Michael enantiopure

This finding is also in agreement with another three-component Michael/aldol addition reaction reported by Shibasaki and coworkers [14]. Here, as a catalyst the chiral AlLibis[(S)-binaphthoxide] complex (ALB) (2-37) was used. Such hetero-bimetallic compounds show both Bronsted basicity and Lewis acidity, and can catalyze aldol [15] and Michael/aldol [14, 16] processes. Reaction of cyclopentenone 2-29b, aldehyde 2-35, and dibenzyl methylmalonate (2-36) at r.t. in the presence of 5 mol% of 2-37 led to 3-hydroxy ketones 2-38 as a mixture of diastereomers in 84% yield. Transformation of 2-38 by a mesylation/elimination sequence afforded 2-39 with 92 % ee recrystallization gave enantiopure 2-39, which was used in the synthesis of ll-deoxy-PGFla (2-40) (Scheme 2.8). The transition states 2-41 and 2-42 illustrate the stereochemical result (Scheme 2.9). The coordination of the enone to the aluminum not only results in its activation, but also fixes its position for the Michael addition, as demonstrated in TS-2-41. It is of importance that the following aldol reaction of 2-42 is faster than a protonation of the enolate moiety. 

Krische and coworkers [44] developed a Rh-catalyzed asymmetric domino Michael/aldol reaction for the synthesis of substituted cyclopentanols and cyclohex-anols. In this process, three contiguous stereogenic centers, including a quaternary center, are formed with excellent diastereo- and enantioselectivity. Thus, using an enantiopure Rh-BINAP catalyst system and phenyl boronic acid, substrates 2-108 are converted into the correspondding cyclized products 2-109 in 69-88% yield and with 94 and 95% ee, respectively (Scheme 2.24). 

Tridachiahydropyrone belongs to the family of marine polypropionates [69]. Efforts towards its total synthesis have recently led to a revision of the structure with the new proposal 2-147 [70]. The construction of the highly substituted cyclohex-enone moiety 2-146 which could be incorporated into this natural product [71] has been described by Perkins and coworkers (Scheme 2.33) [70, 72]. The conjugate addition/ Dieckmann-type cydization utilizing organocopper species as Michael donors afforded the enantiopure 2-145 in 68% yield. A further methylation of the (3-ketoester moiety in 2-145 followed by an elimination led to the desired cydohex-enone 2-146. 

Laschat and coworkers described an interesting domino Michael addition/elec-trophilic-trapping process leading to 2-191 as a single diastereomer in 53% yield, which was further transformed into enantiopure cylindramide (2-192) (Scheme 2.45) [110]. During the course of the process, substrate 2-190 was reacted with a TMS-protected propynyl cuprate and subsequently with orthoformate and BFj-OEt2. 

In a recently published report by MacMillan s group [121] on the enantioselective synthesis of pyrroloindoline and furanoindoline natural products such as (-)-flustramine B 2-219 [122], enantiopure amines 2-215 were used as organocatalysts to promote a domino Michael addition/cyclization sequence (Scheme 2.51). As substrates, the substituted tryptamine 2-214 and a, 3-unsaturated aldehydes were used. Reaction of 2-214 and acrolein in the presence of 2-215 probably leads to the intermediate 2-216, which cyclizes to give the pyrroloindole moiety 2-217 with subsequent hydrolysis of the enamine moiety and reconstitution of the imidazolid-inone catalyst. After reduction of the aldehyde functionality in 2-217 with NaBH4 the flustramine precursor 2-218 was isolated in very good 90 % ee and 78 % yield. 

Transformation of the 7-oxo-2-enimides 28, available from chiral syn-aldols by a Cope rearrangement, into enantiopure tetrahydropyrans involves reduction of the aldehyde function followed by a fast intramolecular oxa Michael addition. The stereochemical course of the... 

The crystal and solution structures of a range of A-lithio-a -aminonitrile anions have been characterized and the effects of association on the transition state for 1,4-addition of enantiopure lithiated a-aminonitriles to Michael acceptors have been discussed. ... 

Indium-mediated diastereoselective allylation of L-glyceraldimines with4-bromo-1,1,1-trifluoro-2-butene provided stereoselectively, after further steps, enantiopure 4,4,4-trifluorovaline or 4,4,4-trifluoroisoleucine." ° Enantiopure hexafluorovahnes have been prepared by separation of the diastereomeric mixture resulting from the Michael addition of a chiral amine onto an ester of bis(trifluoromethyl) acryhc acid. Presence of the two CF3 groups reverses the orientation of the Michael addition (Figure 5.7)." ... 

Asymmetric Michael Additions of Enantiopure Camphor Imines.. . 774... 

The c 5-23-dimethylchionian-4-one 53 is obtained with fair enantioselectivity through an asymmetric Michael addition in the presence of (-)-quinine (Scheme 32) <99TL3777>. Directed metallation of protected phenols and subsequent reaction of the li derivative with enantiopure Weinreb amides of glycidic acids feature in a route to stereoisomers of 2-alkyl-3-hydroxychroman-4-ones (Scheme 33) <99JOC3489>. 

It is interesting to note that the oxa-analogous Michael addition was reported for the first time in 1878 by Loydl et al. [19] in their work on the synthesis of artificial malic acid, which was five years ahead of the discovery of the actual Michael reaction described first by Komnenos [20], Claisen [21], and later Michael in 1887 [22] as one of the most important methods for C—C bond formation. In continuation of the early work on the oxa-Michael addition [23], the inter- and intramolecular additions of alkoxides to enantiopure Michael acceptors has been investigated, leading to the diastereo- and enantioselective synthesis of the corresponding Michael adducts [24]. The intramolecular reaction has often been used as a key step in natural product synthesis, for example as by Nicolaou et al. in the synthesis of Brevetoxin B in 1989 [25]. The addition of oxygen nucleophiles to nitro-alkenes was described by Barrett et al. [26], Kamimura et al. [27], and Brade and Vasella [28]. 

The conjugate addition of phosphorus nucleophiles of various oxidation states and in neutral or metallated form constitutes an efficient and well-known method for C—P bond formation [30]. In the case of phosphanes as nucleophiles especially, the corresponding phosphane-borane adducts have been used in 1,4-additions to Michael acceptors. Following the idea to use a chirally modified phosphorus nucleophile in asymmetric Michael additions to aromatic nitroalkenes, we synthesized the new enantiopure phospite 45 starting from TADDOL (44) with nearly quantitative yield. Due to the C2 symmetry, of the... 

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