Department of Chemistry, Graduate School of Science, Tohoku University, Sendai, Japan.
Biopolymers. 2022 Jan;113(1):e23474. doi: 10.1002/bip.23474. Epub 2021 Sep 3.
Unlike conventional triplex-forming oligonucleotide (TFO), triplex-forming peptide nucleic acid (PNA) can tightly bind with double-stranded RNA (dsRNA) than double-stranded DNA (dsDNA). Here, we performed spectroscopic, thermodynamic and kinetic experiments for triplex formation by PNA to examine different binding behaviors between PNA - dsRNA and PNA - dsDNA triplexes. We found 9-mer PNA (cytosine content of 66%) formed the thermally stable triplex with dsRNA compared to dsDNA over a wide range of pH (5.5-8.0), salt concentration (50-500 mM NaCl). Both the calorimetric binding constant and the association rate constant for dsRNA were larger than those for dsDNA, indicating the favorable association process for the PNA - dsRNA triplex formation. Comparison with the DNA/RNA heteroduplexes revealed that the DNA strand was detrimental to the triplex stability for PNA, a contrasting result for conventional TFO. The keys underlying the difference in the triplex formation of PNA with different duplexes appear to be the conformational adoptability and the geometric compatibility of PNA to fit the deep, narrow major groove of dsRNA and the helical rigidity difference of the duplexes. Our results emphasize the importance of both the sugar puckering of the duplex and the appropriate conformational flexibility of PNA for the triplex formation.
与传统的三聚体形成寡核苷酸(TFO)不同,三聚体形成肽核酸(PNA)可以比双链 DNA(dsDNA)更紧密地结合双链 RNA(dsRNA)。在这里,我们通过 PNA 进行了光谱、热力学和动力学实验,以研究 PNA-dsRNA 和 PNA-dsDNA 三聚体之间的不同结合行为。我们发现,与 dsDNA 相比,9 聚体 PNA(胞嘧啶含量为 66%)在很宽的 pH 值(5.5-8.0)和盐浓度(50-500 mM NaCl)范围内与 dsRNA 形成热稳定的三聚体。对于 dsRNA,比结合常数和缔合速率常数均大于那些对于 dsDNA,表明有利于 PNA-dsRNA 三聚体形成的缔合过程。与 DNA/RNA 杂合双链体的比较表明,对于 PNA,DNA 链不利于三聚体稳定性,这与传统的 TFO 形成鲜明对比。PNA 与不同双链体形成三聚体的差异的关键似乎在于 PNA 适应适合 dsRNA 深而窄的大沟和双链体螺旋刚性差异的构象可及性和几何兼容性。我们的结果强调了双链体的糖构象和 PNA 的适当构象灵活性对于三聚体形成的重要性。
