Michael additions copper® acetate

The key step in Hu s synthesis of 51 was cyclization of 50 by heating with copper(I) iodide and sodium hydride in DME, followed by a 10% aqueous ammonia work-up. Intermediate 50 was prepared via Michael addition of ethyl acetamidocyano acetate to the appropriate chalcone followed by acid-catalyzed ring closure [42,43]. 

The utilization of copper complexes (47) based on bisisoxazolines allows various silyl enol ethers to be added to aldehydes and ketones which possess an adjacent heteroatom e.g. pyruvate esters. An example is shown is Scheme 43[126]. C2-Symmetric Cu(II) complexes have also been used as chiral Lewis acids for the catalysis of enantioselective Michael additions of silylketene acetals to alkylidene malonates[127]. 

The Michael additions of various carbon nucleophiles such as cyanide [15b, 22b], anions generated from nitromethane [27], ferf-butyl acetate [9], malon-ates [27] and O Donnell s glycine equivalent [541, cuprates [9,15b] or Grignard reagents [53] under copper catalysis [55] have also been reported (Scheme 24). 

Scheme 5.2 Synthesis of tetra (hydroxy propyl) cyclam (5.21) via Michael addition followed by reduction, and X-ray crystal structure of its 1 1 copper(II) acetate complex.19...

MUller reports a four component, one-pot synthesis of pyridines <02TL6907>. For example, aryl halide 15 and propargylic alcohol 16 were combined in the presence of copper and palladium to afford enone 17. The addition of cyclic enamine 18 led to Michael addition and the subsequent cyclocondensation was achieved by adding ammonium chloride and acetic acid (19—>20). Other multicomponent approaches to substituted pyridines have been reports by Litvinov <02RCBIE362>, Elkholy <02SC3493> and Veronese <02T9709>. 

The peptidic phosphine ligands that had been introduced by Hoveyda and co-workers271 for enantioselective copper-catalyzed Michael additions (see Section 9.12.2.2.1) were also employed successfully in silver-catalyzed asymmetric Mannich reactions.3 Thus, the aryl-substituted imines 372 reacted with various silyl enol ethers in the presence of stoichiometric amounts of isopropanol, as well as catalytic amounts of silver acetate and ligand 373 to... 

The synthesis of unnatural (+)-mesembrine (387) through the asymmetric synthesis of methyl (i )-l-[(3,4-dimethoxy)phenyl]-4-oxocyclohex-2-enyl acetate (390) by cycloaddition of enantiomerically pure vinyl sulfoxide with dichloroketene has been performed 189) (Scheme 43). Vinyl sulfoxide 388 [prepared by conjugate addition of enantiopure acetylenic sulfoxide with (3,4-dimethoxy)phenylcopper] reacted with trichloroacetyl chloride in the presence of freshly prepared zinc-copper couple in THF at 0°C to produce a mixture of mono- and dichloro lactones 389. Reduction of 389 with zinc in acetic acid followed by cyclization and methylation afforded methyl IR-[(3,4-dimethoxy)phenyl]-4-oxocyclohex-2-enyl acetate (390), treatment of which with methylamine brought about amidation and concomitant intramolecular Michael addition to provide 2-oxo-mesembrine (391). Successively, 391 was transformed to (+)-mesembrine (387) in 79% yield (three steps ketalization of an oxo group, reduction of lactam, and deketali-zation)(/S9). 

In a model synthesis <81CC524>, a nitro-Michael addition of the readily available nitroalkyl pyrrole 36 to mesityl oxide was used to introduce a geminally dimethylated structural element into an AD component rac-39 for the desired chlorin. Reduction of the nitro function in rac-37 leads to the desired AD dimer rac-38 which is combined in the presence hydrobromic acid with the well known a-bromo-a -bromomethyl dipyrromethene 40 after acid induced ester clevage and decarboxylation to yield the tetrapyrrolic biline rac-41. In the final step the linear tetrapyrrole rac-41 undergoes oxidation and cyclization in the presence of copper(II) acetate to give the copper chlorin. The cyclization occurs via the enamine tautomer of rac-41 by nucleophilic attack of the enamine structure on the bromo imine part of the linear tetrapyrrole. 

The annelation of a five-membered to a six-membered-ring, leading to substituted ds-hydrindanes (59), has been accomplished by an intramolecular Michael addition approach, and Marfat and Helquist have described the use of copper-catalysed conjugate addition of the acetal Grignard reagent (60) in... 

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