Your search keyword '"Ozhiganov, Ratislav M."' showing total 6 results

1. Phylogeny and structural modeling of the transcription factor CsqR (YihW) from Escherichia coli

Author

Rybina, Anna A., Glushak, Roman A., Bessonova, Tatiana A., Dakhnovets, Artemiy I., Rudenko, Alexander Yu., Ozhiganov, Ratislav M., Kaznadzey, Anna D., Tutukina, Maria N., and Gelfand, Mikhail S.

Published

2024

2. Organophosphorus S-adenosyl-L-methionine mimetics: synthesis, stability, and substrate properties.

Author

Rudenko, Alexander Yu, Mariasina, Sofia S., Bolikhova, Anastasiia K., Nikulin, Maxim V., Ozhiganov, Ratislav M., Vasil'ev, Vasiliy G., Ikhalaynen, Yuri A., Khandazhinskaya, Anastasia L., Khomutov, Maxim A., Sergiev, Peter V., Khomutov, Alex R., Polshakov, Vladimir I., Comstock, Lindsay, and Sohtome, Yoshihiro

Subjects

WILLIAMS syndrome, SCISSION (Chemistry), METHYLTRANSFERASES, CATECHOL-O-methyltransferase, CARBOXYLIC acids, METHIONINE, BIOMOLECULES

Abstract

S-Adenosyl-L-methionine (SAM)-mediated methylation of biomolecules controls their function and regulates numerous vital intracellular processes. Analogs of SAM with a reporter group in place of the S-methyl group are widely used to study these processes. However, many of these analogs are chemically unstable that largely limits their practical application. We have developed a new compound, SAM-Ph, which contains an H-phosphinic group (-P(O)(H)OH) instead of the SAM carboxylic group. SAM-PH is significantly more stable than SAM, retains functional activity in catechol-O-methyltransferase and methyltransferase WBSCR27 reactions. The last is associated with Williams-Beuren syndrome. Rac-SAM-PH was synthesized chemically, while (R,S)-SAM-PH and its analogs were prepared enzymatically either from H-phosphinic analogs of methionine (Met-PH) or H-phosphinic analog of S-adenosyl-L-homocysteine (SAH-Ph) using methionine adenosyltransferase 2A or halide methyltransferases, respectively. SAH-PH undergoes glycoside bond cleavage in the presence of methylthioadenosine nucleosidase like natural SAH. Thus, SAM-PH and its analogs are promising new tools for investigating methyltransferases and incorporating reporter groups into their substrates. [ABSTRACT FROM AUTHOR]

Published

2024

3. High‐Contrast and Fast‐Removable 19F‐MRI Labels with Perfluoro‐tert‐Butyl Substituents

Author

Gervits, Lev L., primary, Sigan, Andrey L., additional, Markova, Alina A., additional, Gulyaev, Mikhail V., additional, Pavlova, Olga S., additional, Ozhiganov, Ratislav M., additional, and Pirogov, Yury A., additional

Published

2023

4. High‐Contrast and Fast‐Removable 19F‐MRI Labels with Perfluoro‐tert‐Butyl Substituents.

Author

Gervits, Lev L., Sigan, Andrey L., Markova, Alina A., Gulyaev, Mikhail V., Pavlova, Olga S., Ozhiganov, Ratislav M., and Pirogov, Yury A.

Published

2023

5. Novel combinatorial approach to the synthesis of dihydropyridine (quinoline) based merocyanine dyes.

Author

Rudenko, Alexander Y., Zubarev, Andrey A., Ozhiganov, Ratislav M., Mariasina, Sofia S., Rodinovskaya, Lyudmila A., Sprague, Ivan Sanin, Lyssenko, Konstantin A., and Shestopalov, Anatoliy M.

Subjects

*COMBINATORIAL chemistry, *DIHYDROPYRIDINE, *QUINOLINE, *DYES & dyeing, *METHYLENE compounds, *ENAMINES

Abstract

A novel, efficient, two-step approach to the synthesis of merocyanine dyes was developed. Initially, N-substituted picolinium salts were formylated with N,N-dimethylformamide dimethyl acetal to produce enamine derivatives. Then a series of merocyanine dyes were obtained by the high-yield reaction between the enamines and various active methylene compounds. The described reactions, carried out in mild conditions, provide access to the synthesis of a wide range of dyes. This innovative method enabled the synthesis of a number of new merocyanine dyes and increased the yields of the known compounds. [ABSTRACT FROM AUTHOR]

Published

2023

6. High-Contrast and Fast-Removable 19 F-MRI Labels with Perfluoro-tert-Butyl Substituents.

Author

Gervits LL, Sigan AL, Markova AA, Gulyaev MV, Pavlova OS, Ozhiganov RM, and Pirogov YA

Subjects

Rats, Animals, Magnetic Resonance Imaging, Fluorine

Abstract

19 F MRI is a unique technique for tracking and quantifying the indicator ( 19 F-MRI label) in vivo without the use of ionizing radiation. Here we report new 19 F-MRI labels, which are compounds with perfluoro-tert-butyl groups: 1,2-bis(perfluoro-tert-butoxy)ethane (C 10 F 18 H 4 O 2 ) and 1,3-bis(perfluoro-tert-butyl)propane (C 11 F 18 H 6 ). Both substances contain 18 equivalent 19 F atoms, constituting 68.67 % and 71.25 % of the molecule, respectively. The emulsions with 19 F molecules were prepared and used in 19 F MRI studies in laboratory rats in vivo. The substances demonstrated high contrast properties, good biological inertness and the ability to be rapidly eliminated from the body. We showed that at a dose of 0.34 mg/g of body weight in rats, the time for complete elimination of C 10 F 18 H 4 O 2 and C 11 F 18 H 6 is ∼30 days. The results turned out to be promising for the use of the presented compounds in 19 F MRI applications, especially since they are quite easy to synthesize., (© 2023 Wiley-VCH GmbH.)

Published

2023