Daniela Verga scite author profile

A one-step protecting-group-free synthesis of both 6-hydroxy-naphthalene-2-carbaldehyde and the bifunctional binaphthalenyl derivative afforded 6-hydroxymethylnaphthalen-2-ol, 6-methylaminomethyl-naphthalen-2-ol, [(2-hydroxy-3-naphthyl)methyl]trimethyl ammonium iodide, and a small library of bifunctional binol analogues in good yields. Irradiation of naphthol quaternary ammonium salt and binol-derivatives (X = OH, NHR, NMe(3)(+), OCOCH(3), and L-proline) at 310 and 360 nm resulted in the photogeneration of the 2,6-naphthoquinone-6-methide (NQM) and binol quinone methide analogues (BQMs) by a water-mediated excited-state proton transfer (ESPT). The hydration, the mono- and bis-alkylation reactions of morpholine and 2-ethanethiol, as N and S prototype nucleophiles, by the transient NQM (λ(max) 310, 330 nm) and BQMs (λ(max) 360 nm) were investigated in water by product distribution analysis and laser flash photolysis (LFP). Both the photogeneration and the reactivity of NQM and BQMs exhibited striking differences. BQMs were at least 2 orders of magnitude more reactive than NQM, and they were generated much more efficiently from a greater variety of photoprecursors including the hydroxymethyl, quaternary ammonium salt and several binol-amino acids. On the contrary, the only efficient precursor of NQM was the quaternary ammonium salt. All water-soluble BQM precursors were further investigated for their ability to alkylate and cross-link plasmid DNA and oligonucleotides by gel electrophoresis: the BQMs were more efficient than the isomeric o-BQM (binol quinone methide analogue of 2,3-naphthoquinone-3-methide). Sequence analysis by gel electrophoresis, HPLC, and MS showed that the alkylation occurred at purines, with a preference for guanine. In particular, a BQM was able to alkylate N7 of guanines resulting in depurination at the oligonucleotide level, and ribose loss at the nucleotide level. The photoreactivity of BQM precursors translated into photocytotoxic and cytotoxic effects on two human cancer cell lines: in particular, one compound showed promising selectivity index on both cell lines.

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Visualizing the Quadruplex: From Fluorescent Ligands to Light-Up Probes

Largy¹,

Granzhan²,

Hamon³

et al. 2012

123

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Detection of quadruplex structures by visual methods is a major challenge of the quadruplex nucleic acid research area. Consequently, considerable efforts are under way for the discovery of quadruplex specific agents endowed with fluorescence properties. In this review chapter we propose a comprehensive and critical overview of the diverse molecular design and strategies that have been described to identify quadruplex-selective fluorescent probes. Innovative compounds as well as classical DNA dyes are reviewed. The compounds have been divided into three classes: (1) "light-up" probes that display a strong enhancement upon G4 binding, (2) "light-off" probes that display a decreased fluorescence upon binding, and (3) permanent probes ("tagged" G4-binders) that exhibit no variation of fluorescence but display quadruplex binding specificity. The labeling performances of probes in various analytical contexts (in solution, in gel, at the level of chromosomes, and in fixed cells) are also reported and commented on when available. Finally we address the strengths and weaknesses of each probe class and highlight the critical features that must be addressed in developing a practicable quadruplex-specific labeling agent.

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Thermodynamically stable and genetically unstable G-quadruplexes are depleted in genomes across species

Lombardi

Holmes

Verga

et al. 2019

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G-quadruplexes play various roles in multiple biological processes, which can be positive when a G4 is involved in the regulation of gene expression or detrimental when the folding of a stable G4 impairs DNA replication promoting genome instability. This duality interrogates the significance of their presence within genomes. To address the potential biased evolution of G4 motifs, we analyzed their occurrence, features and polymorphisms in a large spectrum of species. We found extreme bias of the short-looped G4 motifs, which are the most thermodynamically stable in vitro and thus carry the highest folding potential in vivo. In the human genome, there is an over-representation of single-nucleotide-loop G4 motifs (G4-L1), which are highly conserved among humans and show a striking excess of the thermodynamically least stable G4-L1A (G3AG3AG3AG3) sequences. Functional assays in yeast showed that G4-L1A caused the lowest levels of both spontaneous and G4-ligand-induced instability. Analyses across 600 species revealed the depletion of the most stable G4-L1C/T quadruplexes in most genomes in favor of G4-L1A in vertebrates or G4-L1G in other eukaryotes. We discuss how these trends might be the result of species-specific mutagenic processes associated to a negative selection against the most stable motifs, thus neutralizing their detrimental effects on genome stability while preserving positive G4-associated biological roles.

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Daniela Verga

Photogeneration and Reactivity of Naphthoquinone Methides as Purine Selective DNA Alkylating Agents

Visualizing the Quadruplex: From Fluorescent Ligands to Light-Up Probes

Thermodynamically stable and genetically unstable G-quadruplexes are depleted in genomes across species

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