Purification and assembly of thermostable Cy5 labeled γ-PNAs into a 3D DNA nanocage.

Artificial DNA: PNA & XNA Pub Date : 2014-12-15
Justin D Flory, Trey Johnson, Chad D Simmons, Su Lin, Giovanna Ghirlanda, Petra Fromme
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Abstract

PNA is hybrid molecule ideally suited for bridging the functional landscape of polypeptides with the structural diversity that can be engineered with DNA nanostructures. However, PNA can be more challenging to work with in aqueous solvents due to its hydrophobic nature. A solution phase method using strain promoted, copper free click chemistry was developed to conjugate the fluorescent dye Cy5 to 2 bifunctional PNA strands as a first step toward building cyclic PNA-polypeptides that can be arranged within 3D DNA nanoscaffolds. A 3D DNA nanocage was designed with binding sites for the 2 fluorescently labeled PNA strands in close proximity to mimic protein active sites. Denaturing polyacrylamide gel electrophoresis (PAGE) is introduced as an efficient method for purifying charged, dye-labeled NA conjugates from large excesses of unreacted dye and unreacted, neutral PNA. Elution from the gel in water was monitored by fluorescence and found to be more efficient for the more soluble PNA strand. Native PAGE shows that both PNA strands hybridize to their intended binding sites within the DNA nanocage. Förster resonance energy transfer (FRET) with a Cy3 labeled DNA nanocage was used to determine the dissociation temperature of one PNA-Cy5 conjugate to be near 50C. Steady-state and time resolved fluorescence was used to investigate the dye orientation and interactions within the various complexes. Bifunctional, thermostable PNA molecules are intriguing candidates for controlling the assembly and orientation of peptides within small DNA nanocages for mimicking protein catalytic sites.

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纯化可恒温 Cy5 标记的 γ-PNA 并将其组装到三维 DNA 纳米笼中。
PNA 是一种混合分子,是连接多肽功能与 DNA 纳米结构多样性的理想分子。然而,由于 PNA 具有疏水性,因此在水性溶剂中使用 PNA 会更具挑战性。作为构建可在三维 DNA 纳米支架中排列的环状 PNA 多肽的第一步,我们开发了一种使用应变促进、无铜点击化学的溶液相方法,将荧光染料 Cy5 与 2 条双功能 PNA 链共轭。我们设计了一种三维 DNA 纳米支架,其上的 2 条荧光标记 PNA 链的结合位点非常接近模拟蛋白质的活性位点。变性聚丙烯酰胺凝胶电泳(PAGE)是一种从大量过量的未反应染料和未反应的中性 PNA 中纯化带电的染料标记 NA 结合物的有效方法。通过荧光监测凝胶在水中的洗脱情况,发现可溶性较高的 PNA 链的洗脱效率更高。原生 PAGE 显示,两条 PNA 链都杂交到了 DNA 纳米笼内的预定结合位点。利用与 Cy3 标记的 DNA 纳米笼的佛斯特共振能量转移(FRET),确定一种 PNA-Cy5 共轭物的解离温度接近 50℃。稳态和时间分辨荧光用于研究各种复合物中的染料取向和相互作用。双功能、可恒温的 PNA 分子是控制肽在小型 DNA 纳米笼内组装和定向的有趣候选分子,可用于模拟蛋白质催化位点。
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Purification and assembly of thermostable Cy5 labeled γ-PNAs into a 3D DNA nanocage. Insights on chiral, backbone modified peptide nucleic acids: Properties and biological activity. Effect of 2′-O-methyl/thiophosphonoacetate-modified antisense oligonucleotides on huntingtin expression in patient-derived cells Effect of chirality in gamma-PNA: PNA interaction, another piece in the picture. Anomeric DNA quadruplexes.
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