan Karimloo, Omid Rezaiean, Amirreza Moradzadeh, N. Mehmandoost, Fateme Moazzen, A. Mazraeh, Vahid Marmari, M. Ebrahimi, M. Rashno, Saeid Jan Abadi, Elahe Gharagouzlo
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引用次数: 189

摘要

生物学最重要的进展之一是发现siRNA(小干扰RNA)能够通过一种被称为RNAi (RNA干扰)的现象来调节基因的表达。RNAi的发现,首先是在植物和秀丽隐杆线虫中,后来在哺乳动物细胞中,导致了生物医学研究中一个变革性观点的出现。siRNA作为一种潜在的治疗试剂受到了关注,因为它能够抑制许多遗传疾病中的特定基因。sirna可以作为研究体内和体外单基因功能的工具,是一类有吸引力的新疗法,特别是针对癌症和其他疾病的不可药物靶点。siRNA传递系统分为非病毒传递系统和病毒传递系统。非病毒传递系统包括聚合物;脂质;多肽等是siRNA被广泛研究的传递系统。siRNA的有效药理应用需要能够将siRNA运送到其预期作用部位的“载体”。载体将siRNA组装成在递送过程中显示功能特性的超分子复合物。
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Molecular Mechanisms and Biological Functions of siRNA
One of the most important advances in biology has been the discovery that siRNA (small interfering RNA) is able to regulate the expression of genes, by a phenomenon known as RNAi (RNA interference). The discovery of RNAi, first in plants and Caenorhabditis elegans and later in mammalian cells, led to the emergence of a transformative view in biomedical research. siRNA has gained attention as a potential therapeutic reagent due to its ability to inhibit specific genes in many genetic diseases. siRNAs can be used as tools to study single gene function both in vivo and in-vitro and are an attractive new class of therapeutics, especially against undruggable targets for the treatment of cancer and other diseases. The siRNA delivery systems are categorized as non-viral and viral delivery systems. The non-viral delivery system includes polymers; Lipids; peptides etc. are the widely studied delivery systems for siRNA. Effective pharmacological use of siRNA requires ‘carriers’ that can deliver the siRNA to its intended site of action. The carriers assemble the siRNA into supramolecular complexes that display functional properties during the delivery process.
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