543733-93-3Relevant academic research and scientific papers
Practical access to spiroacetal enol ethers via nucleophilic dearomatization of 2-furylmethylenepalladium halides generated by Pd-catalyzed coupling of furfural tosylhydrazones with aryl halides
Yin, Biaolin,Zhang, Xiaoyu,Liu, Jianchao,Li, Xuehui,Jiang, Huanfeng
, p. 8113 - 8116 (2014/07/21)
Pd-catalyzed cross-coupling of furfural tosylhydrazones with aryl halides produces 2-furylmethylenepalladium halides, which can undergo intramolecular nucleophilic dearomatization to provide spiroacetal enol ethers. This is the first report on the formati
A straightforward synthetic approach to the spiroketal-enol ethers synthesis of natural antifeeding compound tonghaosu and its analogs
Gao, Yang,Wu, Wen-Lian,Wu, Yu-Lin,Ye, Bin,Zhou, Rong
, p. 12523 - 12538 (2007/10/03)
Tonghaosu 1, a natural product discovered from several plants of tribe Athemdeae, is a [4.4]spiroketal with an enediyne side-chain and shows interesting insect antifeeding activity. In this paper a general and convenient synthetic methodology for the synthesis of 1, 2 and its spiroketal-enol ether derivatives is described. Thus, 3-(2'-furyl)-propan-1- ol 7a or 4-(2'-furyl)-butan-1-ol 7b prepared from furaldehyde was treated with n-butyl lithium and unsaturated aldehyde to provide the diol 5. Diol 5 could also be obtained from 5-(3-acetoxypropyl)-2-furaldehyde or 5-(4- acetoxybutyl)-2-furaldehyde and alkynyllithium. By careful treatment of 5 or 7 with acid, dehydration-cyclization occurred to give the desired spiroketal- enol ether in moderate to excellent yields.
