• Journal of Microbiology and Biotechnology
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• v.17 no.3
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• pp.530-533
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• 2007

It has been well known that the use of Saccharomyces cerevisiae can cause fungemia in critically ill patients and flavone shows an antimicrobial effect on S. cerevisiae. Therefore, we have investigated the activities of thirteen flavone analogues on S. cerevisiae in our studies. Because flavonoids including flavones have antioxidative effects, we try to carry out the activity studies of flavone analogues in vitro and in vivo. In addition, the relationships between the structures of flavone analogues and their biological activities, such as antimicrobial and antioxidative effects, were elucidated using Comparative Molecular Field Analysis calculations. Of the flavone analogues tested here, 3,2'-dihydroxyflavone showed both good antimicrobial and antioxidative activities.

• Journal of Applied Biological Chemistry
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• v.54 no.1
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• pp.56-62
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• 2011

Molecular docking of polyhydroxy substituted flavone analogues (1-25) as substrate molecules to the active site of tyrosinase (PDB ID: Deoxy-form (2ZMX) & Oxy-form (1WX2)) and Free-Wilson analysis were studied to understand the roles of hydroxyl substituents ($R_1-R_9$) in substrate molecules for the tyrosinase inhibitory activation. It is founded from Free-Wilson analysis that the $R_1$=hydroxyl among $R_1-R_9$ substituents had the strongest influence on the tyrosinase inhibitory activity. H-bonds between the hydroxyl substituents of substrate molecules and amino acid residues in the active site of tyrosinase were contributed to make a stable substrate-receptor complex compound. Particularly, it is proposed from the findings that the noncompetitive inhibitory activation would take place via H-bonding between peroxide oxygen (Per404) atom in the active site of tyrosinase and the hydroxyl substituents in substrate molecule.

• Korean Journal of Pharmacognosy
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• v.17 no.2
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• pp.168-177
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• 1986

Bioassay-directed isolation has yielded some cytotoxic substances against L1210 cell from the Korean traditional medicine. These include 5,2'-dihydroxy-6,7,8,6'-teramethoxyflavone $(IV,\;scutellaria\;root,\;ED_{50}\;=\;1.7\;{mu}g/ml)$, 7-geranyloxycoumarin $(XXXII,\;poncirus\;fruit,\;10.2\;{mu}g/ml) $and panaxydol $(I,\;white\;ginseng,\;0.03\;{mu}g/ml)$. IV, XXXII and their derivatives were synthesized in the purpose of in vivo tests and for observation of structure-activity relations. Among the flavone derivatives, 5,2',6'-trihydroxy-6,7,8-trimethoxy flavone (XVIII), 5-hydroxy-6,7,8-trimethoxy-6'-benzyloxyflavone (XVII) and 5,8-dihydroxy-6,7-dimethoxyflavone (X) showed the cytotoxicity which has no correlation to the flavone structures. Of the coumarins synthesized, 7,8-dihydroxycoumarin (XXVI), 6-7-dihydroxycoumarin (XXIX) and 6-hydroxy-5,7-dimethoxycoumarin (XXXI) showed considerable activities. Acetylated XXXI has moderate activity $(ED_{50}=17.2\;{mu}g/ml)$. Monobydroxycoumarins or their methyl and allyl ether were inactive. IV inhibits the growth of the solid form of S-180 by 70% at 40 mg/kg and shows T/C of 166% on the ascitic S-180 at 40 mg/kg. It strongly inhibits the activity of the membrane bounded ATPase from L1210 cell. The most cytotoxic fraction of the antitumor materials studied is the one from the trichosanthes root showing $ED_{50}=0. 0003\;{mu}g/ml$ against L1210 cell. This fraction, obtained from ethyl acetate extract, showed T/C of 130 and 135%, on ICR mice bearing S-180 and $BDF_1$ mice bearing L1210 at 10 mg/kg and 7.5 mg/kg, respectively.