79744-60-8Relevant academic research and scientific papers
Structural modification and antihypertensive activity study of formononetin derivatives
Guo, Qiu-Hong,Li, Jing,Ma, Dong-Lai,Zhou, Li,Zuo, Sai-Jie
, (2021/12/09)
A series of formononetin derivatives with substituted benzyloxy groups on the 4′ position of isoflavone were designed and synthesized. Their vasodilative activities were evaluated by wire myograph system on isolated rat mesenteric arterial ring. The preli
Synthesis of various kinds of isoflavones, isoflavanes, and biphenyl- ketones and their 1,1-diphenyl-2-picrylhydrazyl radical-scavenging activities
Goto, Hideyuki,Terao, Yoshiyasu,Akai, Shuji
experimental part, p. 346 - 360 (2009/12/27)
Forty-eight kinds of isoflavones (8), thirty-one isoflavanes (9), and forty-seven biphenyl-ketones (10, 10') were synthesized from eleven kinds of substituted phenols (11) and six phenylacetic acids (12). Among them, seventy-five compounds are new. The radical scavenging activities of these compounds were evaluated using 1,1- diphenyl-2-picrylhydrazyl (DPPH) at pH 6.0. We found that thirty-nine out of forty-three compounds having a catechol moiety on either the A- or the B-ring exhibited a high activity (ED50=12-54 μM) similar to that of catechin. In these cases, the remaining part of their structure seemed to have little effect on their activity. Many 6- or 8-hydroxyisoflavanes (9E-I) and their biphenyl-ketone derivatives (10E-H) also showed a high activity (ED50=50=26-32 μM). This study suggests that natural isoflavones have the possibilities of exhibiting antioxidant activities through the hydroxylation at the C6-, C8-, or C3'-position or the formation of the isoflavanes (9) and/or the biphenyl-ketone derivatives (10') by metabolism or biotransformation.
