伽马-PNA：PNA 相互作用中手性的影响，图片中的另一块。

IF 0.7 4区生物学 Q4 PLANT SCIENCES

American Fern Journal Pub Date : 2014-12-15 DOI:10.1080/1949095X.2015.1131801

Alex Manicardi, Roberto Corradini

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引用次数: 0

摘要

通过引入新的功能基团，对 PNA 主干进行修饰可扩大其用途。尤其是伽马修饰的 PNA，已被发现在许多应用中相当有效，并表现出特别高的 DNA 结合亲和力。引入一个侧链意味着 PNA 的非手性骨架变成了手性，其结合特性取决于立体化学。Ly 及其合作者发表了一篇关于伽马修饰 PNA 的新论文，通过展示与互补 PNA 结合时的立体化学正交性，完善了现有知识。这为在诊断分析和纳米制造中利用立体化学特征开辟了道路。

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Effect of chirality in gamma-PNA: PNA interaction, another piece in the picture.

Modification of the PNA backbone can be used to broaden their utility by introducing new functional groups. In particular, gamma-modified PNA have been found to be quite effective in a number of applications, and exhibit particularly high DNA binding affinity. The introduction of one side chain imply that the achiral backbone of PNA becomes chiral, and binding properties depend on the stereochemistry. A new paper on gamma-modified PNA by Ly and co-workers complete the existing knowledge by displaying that in binding to complementary PNA stereochemical orthogonality can be demonstrated. This opens the way to the exploitation of stereochemical features in diagnostic assays and in nanofabrication.

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