特定区域的反式切割锤头核酶可提高体内敲除效率。

IF 3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of cellular biochemistry Pub Date : 2024-12-01 Epub Date: 2022-04-11 DOI:10.1002/jcb.30249

Yan Peng, Xilei Ai, Bo Peng

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引用次数: 0

摘要

反式切割技术在遗传疾病治疗的发展中受到了最热烈的欢迎，特别是在信使RNA水平上纠正单基因隐性突变方面。然而，锤头状核酶在体内容易降解和催化活性差仍然是反式切割的主要障碍。在此，我们发现了一种新的支架RNA，它在反式切割中稳定核酶结构，并促进锤头状核酶在活细胞特定区域的敲除效率。我们可以通过改变不同的支架，赋予反式切割锤头状核酶敲除特定细胞区域特定基因的能力。因此，我们的研究证明了用高特异性反式切割锤头状核酶敲除RNA策略作为基因治疗方法的潜在有用性。

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Trans-cleaving hammerhead ribozyme in specific regions can improve knockdown efficiency in vivo.

Trans-cleaving techniques have been most enthusiastically embraced in the development of therapy for genetic diseases, particularly in the correction of monogenic recessive mutations at the messenger RNA level. However, easy degradation and poor catalytic activity in vivo remain significant obstacles to trans-cleaving of the hammerhead ribozyme. Herein, we found a novel scaffold RNA that stabilizes the ribozyme structure in trans-cleaving and promotes the knockdown efficiency of the hammerhead ribozyme in specific regions of living cells. We can give the trans-cleaving hammerhead ribozyme the ability to knock down specific genes in specific cell regions by changing different scaffolds. Therefore, our study proves the potential usefulness of the RNA knockdown strategy with high-specific trans-cleaving hammerhead ribozyme as a therapeutic approach in gene therapy.

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来源期刊

Journal of cellular biochemistry 生物-生化与分子生物学

CiteScore

9.90

自引率

0.00%

发文量

164

审稿时长

1 months

期刊介绍： The Journal of Cellular Biochemistry publishes descriptions of original research in which complex cellular, pathogenic, clinical, or animal model systems are studied by biochemical, molecular, genetic, epigenetic or quantitative ultrastructural approaches. Submission of papers reporting genomic, proteomic, bioinformatics and systems biology approaches to identify and characterize parameters of biological control in a cellular context are encouraged. The areas covered include, but are not restricted to, conditions, agents, regulatory networks, or differentiation states that influence structure, cell cycle & growth control, structure-function relationships.