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Michael addition base catalyzed

Michael reaction. Base catalyzed addition of carbanions to activated unsaturated systems. [Pg.847]

This linker was employed in the synthesis of a library of N-alkylated 5- and 6-alkyloxy-l,2,3,4-tetrahydroisoquinolines 77 involving the following steps Michael addition, acid-catalyzed removal of a THP group, Mitsunobu etherification, quaternization of the nitrogen, and Huenig s base-catalyzed elimination [86] (Scheme 36). [Pg.63]

The Michael reaction is of central importance here. This reaction is a vinylogous aldol addition, and most facts, which have been discussed in section 1.10, also apply here the reaction is catalyzed by acids and by bases, and it may be made regioselective by the choice of appropriate enol derivatives. Stereoselectivity is also observed in reactions with cyclic educts. An important difference to the aldol addition is, that the Michael addition is usually less prone to sterical hindrance. This is evidenced by the two examples given below, in which cyclic 1,3-diketones add to o, -unsaturated carbonyl compounds (K. Hiroi, 1975 H, Smith, 1964). [Pg.71]

Michael condensations are catalyzed by alkaU alkoxides, tertiary amines, and quaternary bases and salts. Active methylene compounds and aUphatic nitro compounds add to form P-substituted propionates. These addition reactions are frequendy reversible at high temperatures. Exceptions are the tertiary nitro adducts which are converted to olefins at elevated temperatures (24). [Pg.151]

An asymmetric synthesis of estrone begins with an asymmetric Michael addition of lithium enolate (178) to the scalemic sulfoxide (179). Direct treatment of the cmde Michael adduct with y /i7-chloroperbenzoic acid to oxidize the sulfoxide to a sulfone, followed by reductive removal of the bromine affords (180, X = a and PH R = H) in over 90% yield. Similarly to the conversion of (175) to (176), base-catalyzed epimerization of (180) produces an 85% isolated yield of (181, X = /5H R = H). C8 and C14 of (181) have the same relative and absolute stereochemistry as that of the naturally occurring steroids. Methylation of (181) provides (182). A (CH2)2CuLi-induced reductive cleavage of sulfone (182) followed by stereoselective alkylation of the resultant enolate with an allyl bromide yields (183). Ozonolysis of (183) produces (184) (wherein the aldehydric oxygen is by isopropyUdene) in 68% yield. Compound (184) is the optically active form of Ziegler s intermediate (176), and is converted to (+)-estrone in 6.3% overall yield and >95% enantiomeric excess (200). [Pg.436]

Fusion of SIX membered nngs by reactnn of cyclanones with vinyl ketones (base or acd catalyzed), a tandem Michael addition aldol condensation... [Pg.321]

The mechanism is presumed to involve a pathway related to those proposed for other base-catalyzed reactions of isocyanoacetates with Michael acceptors. Thus base-induced formation of enolate 9 is followed by Michael addition to the nitroalkene and cyclization of nitronate 10 to furnish 11 after protonation. Loss of nitrous acid and aromatization affords pyrrole ester 12. [Pg.71]

From a mechanistic standpoint, ammonia serves two functions 1) it behaves as a base to catalyze an aldol reaction between 2 equivalents of 31 to generate the corresponding enal 33, and 2) it is the source of nitrogen for the resultant pyridyl ring. This occurs through formation of enamine 34 with a third equivalent of 31. The Michael addition of 34 to 33 followed by cyclization gives rise to 32. [Pg.308]

Although the base-catalyzed addition of nitroalkanes to electron-deficient olefins has been extensively used in organic synthesis fsee Michael addition Chapter 4, it is only recently that the reaction has been extended to the cyclopropanadon reaction. In 1978, it was reported that the anion of nitromethane reacts with certain highly electron-deficient olefins to produce cycloptopanesingoodyieldrEq. 7.36. More recently, this reaction has been extended to more general cyclopropanadons, as shown in Eqs. 7.37 and 7.38, in which potassittm salts of nitroalkanes are employed in DMSO as alkylidene transfer reagents." ... [Pg.191]

The highest enantioselectivities in the base-catalyzed Michael additions have so far been obtained using achiral bases complexed to chiral crown ethers. The addition of methyl 2,3-dihydro-l-oxo-1//-indene-2-carboxylate (1) to 3-buten-2-one using 4 mol% of a [l,T-binaphthalcnc]-2,2 -diol derived optically active crown ether 3 in combination with potassium AY/-butoxide as the base illustrates this successful method 259 260 It is assumed that the actual Michael donor is the potassium enolate complex of 1 and crown ether 3. [Pg.987]

The base-catalyzed Michael addition of 2-chlorocyanoacetate to a,p-unsaturated ketones or aldehydes affords 5-oxopentenenitrile derivatives. In the presence of anhydrous HCl, these compounds cyclize to yield 2-chloro-3-pyridinecarboxylates. The process is highly regiospecific and usefiil in the synthesis of 2,Xdisubstituted pyridines <95T(51)13177>. [Pg.223]

Jenner investigated the kinetic pressure effect on some specific Michael and Henry reactions and found that the observed activation volumes of the Michael reaction between nitromethane and methyl vinyl ketone are largely dependent on the magnitude of the electrostriction effect, which is highest in the lanthanide-catalyzed reaction and lowest in the base-catalyzed version. In the latter case, the reverse reaction is insensitive to pressure.52 Recently, Kobayashi and co-workers reported a highly efficient Lewis-acid-catalyzed asymmetric Michael addition in water.53 A variety of unsaturated carbonyl derivatives gave selective Michael additions with a-nitrocycloalkanones in water, at room temperature without any added catalyst or in a very dilute aqueous solution of potassium carbonate (Eq. 10.24).54... [Pg.323]

Balme and coworkers reported on a procedure for the preparation of highly functionalized furans of type 2-940 (Scheme 2.210) [480]. Their approach is based on a nucleophilic Michael addition of propargyl alcohols 2-937 to alkylidene or aryl-idenemalonates 2-938, followed by a palladium-catalyzed cydization via the carban-ion 2-939. The reactions with propargyl alcohol led to the formation of only one di-... [Pg.191]

A combination of a Tsuji-Trost and a Michael addition was used for the synthesis of (+)-dihydroerythramine 6/1-269, as reported by Desmaele and coworkers [128]. The Pd-catalyzed reaction of the allylic acetate 6/1-267 with the nitromethylarene 6/1-266 in the presence of Cs2C03 as base led to the domino product 6/1-268 as a 4 1 mixture of two diastereomers in 79% yield. Further manipulation of 6/l-268a yielded the desired dihydroerythramine 6/1-269 (Scheme 6/1.70). Interestingly, using the corresponding allylic carbonate without additional base gave the mono-alkylated product only. [Pg.403]

In recent years, many novel MCRs - including Michael addition-initiated three-component domino sequences [10], Knoevenagel/hetero-Diels-Alder-based MCRs [11], radical chain MCRs [12], transition metal-catalyzed Pauson-Khand MCRs [13], as well as Petasis MCRs [14], have been added to the chemisf s armamentarium and successfully applied to all fields of organic synthesis. [Pg.543]

Combinatorial solid-phase synthetic methodologies have been used extensively in drug development [8]. A new solid-phase synthesis of 2-imidazolidones has been discovered by Goff, based on a domino aminoacylation/Michael addition reaction [9]. Thus, when immobilized amine 10-26 (HMPB-BHA resin) was treated with phenylisocyanate in the presence of triethylamine, a smooth formation of 2-imida-zolidone took place. Acid-catalyzed removal from solid phase provided 10-27 in good yield (Scheme 10.6). [Pg.569]

Catalytic enantioselective nucleophilic addition of nitroalkanes to electron-deficient alke-nes is a challenging area in organic synthesis. The use of cinchona alkaloids as chiral catalysts has been studied for many years. Asymmetric induction in the Michael addition of nitroalkanes to enones has been carried out with various chiral bases. Wynberg and coworkers have used various alkaloids and their derivatives, but the enantiomeric excess (ee) is generally low (up to 20%).199 The Michael addition of methyl vinyl ketone to 2-nitrocycloalkanes catalyzed by the cinchona alkaloid cinchonine affords adducts in high yields in up to 60% ee (Eq. 4.137).200... [Pg.118]

Nitroethane undergoes base-catalyzed addition to C60 to give 2-hydroxy-1,2-dihydrofulleryl ketoxime by way of a unique intramolecular redox process, which is not observed in normal electron deficient alkenes (Eq. 8.77).128 (See Section 4.3 Michael addition of nitroalkanes). [Pg.268]

It has been shown that Lewis acid catalyzed isomerization of thionolactones provides access to thiolactones. For example, exposure of the substrate 22 to catalytic amounts of BF3 OEt2 led to efficient conversion to the thiolactone 23. Such transformations were also found to give minor amounts of lactone or dithiolactone side products <06TL6067>. Substituted tetrahydrothiophene derivatives have also been obtained from 1,4-dithiane-2,5-diol and 2-nitroethyl acetate derivatives by a base induced sequence featuring a Michael addition and a Henry reaction <06TL8087>. [Pg.115]

In 2002, Leadbeater and Torenius reported the base-catalyzed Michael addition of methyl acrylate to imidazole using ionic liquid-doped toluene as a reaction medium (Scheme 6.133 a) [190], A 75% product yield was obtained after 5 min of microwave irradiation at 200 °C employing equimolar amounts of Michael acceptor/donor and triethylamine base. As for the Diels-Alder reaction studied by the same group (see Scheme 6.91), l-(2-propyl)-3-methylimidazolium hexafluorophosphate (pmimPF6) was the ionic liquid utilized (see Table 4.3). Related microwave-promoted Michael additions studied by Jennings and coworkers involving indoles as heterocyclic amines are shown in Schemes 6.133 b [230] and 6.133 c [268], Here, either lithium bis(trimethylsilyl)amide (LiHMDS) or potassium tert-butoxide (KOtBu) was em-... [Pg.195]

Michael addition of (benzotriazol-l-yl)acetonitrile 557 to a,[)-unsatu rated ketones followed by heterocyclization provides new means for preparation of 2,4,5-trisubstituted pyridines. The reaction is catalyzed by bases. In the presence of secondary amines, a nucleophilic attack of amine on the CN group in adduct 556 initiates the cyclization to tetrahydropyridine 558 that subsequently eliminates water and benzotriazole to give pyridine 559. Analogously, in the presence of NaOH, pyridone 560 forms, via intermediate 561 (Scheme 88) <1997JOC6210>. [Pg.66]

Several examples exist of the application of chiral natural N-compounds in base-catalyzed reactions. Thus, L-proline and cinchona alkaloids have been applied [35] in enantioselective aldol condensations and Michael addition. Techniques are available to heterogenize natural N-bases, such as ephedrine, by covalent binding to mesoporous ordered silica materials [36]. [Pg.114]


See other pages where Michael addition base catalyzed is mentioned: [Pg.302]    [Pg.38]    [Pg.48]    [Pg.944]    [Pg.162]    [Pg.292]    [Pg.987]    [Pg.135]    [Pg.1038]    [Pg.84]    [Pg.319]    [Pg.171]    [Pg.85]    [Pg.143]    [Pg.189]    [Pg.16]    [Pg.336]    [Pg.66]    [Pg.114]    [Pg.295]    [Pg.320]    [Pg.96]    [Pg.698]    [Pg.79]    [Pg.197]    [Pg.197]   
See also in sourсe #XX -- [ Pg.14 , Pg.521 ]

See also in sourсe #XX -- [ Pg.14 , Pg.521 ]




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Active-methylene compounds base-catalyzed Michael additions

Addition catalyzed

Base-catalyzed Michael-type addition

Ketones base-catalyzed Michael additions

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