486-71-5Relevant articles and documents
A Concise Asymmetric Total Synthesis of (+)-Epilupinine
Tsutsumi, Tomohiro,Karanjit, Sangita,Nakayama, Atsushi,Namba, Kosuke
, p. 2620 - 2624 (2019/04/30)
Asymmetric total synthesis of (+)-epilupinine was achieved in just three steps using only commercially available common reagents. The total synthesis involved alkylations of N-nosylamide, ozone oxidation, and sequential reactions of the removal of the nosyl group, intramolecular dehydrative condensation, intramolecular Mannich reaction catalyzed by l-proline, and a reduction.
Pyrrolizidines, indolizidines and quinolizidines via a double reductive cyclisation protocol: concise asymmetric syntheses of (+)-trachelanthamidine, (+)-tashiromine and (+)-epilupinine
Brambilla, Marta,Davies, Stephen G.,Fletcher, Ai M.,Roberts, Paul M.,Thomson, James E.,Zimmer, David
, p. 7417 - 7429 (2016/11/11)
The asymmetric syntheses of pyrrolizidine, indolizidine and quinolizidine alkaloids have been achieved using the diastereoselective conjugate addition of lithium (R)-N-benzyl-N-(α-methylbenzyl)amide to α-alkenyl-α,β-unsaturated esters followed by diastereoselective protonation of the resultant enolates as the key stereodefining steps. The azabicyclic scaffolds were then efficiently constructed upon sequential oxidative cleavage of the olefinic units within the resultant β-amino esters and hydrogenolytic N-debenzylation of the corresponding dialdehydes, which occurs with concomitant double reductive cyclisation. Subsequent reduction of the ester moieties with LiAlH4gave (+)-trachelanthamidine, (+)-tashiromine, (1S,8aR)-1-(hydroxymethyl)octahydroindolizine and (+)-epilupinine in 4.9, 4.1, 3.0 and 5.9% overall yield, respectively, in only six steps from commercially available starting materials.
Total synthesis of (+)-epilupinine via an intramolecular nitrile oxide-alkene cycloaddition
Su, Deyong,Wang, Xinyan,Shao, Changwei,Xu, Jimin,Zhu, Rui,Hu, Yuefei
supporting information; experimental part, p. 188 - 194 (2011/03/21)
Total synthesis of (+)-epilupinine was accomplished in nine steps and in 48% overall yield, in which INOC was used as the key step for the construction of the quinolizidine skeleton. We found that it was an extremely difficult task to prepare the key intermediates (R)-N-(3-nitropropyl)-2-vinylpiperidine or (R)-(2-vinylpiperid-1-yl)propanal by routine methods. Thus, by using Fukuyama's oxime synthesis, a general method was developed for highly efficient conversion of 3-(N,N-dialkylamino)propanols into 3-(N,N-dialkylamino)propanal oximes without using the corresponding aldehydes.