利用寡核苷酸标签的化学连接对小分子文库进行dna编码的通用策略。

Alexander Litovchick, Matthew A Clark, Anthony D Keefe
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引用次数: 16

摘要

亲和介导的选择dna编码小分子的大文库越来越多地被用于启动药物发现程序。我们提出了使用寡核苷酸的化学连接来编码这些文库的通用方法。这些方法可用于记录组合合成过程中单个库成员的化学历史。我们展示了三种不同的化学连接方法作为这些文库的信息记录过程(写入)的例子,以及两种不同的dna生成方法作为这些文库的信息检索过程(读取)的例子。示例写入方法包括非催化和Cu(I)催化的炔-叠氮化物环加成和新型光化学胸腺嘧啶-补骨脂素环加成。第一种读取方法“中继引物依赖旁路”利用一种中继引物,该引物在嵌入固定序列的化学连接结上杂交,并在连接相邻寡核苷酸之前在其3'端延伸。第二种读取方法“重复依赖旁路”利用化学连接连接,其两侧是重复序列。上游重复序列在重排事件之前被复制,在重排事件中,cDNA的3'端与下游重复序列杂交,聚合继续进行。原则上,这些读取方法可用于任何连接化学,并为dna编码化学文库的编码(写入)和解释(读取)提供通用策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Universal strategies for the DNA-encoding of libraries of small molecules using the chemical ligation of oligonucleotide tags.

Universal strategies for the DNA-encoding of libraries of small molecules using the chemical ligation of oligonucleotide tags.

Universal strategies for the DNA-encoding of libraries of small molecules using the chemical ligation of oligonucleotide tags.

Universal strategies for the DNA-encoding of libraries of small molecules using the chemical ligation of oligonucleotide tags.

The affinity-mediated selection of large libraries of DNA-encoded small molecules is increasingly being used to initiate drug discovery programs. We present universal methods for the encoding of such libraries using the chemical ligation of oligonucleotides. These methods may be used to record the chemical history of individual library members during combinatorial synthesis processes. We demonstrate three different chemical ligation methods as examples of information recording processes (writing) for such libraries and two different cDNA-generation methods as examples of information retrieval processes (reading) from such libraries. The example writing methods include uncatalyzed and Cu(I)-catalyzed alkyne-azide cycloadditions and a novel photochemical thymidine-psoralen cycloaddition. The first reading method "relay primer-dependent bypass" utilizes a relay primer that hybridizes across a chemical ligation junction embedded in a fixed-sequence and is extended at its 3'-terminus prior to ligation to adjacent oligonucleotides. The second reading method "repeat-dependent bypass" utilizes chemical ligation junctions that are flanked by repeated sequences. The upstream repeat is copied prior to a rearrangement event during which the 3'-terminus of the cDNA hybridizes to the downstream repeat and polymerization continues. In principle these reading methods may be used with any ligation chemistry and offer universal strategies for the encoding (writing) and interpretation (reading) of DNA-encoded chemical libraries.

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