ПОЛУЧЕНИЕ НОВЫХ ПРОИЗВОДНЫХ ГЛИЦИРРЕТОВОЙ КИСЛОТЫ С АЗОТСОДЕРЖАЩИМИ ЛИГАНДАМИ:

Rakhmat Sulton ugli Esanov; Uchkun Zhomuradovich Ishimov; Makhmudzhon Bakiyevich Gafurov; Fotima Azamjonovna Sobirova; Alimzhan Davlatbaevich Matchanov

doi:10.14258/jcprm.20230211402

Rakhmat Sulton ugli Esanov Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; National University of Uzbekistan Email: esanovr@mail.ru
Uchkun Zhomuradovich Ishimov Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz
Makhmudzhon Bakiyevich Gafurov Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; Gulistan State University
Fotima Azamjonovna Sobirova Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz Email: sobirova_89@bk.ru
Alimzhan Davlatbaevich Matchanov Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; National University of Uzbekistan; Gulistan State University

https://doi.org/10.14258/jcprm.20230211402

Keywords: glycyrrhizic acid, glycyrrhetic acid, nitrogen-containing ligands, aglycone, mass spectrometry

Abstract

This article presents the results of a study of obtaining new derivatives of glycyrrhizic acid aglycone with nitrogen-containing ligands. Natural compounds isolated from plant materials are relatively low toxic, can exhibit unique physical and chemical properties, and have a wide range of biological activity. One of these natural compounds is 3β-hydroxy-11-oxo-12-en-18βН, 20β-olean-30 acid, 3-О-(2҆-О-β-D-glucuronopyranosyl)-β-D-glucuronopyranoside (glycyrrhizic acid, GK) is the main active principle of licorice root (Glycyrrhiza glabra L.), which grows on the territory of the Republic of Uzbekistan and is a renewable natural source. With the ability to self-organize and recognize other particles and molecules, natural biologically active compounds are the subject of current chemical research aimed at modeling various biochemical processes. One of such widespread natural compounds are plant triterpenoids, glycyrrhizic (GA), glycyrrhetic (GlK), oleanolic, betulinic and ursalic acids, etc.

The article also presents the results of a study of the dependence of the complex formation of GlK with nitrogen-containing ligands depending on the structural changes in the guest molecule. New supramolecular derivatives of GlK with some nitrogen-containing ligands were obtained by the liquid phase method, their physicochemical and spectral (UV, IR) characteristics of the synthesized compounds were determined, and the chemical structure was analyzed on the basis of mass spectrometry data.

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Author Biographies

Rakhmat Sulton ugli Esanov, Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; National University of Uzbekistan

кандидат химических наук, старший научный сотрудник лаборатории низкомолекулярных биологических активных соединений

Uchkun Zhomuradovich Ishimov, Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz

кандидат химических наук, старший научный сотрудник

Makhmudzhon Bakiyevich Gafurov, Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; Gulistan State University

доктор химических наук, ведущий научный сотрудник лаборатории низкомолекулярных биологических активных соединений

Fotima Azamjonovna Sobirova, Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz

кандидат химических наук, старший научный сотрудник лаборатории низкомолекулярных биологических активных соединений

Alimzhan Davlatbaevich Matchanov, Institute of Bioorganic Chemistry named after Academician A.S. Sadykov AS RUz; National University of Uzbekistan; Gulistan State University

доктор химических наук, заведущий лаборатории низкомолекулярных биологических активных соединений, ведущий научный сотрудник

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PREPARATION OF NEW GLYCYRRETIC ACID DERIVATIVES WITH NITROGEN-CONTAINING LIGANDS

UDC 542.06.542.61.542.46.808.542.97.542.93

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