Cation Effect on the Electronic Excited States of Guanine Nanostructures Studied by Time-Resolved Fluorescence Spectroscopy

Yang, Hua; Changenet‐Barret, Pascale; Improta, Roberto; Vayá, Ignacio; Gustavsson, T.; Kotlyar, Alexander; Zikich, Dragoslav; Šket, Primož; Plavec, Janez; Markovitsi, Dimitra

doi:10.1021/jp303651e

Cited by 45 publications

(120 citation statements)

References 47 publications

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“…Interestingly, we reproduce almost quantitatively the experimental hypochromic effect of the absorption maximum, which suggests that two stacked tetrads are a fairly reliable model also of longer species, especially when thinking that in TG 4 T edge effects and thermal fluctuations decrease the probability that a larger number of tetrads are strongly stacked. In agreement with experimental results, these features are similar for Na + and K + cations 33. The very good agreement with the experimental spectra indicates that M052X can model accurately the effect of the stacking and the hydrogen bonds on G excited states, and supports the reliability of our assignment.…”

Section: Resultssupporting

confidence: 87%

“…25 On the other hand, a detailed atomistic description of the nature and properties of the absorbing excited states of G‐Quads, which are responsible for the peculiar optical and CD spectra,19–25 is still lacking. Analogously, experiments have shown that the minima responsible for the fluorescence spectra are very different from isolated G,32, 33 but their structures are completely unknown. Time‐resolved experiments show that the excited‐state lifetimes of G‐Quads are orders of magnitude greater than that of G,32, 33 but no description, even qualitative, of their decay paths is available, and the roles played by key factors such as the nature of the cation or the quadruplex topology have not yet been elucidated.…”

Section: Introductionmentioning

confidence: 99%

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Quantum Mechanical Calculations Unveil the Structure and Properties of the Absorbing and Emitting Excited Electronic States of Guanine Quadruplex

Improta

2014

Chemistry A European J

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Herein, a full quantum mechanical study, in solution, of several models of guanine-quadruplex helices, both parallel and antiparallel, containing up to eight guanine residues, in their electronic excited state is reported. By exploiting TD-DFT calculations and including solvent effects by the polarizable continuum model, we provide the first atomistic description of the processes triggered by the absorption of UV light, reproducing and assigning the experimental optical and electronic circular dichroism spectra. The absorbing excited states are delocalized over multiple bases, whereas emission involves a stacked guanine dimer or a monomer. Several states, with a varying degree of localization and charge-transfer character, rule the photoexcited dynamics, which are deeply affected by the quadruplex topology. The lowest excited-state minimum for parallel quadruplex is an asymmetric excimer involving two stacked guanines, with a small charge transfer character, whereas for the anti-parallel structure, with the same topology of the thrombin binding aptamer, it is a fully symmetric excimer, characterized by a strong decrease of the stacking distance. A monomer-like decay path is the most relevant nonradiative decay pathway. Insights on the effect of the ions (K(+) or Na(+)) on the excited state decay are also provided.

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Section: Resultssupporting

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Quantum Mechanical Calculations Unveil the Structure and Properties of the Absorbing and Emitting Excited Electronic States of Guanine Quadruplex

Improta

2014

Chemistry A European J

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“…These characteristics were also observed in the detailed measurements of GQS emission by Markovitsi and co-workers, who studied structures formed from assembly of four DNA oligonucleotides 50,66,71 and from the human telomeric sequence Tel21 (dGGGTTAGGGTTAGGGTTAGGG). 57 The steadystate emission of Tel21 is compared to our default system dG 3 T in Figure 7.…”

Section: ■ Discussionmentioning

confidence: 60%

Steady-State and Time-Resolved Studies into the Origin of the Intrinsic Fluorescence of G-Quadruplexes

et al. 2016

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Stretches of guanines in DNA and RNA can fold into guanine quadruplex structures (GQSs). These structures protect telomeres in DNA and regulate gene expression in RNA. GQSs have an intrinsic fluorescence that is sensitive to different parameters, including loop sequence and length. However, the dependence of GQS fluorescence on solution and sequence parameters and the origin of this fluorescence are poorly understood. Herein we examine effects of dangling nucleotides and cosolute conditions on GQS fluorescence using both steady-state and time-resolved fluorescence spectroscopy. The quantum yield of dGGGTGGGTGGGTGGG, termed "dG3T", is found to be modest at ∼2 × 10(-3). Nevertheless, dG3T and its variants are significantly brighter than the common nucleic acid fluorophore 2-aminopurine (2AP) largely due to their sizable extinction coefficients. Dangling 5'-end nucleotides generally reduce emission and blue-shift the resultant spectrum, whereas dangling 3'-end nucleotides slightly enhance fluorescence, particularly on the red side of the emission band. Time-resolved fluorescence decays are broadly distributed in time and require three exponential components for accurate fits. Time-resolved emission spectra suggest the presence of two emitting populations centered at ∼330 and ∼390 nm, with the redder component being a well-defined long-lived (∼1 ns) entity. Insights into GQS fluorescence obtained here should be useful in designing brighter intrinsic RNA and DNA quadruplexes for use in label-free biotechnological applications.

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“…nanostructures and energy transfer in DNA quadruplexes, 71,72 to the best of our knowledge no report is available on the metal ion regulated blue uorescence of guanosine gels. The morphological insight of G and dG gels was characterized using transmission electron microscopy (TEM).…”

Section: Resultsmentioning

confidence: 99%

Self-assembly of guanosine and deoxy-guanosine into hydrogels: monovalent cation guided modulation of gelation, morphology and self-healing properties

2014

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+ on the stimulation of purine nucleosides guanosine (G) and deoxy-guanosine (dG) to self-assemble into hydrogels. The gelation properties in terms of gel crystallization, lifetime stability, thermo-reversibility, minimum gelation concentration, gel melting temperature, thixotropic property and others were thoroughly investigated and compared not only between two nucleosides but also among different metal ions. A few metal ions were found to induce G/dG to form gels with much improved lifetime stability. The results revealed that dG is a much better gelator than G for introduction of a thixotropic property. Interestingly, morphological, fluorescence and rheological (thixotropic) properties of the gels were found to modulate significantly by changing the metal ions. In the presence of K + ions, G produces a self supporting tight gel but it has poor lifetime stability. In contrast, the presence of K + ions stimulates dG to form a very loose gel but with excellent lifetime stability and thixotropic property. In this context, we have successfully engineered a self-supporting stable co-gel using a simple co-gelation method by mixing an equimolar amount of K + induced G and dG gels and this co-gel shows long lifetime stability, self-healing and injectable properties which may allow for a broad range of biological applications.Furthermore, an Ag + induced G gel was exploited for the light triggered in situ fabrication of uniform AgNPs within a gel to make a nano-bio hybrid material.

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Cation Effect on the Electronic Excited States of Guanine Nanostructures Studied by Time-Resolved Fluorescence Spectroscopy

Cited by 45 publications

References 47 publications

Quantum Mechanical Calculations Unveil the Structure and Properties of the Absorbing and Emitting Excited Electronic States of Guanine Quadruplex

Quantum Mechanical Calculations Unveil the Structure and Properties of the Absorbing and Emitting Excited Electronic States of Guanine Quadruplex

Steady-State and Time-Resolved Studies into the Origin of the Intrinsic Fluorescence of G-Quadruplexes

Self-assembly of guanosine and deoxy-guanosine into hydrogels: monovalent cation guided modulation of gelation, morphology and self-healing properties

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