Assembling the Puzzle of Taxifolin Polymorphism

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Abstract

A large amount of the current literature dedicated to solid states of active pharmaceutical ingredients (APIs) pays special attention to polymorphism of flavonoids. Taxifolin (also known as dihydroquercetin) is an example of a typical flavonoid. Some new forms of taxifolin have been reported previously, however it is still unclear whether they represent polymorphic modifications. In this paper, we tried to answer the question about the taxifolin polymorphism. Taxifolin microtubes and taxifolin microspheres were synthesized from raw taxifolin API using several methods of crystal engineering. All forms were described with the help of spectral methods, scanning electron microscopy (SEM), X-ray powder diffraction (XRPD), and thermal analysis (TA). SEM reveals that the morphology of the solid phase is very specific for each sample. Although XRPD patterns of raw taxifolin and microtubes look similar, their TA profiles differ significantly. At the same time, raw taxifolin and microspheres have nearly identical thermograms, while XRPD shows that the former is a crystalline and the latter is an amorphous substance. Only the use of complex analyses allowed us to put the puzzle together and to confirm the polymorphism of taxifolin. This article demonstrates that taxifolin microtubes are a pseudopolymorphic modification of raw taxifolin.

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The Cambridge Structural Database

Colin Groom, Ian Bruno, Matthew P. Lightfoot … (2016)

This paper is the definitive article describing the creation, maintenance, information content and availability of the Cambridge Structural Database (CSD), the world’s repository of small molecule crystal structures.

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Response of Phenylpropanoid Pathway and the Role of Polyphenols in Plants under Abiotic Stress

Anket Sharma, Babar Shahzad, Abdul Rehman … (2019)

Phenolic compounds are an important class of plant secondary metabolites which play crucial physiological roles throughout the plant life cycle. Phenolics are produced under optimal and suboptimal conditions in plants and play key roles in developmental processes like cell division, hormonal regulation, photosynthetic activity, nutrient mineralization, and reproduction. Plants exhibit increased synthesis of polyphenols such as phenolic acids and flavonoids under abiotic stress conditions, which help the plant to cope with environmental constraints. Phenylpropanoid biosynthetic pathway is activated under abiotic stress conditions (drought, heavy metal, salinity, high/low temperature, and ultraviolet radiations) resulting in accumulation of various phenolic compounds which, among other roles, have the potential to scavenge harmful reactive oxygen species. Deepening the research focuses on the phenolic responses to abiotic stress is of great interest for the scientific community. In the present article, we discuss the biochemical and molecular mechanisms related to the activation of phenylpropanoid metabolism and we describe phenolic-mediated stress tolerance in plants. An attempt has been made to provide updated and brand-new information about the response of phenolics under a challenging environment.

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Anti-inflammatory effects of flavonoids

Soheila J Maleki, Jesús F Crespo, Beatriz Cabanillas (2019)

Inflammation plays a key role in diseases such as diabetes, asthma, cardiovascular diseases and cancer. Diet can influence different stages of inflammation and can have an important impact on several inflammatory diseases. Increasing scientific evidence has shown that polyphenolic compounds, such as flavonoids, which are found in fruits, vegetables, legumes, or cocoa, can have anti-inflammatory properties. Recent studies have demonstrated that flavonoids can inhibit regulatory enzymes or transcription factors important for controlling mediators involved in inflammation. Flavonoids are also known as potent antioxidants with the potential to attenuate tissue damage or fibrosis. Consequently, numerous studies in vitro and in animal models have found that flavonoids have the potential to inhibit the onset and development of inflammatory diseases. In the present review, we focused in flavonoids, the most abundant polyphenols in the diet, to give an overview of the most recent scientific knowledge about their impact on different inflammatory diseases.

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Carlos Eduardo Sabino Bernardes: Role: Academic Editor

Journal

Journal ID (nlm-ta): Molecules

Journal ID (iso-abbrev): Molecules

Journal ID (publisher-id): molecules

Title: Molecules

Publisher: MDPI

ISSN (Electronic): 1420-3049

Publication date (Electronic): 20 November 2020

Publication date Collection: November 2020

Volume: 25

Issue: 22

Electronic Location Identifier: 5437

Affiliations

[1 ]Department of Chemistry, Sechenov First Moscow State Medical University, Trubetskaya st. 8-2, 119991 Moscow, Russia; irinaselivanova@ 123456yandex.ru (I.A.S.); nonna_t@ 123456mail.ru (N.A.T.); igor@ 123456ilyasov.net (I.R.I.); azh-68@ 123456mail.ru (A.K.Z.); atom.66@ 123456mail.ru (A.N.U.)

[2 ]Department of Chemistry, Lomonosov Moscow State University, Leninskiye Gory 1-3, 119991 Moscow, Russia; alex.dzuban@ 123456gmail.com

[3 ]Faculty of Biology, Lomonosov Moscow State University, Leninskiye Gory 1-32, 119991 Moscow, Russia; angeor@ 123456list.ru (A.G.B.); lembio@ 123456list.ru (G.N.D.)

[4 ]Laboratory of Structural Chemistry, Institute of Problems of Chemical Physics, Russian Academy of Sciences, Acad. Semenov av. 1, 143432 Chernogolovka, Russia; genshil@ 123456icp.ac.ru

[5 ]Laboratory of X-ray Investigation, Merzhanov Institute of Structural Macrokinetics and Materials Science, Russian Academy of Sciences, Acad. Osipyan str. 8, 142432 Chernogolovka, Russia; kovalev@ 123456ism.ac.ru

[6 ]Institute of Materials for Modern Power Engineering and Nanotechnology, Mendeleev University of Chemical Technology of Russia, Miusskaya sq. 9, 125947 Moscow, Russia; fmkfenin@ 123456bk.ru

[7 ]Department of Technology, Ametis JSC, Naberezhnaya st. 68, 675000 Blagoveshchensk, Russia; tehnolog@ 123456ametis.ru

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[* ]Correspondence: terekhov_r_p@ 123456staff.sechenov.ru ; Tel.: +7-965-232-5122

Author information

Roman P. Terekhov https://orcid.org/0000-0001-9206-8632

Dmitriy Yu. Kovalev https://orcid.org/0000-0002-8285-5656

Article

Publisher ID: molecules-25-05437

DOI: 10.3390/molecules25225437

PMC ID: 7699767

PubMed ID: 33233608

SO-VID: d995f32a-982a-4025-a999-edf0193d8333

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Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

Assembling the Puzzle of Taxifolin Polymorphism

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Electron Channelling Contrast Imaging (ECCI)

Most cited references 48

The Cambridge Structural Database

Response of Phenylpropanoid Pathway and the Role of Polyphenols in Plants under Abiotic Stress

Anti-inflammatory effects of flavonoids

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