Your search keyword '"Tretyakova, Iryna"' showing total 8 results

1. Composites based on graphite oxide and zirconium phthalocyanines with aromatic amino acids as photoactive materials

Author

Gerasymchuk, Yuriy, Tahershamsi, Leili, Tomala, Robert, Wedzynska, Anna, Chernii, Viktor, Tretyakova, Iryna, Korona-Glowniak, Izabela, Rajtar, Barbara, Malm, Anna, Piatek, Dominika, and Lukowiak, Anna

Published

2021

2. β-ketoenole dyes: Synthesis and study as fluorescent sensors for protein amyloid aggregates

Author

Kovalska, Vladyslava, Chernii, Svitlana, Losytskyy, Mykhaylo, Dovbii, Yan, Tretyakova, Iryna, Czerwieniec, Rafal, Chernii, Victor, Yarmoluk, Sergiy, and Volkov, Sergiy

Published

2016

3. Inhibition of heat‐induced protein aggregation by zirconium phthalocyanines.

Author

Chernii, Svitlana, Losytskyy, Mykhaylo, Tretyakova, Iryna, Kharchuk, Maksym, Vakarov, Serhii, Kovalskyy, Dmytro, Gerasymchyk, Yuriy, Pekhnyo, Vasyl, Chernii, Viktor, and Kovalska, Vladyslava

Abstract

Specific proteins found in food sources tend to aggregate into fibrils under heat treatment; studying these aggregation processes and developing tools to control protein heat‐induced aggregation is an active area of research. Phthalocyanine complexes are known to exhibit antiprionic and anti‐fibrillogenic activity. Thus, the anti‐fibrillogenic effect of a series of Zr phthalocyanines with different out‐of‐plane coordinated ligands, namely positively charged (PcZrLys2), negatively charged (PcZrCitr2), and group able to form disulfide bridges (PcZrS2), on the heat‐induced aggregation of such proteins as BLG, insulin, and lysozyme was studied. The inhibition of reaction activity up to about 90% was observed in the presence of these compounds for all proteins. The effective concentration of the inhibitor was calculated for the compound with the highest activity (PcZrS2) to be 10.6 ± 3.6 and 7.3 ± 1.2 μM/L, respectively. Fluorescence spectroscopy studies demonstrated similar binding constants of three phthalocyanines binding with BLG globule. This is consistent with the results of molecular dynamics simulation, which imply the interaction of the globule with the tetrapyrrole macrocycle of phthalocyanine, leading to the globule stabilization. At the same time, TEM shows that in the presence of phthalocyanine PcZrS2, thinner and longer fibrils were formed compared to control in all three proteins (BLG, insulin, and lysozyme). Thus, we can conclude that phthalocyanine PcZrS2 affects the amyloid aggregation's general mechanism, which is typical for proteins of different structures. Therefore, the phthalocyanine PcZrS2 is proposed as an anti‐amyloidogenic agent suppressing heat‐induced aggregation of proteins of different structures, making it potentially suitable for application in the food industry. [ABSTRACT FROM AUTHOR]

Published

2023

4. Studies of anti-fibrillogenic activity of phthalocyanines of zirconium containing out-of-plane ligands

Author

Kovalska, Vladyslava, Losytskyy, Mykhaylo, Chernii, Viktor, Volkova, Kateryna, Tretyakova, Iryna, Cherepanov, Vsevolod, Yarmoluk, Sergiy, and Volkov, Sergiy

Published

2012

5. Synthesis and spectral properties of mixed-ligand Zr and Hf phthalocyanine complexes with out-of-plane coordinated alkylamino-β-ketoenolate chromophores and decanoate.

Author

Chernii, Viktor, Tretyakova, Iryna, Fedosova, Natalia, Dovbii, Yan, Chernii, Svitlana, Losytskyy, Mykhaylo, Gorski, Aleksander, Starukhin, Alexandr, Pekhnyo, Vasyl, and Kovalska, Vladyslava

Subjects

*CHROMOPHORES, *PHTHALOCYANINE derivatives, *FLUORESCENCE spectroscopy, *ENERGY transfer, *HAFNIUM, *ZIRCONIUM

Abstract

Mixed-ligand Zr and Hf complexes with two chromophore systems (phthalocyanine and alkylamino-β-ketoenol) were synthesized. In the UV–Vis spectra of the obtained complexes, the absorption bands characteristic for phthalocyanine system were observed along with additional absorption band of out-of-plane ligand. Investigated compounds in toluene solutions are characterized by the efficient excitation energy transfer, in acetonitrile solutions this process does not occur. [Display omitted] • Mixed-ligand Zr and Hf phthalocyanine complexes. • Out-of-plane coordinated alkylamino-β-ketoenolate chromophores. • The UV–Vis spectra consist of phthalocyanine and out-of-plane ligand bands. The development of novel materials based on modification of phthalocyanines is promising for various applications in science, medicine and technology. Here mixed-ligand Zr and Hf phthalocyanine complexes with out-of-plane coordinated alkylamino-β-ketoenolate chromophores and decanoate were synthesized for the first time. Complexes were obtained by one stage reaction of bis(decanoato)zirconium and hafnium phthalocyanines with alkylamino-β-ketoenols that resulted in replacement of only one decanoate ligand with the alkylamino-β-ketoenol. Therefore, mixed-ligand Zr and Hf complexes with two chromophore systems (phthalocyanine and alkylamino-β-ketoenol) were synthesized by using four different alkylamino-β-ketoenols, and their structural characterizations were carried out by using some spectroscopic methods: 1H NMR, UV–Vis, IR and MALDI TOF MS. In the UV–Vis spectra of the obtained complexes, the absorption bands characteristic for phthalocyanine system were observed along with additional absorption band of out-of-plane ligand (in the region 440–480 nm). The fluorescence spectra of investigated compounds are characterized by a maximum at about 690 nm, which corresponds to the emission of the phthalocyanine macrocycle, while the emission of alkylamino-β-ketoenol ligand is not observed. [ABSTRACT FROM AUTHOR]

Published

2024

6. Modification of insulin amyloid aggregation by Zr phthalocyanines functionalized with dehydroacetic acid derivatives.

Author

Chernii, Svitlana, Gerasymchuk, Yuriy, Losytskyy, Mykhaylo, Szymański, Damian, Tretyakova, Iryna, Łukowiak, Anna, Pekhnyo, Vasyl, Yarmoluk, Sergiy, Chernii, Viktor, and Kovalska, Vladyslava

Subjects

ACID derivatives, AMYLOID beta-protein, AMYLOID, PHTHALOCYANINE derivatives, PHTHALOCYANINES, INSULIN, SCANNING electron microscopy, AMINO acids

Abstract

Amyloid fibrils are widely studied both as target in conformational disorders and as basis for the development of protein-based functional materials. The three Zr phthalocyanines bearing dehydroacetic acid residue (PcZr(L1)2) and its condensed derivatives (PcZr(L2)2 and PcZr(L3)2) as out-of-plane ligands were synthesized and their influence on insulin fibril formation was studied by amyloid-sensitive fluorescent dye based assay, scanning electron microscopy, fluorescent and absorption spectroscopies. The presence of Zr phthalocyanines was shown to modify the fibril formation. The morphology of fibrils formed in the presence of the Zr phthalocyanines differs from that of free insulin and depends on the structure of out-of-plane ligands. It is shown that free insulin mostly forms fibril clusters with the length of about 0.3–2.1 μm. The presence of Zr phthalocyanines leads to the formation of individual 0.4–2.8 μm-long fibrils with a reduced tendency to lateral aggregation and cluster formation (PcZr(L1)2), shorter 0.2–1.5 μm-long fibrils with the tendency to lateral aggregation without clusters (PcZr(L2)2), and fibril-like 0.2–1.0 μm-long structures (PcZr(L3)2). The strongest influence on fibrils morphology made by PcZr(L3)2 could be explained by the additional stacking of phenyl moiety of the ligand with aromatic amino acids in protein. The evidences of binding of studied Zr phthalocyanines to mature fibrils were shown by absorption spectroscopy (for PcZr(L1)2 and PcZr(L2)2) and fluorescent spectroscopy (for PcZr(L3)2). These complexes could be potentially used as external tools allowing the development of functional materials on protein fibrils basis. [ABSTRACT FROM AUTHOR]

Published

2021

7. Design of functionalized β-ketoenole derivatives as efficient fluorescent dyes for detection of amyloid fibrils.

Author

Kovalska, Vladyslava, Chernii, Svitlana, Losytskyy, Mykhaylo, Tretyakova, Iryna, Dovbii, Yan, Gorski, Alexandr, Chernii, Victor, Czerwieniec, Rafal, and Yarmoluk, Sergiy

Subjects

FLUORESCENT dyes, AMYLOID

Abstract

The self-association of proteins into insoluble filamentous aggregates – amyloid fibrils – is associated with a range of protein deposition disorders. With the aim of developing fluorescent probes sensitive to amyloid aggregates, a new series of derivatives of (2Z,5Z,7E)-6-hydroxy-2-(alkylamino)-8-arylocta-2,5,7-trien-4-one dyes was synthesized. These dyes are less sensitive to native amyloidogenic proteins, such as insulin or lysozyme, while they have the ability to exhibit a pronounced fluorescence response in the presence of amyloid fibrils of these proteins depending on the structure of the dye tail groups. The dyes associated with the fibrils show green-yellow emission (495–540 nm) and rather large Stokes shift values (68–125 nm). Upon binding to the fibrils, the fluorescence quantum yields of the dyes could increase by a hundred times up to 0.18–0.47, and the fluorescence intensity decay time strongly enhances up to 0.9–1.3 ns. These features make ketoenoles attractive as probes for the detection of amyloid fibrils; besides, the efficiency of these dyes for real-time monitoring of the kinetics of protein aggregation is shown. The best sensing properties were shown by dyes 2 and 9 bearing short amino tail groups (correspondingly 2-methoxyethyl and 2-hydroxyethyl) and a 4-substituted phenyl moiety at the other end of the ketoenole backbone. [ABSTRACT FROM AUTHOR]

Published

2018

8. Study of tetraphenylporphyrins as modifiers of insulin amyloid aggregation.

Author

Chernii, Svitlana, Losytskyy, Mykhaylo, Kelm, Anna, Gorski, Alexandr, Tretyakova, Iryna, Yarmoluk, Sergiy, Chernii, Victor, and Kovalska, Vladyslava

Subjects

INSULIN, AMYLOID, AMINO group

Abstract

Amyloid fibrils are rigid β‐pleated protein aggregates that are connected with series of harmful diseases and at the same time are promising as base for novel nanomaterials. Thus, design of compounds able to inhibit or redirect those aggregates formation is important both for the biomedical aims and for nanotechnology applications. Here, we studied the effect of tetraphenylporphyrins (metal free, their Cu and Pd complexes, and those functionalized by carboxy and amino groups on periphery) on insulin amyloid self‐assembling. The strongest impact on insulin aggregation was demonstrated by a metal‐free porphyrin bearing four carboxy groups. This compound strongly suppresses insulin aggregation (about 88% reduction in amyloid‐sensitive probe emission) inducing formation of fibrils with the length close to this of free insulin (1.7 ± 0.6 μm as compared with 1.4 ± 0.4 μm, respectively) with an essentially reduced tendency to lateral aggregation. Contrarily, the presence of tetraphenylporphyrin containing four amino groups only slightly affects fibrils' morphology and makes weaker impact on insulin aggregation yield (about 44% reduction). This is explained by the ability of aromatic carboxy groups of 5,10,15,20‐(tetra‐4‐carboxyphenyl)porphyrin to interact with complementary protein‐binding groups and thus stabilize the supramolecular complex. For 5,10,15,20‐(tetra‐4‐aminophenyl)porphyrin, full protonation takes place in acidic medium of protein aggregation reaction; this results in the high positive charge of TPPN4 (equal or close to +6) and hence higher contribution of coulombic repulsion to interaction of TPPN4 with insulin. One more possible mechanism of the lower inhibition effect of TPPN4 as compared with TPPC4 could be the more restricted possibility of the former as compared with the latter to form H bonds with insulin groups. It was also shown that metal‐free, Pd‐containing, and Cu‐containing tetraphenylporphyrins without peripheral substituents make almost the same impact on the protein self‐assembling. We suppose this to be due to coordination saturation of these metal atoms. [ABSTRACT FROM AUTHOR]

Published

2020