70561-76-1Relevant academic research and scientific papers
Decarboxylative Conjunctive Cross-coupling of Vinyl Boronic Esters using Metallaphotoredox Catalysis
Aggarwal, Varinder K.,Duong, Vincent K.,Mega, Riccardo S.,Noble, Adam
supporting information, p. 4375 - 4379 (2020/02/11)
The synthesis of complex alkyl boronic esters through conjunctive cross-coupling of vinyl boronic esters with carboxylic acids and aryl iodides is described. The reaction proceeds under mild metallaphotoredox conditions and involves an unprecedented decarboxylative radical addition/cross-coupling cascade of vinyl boronic esters. Excellent functional-group tolerance is displayed, and application of a range of carboxylic acids, including secondary α-amino acids, and aryl iodides provides efficient access to highly functionalized alkyl boronic esters. The decarboxylative conjunctive cross-coupling was also applied to the synthesis of sedum alkaloids.
A rapid access to (±)-sedamine and some original N -benzyl unsaturated analogues
Boussonniere, Anne,Ranaivondrambola, Tsiresy,Lebreton, Jacques,Mathe-Allainmat, Monique
experimental part, p. 2456 - 2462 (2010/09/04)
Reduction of N-alkyl-2-(2-hydroxy-2-phenylethyl)pyridinium salts using excess of sodium triacetoxyborohydride afforded exclusively the corresponding tetrahydropyridine derivative bearing a piperidine ring with a double bond in the 3,4-position. Furthermore, under these conditions, syn-1,3-amino alcohols were obtained in good yield and diastereoselectivity. Georg Thieme Verlag Stuttgart · New York.
Hydroformylation of homoallylic azides: A rapid approach toward alkaloids
Spangenberg, Thomas,Breit, Bernhard,Mann, Andre
supporting information; experimental part, p. 261 - 264 (2009/08/08)
(Chemical Equation Presented) Unprecedented hydroformylation of homoallylic azides combined with useful one-pot operations provides an expeditive access to alkaloids.
Expeditious syntheses of (±)-allo-sedamine and (±)-allo- lobeline via a combination of aza-Sakurai-Hosomi and hydroformylation reactions
Spangenberg, Thomas,Airiau, Etienne,Thuong, Mathieu Bui The,Donnard, Morgan,Billet, Manuella,Mann, André
scheme or table, p. 2859 - 2863 (2009/05/07)
The expeditious preparation of allo-sedamine and allo-lobeline via 1,3-diastereoselective aza-Sakurai-Hosomi reaction followed by hydroformylation is reported. Georg Thieme Verlag Stuttgart.
Enantioselective synthesis of lobeline via nonenzymatic desymmetrization
Birman, Vladimir B.,Jiang, Hui,Li, Ximin
, p. 3237 - 3240 (2008/02/11)
Lobeline has been prepared in enantiopure form via desymmetrization of lobelanidine with use of BTM, a nonenzymatic enantioselective acyl transfer catalyst.
A concise synthesis of homochiral sedamines and related alkaloids. A new reductive application of Jacobsen's catalyst
Yu, Chu-Yi,Meth-Cohn, Otto
, p. 6665 - 6668 (2007/10/03)
Two methods for the generation of both enantiomers of sedamine [1- methyl-2-(2-phenyl-2-hydroxy-1-ethyl)piperidine] in high optical purity have been elaborated. The first utilises the lipase-mediated kinetic resolution of racemic acetates and the second involves the NaBH4 mediated reduction of ketones catalysed by Jacobsen's catalyst. Some related applications of these reactions are also disclosed.
A FACILE SYNTHESIS OF dl-SEDAMINE AND dl-ALLOSEDAMINE
Ozawa, Naganori,Nakajima, Setsuko,Zaoya, Kyoko,Hamaguchi, Fumiko,Nagasaka, Tatsuo
, p. 889 - 894 (2007/10/02)
Racemic sedamine and dl-allosedamine were easily synthesized from the intermediate (3) using a cyclic acyliminium salt by the addition-elimination reaction sequence.
Trimethylsilyl trifluoromethanesulfonate (TMSOTf) catalyzed amidoalkylation of silylenolethers. Stereocontrolled syntheses of (+/-)-sedamine and (+/-)-norsedamine
Pilli,Dias
, p. 2213 - 2229 (2007/10/02)
Trimethylsilyl trifluoromethanesulfonate (TMSOTf) catalyzed addition of 1-trimethylsilyloxy-1-phenylethene to N-ethoxycarbonyl- and N-tert-butoxycarbonyl-2-ethoxypiperidines (3a and 3b, respectively) afforded the corresponding ketocarbamates 4a and 4b, in excellent yields. Stereoselective conversion to (±)-norsedamine (7) and (±)-sedamine (8) is described.
