A method to select chemically modified aptamers directly.

Antisense & nucleic acid drug development Pub Date : 2001-12-01 DOI:10.1089/108729001753411344

C. Boiziau, J. Toulmé

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引用次数: 12

Abstract

In vitro selection is a strategy to identify high-affinity ligands of a predetermined target among a large pool of randomized oligonucleotides. Most in vitro selections are performed with unmodified RNA or DNA sequences, leading to ligands of high affinity and specificity (aptamers) but of very short lifetime in the ex vivo and in vivo context. Only a very limited number of modified triphosphate nucleotides conferring nuclease resistance to the oligomer can be incorporated by polymerases. This encourages the development of alternative methods for the identification of nuclease-resistant aptamers. In this paper, we describe such a method. After selection of 2'O-methyl oligonucleotides against the TAR RNA structure of HIV-1, the complementary DNA sequences are fished out of a pool of randomized oligodeoxynucleotides by Watson-Crick hybridization. The DNA-fished sequences are amplified by PCR as double and single strands, the latter being used to fish back the chemically modified candidates from the initial library. This procedure allows an indirect amplification of the selected candidates. This enriched pool of modified sequences is then used for the next selection round against the target.

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一种直接选择化学修饰适配体的方法。

体外选择是一种在大量随机寡核苷酸中确定预定目标的高亲和力配体的策略。大多数体外选择是用未经修饰的RNA或DNA序列进行的，这导致了高亲和力和特异性的配体(适体)，但在体内和体外的寿命都很短。只有非常有限数量的修饰的三磷酸核苷酸赋予核酸酶对低聚物的抗性可以被聚合酶结合。这鼓励了鉴定抗核酸酶适体的替代方法的发展。在本文中，我们描述了这种方法。在选择针对HIV-1的TAR RNA结构的2' o -甲基寡核苷酸后，通过沃森-克里克杂交从随机的寡脱氧核苷酸池中取出互补的DNA序列。通过PCR扩增dna序列为双链和单链，后者用于从初始文库中捞回化学修饰的候选序列。这一程序允许间接扩大选定的候选对象。这个经过修改的丰富序列池然后用于针对目标的下一轮选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Antisense & nucleic acid drug development

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