Morita-Baylis-Hillman derivatives

SCHEME 14.38. Enantioselective SnI -S I sequence to functionalized Morita-Baylis-Hillman derivatives. 

The highly enantioselective Morita-Baylis-Hillman reaction of cyclohexenone with aldehydes is catalyzed by a chiral BlNOL-derived Brpnsted acid 8 in the presence of triethylphosphine as the nucleophilic promoter (Scheme 12.6). ... 

In related work, Sasai developed several bifunctional BINOL-derived catalysts for the aza-Morita-Baylis-Hillman (aza-MBH) reaction [111]. In early studies, careful optimization of the catalyst structure regarding the location of the Lewis base unit revealed 41 as an optimal catalyst for the aza-MBH reaction between acyclic a,P-unsaturated ketones and N-tosyl imines. Systematic protection or modification of each basic and acidic moiety of 41 revealed that all four heterofunctionalities were necessary to maintain both chemical and optical yields. As seen in Scheme 5.58, MO calculations suggest that one hydroxyl groups forms a... 

M. Shi and Y.-L. Shi reported the synthesis and application of new bifunctional axially chiral (thio) urea-phosphine organocatalysts in the asymmetric aza-Morita-Baylis-Hillman (MBH) reaction [176, 177] of N-sulfonated imines with methyl vinyl ketone (MVK), phenyl vinyl ketone (PVK), ethyl vinyl ketone (EVK) or acrolein [316]. The design of the catalyst structure is based on axially chiral BINOL-derived phosphines [317, 318] that have already been successfully utilized as bifunctional catalysts in asymmetric aza-MBH reactions. The formal replacement of the hydrogen-bonding phenol group with a (thio)urea functionality led to catalysts 166-168 (Figure 6.51). 

Some additional examples, where the stereochemical outcome of the cycloaddition to chiral alkenes has been explained in terms of the Honk—Jager model, should also be mentioned. The diastereomer ratio found in the reaction of y-oxy-a,p-unsamrated sulfones (166), with Morita-Baylis-Hillman adducts [i.e., ot-(a -hydro-xyalkyl)-acrylates (167)] (Scheme 6.27), with dispiroketal-protected 3-butene-l,2-diol (168), and with a,p-unsamrated carbonyl sugar and sugar nitroolefin (169) derivatives, all agree well with this model. 

The Morita-Baylis-Hillman reaction of chiral glyoxylic acid derivatives with cyclic a,/ -unsaturated ketones proceeded under the catalytic influence of dimethyl sulfide in the presence of titanium tetrachloride [27]. The adducts were obtained with high diastereomeric excess (>95% de) and typical yields around 80%. 

A new route to 6-substituted pyrrolo[2,l-b]thiazoles 58 takes advantage of an intramolecular thermal cyclization of acetates 56 <07S3037>. These acetates are easily derived from the Morita-Baylis-Hillman adducts of thiazole-2-carboxaldehyde. This strategy has also been extended to the synthesis of the tricyclic analogs 60. 

Chen and coworkers published a formal [3 + 3]-type reaction to give highly substituted cyclohexenes 8. This domino process consists of an allylic-allylic alkylation of an a,a-dicyanoalkene derived from 1-indanone and Morita-Baylis-Hillman carbonates, following an intramolecular Michael addition, by employing dual orga-nocatalysis of commercially available modified cinchona alkaloid (DHQD)2AQN If (hydroquinidine (anthraquinone-l,4-diyl) diether) and (S)-BINOL. The cyclic adducts... 

Chiral Amines Derived from Asymmetric Aza Morita Baylis Hillman Reaction... 

The Baylis-Hillman (also called Morita-Baylis-Hillman) (MBH) reaction (see Sect. 10.2.4 and Scheme 10.17) is the base-catalyzed addition of keto compounds to acrylic derivatives. The catalyst is a cyclic tertiary amine such as 1,4-diazabicyclo[2.2.2]octane (DABCO). Due to the generally poor yields observed, the reaction has not received sufficient attention despite the great synthetic value of the polyfunctional adducts. Among the various methods proposed to activate the reaction, pressure 107] and hydrophobic effects [70] have been used. Table 10.31 presents the results obtained in some Baylis-Hillman reactions carried out under pressure in aqueous solution [108]. 

Chen and coworkers employed the cinchona alkaloid-derived catalyst 26 to direct Mannich additions of 3-methyloxindole 24 to the A-tosylimine 25 to afford the all-carbon quaternary center of oxindole 27 with good enantioselectivity (84% ee) [22]. The outcome of this Mannich reaction is notable in that it provided very good selectivity for the anti diastereomer (anti/syn 94 6). The mechanism of asymmetric induction has been suggested to involve a hydrogen bonding network between the cinchona alkaloid 26, the oxindole enolate of 24, and the imine electrophile 25 (Scheme 7). Asymmetric allylic alkylation of oxindoles with Morita-Baylis-Hillman carbonates has been reported by the same group [23]. 

The Morita-Baylis-Hillman reaction is, in general, a carbon-carbon bondforming reaction of an a,(3-unsaturated compound with an aldehyde mediated by an organic nucleophilic base resulting in the formation of an allylic alcohol. Morita reported the use of a phosphine as catalyst and Baylis and Hillman used a tertiary amine. Variation of the electrophile to electron-deficient alkenes in a Michael-Michael elimination sequence leads to homo- and heterodimerisation and is known as the Rauhut-Currier reaction. The electrophilic aldehyde could be substituted by an imine or derivative in the aza-Morita-Baylis-Hillman reaction. Recently, there has been an increase in the use of this reaction for the construction of many different targets using many different amine derived catalysts. Scheme 2.2 shows a general view of this reaction and the accepted mechanism. ... 

Chiral cyclohexene derivatives were also constructed by an asymmetric four-component quadruple domino reaction initiated by oxa-Michael addition of alcohols to acrolein. The other two components were another equivalent of acrolein and a nitroalkene. Enders has shown that cyclohexene derivatives can also be assembled by a domino reaction of y-nitroketones and enals. Domino Michael/aldol condensation of 5-oxoalkanals and a,p-unsaturated aldehydes afforded densely functionalised cyclohexenes. Combination of unsaturated aldehydes with unsaturated p-ketoesters resulted in the formation of chiral cyclohexene derivatives via a Michael/ Morita-Baylis-Hillman sequence (Scheme 8.21). ... 

Scheme 8.21 S5mthesis of q clohexene derivatives via Michael/Morita-Baylis-Hillman sequence.

The P-chirogenic organocatalysts 294 and 295 were found to promote the enantioselective aza-Morita-Bayhs-Hillman reaction of ketimines derived from acyclic a-keto esters. In the P-chirogenic organocatalyzed aza-Morita-Baylis-Hillman reactions, a,a-disubstituted a-amino acid derivatives 296 were obtained in high yields and with high enantioselectivities (up to 97% cc) (Scheme 98) [195]. 

The Morita-Baylis-Hillman (MBH) reaction can be broadly defined as a condensation of an electron-deficient alkene and an aldehyde catalyzed by tertiary amine or phosphine. Instead of aldehydes, imines can also participate in the reaction if they are appropriately activated, and in this case the process is commonly referred to as the aza-Morita-Baylis-Hillman (aza-MBH) reaction (Scheme 1.1). These operationally simple and atom-economic reactions afford a-methylene-p-hydroxy-carbonyl or a-methylene-p-amino-carbonyl derivatives, which consist of a contiguous assembly of three different functionalities. 

Acetates of Morita-Baylis-Hillman (MBH) adduct 2 can be stereoselectively prepared by the reaction of acetyl chloride in the presence of a base or, alternatively, acetic anhydride in cone. H2S04. However, acetates 2 derived from aromatic aldehydes (R = Ar) prefer to undergo isomerization to generate the thermodynamically more stable acetate 3, either by intramolecular rearrangement... 

Morita-Baylis—Hillman Adducts or Derivatives for the Construction of Cyclic Frameworks... 

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