Thienoguanosine brightness in DNA duplexes is governed by the localization of its ππ* excitation in the lowest energy absorption band

IF 2.4 3区 化学 Q3 CHEMISTRY, ANALYTICAL
Stefano Ciaco, Krishna Gavvala, V. Greiner, Viola Mazzoleni, P. Didier, M. Ruff, L. Martínez-Fernández, R. Improta, Y. Mély
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引用次数: 2

Abstract

Thienoguanosine (thG) is an isomorphic fluorescent guanosine (G) surrogate, which almost perfectly mimics the natural G in DNA duplexes and may therefore be used to sensitively investigate for example protein-induced local conformational changes. To fully exploit the information given by the probe, we carefully re-investigated the thG spectroscopic properties in 12-bp duplexes, when the Set and Ring Associated (SRA) domain of UHRF1 flips its 5′ flanking methylcytosine (mC). The SRA-induced flipping of mC was found to strongly increase the fluorescence intensity of thG, but this increase was much larger when thG was flanked in 3′ by a C residue as compared to an A residue. Surprisingly, the quantum yield and fluorescence lifetime values of thG were nearly constant, regardless of the presence of SRA and the nature of the 3′ flanking residue, suggesting that the differences in fluorescence intensities might be related to changes in absorption properties. We evidenced that thG lowest energy absorption band in the duplexes can be deconvoluted into two bands peaking at ∼350 nm and ∼310 nm, respectively red-shifted and blue-shifted, compared to the spectrum of thG monomer. Using quantum mechanical calculations, we attributed the former to a nearly pure ππ* excitation localized on thG and the latter to excited states with charge transfer character. The amplitude of thG red-shifted band strongly increased when its 3′ flanking C residue was replaced by an A residue in the free duplex, or when its 5′ flanking mC residue was flipped by SRA. As only the species associated with the red-shifted band were found to be emissive, the highly unusual finding of this work is that the brightness of thG in free duplexes as well as its changes on SRA-induced mC flipping almost entirely depend on the relative population and/or absorption coefficient of the red-shifted absorbing species.
DNA双链体中Thienoguanosine的亮度由其ππ*激发在最低能量吸收带的定位决定
Thienoguanosine(thG)是一种同构的荧光鸟苷(G)替代物,它几乎完全模拟DNA双链体中的天然G,因此可以用于敏感地研究例如蛋白质诱导的局部构象变化。为了充分利用探针提供的信息,我们仔细地重新研究了当UHRF1的集环相关(SRA)结构域翻转其5′侧翼甲基胞嘧啶(mC)时,12bp双链体中的thG光谱性质。发现SRA诱导的mC翻转强烈增加了thG的荧光强度,但与a残基相比,当thG在3′侧有C残基时,这种增加要大得多。令人惊讶的是,无论SRA的存在和3′侧翼残基的性质如何,thG的量子产率和荧光寿命值几乎恒定,这表明荧光强度的差异可能与吸收性质的变化有关。我们证明,与thG单体的光谱相比,双链体中的thG最低能量吸收带可以去卷积为峰值在~350nm和~310nm的两个带,分别为红移和蓝移。利用量子力学计算,我们将前者归因于位于thG上的几乎纯ππ*激发,而后者归因于具有电荷转移特性的激发态。当其3′侧的C残基在自由双链中被A残基取代时,或当其5′侧的mC残基被SRA翻转时,thG红移带的幅度强烈增加。由于只有与红移带相关的物种被发现是发射的,这项工作的极不寻常的发现是,自由双链体中thG的亮度及其在SRA诱导的mC翻转上的变化几乎完全取决于红移吸收物种的相对种群和/或吸收系数。
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来源期刊
Methods and Applications in Fluorescence
Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL
CiteScore
6.20
自引率
3.10%
发文量
60
期刊介绍: Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.
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