Improvement of sequence selectivity in triple helical recognition of RNA by phenylalanine-derived PNA.

Artificial DNA: PNA & XNA Pub Date : 2013-07-01 Epub Date: 2013-10-08 DOI:10.4161/adna.26599
Thomas Zengeya, Artem Gindin, Eriks Rozners
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引用次数: 7

Abstract

Modified peptide nucleic acids (PNA) containing one or two thymine PNA monomers derived from phenylalanine were synthesized. Triple helix formation by these modified PNAs with RNA and DNA hairpins having a variable base pair in the middle of the helix were studied using isothermal titration calorimetry and compared with triple helix formation by non-modified PNAs. While unmodified PNA had low sequence selectivity against mismatched hairpins, introduction of one or two phenylalanine-derived monomers significantly increased the mismatch discrimination and sequence selectivity of the modified PNA. Consistent with our previous observations, PNA formed more stable triple helices with RNA than with DNA. Interestingly, the phenylalanine modification further improved the preference of PNA for RNA over DNA hairpin.

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苯丙氨酸衍生PNA对RNA三螺旋识别序列选择性的提高。
合成了由苯丙氨酸衍生的含有一个或两个胸腺嘧啶PNA单体的修饰肽核酸(PNA)。用等温滴定量热法研究了这些修饰的PNAs形成的三螺旋结构,其中RNA和DNA发夹在螺旋中间具有可变碱基对,并与未修饰的PNAs形成的三螺旋结构进行了比较。未修饰的PNA对错配发卡的序列选择性较低,但引入一两个苯丙氨酸衍生单体可显著提高修饰后的PNA对错配的辨别能力和序列选择性。与我们之前的观察一致,PNA与RNA形成比与DNA更稳定的三螺旋。有趣的是,苯丙氨酸修饰进一步提高了PNA对RNA的偏好,而不是DNA发夹。
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