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激子模型用于强耦合多发色团体系:鸟嘌呤四链体的电子圆二色性光谱作为测试案例。

Excitonic Model for Strongly Coupled Multichromophoric Systems: The Electronic Circular Dichroism Spectra of Guanine Quadruplexes as Test Cases.

机构信息

Consiglio Nazionale delle Ricerche, Istituto di Biostrutture e Bioimmagini (IBB-CNR), via Mezzocannone 16, I-80136 Napoli, Italy.

Consiglio Nazionale delle Ricerche, Istituto di Chimica dei Composti Organo Metallici (ICCOM-CNR), SS di Pisa, Area della Ricerca, via G. Moruzzi 1, I-56124 Pisa, Italy.

出版信息

J Chem Theory Comput. 2021 Jan 12;17(1):405-415. doi: 10.1021/acs.jctc.0c01100. Epub 2020 Dec 30.

DOI:10.1021/acs.jctc.0c01100
PMID:33378185
Abstract

We here propose a general and flexible approach, based on fragment diabatization, which incorporates charge transfer states and significantly increases the reliability of excitonic Hamiltonians for systems where the chromophores are very close. This model (FrDEx) is used to compute the electronic circular dichroism and absorption spectra of two prototype guanine-rich DNA sequences folded in quadruple helices (GQs), i.e., a fragment of the human telomeric sequence (Tel21, antiparallel), and (TGGGGT) (TG4T, parallel). Calculations on different subsets of Tel21 and TG4T, from dimers to tetramers, show that FrDEx provides spectra close to the reference full quantum mechanical (QM) ones (obtained with time-dependent density functional theory), with significant improvements with respect to "standard" excitonic Hamiltonians. Furthermore, these tests enable the most cost-effective procedure for the whole GQ to be determined. FrDEx spectra of Tel21 and TG4T are also in good agreement with the QM and experimental ones and give access to interesting insights into the chemical-physical effects modulating the spectral signals. FrDEx could be profitably used to investigate many other biological and nanotechnological materials, from DNA to (opto)electronic polymers.

摘要

我们在这里提出了一种基于片段离化解的通用且灵活的方法,该方法结合了电荷转移态,极大地提高了激发子哈密顿量对于发色团非常接近的体系的可靠性。该模型(FrDEx)用于计算两个富含鸟嘌呤的 DNA 序列(GQs)折叠形成四重螺旋结构的原型(GQs)的电子圆二色性和吸收光谱,即人类端粒序列(Tel21,反平行)的片段和(TGGGGT)(TG4T,平行)。对 Tel21 和 TG4T 的不同子集(从二聚体到四聚体)的计算表明,FrDEx 提供的光谱与参考全量子力学(QM)光谱(通过含时密度泛函理论获得)非常接近,与“标准”激发子哈密顿量相比有显著改进。此外,这些测试确定了整个 GQ 的最具成本效益的方法。Tel21 和 TG4T 的 FrDEx 光谱也与 QM 和实验光谱吻合良好,并深入了解了调节光谱信号的物理化学效应。FrDEx 可用于研究许多其他生物和纳米技术材料,从 DNA 到(光电)电子聚合物。

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