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Intermolecular Michael reaction

Intermolecular Michael reactions continue to be developed. Karl Anker Jorgensen of Aarhus University, Denmark, has found (Angew. Chem. Ini. Ed. 2004,43, 1272) that the organocatalyst 3 mediates the addition of 2 to 1 with high enantiomeric excess. What is more, under the reaction conditions the intial Michael addition is followed by an aldol condensation, to give 4 as essentially a single diastereomer. [Pg.88]

Quaternary ammonium hydroxides anchored on MCM-41 provide stronger base catalysts than amine analogues11731 and were able to catalyse the same reaction as previously reported namely for the intermolecular Michael reaction leading to flavanone.[181] Moreover, this catalyst induced the successive intramolecular olefinic attack of the phenolic group from the Knoevenagel condensation product of salicylaldehyde and diethyl glutaconate (Scheme 9.6). This fast cyclization leads to chromene derivatives (1) from which subsequent conversions induced by proton abstraction from the alpha position of the ester function gives coumarin... [Pg.192]

Scheme 2.20 Enantioselective intermolecular Michael reaction between aldehydes and alkyl vinyl ketones. Scheme 2.20 Enantioselective intermolecular Michael reaction between aldehydes and alkyl vinyl ketones.
An organocatalytic (j0rgensen-Hayashi catalyst 1) domino Micliael/Michael/aldol condensation was used to prepare a hexahydronaphtlialenone (+)-121 m route to the natural product (+)-galbulin (Scheme 7.22). In this case, it was proposed that an iminium salt 118 (activated from the re face) and an enamine species 117 were preformed. Following a kinetic asymmetric transformation (KAT) of the racemic precursor 115, the intermediate 119 is first formed through an intermolecular Michael reaction. A second intramolecular Michael reaction occurs and the intermediate 120 forms, and finally an acid-initiated aldol condensation... [Pg.235]

The proline-catalyzed intermolecular Michael reaction of unactivated ketones with nitroalkenes [33] can also be fitted in a mechanistic scenario involving the List-Houk transition state model (Figpre 2.11). [Pg.21]

Synthesis ofpyrrolidin-2-ones and staurosporine aglycon (K-252c) by intermolecular Michael reaction... [Pg.105]

Mahboobi S, Eibler E, Roller M, Kumar KCS, Popp A. S)mthesis of p3rrrohdin-2-ones and of staurosporine aglycon (K-252c) by intermolecular Michael reaction. J. Oig. Chem. 1999 64 4697- 4704. [Pg.114]

The first step of the proposed synthesis is the intermolecular Michael reaction of 2-substituted p-ketoesters and p-substituted enones, which results in vicinal quaternary and tertiary stereocenters. Michael reactions of this type are challenging, due to the increased sterics. In fact, only a few asymmetric examples have been reported to constract these motifs (Scheme The only success-... [Pg.245]

On the other hand, many reactions are known where in a first intermolecular step a functionality is introduced which than can undergo an intramolecular reaction. A nice example is the reaction of dienone 0-34 with methyl acrylate in the presence of diethylaluminum chloride to give the bridged compound 0-35 (Scheme 0-11). The first step is an intermolecular Michael addition, which is followed by an intramolecular Michael addition. This domino process is the key step of the total synthesis of valeriananoid A, as described by Hagiwara and coworkers [21]. [Pg.7]

Alkenones were used by Rao and coworkers [40] to prepare cyclohexane derivatives which, for example, can be transformed into substituted arenes in a single step. Another interesting intermolecular Michael/intramolecular aldol reaction sequence for the construction of the highly substituted 2-hydroxybicy-clo[3.2.1]octan-8-one framework has been described by Rodriguez group [41]. This process can be extended to a three- and even a fourfold domino reaction [41a, 42, 43],... [Pg.63]

In continuation of the aforementioned reaction, Hiroya and coworkers used cop-per(II) acetate for the synthesis of indoles 2-943 in reasonable yields from the corresponding ethynylanilines 2-941 by a domino intermolecular Michael addition/cop-per-assisted nucleophilic tosylate displacement reaction via 2-942 (Scheme 2.211) [482],... [Pg.193]

The first propynoate molecule undergoes a carbon—carbon bond-forming reaction with the zirconacyclopentadiene. The second molecule of the propynoate then donates a proton to the zirconacycle to open the ring. Further intermolecular Michael addition to the resulting carbon—carbon double bond produces the cyclopentadiene compounds. Investigations using deuterated propynoate were clearly indicative of the reaction mechanism shown in Eq. 2.47. [Pg.68]

Application of an organocatalytic domino Michael addition/intramolecular aldol condensation to the preparation of a series of important heterocycles has recently received much attention [158] with methods being disclosed for the preparation of benzopyrans [159-161], thiochromenes [162-164] and dihydroquinolidines [165, 166]. The reports all use similar conditions and the independent discovery of each of these reactions shows the robust nature of the central concept. A generalised catalytic cycle which defines the principles of these reports is outlined in Fig. 10. Formation of iminium ion 102 is followed by an intermolecular Michael addition of an oxygen, sulfur or nitrogen based nucleophile (103) to give an intermediate... [Pg.314]

It is true that highly enantioselective reactions are possible with proline in the asymmetric a-amination of aldehydes by azodicarboxylates and in a-oxidation with nitrosobenzene. However, good rather than excellent yields and enantioselectivities are more common in intermolecular Michael and aldol reactions. Moreover, the high catalyst loadings required for proline-catalyzed aldol reactions (up to 30%), and low TOFs (from hours to days to achieve a good conversion, even at a high catalyst... [Pg.176]

The diastereoselectivity of intermolecular Michael additions was first examined in two areas the Robinson annulation using ( )-3-penten-2-one (249 equation 51)62 and the reaction of enamines of cyclic... [Pg.18]

Surprisingly, the catalytic potential of proline (1) in asymmetric aldol reactions was not explored further until recently. List et al. reported pioneering studies in 2000 on intermolecular aldol reactions [14, 15]. For example, acetone can be added to a variety of aldehydes, affording the corresponding aldols in excellent yields and enantiomeric purity. The example of iso-butyraldehyde as acceptor is shown in Scheme 1.4. In this example, the product aldol 13 was obtained in 97% isolated yield and with 96% ee [14, 15]. The remarkable chemo- and enantioselectivity observed by List et al. triggered massive further research activity in proline-catalyzed aldol, Mannich, Michael, and related reactions. In the same year, MacMillan et al. reported that the phenylalanine-derived secondary amine 5 catalyzes the Diels-Alder reaction of a,/>-un saturated aldehydes with enantioselectivity up to 94% (Scheme 1.4) [16]. This initial report by MacMillan et al. was followed by numerous further applications of the catalyst 5 and related secondary amines. [Pg.5]

Intermolecular Michael addition [4.1] Intermolecular aldol reaction [6.2.1]... [Pg.415]

Intermolecular Michael addition [4.1] Intermolecular aldol reaction [6.2.1] Intramolecular aldol reaction [6.2.2] Aldol-related reactions (e.g. vinylogous Mukaiyama-type aldol) [6.2.3]... [Pg.438]

An enantioselective intermolecular Michael addition of aldehydes (138) to enones (139), catalysed by imidazolidinones (140), has been reported. Chemoselectivity (Michael addition versus aldol) can be controlled through judicious choice of hydrogen bond-donating co-catalysts. The optimal imidazolidinone-hydrogen bond donor pair affords Michael addition products in <90% ee. Furthermore, the enamine intermediate was isolated and characterized and its efficacy as a nucleophile in the observed Michael addition reactions was demonstrated.172... [Pg.321]

Proline was among the first compounds to be tested in asymmetric conjugated reactions, both as a chiral ligand [8] and also as an organic catalyst [3]. The earliest asymmetric intermolecular Michael-type addition, in which proline catalyzed the reaction (arguably via enamine formation) was reported by Barbas and colleagues [9, 10] and by List and co-workers [11]. The reaction, which proceeded in high chemical yield (85-97%) and diastereoselectivity, albeit afforded near-racemic products in dimethyl sulfoxide (DMSO) [11] (Scheme 2.37). The enantio-selectivity of the addition was later ameliorated by Enders, who demonstrated that a small amount of methanol rather than DMSO was beneficial to the enantiose-lectivity of the addition reaction [12]. [Pg.79]

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See also in sourсe #XX -- [ Pg.14 , Pg.552 ]

See also in sourсe #XX -- [ Pg.295 , Pg.296 ]



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Intermolecular Michael reaction enantioselective

Michael intermolecular

Michael reactions intermolecular domino addition

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