1246814-23-2Relevant articles and documents
Synthesis and Biological Evaluation of 4-Substituted Kaempfer-3-ols
Kim, Sugyeom,Lannigan, Deborah A.,Li, Yu,Lin, Lin,O'Doherty, George A.,Sayasith, Peyton R.,Tarr, Ariel T.,Wright, Eric B.,Yasmin, Sharia
, p. 4279 - 4288 (2020/04/09)
The synthesis of two series of five kaempfer-3-ols was described. The first set all have a C-3 hydroxyl group and the second has a carboxymethoxy ether at the C-3 position. Both series have variable substitution at the C-4 position (i.e., OH, Cl, F, H, OMe). Both kaempferols and carboxymethoxy ethers were evaluated for their ability to inhibit ribosomal s6 kinase (RSK) activity and cancer cell proliferation.
Synthesis of kaempferol 3- O -(3″,6″-Di- O - E - p -coumaroyl)-β- D -glucopyranoside, efficient glycosylation of flavonol 3-OH with glycosyl o -alkynylbenzoates as donors
Yang, Weizhun,Sun, Jiansong,Lu, Wenxiang,Li, Yan,Shan, Lei,Han, Wei,Zhang, Wei-Dong,Yu, Biao
experimental part, p. 6879 - 6888 (2010/11/24)
Kaempferol 3-O-(3″,6″-di-O-E-p-coumaroyl)-β-d- glucopyranoside (1), an optimal metabolite of Scots pine seedlings for protection of deep-lying tissue against damaging UV-B, represents a typical acylated flavonol 3-O-glycoside. This compound was synthesized for the first time via two approaches. The first approach, starting with kaempferol, featured formation of the flavonol 3-O-glycosidic linkage with a glycosyl bromide under conventional PTC conditions. In the second approach, 5,7,4′-tri-O-benzyl- kaempferol was readily prepared from 2′,4′,6′- trihydroxyacetophenone and p-hydroxybenzoic acid, which was coupled with a glucopyranosyl o-hexynylbenzoate under the catalysis of a gold(I) complex to provide the desired 3-O-glycoside in excellent yield. A variety of the glycosyl o-hexanylbenzoates equipped with the 2-O-benzoyl group were also proven to be highly efficient donors for construction of the flavonol 3-O-glycosidic linkages.