Evgeny S. Belyaev scite author profile

Non-canonical DNA structures are widely used for regulation of gene expression, in DNA nanotechnology and for the development of new DNA-based sensors. I-motifs (iMs) are two intercalated parallel duplexes that are held together by hemiprotonated C-C base pairs. Previously, iMs were used as an accurate sensor for intracellular pH measurements. However, iM stability is moderate, which in turn limits its in vivo applications. Here, we report the rational design of a new substituted phenoxazine 2′-deoxynucleotide (i-clamp) for iM stabilization. This residue contains a C8-aminopropyl tether that interacts with the phosphate group within the neighboring chain without compromising base pairing. We studied the influence of i-clamp on pH-dependent stability for intra- and intermolecular iM structures and found the optimal positions for modification. Two i-clamps on opposite strands provide thermal stabilization up to 10–11°C at a pH of 5.8. Thus, we developed a new modification that shows significant iM-stabilizing effect both at strongly and mildly acidic pH and increases iM transition pH values. i-Clamp can be used for tuning iM-based pH probes or assembling extra stable iM structures for various applications.

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Phenoxazine nucleoside derivatives with a multiple activity against RNA and DNA viruses

Kozlovskaya

Volok

Штро

et al. 2021

European Journal of Medicinal Chemistry

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Emerging and re-emerging viruses periodically cause outbreaks and epidemics all over the world, eventually leading to global events such as the current pandemic of the novel SARS-CoV-2 coronavirus infection COVID-19. Therefore, an urgent need for novel antivirals is crystal clear. Here we present the synthesis and evaluation of an antiviral activity of phenoxazine-based nucleoside analogs divided into three groups: (1) 8-alkoxy-substituted, (2) acyclic, and (3) carbocyclic. The antiviral activity was assessed against a structurally and phylogenetically diverse panel of RNA and DNA viruses from 25 species. Four compounds ( 11a-c , 12c ) inhibited 4 DNA/RNA viruses with EC 50 ≤ 20 μM. Toxicity of the compounds for the cell lines used for virus cultivation was negligible in most cases. In addition, previously reported and newly synthesized phenoxazine derivatives were evaluated against SARS-CoV-2, and some of them showed promising inhibition of reproduction with EC 50 values in low micromolar range, although accompanied by commensurate cytotoxicity.

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Synthesis of oligonucleotides containing novel G-clamp analogue with C8-tethered group in phenoxazine ring: Implication to qPCR detection of the low-copy Kemerovo virus dsRNA

Varizhuk

Zatsepin

Golovin

et al. 2017

Bioorganic & Medicinal Chemistry

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Cationic Perylene Antivirals with Aqueous Solubility for Studies In Vivo

et al. 2022

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Perylene-based compounds are attracting significant attention due to their high broad-spectrum antiviral activity against enveloped viruses. Despite unambiguous results of in vitro studies and high selectivity index, the poor water solubility of these compounds prevented in vivo evaluation of their antiviral properties. In this work, we synthesized a series of compounds with a perylene pharmacophore bearing positively charged substituents to improve the aqueous solubility of this unique type of antivirals. Three types of charged groups were introduced: (1) quaternary morpholinium salts (3a–b); (2) a 2′-O-l-valinyl-uridine hydrochloride residue (8), and (3) a 3-methylbenzothiazolium cation (10). The synthesized compounds were evaluated based both on antiviral properties in vitro (CHIKV, SARS-CoV-2, and IAV) and on solubility in aqueous media. Compound 10 has the greatest aqueous solubility, making it preferable for pre-evaluation by intragastrical administration in a mouse model of lethal influenza pneumonia. The results indicate that the introduction of a positively charged group is a viable strategy for the design of drug candidates with a perylene scaffold for in vivo studies.

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Antiviral activity spectrum of phenoxazine nucleoside derivatives

et al. 2019

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Azines of porphyrinoids. Does azine provide conjugation between chromophores?

et al. 2021

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3-(2-Bromovinyl)chlorins: a new approach towards chlorophyll a modification

Lonin

Kuzovlev

Belyaev

et al. 2014

J. Porphyrins Phthalocyanines

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Regioselective bromination of methyl pyropheophorbide a at the C32-position of the terminal double bond has been carried out as a one-pot two-step addition/elimination process. The elimination occurs with 100% stereoselectivity and bromovinyl 4 has E-configuration of the C3-double bond. The reactivity of unsaturated bromide 4 has been evaluated in the series of the Pd -catalyzed coupling reactions.

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Phenoxazine-based scaffold for designing G4-interacting agents

Цветков

Varizhuk²,

Lizunova

et al. 2020

Org. Biomol. Chem.

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Evgeny S. Belyaev

i-Clamp phenoxazine for the fine tuning of DNA i-motif stability

Phenoxazine nucleoside derivatives with a multiple activity against RNA and DNA viruses

Synthesis of oligonucleotides containing novel G-clamp analogue with C8-tethered group in phenoxazine ring: Implication to qPCR detection of the low-copy Kemerovo virus dsRNA

Cationic Perylene Antivirals with Aqueous Solubility for Studies In Vivo

Antiviral activity spectrum of phenoxazine nucleoside derivatives

Azines of porphyrinoids. Does azine provide conjugation between chromophores?

3-(2-Bromovinyl)chlorins: a new approach towards chlorophyll a modification

Phenoxazine-based scaffold for designing G4-interacting agents

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