低聚亚甲二醇和低聚乙二醇偶联的寡核苷酸的核酸酶抗性和RNase H敏感性。

P. Vorobjev, I. Pyshnaya, D. V. Pyshnyi, A. Venyaminova, E. M. Ivanova, V. Zarytova, G. Bonora, C. Scalfi-happ, H. Seliger
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引用次数: 5

摘要

研究了由六亚二醇和六乙二醇连接的短序列(四聚体、五聚体、八聚体和十聚体)组成的新型嵌合寡脱氧核苷酸的性质。这些嵌合寡核苷酸对蛇毒3′-磷酸二酯酶表现出更好的抗性,当末端3′-3′-核苷酸间磷酸二酯键存在时,稳定性增加。研究还表明,由桥接寡核苷酸和互补的20-mer RNA形成的杂化复合物能够诱导大肠杆菌的核糖核酸酶H (RNase H)活性。嵌合寡核苷酸的底物性质取决于连接物桥接的寡核苷酸片段的长度。在天然寡核苷酸中引入非核苷酸间隔物仅轻微地阻碍了杂化复合物中RNA水解的程度,而由于脂肪族连接物引起的空间干扰,可以观察到反应位点的修饰。因此,这些新的嵌合寡核苷酸,即由非核苷酸连接物桥接的短寡核苷酸片段,显示出对RNase h的外切酶抗性和高底物活性的良好组合。因此,这些嵌合寡核苷酸可以作为新的,有前途的类似物用于反义策略。
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Nuclease resistance and RNase H sensitivity of oligonucleotides bridged by oligomethylenediol and oligoethylene glycol linkers.
The properties of new chimeric oligodeoxynucleotides made of short sequences (tetramers, pentamers, octamers, and decamers) bridged by hexamethylenediol and hexaethylene glycol linkers have been investigated. These chimeric oligonucleotides showed an improved resistance toward snake venom 3'-phosphodiesterase, with an increased stability when a terminal 3'-3'-internucleotide phosphodiester bond is present. It also has been demonstrated that the hybrid complexes formed by bridged oligonucleotides and a complementary 20-mer RNA are able to elicit the activity of ribonuclease H (RNase H) from Escherichia coli. The substrate properties of chimeric oligonucleotides depend on the length of the oligonucleotide fragments bridged by linkers. Introduction of a nonnucleotide spacer into the native oligonucleotide only slightly hampers the extent of the RNA hydrolysis in the hybrid complexes, whereas a modification of the site of reaction is observed as a possible consequence of the steric disturbance due to the aliphatic linkers. Hence, these new chimeric oligonucleotides, namely, short oligonucleotide fragments bridged by nonnucleotide linkers, demonstrate a favorable combination of exonuclease resistance and high substrate activity toward RNase H. As a consequence, these chimeric oligonucleotides could be proposed as new, promising analogs to be used in the antisense strategy.
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