Laboratory of Structural Biology and Bioinformatics, Institute of Microbiology of the Czech Academy of Sciences, Zámek 136, 37333 Nove Hrady, Czech Republic.
Faculty of Science, University of South Bohemia in České Budějovice, Branišovská 1645/31A, 37005 Ceske Budejovice, Czech Republic.
Molecules. 2021 Dec 25;27(1):116. doi: 10.3390/molecules27010116.
Ionic liquids (ILs) have become nearly ubiquitous solvents and their interactions with biomolecules has been a focus of study. Here, we used the fluorescence emission of DAPI, a groove binding fluorophore, coupled with molecular dynamics (MD) simulations to report on interactions between imidazolium chloride ([Im]) ionic liquids and a synthetic DNA oligonucleotide composed entirely of T/A bases (7(TA)) to elucidate the effects ILs on a model DNA duplex. Spectral shifts on the order of 500-1000 cm, spectral broadening (1000 cm), and excitation and emission intensity ratio changes combine to give evidence of an increased DAPI environment heterogeneity on added IL. Fluorescence lifetimes for DAPI/IL solutions yielded two time constants 0.15 ns (80% to 60% contribution) and 2.36-2.71 ns for IL up to 250 mM. With DNA, three time constants were required that varied with added IL (0.33-0.15 ns (1-58% contribution), 1.7-1.0 ns (5% contribution), and 3.8-3.6 ns (94-39% contribution)). MD radial distribution functions revealed that π-π stacking interactions between the imidazolium ring were dominant at lower IL concentration and that electrostatic and hydrophobic interactions become more prominent as IL concentration increased. Alkyl chain alignment with DNA and IL-IL interactions also varied with IL. Collectively, our data showed that, at low IL concentration, IL was primarily bound to the DNA minor groove and with increased IL concentration the phosphate regions and major groove binding sites were also important contributors to the complete set of IL-DNA duplex interactions.
离子液体(ILs)已几乎无处不在地用作溶剂,它们与生物分子的相互作用一直是研究的焦点。在这里,我们使用 DAPI 的荧光发射,一种沟槽结合荧光团,结合分子动力学(MD)模拟,报告了氯化咪唑鎓([Im])离子液体与完全由 T/A 碱基组成的合成 DNA 寡核苷酸(7(TA))之间的相互作用,以阐明离子液体对模型 DNA 双链体的影响。在加入 IL 时,约 500-1000cm 的光谱位移、光谱展宽(1000cm)以及激发和发射强度比的变化相结合,证明了 DAPI 环境异质性的增加。DAPI/IL 溶液的荧光寿命产生了两个时间常数 0.15ns(80%至 60%的贡献)和 2.36-2.71ns,IL 高达 250mM。对于 DNA,需要三个时间常数,它们随加入的 IL 而变化(0.33-0.15ns(1-58%的贡献),1.7-1.0ns(5%的贡献)和 3.8-3.6ns(94-39%的贡献))。MD 径向分布函数表明,较低 IL 浓度下,咪唑鎓环之间的π-π堆积相互作用占主导地位,随着 IL 浓度的增加,静电和疏水相互作用变得更加突出。烷基链与 DNA 的排列和 IL-IL 相互作用也随 IL 而变化。总的来说,我们的数据表明,在低 IL 浓度下,IL 主要与 DNA 小沟结合,随着 IL 浓度的增加,磷酸区域和大沟结合位点也是完整的 IL-DNA 双链体相互作用的重要贡献者。
