Diastereoselective synthesis Michael acceptors

The quantitative and diastereoselective addition of the sodium enolate of te/7-buty] 5-methyl-3-oxohexanoate to the Michael acceptor 2 was used in the synthesis of 0-methyl pisiferic acid280. 

A further example concerns the frtw.s -diastereoselective 1,4-addition of the lithium azaeno-late 4 to the chiral Michael acceptor 5 under thermodynamic control 284. This method has been applied in the synthesis of emetine285- 287. 

The optically active a-sulfinyl vinylphosphonate 122 prepared in two different ways (Scheme 38) is an interesting reagent for asymmetric synthesis [80]. This substrate is an asymmetric dienophile and Michael acceptor [80a]. In the Diels-Alder reaction with cyclopentadiene leading to 123, the endo/exo selectivity and the asymmetry induced by the sulfinyl group have been examined in various experimental conditions. The influence of Lewis acid catalysts (which also increase the dienophilic reactivity) appears to be important. The 1,4-addition of ethanethiol gives 124 with a moderate diastereoselectivity. 

Another type of chiral Michael acceptor, the oxazepine derivatives (47), is prepared by condensation of the (-)-ephedrine-derived malonic acid derivative (46) with aldehydes (Scheme 18).51 52 Treatment of (47) with a variety of Grignard reagents in the presence of NiCh affords, after hydrolysis and decarboxylation, the 3-substituted carboxylic acids (48), in most cases with more than 90% ee. Diastereoselective Michael additions to (47) were also used for the preparation of optically active cyclopropane derivatives (49)53 and P-substituted-y-butyrolactones (50 Scheme 18).54 A total synthesis of indolmycin is based on this methodology.55... 

A highly selective method for the preparation of optically active 3-substituted or 3, y-disubstituted-S-keto esters and related compounds is based on asymmetric Michael additions of chiral hydrazones (156), derived from (5)-l-amino-2-methoxymethylpyrrolidine (SAMP) or its enantiomer (RAMP), to unsaturated esters (154).167-172 Overall, a carbonyl compound (153) is converted to the Michael adduct (155) as outlined in Scheme 55. The actual asymmetric 1,4-addition of the lithiated hydrazone affords the adduct (157) with virtually complete diastereoselection in a variety of cases (Table 3). Some of the products were used for the synthesis of pheromones,169 others were converted to 8-lactones.170 The Michael acceptor (158) also reacts selectively with SAMP hydrazones.171 Tetrahydroquinolindiones of type (159) are prepared from cyclic 1,3-diketones via SAMP derivatives like (160), as indicated in Scheme 56.172... 

Asymmetric Synthesis of a-Amino Acids. Chiral ketimines prepared from the title ketone and glycinates can be deprotonated and treated with electrophiles, such as alkyl halides (eq 1), or Michael acceptors, to give a-subsdtuted a-amino acids with moderate to excellent levels of diastereoselectivity. 

The use of the carbanion derived from the chloroallylphosphonate (163) in the enantioselective synthesis of cyclopropanes (164) by Michael addition to a,P-unsaturated ketones has been the subject of a short review (Scheme 18). Denmark s group have published full details of the asymmetric Michael addition reactions of cyclic enones with carbanions derived from l,3,2-oxa2aphosphor-inane 2-oxides (165) and (167). y-Addition to give (166) predominates although the extent of this depends on the ring size of the Michael acceptor. The level of diastereoselectivity depends on the stereochemistry of the allylphosphonate used ... 

The deprotonation of a stereogenic carbon in chiral non-racemic substrates with KHMDS has been used as a first step of sequences relying on the memory of chirality for asymmetric synthesis of organic products. The treatment of Al-Boc-protected amino esters featuring a Michael acceptor group with KHMDS in DMF-THF (1 1) at —78°C for 30 min provided trisubstituted pyrrolidines, piperidines and tetrahydroisoquinolines, and in good yields (65-74%) and diastereoselectivities (4 1 for pyrrolidine, and 1 0 for piperidines and tetrahydroisoquinoline) and excellent enantiomeric excesses (91-98% ee) (eqs 66 and 67). ... 

While Lewis acids normally enable l,2-additi(Mis of silyloxy furans to a,(3-unsaturated aldehydes, the MacMillan group discovered that iminium catalysis favors 1,4-additions, thus overcoming the deficiency of normal Lewis acids in Mukaiyama-Michael additions 244). The high potential of this protocol was demonstrated impressively in a short synthesis of the Penicillium spiculisporum fermentation product spiculisporic acid (262). As shown in Scheme 60, vinylogous addition of the silyloxy furan 263 to the acceptor 264 catalyzed by 228 furnished the key intermediate 265 in good enantio- and diastereoselectivity. It is worth noting that the TfOH salt of the catalyst in combination with methyl ester 266 as a Michael acceptor gave the anh-diastereomer 267 exclusively. This compound was then used for the synthesis of 5-epi-spiculisporic acid (268) (Scheme 60) 244). 

Cooperative catalysis in multi-component reactions highly enantioselective synthesis of y-hydroxyketones with a quaternary carbon stereocenter, (b) X. Han, M. Gan, H. Qin, J. Ji, X. Zhang, L. Jiang, W. Hu, Synlett 2011, 1717-1722. Trapping of oxonium ylides with Michael acceptors highly diastereoselective three-component reactions of diazo compounds with alcohols and ben-zylidene Meldrum s acids/4-oxo-enoates. 

On the other hand, several cinchona alkaloid-derived primary amines have been successfully investigated as organocatalysts for asymmetric Michael additions of ketones to Michael acceptors. As an example, Lu et al. have described the first Michael addition of cyclic ketones to vinyl sulfone catalysed by a catalyst of this type, providing an easy access to chiral a-alkylated carbonyl compounds with high yields and enantioselectivities of up to 96% ee, albeit with moderate diastereoselectivities (<72% de), as shown in Scheme 1.21. This novel methodology was apphed to the synthesis of sodium cyclamate, an important compound in the artificial sweeteners industry. 

Michael reactions of chiral lithioenamines of p-oxo esters with dimethyl alkylidenemalonates were studied.173-176 Especially the a-alkyl-substituted compounds (161) and (163), derived from L-valine t-butyl ester, afford, after hydrolysis, the adducts (162) and (164), respectively, diastereoselectively and with high ee (Scheme 57).175 In the presence of TMS-C1, even weaker acceptors like acrylates or MVK were shown to react.176 A somewhat related diastereoselective 1,4-addition, followed by a Pictet-Spen-gler-type cyclization, allows the preparation of compound (165 Scheme 58),177 a central intermediate for the synthesis of several alkaloids.177-178... 

A related allylic C-H insertion that has considerable promise for strategic organic synthesis is the reaction with enol silyl ethers [23]. The resulting silyl-protected 1,5-dicarbonyls would otherwise typically be formed by means of a Michael addition. Even though with ethyl diazoacetates vinyl ethers are readily cyclopropanated [l],such reactions are generally disfavored in trisubstituted vinyl ethers with the sterically crowded donor/acceptor carbenoids [23]. Instead, C-H insertion predominates. Again, if sufficient size differentiation exists at the C-H activation site, highly diastereoselective and enantioselective reactions can be achieved as illustrated in the reaction of 20 with 17 to form 21 [23]. 

Asymmetric synthesis of P-phosphono-malonates via K0H/Fe203 catalyzed phospha-Michael reaction to Knoevenagel acceptors has been achieved by Enders and Tedeschi [57]. The reaction did not proceed when only KOH was used as a catalyst Fe203 was the best diastereoselective support among the other supports tested, A1203, ZnO, Cu20, Mn02 and MgO. 

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