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. 2015 Jun 8;16(6):12891-906.
doi: 10.3390/ijms160612891.

Quantitative Structure-Antioxidant Activity Models of Isoflavonoids: A Theoretical Study

Gloria Castellano  1 Francisco Torrens  2
Affiliations

Quantitative Structure-Antioxidant Activity Models of Isoflavonoids: A Theoretical Study

Gloria Castellano et al. Int J Mol Sci. .

Abstract

Seventeen isoflavonoids from isoflavone, isoflavanone and isoflavan classes are selected from Dalbergia parviflora. The ChEMBL database is representative from these molecules, most of which result highly drug-like. Binary rules appear risky for the selection of compounds with high antioxidant capacity in complementary xanthine/xanthine oxidase, ORAC, and DPPH model assays. Isoflavonoid structure-activity analysis shows the most important properties (log P, log D, pKa, QED, PSA, NH + OH ≈ HBD, N + O ≈ HBA). Some descriptors (PSA, HBD) are detected as more important than others (size measure Mw, HBA). Linear and nonlinear models of antioxidant potency are obtained. Weak nonlinear relationships appear between log P, etc. and antioxidant activity. The different capacity trends for the three complementary assays are explained. Isoflavonoids potency depends on the chemical form that determines their solubility. Results from isoflavonoids analysis will be useful for activity prediction of new sets of flavones and to design drugs with antioxidant capacity, which will prove beneficial for health with implications for antiageing therapy.

Keywords: ADMET; QSAR; absorption; antioxidant; poor absorption or permeation; structure-activity relationship.

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