Your search keyword '"Kuzmin, Vladimir A."' showing total 9 results

1. Intramolecular photo-driven charge transfer in a series of pyridyl substituted phenyloxazoles. Structural relaxation in meta-substituted ethylpyridinium derivative of phenyloxazole.

Author

Volchkov, Valery V., Khimich, Mikhail N., Rusalov, Mikhail V., Gostev, Fedor E., Shelaev, Ivan V., Nadtochenko, Victor A., Kuzmin, Vladimir A., Kostyukov, Alexey A., Egorov, Anton E., and Melnikov, Mikhail Ya.

Subjects

TIME-resolved spectroscopy, INTRAMOLECULAR charge transfer, DECAY-associated spectra, POLARIZATION spectroscopy, CONFORMATIONAL analysis, FLUORESCENCE spectroscopy

Abstract

A series of pyridyl (pyridinium) substituted benzoxazoles were studied by steady state absorption, fluorescence spectroscopy, time-resolved fluorescence spectroscopy, fs pulse absorption and polarization spectroscopy, and quantum–chemical calculations. The spectral and kinetic parameters of the fluorophores in MeCN and EtOAc were obtained experimentally and were calculated by means of DFT and TDDFT methods. A scheme including four transient excited states was proposed for the interpretation of differential absorption kinetics of the charged fluorophores. Expressions describing the actual kinetics graphs, the decay associated spectra, and the species-associated spectra were derived. The charge shift step was found to be dependent on average solvation times. A charge shift followed by the formation of the twisted conformer was found for the excited 1-ethyl-3-(5-phenyloxazol-2-yl)pyridinium 4-methyl-1-benzenesulfonate in MeCN and EtOAc. Conformational analysis confirms a large amplitude motion of the meta-substituted ethylpyridinium group as an additional structural relaxation path producing an abnormally large fluorescence Stokes shift. [ABSTRACT FROM AUTHOR]

Published

2021

2. Fluorescence characteristics of lipofuscin fluorophores from human retinal pigment epithelium.

Author

Yakovleva, Marina A., Radchenko, Alexandra Sh., Feldman, Tatiana B., Kostyukov, Alexey A., Arbukhanova, Patimat M., Borzenok, Sergey A., Kuzmin, Vladimir A., and Ostrovsky, Mikhail A.

Subjects

RHODOPSIN, FLUORESCENCE, FLUOROPHORES, PHOTON counting, FLUORIMETRY, BIOFLUORESCENCE, EPITHELIUM

Abstract

Lipofuscin granules accumulate in the retinal pigment epithelium (RPE) with age, especially in patients with visual diseases, including progressive age-related macular degeneration (AMD). Bisretinoids and their photooxidation and photodegradation products are major sources of lipofuscin granule fluorescence. The present study focused on examining the fluorescence decay characteristics of bisretinoid photooxidation and photodegradation products to evaluate the connection between fluorescence lifetime and spectral characteristics of target fluorophore groups. The primary objective of the study was to apply experimental spectral analysis results of lipofuscin granule fluorescence properties to interpretation of fluorescence lifetime imaging ophthalmoscopy data. Fluorescence analysis of the lipofuscin granule fluorophores in RPE collected from cadaver eyes was performed. The fluorescence lifetimes were measured by picosecond-resolved time correlated single photon counting technique. A global analytical method was applied to analyze data sets. The photooxidation and photodegradation products of bisretinoids exhibited a longer fluorescence lifetime (average value approximately 6 ns) and a shorter wavelength maximum (530–580 nm). Further, these products significantly contributed (more than 30%), to total fluorescence compared to the other fluorophores in lipofuscin granules. Thus, the contribution of oxidized lipofuscin bisretinoids to autofluorescence decay kinetics is an important characteristic for fluorescence lifetime imaging microscopy data analysis. The higher average fluorescence lifetime in AMD eyes was likely due to the higher abundance of oxidized bisretinoids compared with non-oxidized bisretinoids. Because higher level of oxidized bisretinoids is indicative of pathological processes in the retina and RPE, the present findings have the potential to improve fluorescence lifetime imaging approaches for early diagnosis of degenerative processes in the retina and RPE. [ABSTRACT FROM AUTHOR]

Published

2020

3. Photoactivated biscarbocyanine dye with two conjugated chromophores: complexes with albumin, photochemical and phototoxic properties.

Author

Radchenko, Alexandra S., Kostyukov, Alexey A., Markova, Alina A., Shtil, Alexander A., Nekipelova, Tatiana D., Borissevitch, Iouri E., and Kuzmin, Vladimir A.

Subjects

CONFOCAL fluorescence microscopy, CHROMOPHORES, ALBUMINS, ANTIBODY-dependent cell cytotoxicity, BLOOD proteins, SERUM albumin, LYSOSOMES

Abstract

Complexes of photosensitizers with blood proteins play an essential role in their delivery to the cell, as well as in the efficacy of photodynamic therapy. Biscarbocyanine dye non-covalently binds human serum albumin (HSA), the dissociation constant of the dye with albumin being Kd = (1.7 ± 0.1) × 10−5 M. According to time correlated single photon counting (TCSPC) fluorescence lifetime spectroscopy data, two types of complexes with lifetimes of 1.0 ns and 2.5 ns are formed between the dye and HSA. Confocal fluorescence microscopy has unambiguously shown the penetration of biscarbocyanine into endoplasmic reticulum, lysosomes, mitochondria and nuclei of the cells. The dye demonstrates photocytotoxicity towards the colon carcinoma HCT116 cells with IC50 = 0.3 μM. Hydrophobicity of the polymethine chain and the presence of two positive charges on the dye molecule contribute to the effective binding of the dye with HSA and the penetration into cells. These facts allow considering the biscarbocyanine dye as a promising agent for the photodynamic therapy of cancer. [ABSTRACT FROM AUTHOR]

Published

2019

4. Novel hetarylazo dyes containing tetrazole and hydroquinoline moieties: spectral characteristics, solvatochromism and photochemistry.

Author

Nekipelova, Tatiana D., Khodot, Evgenii N., Klimovich (Lygo), Olga N., Kurkovskaya, Lidiya N., Levina, Irina I., and Kuzmin, Vladimir A.

Subjects

AZO dyes, TETRAZOLES, QUINOLINE, SOLVATOCHROMISM, PHOTOCHEMISTRY, HYDROGEN bonding

Abstract

Novel hetarylazo dyes containing tetrazole and tetra- or dihydroquinoline moieties were synthesized and their spectral properties in solvents of different polarities and H-bonding abilities were examined. The dyes exhibit solvatochromism dramatically depending on the proton accepting ability of solvents: (DMSO ＞ H2O ＞ MeOH ＞ ACN ＞ CH2Cl2) and the dye concentration. Upon dilution the absorption maximum of the visible band shows a blue shift and the absorption coefficient of the maximum decreases. This was accounted for by complex formation either between the dye molecules or between the dye and solvent molecules. The H-bond with partial proton transfer is formed between the acidic NH group of the tetrazole moiety of a dye molecule and the basic NH group of the hydroquinoline moiety of the other dye molecule or with a solvent with proton accepting ability. Upon dilution the equilibrium shifts to the complex with a solvent. The coexistence of several forms of the dye molecules with different absorption spectra was demonstrated in pulse photolysis upon excitation by light with different wavelengths. Three forms of cis-isomers were registered. The photogenerated cis-isomers decay with lifetimes from 200 μs to 5 ms. The fast cis–trans dark isomerization determines the photostability of the dyes. [ABSTRACT FROM AUTHOR]

Published

2016

5. Complex formation of albumin with tricarbocyanine dyes containing phosphonate groups.

Author

Kuzmin, Vladimir A., Nekipelova, Tatiana D., Podrugina, Tatyana A., Golovina, Galina V., Kostyukov, Alexey A., Temnov, Viktor V., Doroshenko, Irina A., Radchenko, Eugene V., Palyulin, Vladimir A., and Zefirov, Nikolay S.

Subjects

*ALBUMINS, *CYANINES, *PHOSPHONATES, *SERUM albumin, *INDOCYANINE green, *POLYMETHINES

Abstract

The spectral characteristics, binding constants with bovine (BSA) and human serum albumin (HSA) and lifetimes of fluorescence in PBS and EtOH solutions and in the presence of BSA in PBS were measured for novel indotricarbocyanine dyes bearing remote phosphonate groups. These parameters are close to those for indocyanine green (ICG) indicating that the Coulomb interaction does not play a significant role in complex formation, and the binding is determined by the interaction of the dye polymethine chain with albumin. The fluorescence lifetimes of the complexes with BSA strongly indicate the formation of complexes of two types with different lifetimes. The complex with a longer fluorescence lifetime (740–800 ps) and major contribution (up to 88%) is bound to the more hydrophobic site and that with a shorter fluorescence lifetime (300–340 ps) to the more hydrophilic site. [ABSTRACT FROM AUTHOR]

Published

2016

6. Role of the acyl groups in carbohydrate chains in cytotoxic properties of olivomycin A.

Author

Tevyashova, Anna N, Durandin, Nikita A, Vinogradov, Alexander M, Zbarsky, Victor B, Reznikova, Marina I, Dezhenkova, Lyubov G, Bykov, Eugeniy E, Olsufyeva, Eugenia N, Kuzmin, Vladimir A, Shtil, Alexander A, and Preobrazhenskaya, Maria N

Published

2013

7. Kinetics of geminate recombination of organic free radicals in viscous solvents.

Author

Khudyakov, Igor, Levin, Peter, and Kuzmin, Vladimir

Subjects

FLASH photolysis, CARBONYL compounds, MAGNETIC fields, PHOTOREDUCTION, FREE radicals

Abstract

The kinetics of geminate recombination of multiatomic organic free radicals in glycerol solutions have been investigated. Radicals were produced by ns laser flash photolysis under photoreduction of carbonyl compounds. An external moderate magnetic field decelerates geminate recombination leading to smaller cage effect values. The duration of geminate recombination is discussed. [ABSTRACT FROM AUTHOR]

Published

2008

8. Stimulation of Cysteine-Coated CdSe/ZnS Quantum Dot Luminescence by <italic>meso</italic>-Tetrakis (p-sulfonato-phenyl) Porphyrin.

Author

Parra, Gustavo G., Ferreira, Lucimara P., Gonçalves, Pablo J., Sizova, Svetlana V., Oleinikov, Vladimir A., Morozov, Vladimir N., Kuzmin, Vladimir A., and Borissevitch, Iouri E.

Subjects

PORPHYRINS, FLUORESCENCE, BIOLOGICAL pigments, OPTICAL properties, QUANTUM dots

Abstract

Interaction between porphyrins and quantum dots (QD) via energy and/or charge transfer is usually accompanied by reduction of the QD luminescence intensity and lifetime. However, for CdSe/ZnS-Cys QD water solutions, kept at 276 K during 3 months (aged QD), the significant increase in the luminescence intensity at the addition of meso-tetrakis (p-sulfonato-phenyl) porphyrin (TPPS4) has been observed in this study. Aggregation of QD during the storage provokes reduction in the quantum yield and lifetime of their luminescence. Using steady-state and time-resolved fluorescence techniques, we demonstrated that TPPS4 stimulated disaggregation of aged CdSe/ZnS-Cys QD in aqueous solutions, increasing the quantum yield of their luminescence, which finally reached that of the fresh-prepared QD. Disaggregation takes place due to increase in electrostatic repulsion between QD at their binding with negatively charged porphyrin molecules. Binding of just four porphyrin molecules per single QD was sufficient for total QD disaggregation. The analysis of QD luminescence decay curves demonstrated that disaggregation stronger affected the luminescence related with the electron-hole annihilation in the QD shell. The obtained results demonstrate the way to repair aged QD by adding of some molecules or ions to the solutions, stimulating QD disaggregation and restoring their luminescence characteristics, which could be important for QD biomedical applications, such as bioimaging and fluorescence diagnostics. On the other hand, the disaggregation is important for QD applications in biology and medicine since it reduces the size of the particles facilitating their internalization into living cells across the cell membrane. [ABSTRACT FROM AUTHOR]

Published

2018

9. Response of Fluorescent Boron Difluoride β-Diketonates to X-Rays.

Author

Lifanovsky, Nikita S., Yablontsev, Nikita A., Belousov, Alexandr V., Klimovich, Mikhail A., Mirochnik, Anatolii G., Fedorenko, Elena V., Lyubykh, Nikita A., Kolyvanova, Maria A., Kuzmin, Vladimir A., and Morozov, Vladimir N.

Abstract

This paper reports the results of a detailed study of the optical response of boron difluoride curcuminoids to radiation exposure. Two lines of the dyes fundamentally different in structure (namely, symmetrical and asymmetrical) were tested. If the absorption responses of their solutions in chloroform to X-rays turns out to be quite close quantitatively (note that it has a very indicative visual manifestation – a gradual discoloration is observed in the dose range up to 300 Gy), the fluorescence ones differ notably: among other things, the former demonstrate much more sensitive reactions (the corresponding limit of detection values ​​differ by up to 2.36-fold). Nevertheless, in both parameters, these dyes generally show good linearity of the response as in classical coordinates (up to ≈ 100–150 Gy), as in semi-logarithmic ones (up to 1000 Gy). Since the main reason for such behavior seems to be the radiation-induced decomposition of the dyes, its possible scheme and corresponding “weak links” in the structure of the molecules (in other words, radiosensitive elements) are proposed for each case. For example, these include N(CH3)2 fragments at the ends of dimethylaminostyryl groups. It is precisely their detachment that determines the observed optical response of asymmetrical dyes. Thus, the results obtained provide some insight into the possibilities of controlling the sensitivity of organic dyes to irradiation by changing their structure. [ABSTRACT FROM AUTHOR]

Published

2024