<HashMap><database>biostudies-literature</database><scores/><additional><omics_type>Unknown</omics_type><volume>10</volume><submitter>Zhu H</submitter><pubmed_abstract>Six flavonoid derivatives were synthesized and tested for anti-α-glucosidase activities. All derivatives were confirmed using NMR and HRMS and exhibited excellent inhibitory effects on α-glucosidase. Derivative four exhibited the highest anti-α-glucosidase activity (IC50: 15.71 ± 0.21 μM). Structure-activity relationship results showed that bromine group would be the most beneficial group to anti-α-glucosidase activity. Inhibitory mechnism and inhibition kinetics results showed derivative four was a reversible and mixed-type inhibitor. Molecular docking revealed that derivative four was tightly bind to the amino acid residues of active pocket of α-glucosidase and formed hydrogen bond, π-π stacking, and Pi-Donor hydrogen with α-glucosidase. Moreover, the physicochemical parameters of all derivatives were assessed using SwissADME software. This results also showed that the hybridization of flavonoid and phenylpropionic acid would be a useful strategy for the development of α-glucosidase inhibitors.</pubmed_abstract><journal>Frontiers in chemistry</journal><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-EPMC9705736</full_dataset_link><repository>biostudies-literature</repository><pubmed_title>Synthesis of activity evaluation of flavonoid derivatives as ɑ-glucosidase inhibitors</pubmed_title><pmcid>PMC9705736</pmcid><pubmed_authors>Zhu H</pubmed_authors><pubmed_authors>Zhong X</pubmed_authors></additional><is_claimable>false</is_claimable><name>Synthesis of activity evaluation of flavonoid derivatives as ɑ-glucosidase inhibitors</name><description>Six flavonoid derivatives were synthesized and tested for anti-α-glucosidase activities. All derivatives were confirmed using NMR and HRMS and exhibited excellent inhibitory effects on α-glucosidase. Derivative four exhibited the highest anti-α-glucosidase activity (IC50: 15.71 ± 0.21 μM). Structure-activity relationship results showed that bromine group would be the most beneficial group to anti-α-glucosidase activity. Inhibitory mechnism and inhibition kinetics results showed derivative four was a reversible and mixed-type inhibitor. Molecular docking revealed that derivative four was tightly bind to the amino acid residues of active pocket of α-glucosidase and formed hydrogen bond, π-π stacking, and Pi-Donor hydrogen with α-glucosidase. Moreover, the physicochemical parameters of all derivatives were assessed using SwissADME software. This results also showed that the hybridization of flavonoid and phenylpropionic acid would be a useful strategy for the development of α-glucosidase inhibitors.</description><dates><release>2022-01-01T00:00:00Z</release><publication>2022 Jan</publication><modification>2025-04-05T09:43:13.645Z</modification><creation>2025-04-05T09:43:13.645Z</creation></dates><accession>S-EPMC9705736</accession><cross_references/></HashMap>