Chinnabattigalla, Sreenivasulu and Dakoju, Ravi Kishore and Satyanarayana, G.
(2021)
Recent advances on the synthesis of flavans, isoflavans, and neoflavans.
WILEY.
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Abstract
Heterocyclic compounds are the omnipresent structural cores comprising many natural and pharmaceutical products of biological significance. Significantly, heterocyclic compounds are widely distributed in nature, and also have applications in agrochemicals, sanitizers, as dyestuff, as copolymers, etc. Among heterocyles, flavonoids are a class of compounds that are highly interesting and constitute many natural products. In general, all flavanoids contains a basic core of C6-C3-C6 of phenyl-benzopyran backbone. The relative placement of the phenyl group on to the benzopyran core makes further classification into flavanoids, isoflavanoids and neoflavanoids. Flavans (2-aryl chroman) are subclass of anthoxanthanes exhibits a broad spectrum of biological properties such as anti-inflammatory, anti-oxidant, and anti-malarial properties. Some representative naturally occurring products possessing flavan core are apigenin, luteolin, tangeretin, scutellarein, etc. On the other hand, some of the notable isoflavan-based natural products are glabridin and (S)-(−)-equol. Glabridin is isolated from Licorice roots, which regulates paraoxonase (PON2) levels. While the simple isoflavan (S)-(−)-equol, is produced from soy isoflavone intake. Also, natural products such as dalbergichromene, centchroman, and (+)-myristinin A possess neoflavan (4-aryl-3,4-dihydro-2H-chromenes) core structure. Owing to their broad biological and pharmacological properties, synthetic chemists are fascinated in developing new routes toward their synthesis. As a result, a decent number of reports have been established in the literature. Thus, for the past 5 years of time frame, many new methodologies have been witnessed, for the synthesis of various flavan systems. This review emphasizes most of the significant methods on accomplishing flavans, isoflavans and neoflavans and also focused on their applications to the synthesis of relevant natural as well as biologically active products. © 2020 Wiley Periodicals LLC.
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IITH Creators: |
IITH Creators | ORCiD |
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Satyanarayana, G. | UNSPECIFIED |
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Item Type: |
Other
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Additional Information: |
We are grateful to the Department of Science and Technology‐Science and Engineering Research Board (DST‐SERB) [No.EMR/2017/005312], New Delhi, for financial support. C. B. S thanks UGC and D. R. K thanks to UGC for the research fellowship. |
Uncontrolled Keywords: |
chroman derivative; flavan derivative; isoflavan derivative; neoflavan derivative; unclassified drug |
Subjects: |
Chemistry |
Divisions: |
Department of Chemistry |
Depositing User: |
. LibTrainee 2021
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Date Deposited: |
21 Sep 2022 14:41 |
Last Modified: |
21 Sep 2022 14:41 |
URI: |
http://raiithold.iith.ac.in/id/eprint/10650 |
Publisher URL: |
http://doi.org/10.1002/jhet.4176 |
OA policy: |
https://v2.sherpa.ac.uk/id/publication/12522 |
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