PNA HYBRIDIZATION OF FOLDED NUCLEIC ACID TARGETS

折叠核酸靶标的 PNA 杂交

• 批准号: 6386365
• 负责人: Bruce A. ARMITAGE
• 金额: $ 14.29万
• 依托单位: CARNEGIE-MELLON UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-04-01 至 2005-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6386365
• 关键词: calorimetry; circular dichroism; gel electrophoresis; gel mobility shift assay; nucleic acid hybridization; nucleic acid reconstitution; nucleic acid sequence; nucleic acid structure; nucleoproteins; peptide analog; pyrimidines; reagent /indicator; synthetic nucleic acid; thermodynamics

DESCRIPTION (adapted from applicant's abstract): This proposal addresses the need for new reagents targeted toward specific sequences of DNA and RNA. Such reagents would have potential use in both diagnostic and therapeutic applications. The reagents described (in the proposal) are peptide nucleic acid (PNA) oligomers, which are synthetic analogs of DNA and RNA in which the sugar-phosphodiester backbone is replaced by a polyamide. PNAs hybridize to complementary single-stranded DNA and RNA with high affinity and sequence selectivity. Most applications of PNA will require hybridization to a target sequence that is part of a folded structure that could impose significant barriers to binding by sterically blocking access to the target site. PNA can bind to duplex DNA by strand invasion but only certain sequences can be targeted. The growing awareness of the importance on nonduplex DNA secondary structures and the rich variety of secondary and tertiary structures exhibited by RNA have prompted us to initiate studies on the ability of PNA to target these structures, both in simple model systems and within the context of a large, folded RNA molecule. We will use a variety of spectroscopic, calorimetric and gel electrophoretic methods to study the thermodynamics and kinetic factors controlling PNA hybridization to these targets. The principal aim of this proposal is to broadly examine the scope of PNA hybridization to structured targets to better evaluate the potential utility of PNA in diagnostic and therapeutic applications. The following Specific Aims will allow us to achieve this goal: * Examine binding of PNA to DNA and RNA hairpin motifs. * Study binding of homopyrimidine PNA to single- and double-stranded RNA sequences * Evaluate PNA-DNA and PNA-RNA hybridization kinetics. * Effect of RNA tertiary structure on PNA hybridization.

描述（改编自申请人的摘要）：本提案涉及 需要针对DNA和RNA特定序列的新试剂。等 试剂将在诊断和治疗方面具有潜在的用途， 应用.（在提案中）描述的试剂是肽核酸 (PNA)寡聚体，其是DNA和RNA的合成类似物，其中 糖-磷酸二酯主链被聚酰胺取代。PNA与 具有高亲和力和序列的互补单链DNA和RNA 选择性PNA的大多数应用将需要与靶杂交 作为折叠结构的一部分的序列， 通过在空间上阻断对靶位点的访问来阻止结合。PNA可以 通过链侵入结合双链体DNA，但只有某些序列可以 针对性地人们越来越认识到非双链DNA二级结构 结构和丰富多样的二级和三级结构展示 促使我们开始研究PNA的靶向能力， 这些结构，无论是在简单的模型系统，并在一个 大的折叠RNA分子。我们将使用各种光谱， 量热法和凝胶电泳法来研究热力学， 控制PNA与这些靶点杂交的动力学因素。校长 这项建议的目的是广泛地研究PNA杂交的范围， 结构化的目标，以更好地评估潜在的效用PNA在 诊断和治疗应用。以下具体目标将允许 我们要实现这个目标： * 检查PNA与DNA和RNA发夹基序的结合。 * 高嘧啶PNA与单链和双链RNA结合的研究 序列 * 评价PNA-DNA和PNA-RNA杂交动力学。 * RNA三级结构对PNA杂交的影响。