Insights from crystallographic studies into the structural and pairing properties of nucleic acid analogs and chemically modified DNA and RNA oligonucleotides.

Martin Egli, Pradeep S Pallan
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引用次数: 57

Abstract

Chemically modified nucleic acids function as model systems for native DNA and RNA; as chemical probes in diagnostics or the analysis of protein-nucleic acid interactions and in high-throughput genomics and drug target validation; as potential antigene-, antisense-, or RNAi-based drugs; and as tools for structure determination (i.e., crystallographic phasing), just to name a few. Biophysical and structural investigations of chemically modified DNAs and RNAs, particularly of nucleic acid analogs with more significant alterations to the well-known base-sugar-phosphate framework (i.e., peptide or hexopyranose nucleic acids), can also provide insights into the properties of the natural nucleic acids that are beyond the reach of studies focusing on DNA or RNA alone. In this review we summarize results from crystallographic analyses of chemically modified DNAs and RNAs that are primarily of interest in the context of the discovery and development of oligonucleotide-based therapeutics. In addition, we re-examine recent structural data on nucleic acid analogs that are investigated as part of a systematic effort to rationalize nature's choice of pentose in the genetic system.

从晶体学研究到核酸类似物和化学修饰的DNA和RNA寡核苷酸的结构和配对特性的见解。
化学修饰的核酸作为原生DNA和RNA的模型系统;作为化学探针用于蛋白质-核酸相互作用的诊断和分析以及高通量基因组学和药物靶标验证;作为潜在的基于抗原、反义或rna的药物;作为结构测定的工具(即晶体相),仅举几例。对化学修饰的DNA和RNA的生物物理和结构研究,特别是对众所周知的碱基糖-磷酸框架(即肽或己糖核酸)发生更大变化的核酸类似物(即肽或己糖核酸)的研究,也可以提供对天然核酸特性的见解,这些特性超出了仅关注DNA或RNA的研究范围。在这篇综述中,我们总结了化学修饰dna和rna的晶体学分析结果,这些结果主要是在发现和开发基于寡核苷酸的治疗方法的背景下感兴趣的。此外,我们重新检查了核酸类似物最近的结构数据,这些数据作为系统努力的一部分进行了调查,以使遗传系统中戊糖的自然选择合理化。
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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