Maxim V. Shuvalov scite author profile

Maxim V. Shuvalov

4Publications

95Citation Statements Received

84Citation Statements Given

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Gause Institute of New Antibiotics Russian Academy of Medical Sciences, Lomonosov Moscow State University, Moscow State University

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Gausemycins A,B: Cyclic Lipoglycopeptides fromStreptomycessp.**

et al. 2021

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We report a novel family of natural lipoglycopeptides produced by Streptomyces sp. INA-Ac-5812. Two major components of the mixture, named gausemycins A and B, were isolated, and their structures were elucidated. The compounds are cyclic peptides with a unique peptide core and several remarkable structural features, including unusual positions of D-amino acids, lack of the Ca 2+ -binding Asp-X-Asp-Gly (DXDG) motif, tyrosine glycosylation with arabinose, presence of 2-amino-4-hydroxy-4-phenylbutyric acid (Ahpb) and chlorinated kynurenine (ClKyn), N-acylation of the ornithine side chain. These major components of the peptide antibiotic family have pronounced activity against Grampositive bacteria. The mechanism of action of gausemycins was explored by a number of methods, showing significant differences compared to glycopeptides and related lipopeptides. Gausemycins exhibit only slight Ca 2+ -dependence of antimicrobial activity and induce no pore formation at low concentrations. Moreover, there is no detectable accumulation of cell wall biosynthesis precursors under treatment with gausemycins.

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Synthesis and structure of high-quality films of copper polyphthalocyanine – 2D conductive polymer

Sedlovets

Shuvalov

Vishnevskiy

et al. 2013

Materials Research Bulletin

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ABSTRACT:We propose an experimental approach, by which thin films of copper polyphthalocyanine (CuPPC) can be directly synthesized in a chemical vapor deposition (CVD) set-up at mild temperature (420 °C). High polymerization degree and high crystallinity of the films was confirmed by TEM, FTIR and UV-VIS studies; the stacking structure of CuPPC layers was determined, inter-layer spacing was estimated from XRD and TEM electron-diffraction. Quantum-chemical study performed providing support for experimental structure determination and yielding information on the electronic structure.

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Investigation of the complex antibiotic INA-5812

et al. 2016

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4-Chloro-l-kynurenine as fluorescent amino acid in natural peptides

et al. 2018

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4-Chloro-L-kynurenine (3-(4-chloroanthraniloyl)-L-alanine, L-4-ClKyn), an amino acid known as a prospective antidepressant, was recently for the first time found in nature in the lipopeptide antibiotic taromycin. Here, we report another instance of its identification in a natural product: 4-chloro-L-kynurenine was isolated from acidic hydrolysis of a new complex peptide antibiotic INA-5812. L-4-ClKyn is a fluorescent compound responsible for the fluorescence of the above antibiotic. Whereas fluorescence of 4-chlorokynurenine was not reported before, we synthesized the racemic compound and studied its emission in various solvents. Next, we prepared conjugates of DL-4-ClKyn with two suitable energy acceptors, BODIPY FL and 3-(phenylethynyl)perylene (PEPe), and studied fluorescence of the derivatives. 4-Chloro-DL-kynurenine emission is not detected in both conjugates, thus evidencing effective energy transfer. However, BODIPY FL emission in the conjugate is substantially reduced, probably due to collisional or photoinduced charge-transfer-mediated quenching. The intrinsic fluorescence of L-4-ClKyn amino acid in antibiotics paves the way for spectral studies of their mode of action.

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Maxim V. Shuvalov

Gausemycins A,B: Cyclic Lipoglycopeptides fromStreptomycessp.**

Synthesis and structure of high-quality films of copper polyphthalocyanine – 2D conductive polymer

Investigation of the complex antibiotic INA-5812

4-Chloro-l-kynurenine as fluorescent amino acid in natural peptides

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