C. Malchere, J. Verheijen, S. van der Laan, L. Bastide, J. V. van Boom, B. Lebleu, I. Robbins
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引用次数: 23
Abstract
The potential pharmacologic benefits of using peptide nucleic acid (PNA) as an antisense agent are tempered by its incapacity to activate RNase H. The mixed backbone oligonucleotide (ON) (or gapmer) approach, in which a short internal window of RNAse H-competent residues is embedded within an RNase H-incompetent ON has not been applied previously to PNA because PNA and DNA hybridize to RNA with very different helical structures, creating structural perturbations at the two PNA-DNA junctions. It is demonstrated here for the first time that a short internal phosphodiester window within a PNA is sufficient to evoke the RNase H-dependent cleavage of a targeted RNA and to abrogate translation elongation in a well-characterized in vitro assay.
使用肽核酸(PNA)作为反义剂的潜在药理学效益因其无法激活RNase h而受到影响。混合骨干寡核苷酸(ON)(或gapmer)方法,将RNase h -胜任残基的短内部窗口嵌入RNase h -不胜任的ON中,以前没有应用于PNA,因为PNA和DNA杂交成具有非常不同螺旋结构的RNA,在两个PNA-DNA连接处产生结构扰动。这是第一次证明PNA内部的短磷酸二酯窗口足以唤起RNase h依赖性的靶向RNA切割,并在体外实验中消除翻译延伸。
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