构象受限的肽核酸类似物：向DNA/RNA结合选择性的结构演变。

Conformationally constrained PNA analogues: structural evolution toward DNA/RNA binding selectivity.

作者信息

Kumar Vaijayanti A, Ganesh Krishna N

机构信息

Division of Organic Synthesis, National Chemical Laboratory, Pune 411008, India.

出版信息

Acc Chem Res. 2005 May;38(5):404-12. doi: 10.1021/ar030277e.

DOI:10.1021/ar030277e

PMID:15895978

Abstract

Since its discovery 12 years ago, aminoethylglycyl peptide nucleic acid (aeg-PNA) has emerged as one of the successful DNA mimics for potential therapeutic and diagnostic applications. An important requisite for in vivo applications that has received inadequate attention is engineering PNA analogues for able discrimination between DNA and RNA as binding targets. Our approach toward this aim is based on structural preorganization of the backbone to hybridization-competent conformations to impart binding selectivity. This strategy has allowed us to design locked PNAs to achieve specific hybridization with DNA or RNA with aims to increase the binding strength without losing the binding specificity. This Account presents results of our rationale in design of different conformationally constrained PNA analogues, their synthesis, and evaluation of hybridization specificities.

摘要

自12年前被发现以来，氨乙基甘氨酰肽核酸（aeg-PNA）已成为一种成功的DNA模拟物，具有潜在的治疗和诊断应用价值。在体内应用中一个未得到充分关注的重要要求是设计能够区分DNA和RNA作为结合靶点的PNA类似物。我们实现这一目标的方法是基于将主链结构预组织成具有杂交能力的构象，以赋予结合选择性。这种策略使我们能够设计出锁定PNA，以实现与DNA或RNA的特异性杂交，目的是在不丧失结合特异性的情况下提高结合强度。本综述介绍了我们在设计不同构象受限PNA类似物、其合成以及杂交特异性评估方面的理论依据和结果。

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构象受限的肽核酸类似物：向DNA/RNA结合选择性的结构演变。

Conformationally constrained PNA analogues: structural evolution toward DNA/RNA binding selectivity.

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