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Enolates Michael addition

An intramolecular version of enolate Michael addition to enantiomerically pure vinylic sulfoxides is represented by reaction of a cyclopentenone sulfoxide with dichloroketene (Scheme 5)90 this type of additive Pummerer rearrangement has been developed by Marino and coworkers91 into a highly effective way of constructing variously substituted lactones in very high enantiomeric purity (equation 43). [Pg.843]

Escherichia coli, glutamine synthetase, 28 350 ESR, see Electron spin resonance Ester enolates, Michael addition to ynoates, 38 275, 278... [Pg.100]

Enamine and Lewis-acid-catalyzed Michael additions provide a useful complement to the enolate Michael addition. These variants allow for the reaction to be carried out under nearly neutral or formally acidic conditions. In terms of the stereochemistry, the enolate Michael addition appears at this point to be more versatile in that both stereoisomers are often obtainable from a given set of substrates. However, in particular cases, the enamine or the... [Pg.164]

Besides of these main types of the chiral TAA salts, numerous other chiral TAA salts and crown ethers acting as moderately enantioselective PT catalysts were reported. Chiral PTC was mostly used for enantioselective formation of chiral carbon centers via alkylation of carbanions (enolates), Michael addition, the Darzens reaction and other reactions of carbanions. There are also numerous examples of enantioselective PTC epoxidation of electron deficient alkenes (for review, see Ref 105). [Pg.1874]

Robinson Annulation Sequential Michael addition/aldol condensation between a ketone enolate and an alkyl vinyl ketone (i.e. MVK) to give a cyclohex-2-en-l-one... [Pg.103]

Stabilizing the resulting enolate of the Michael Addition product can shift the equilibrium as in the case of the vinyl silane shown below... [Pg.166]

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]

The addition of large enolate synthons to cyclohexenone derivatives via Michael addition leads to equatorial substitution. If the cyclohexenone conformation is fixed, e.g. as in decalones or steroids, the addition is highly stereoselective. This is also the case with the S-addition to conjugated dienones (Y. Abe, 1956). Large substituents at C-4 of cyclic a -synthons direct incoming carbanions to the /rans-position at C-3 (A.R. Battersby, 1960). The thermodynamically most stable products are formed in these cases, because the addition of 1,3-dioxo compounds to activated double bonds is essentially reversible. [Pg.72]

The decarboxylation of allyl /3-keto carboxylates generates 7r-allylpalladium enolates. Aldol condensation and Michael addition are typical reactions for metal enolates. Actually Pd enolates undergo intramolecular aldol condensation and Michael addition. When an aldehyde group is present in the allyl fi-keto ester 738, intramolecular aldol condensation takes place yielding the cyclic aldol 739 as a main product[463]. At the same time, the diketone 740 is formed as a minor product by /3-eIimination. This is Pd-catalyzed aldol condensation under neutral conditions. The reaction proceeds even in the presence of water, showing that the Pd enolate is not decomposed with water. The spiro-aldol 742 is obtained from 741. Allyl acetates with other EWGs such as allyl malonate, cyanoacetate 743, and sulfonylacetate undergo similar aldol-type cycliza-tions[464]. [Pg.392]

The Pd enolates also undergo intramolecular Michael addition when an enone of suitable size is present in the allyl d-keto ester 744[465]. The main product is the saturated ketone 745, hut the unsaturated ketone 746 and ally-lated product 747 are also obtained as byproducts. The Pd-catalyzed Michael... [Pg.392]

A synthetically useful reaction known as the Michael reaction, or Michael addition, involves nucleophilic addition of carbanions to a p unsaturated ketones The most common types of carbanions used are enolate 10ns derived from p diketones These enolates are weak bases (Section 18 6) and react with a p unsaturated ketones by conjugate addition... [Pg.779]

Stabilized anions exhibit a pronounced tendency to undergo conjugate addition to a p unsaturated carbonyl compounds This reaction called the Michael reaction has been described for anions derived from p diketones m Section 18 13 The enolates of ethyl acetoacetate and diethyl malonate also undergo Michael addition to the p carbon atom of a p unsaturated aldehydes ketones and esters For example... [Pg.901]

Section 21 9 Michael addition of the enolate ions derived from ethyl acetoacetate and diethyl malonate provides an alternative method for preparing their a alkyl derivatives... [Pg.907]

Methyl group (Section 2 7) The group —CH3 Mevalonic acid (Section 26 10) An intermediate in the biosyn thesis of steroids from acetyl coenzyme A Micelle (Section 19 5) A sphencal aggregate of species such as carboxylate salts of fatty acids that contain a lipophilic end and a hydrophilic end Micelles containing 50-100 car boxylate salts of fatty acids are soaps Michael addition (Sections 18 13 and 21 9) The conjugate ad dition of a carbanion (usually an enolate) to an a 3 unsatu rated carbonyl compound... [Pg.1288]

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]

Michael addition (Sections 18.13 and 21.9) The conjugate addition of a carbanion (usually an enolate) to an a,(3-unsatu-rated carbonyl compound. [Pg.1288]

Vinylogous amides undergo reduction with lithium aluminum hydride, by Michael addition of hydride and formation of an enolate, which can resist further reduction. Thus -aminoketones are usually produced (309, 563,564). However, the alternative selective reduction of the carbonyl group has also been claimed (555). [Pg.431]

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]

The 1,4-addition of an enolate anion 1 to an o ,/3-unsaturated carbonyl compound 2, to yield a 1,5-dicarbonyl compound 3, is a powerful method for the formation of carbon-carbon bonds, and is called the Michael reaction or Michael addition The 1,4-addition to an o ,/3-unsaturated carbonyl substrate is also called a conjugate addition. Various other 1,4-additions are known, and sometimes referred to as Michael-like additions. [Pg.201]

Various competitive reactions can reduce the yield of the desired Michael-addition product. An important side-reaction is the 1,2-addition of the enolate to the C=0 double bond (see aldol reaction, Knoevenagel reaction), especially with a ,/3-unsaturated aldehydes, the 1,2-addition product may be formed preferentially, rather than the 1,4-addition product. Generally the 1,2-addition is a kinetically favored and reversible process. At higher temperatures, the thermodynamically favored 1,4-addition products are obtained. [Pg.202]

The stereochemical outcome of the Michael addition reaction with substituted starting materials depends on the geometry of the a ,/3-unsaturated carbonyl compound as well as the enolate geometry a stereoselective synthesis is possible. " Diastereoselectivity can be achieved if both reactants contain a stereogenic center. The relations are similar to the aldol reaction, and for... [Pg.202]

The reaction of a cyclic ketone—e.g. cyclohexanone 1—with methyl vinyl ketone 2 resulting in a ring closure to yield a bicyclic a ,/3-unsaturated ketone 4, is called the Robinson annulation This reaction has found wide application in the synthesis of terpenes, and especially of steroids. Mechanistically the Robinson annulation consists of two consecutive reactions, a Michael addition followed by an Aldol reaction. Initially, upon treatment with a base, the cyclic ketone 1 is deprotonated to give an enolate, which undergoes a conjugate addition to the methyl vinyl ketone, i.e. a Michael addition, to give a 1,5-diketone 3 ... [Pg.240]

The best method to achieve a high regioselectivity is the use of preformed enolates. A double annulation reaction is possible if, for example, a diketone such as 11 is used as starting material. The product of the Michael addition 12 can undergo two subsequent aldol condensation reactions to yield the tricyclic dienone 13 ... [Pg.243]


See other pages where Enolates Michael addition is mentioned: [Pg.842]    [Pg.842]    [Pg.223]    [Pg.123]    [Pg.879]    [Pg.15]    [Pg.892]    [Pg.842]    [Pg.842]    [Pg.223]    [Pg.123]    [Pg.879]    [Pg.15]    [Pg.892]    [Pg.72]    [Pg.318]    [Pg.41]    [Pg.153]    [Pg.3]    [Pg.137]   
See also in sourсe #XX -- [ Pg.258 ]

See also in sourсe #XX -- [ Pg.4 , Pg.258 ]

See also in sourсe #XX -- [ Pg.4 , Pg.258 ]




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Additions of Chiral Imide Enolates to Michael Acceptors

Chiral enolates, Michael additions

Conjugate Additions of Enolate Ions Michael Addition and Robinson Annulation

Enol ethers Michael addition

Enolate Additions

Enolate anions Michael addition

Enolates Michael

Enolates Michael addition reaction

Enolates simple Michael additions

Enolates, enantioselective aldol/Michael additions

Enols Michael addition reaction

Keto-enol tautomerism Michael addition

Ketone enolates Michael additions

Metal enolates Michael addition

Michael acceptors conjugate enolate anion addition

Michael addition Of silyl enol ethers

Michael addition ester enolates

Michael addition nitro enolates

Michael addition of enolate

Michael addition of enolates

Michael addition of enols, to enones

Michael addition of ester enolates

Michael addition of ketone enolates

Michael addition ring closure with ketone enolates

Michael addition/enolate trapping

Michael addition/enolate trapping sequence

Silyl enol ether, Michael addition

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