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Intramolecular Michael addition synthesis

There is no published mechanistic study on the Auwers flavone synthesis. The mechanism may involve the nucleophilic addition of oxonium 7, derived from 1, with hydroxide to give 8. Base-promoted ring opening of 8 could provide the putative intermediate 9, which then could undergo an intramolecular Michael addition to form 10. Expulsion of bromide ion from 10 would then give flavonol 2. [Pg.262]

The intramolecular Michael addition11 of a nucleophilic oxygen to an a,/ -unsaturated ester constitutes an attractive alternative strategy for the synthesis of the pyran nucleus, a strategy that could conceivably be applied to the brevetoxin problem (see Scheme 2). For example, treatment of hydroxy a,/ -unsaturated ester 9 with sodium hydride furnishes an alkoxide ion that induces ring formation by attacking the electrophilic //-carbon of the unsaturated ester moiety. This base-induced intramolecular Michael addition reaction is a reversible process, and it ultimately affords the thermodynamically most stable product 10 (92% yield). [Pg.734]

The diastereoselective intramolecular Michael addition of /(-substituted cyclohexcnoncs results in an attractive route to ra-octahydro-6//-indcn-6-ones. The stereogenic center in the -/-position of the enone dictates the face selectivity, whereas the trans selectivity at Cl, C7a is the result of an 6-exo-trig cyclization. c7.v-Octahydro-5//-inden-5-ones are formed as the sole product regardless of which base is used, e.g., potassium carbonate in ethanol or sodium hydride in THF, under thermodynamically controlled conditions139 14°. An application is found in the synthesis of gibberellic acid141. [Pg.969]

Cory and Renneboog53 have devised an efficient bicycloannulation for the synthesis of tricyclo[3.2.1.02,7]octane-6-one (66) as shown in equation 63. The method involves three steps (1) the enolate undergoes an initial conjugate addition to phenyl vinyl sulfone, (2) the resulting sulfone-stabilized carbanion undergoes an intramolecular Michael addition to the enone, and (3) the resulting enolate displaces phenylsulfinyl moiety from the tricyclooctanone. The amount of HMPA (3 mol equivalents) is critical for effective cyclization of the enolate. [Pg.778]

The synthesis was carried out as shown in Scheme 13.24. A diol was formed and selectively tosylated at the secondary hydroxy group (Step A-4). Base then promoted the skeletal rearrangement in Step B-l by a pinacol rearrangement corresponding to 23-11 => 23-III in the retrosynthesis. The key intramolecular Michael addition was accomplished using triethylamine under high-temperature conditions. [Pg.1188]

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]

The intramolecular Michael addition is used as a key step for synthesis of epibatidine (Scheme 4.26).177 Epibatidine is an analgesic, operating by a nonopioid mechanism, it is several hundred times more potent than morphine. [Pg.114]

The sequential process consisting of palladium-catalyzed alkylation and the intramolecular Michael addition of nitro compound provides a nitrocyclohaxane derivative, which is a good precursor for synthesis of Erythrina alkaloids (Eq. 4.131).179... [Pg.115]

A recent total synthesis of tubulysin U and V makes use of a one-pot, three-component reaction to form 2-acyloxymethylthiazoles <06AG(E)7235>. Treatment of isonitrile 25, Boc-protected Z-homovaline aldehyde 26, and thioacetic acid with boron trifluoride etherate gives a 3 1 mixture of two diastereomers 30. The reaction pathway involves transacylation of the initial adduct 27 to give thioamide 28. This amide is in equilibrium with its mercaptoimine tautomer 29, which undergoes intramolecular Michael addition followed by elimination of dimethylamine to afford thiazole 30. The major diastereomer serves as an intermediate in the synthesis of tubulysin U and V. [Pg.244]

A solvent-free synthesis of flavones has been achieved that simply involves the MW irradiation of o-hydroxydibenzoylmethanes adsorbed on montmorillonite K 10 clay for 1-1.5 min. A rapid and exclusive formation of cyclized flavones occurs in good yields (Scheme 6.41) [140], The intramolecular Michael addition of o-hydroxy-... [Pg.204]

The tandem intramolecular Michael addition and 1,3-cycloaddition reactions of the corresponding alkenyl oxime have been used for the synthesis of the tricyclic core of the alkaloid halichlorine (Scheme 2.232) (728). [Pg.313]

The first successful synthesis of longifolene was described in detail by E. J. Corey and co-workers in 1964. Scheme 13.19 presents a retrosynthetic analysis corresponding to this route. A key disconnection is made on going from I => II. This transformation simplifies the tricyclic skeleton to a bicyclic one. For this disconnection to correspond to a reasonable synthetic step, the functionality in the intermediate to be cyclized must engender mutual reactivity between C-7 and C-10. This is achieved in diketone II, because an enolate generated by deprotonation at C-10 can undergo an intramolecular Michael addition to C-... [Pg.860]

The synthesis was carried out as is shown in Scheme 13.20. The key intramolecular Michael addition was accomplished using triethylamine under high-temperature conditions. [Pg.861]

The synthesis of lanthionines via dehydroalanines has been carried out using an (9,5-di-benzoylated Z-L-Cys-L-Ser-OMe. 31 Using (3-elimination under basic conditions in sodium methoxide and subsequent intramolecular Michael addition, the corresponding L-lanthio-nine derivative was formed. However, as a final step the cyclolanthionyl dipeptide would have to be cleaved at the amide bond to obtain lanthionine. The same authors reported the use of the O-tosylated serine dipeptide which was subjected to (3-elimination, forming the desired dehydroalanine derivative. However, this synthesis also yielded cyclic L-lanthionine dimers as a result of an intermolecular Michael addition. The amounts of cyclolanthionine and lanthionine dimer derivatives depended on the initial concentration of the dipeptides. In addition, the directed synthesis of cyclic lanthionine dimers, which were produced from N-benzyloxycarbonyl-W-trityllanthionine monomethyl ester, has been reported. 32 ... [Pg.190]

Practitioners of total synthesis have been pushing the limits of Grubbs metathesis. Siegfried Blechert of the Technisches Universitat, Berlin, envisioned (Tetrahedron 2004,60,9629) that Grubbs metathesis of 1 could open the cyclopentene, to give a new Ru alkylidenc that could condense with a styrene such as 2. In practice, this transformation worked well, yielding 3. Deprotection, intramolecular Michael addition and reduction then gave (-)-lasubine II4. [Pg.72]

A six-step synthesis of hexahydrofuro[3,2-3]oxepin-2(3/7)-one involves cyclization with the formation of an ethereal C-0 bond (Scheme 13). However, its specific peculiarities are that the product skeleton is built from tetrahydrofuran (THF) and furan, the key reactions being the oxidation of a furan ring with singlet oxygen, followed by an intramolecular Michael addition to 2(5/7)-furanone C=C bond <2003TL4467, 2004TL5207>. [Pg.57]

This intramolecular Michael addition has been used to obtain the C/D ring in a short synthesis of adrenosterone (6).2 Thus cyclization of 3 with zirconium tetra-n-propoxide results in the desired 4 and the corresponding cw-isomer in a 25 1 ratio. The B ring was added to give 5 in 62% yield by reaction of the anion of 4 with 2-(trimethylsilyl)-l-pentene-3-one (5, 462). The last ring was then added to obtain 6 by a method developed previously by Stork and Logusch (10,234-235). [Pg.308]

I.actone annelation. A new lactone synthesis from an allylic alcohol such as 1 involves a Cluiscn rearrangement (4, 234 235) followed by an intramolecular Michael addition, as formulated in equation (I). [Pg.460]

A facile route to isothiochromans involves the base-catalyzed reaction of a benzyl dibromide with an a-thiocarbonyl compound. The method has been extended to the synthesis of an anthraceno[2,3-f]thiopyran, a heterocyclic analogue of an anthracyclinone (Equation 169) <1994S363>. In like manner, alkylation of the 2-aryl-1-bromoethane 491 by thiourea and subsequent liberation of the thiol function creates an isothiochroman precursor. An intramolecular Michael addition to the cr, )-unsaturated ester side chain yields the 1-substituted heterocycle (Scheme 179) <1992JOC1727>. [Pg.894]

The Aspidosperma family of indole alkaloids has inspired many synthetic strategies for the construction of their pentacyclic framework of the parent compound aspidospermidine (366), since the initial clinical success of two derivatives, vinblastine (10) and vincristine, as anticancer agents. The alkaloids such as (-)-rhazinal (369) and (-)-rhazinilam (6) have been identified as novel leads for the development of new generation anticancer agents [10,11]. Bis-lactams (-)-leucunolam (370) and (-t-)-epi-leucunolam (371) have bio-genetic and structural relationships with these compounds [236]. Recently, enantioselective or racemic total syntheses of some of the these natural product were achieved. One successful synthesis was the preparation of the tricyclic ketone 365, an advanced intermediate in the synthesis of aspidospermidine (366), from pyrrole (1) (Scheme 76) [14]. The key step is the construction of the indolizidine 360, which represents the first example of the equivalent intramolecular Michael addition process [14,237,238]. The DIBAL-H mediated reduction product was subject to mesylation under the Crossland-... [Pg.49]

An intramolecular Michael addition has been used to effect transformation of the pyrrole 50 to the indolizidine 51, the ester group of which was later homologated by a one-carbon unit, and the acid so obtained underwent in turn an intramolecular acylation at the pyrrole C-3 giving the tricyclic structure 52, which eventually lead to a formal total synthesis of ( )-aspidospermidine after a few additional steps <02JCS(P1)2613>. [Pg.146]

The cyclic peroxide system was constructed by photo-addition of 02 to the diene 25 in a total synthesis of plakortic acid derivatives isolated from a marine sponge <02OL485> and the key step in a synthesis of related marine products is an intramolecular Michael addition of a peroxy hemiacetal <02BMCL69>. [Pg.376]

Desmaele and co-workers have developed a sequence involving attack onto a jr-allylPd complex followed by an intramolecular Michael addition leading to functionalized cyclohexane derivatives [95]. This useful transformation was used as a key step in the total synthesis of racemic dihydroery-thramine 110, a biologically active compound of the Erythrina alkaloids family [96] (Scheme 42). [Pg.144]

The formation of poly substituted tetrahydropyran-4-ones through a Pd-catalysed intramolecular Michael addition of (3-hydroxyenones proceeds with the retention of stereocentres in the enones. The route is simple and is particularly attractive for the synthesis of the 2,6-a ft -substituted heterocycles (Scheme 26) <06CEJ7190>. [Pg.378]


See other pages where Intramolecular Michael addition synthesis is mentioned: [Pg.22]    [Pg.755]    [Pg.125]    [Pg.1187]    [Pg.140]    [Pg.16]    [Pg.190]    [Pg.17]    [Pg.35]    [Pg.436]    [Pg.676]    [Pg.29]    [Pg.30]    [Pg.44]    [Pg.545]    [Pg.545]    [Pg.108]    [Pg.651]    [Pg.9]    [Pg.38]    [Pg.270]    [Pg.564]    [Pg.676]    [Pg.167]    [Pg.434]    [Pg.246]   
See also in sourсe #XX -- [ Pg.6 , Pg.70 , Pg.71 ]




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Addition synthesis

Additive synthesis

Intramolecular addition

Michael addition intramolecular

Michael intramolecular

Michael synthesis

SYNTHESIS intramolecular

Synthesis Michael additions

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