A pyrenyl-PNA probe for DNA and RNA recognition: Fluorescence and UV absorption studies.

Tullia Tedeschi, Alessandro Tonelli, Stefano Sforza, Roberto Corradini, Rosangela Marchelli
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引用次数: 16

Abstract

The design and the synthesis of a PNA oligomer containing a pyrenyl residue in the backbone were performed. PNA sequence was chosen complementary to a "G rich" target sequence involved in G-quadruplex formation. The pyrenyl unit replaced a nucleobase in the middle of the PNA through covalent linkage to the backbone by a carboxymethyl unit. A systematic study on the binding properties of this probe towards DNA and RNA complementary strands was carried out by UV and fluorescence spectroscopy. UV melting curves indicated that the PNA probe binds more tightly to RNA rather than to DNA. Thermodynamic data obtained by Van't Hoff fitting of the melting curves indicated that, in the case of RNA, a more favorable interaction occurs between the pyrenyl unit and the RNA nucleobases, leading to a very favorable enthalpic contribution.The fluorescence analysis showed specific quenching of the pyrene emission associated to the formation of the full-match PNA-DNA or PNA-RNA duplexes. Again, this behavior was more evident in the case of RNA, consistently with the stronger interaction of the pyrenyl unit with the complementary strand. In order to study the sequence specificity of the pyrenyl-PNA probe (pyr-PNA), recognition experiments on mismatched DNA and RNA sequences were also performed.

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用于DNA和RNA识别的芘基pna探针:荧光和紫外吸收研究。
设计并合成了一种骨架中含有芘基残基的PNA低聚物。选择的PNA序列与参与G四重体形成的“G富”靶序列互补。芘基单元通过羧基甲基单元与主链的共价连接取代了PNA中间的核碱基。利用紫外光谱和荧光光谱对该探针对DNA和RNA互补链的结合特性进行了系统的研究。紫外熔化曲线表明,PNA探针与RNA的结合比与DNA的结合更紧密。通过熔融曲线的Van't Hoff拟合得到的热力学数据表明,在RNA的情况下,芘基单元和RNA核碱基之间发生了更有利的相互作用,导致了非常有利的焓贡献。荧光分析显示,与形成完全匹配的PNA-DNA或PNA-RNA双链相关的芘发射特异性猝灭。同样,这种行为在RNA的情况下更为明显,与pyrenyl单元与互补链的更强相互作用一致。为了研究pyrenyl-PNA探针(pyr-PNA)的序列特异性,还进行了错配DNA和RNA序列的识别实验。
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