Esters conjugated addition

Conjugate addition of a silylcuprate reagent (34) to the a,(3-unsaturated acid amide or ester of a pertinent chiral amine or alcohol, respectively, is an alternative route to (3-silyl amides and esters. Conjugate addition of a cuprate reagent to a P-silyl acrylamide also gives a chiral P-silyl amide. The diastereomeric excess of the newly produced chiral center is fairly high, as summarized in Scheme 14." ... 

Addition to alkynoic esters. Conjugate addition of oximes to alkynoic esters to provide ( j-alkenyl oxime ethers is catalyzed by PhjP. Interestingly, a-addition by phthalimide is observed. Such adducts are useful precursors of dehydro-a-amino acids. ... 

De la Herran, G., Murcia, C. and Csdky, A.G. (2005) Rhodium-catalyzed reaction of aryl- and alkenylboronic acids with 2,4-dienoate esters conjugate addition and Heck reaction products. Org. Lett., 1, 5629-32. 

Although allylic silanes fail to react with a,/3-ethylenic esters, conjugate addition to a,/3-ethylenic acyl cyanides occurs quantitatively under the influence of titanium tetrachloride to give 5,e-ethylenic acyl cyanides, acids, or esters, depending on the work-up procedure (e.g. Scheme 68)/ Allenic silanes react in an analogous way to give the corresponding 5,e-acetylenic compounds. 

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... 

Methacryhc acid and its ester derivatives are Ctfjy -unsaturated carbonyl compounds and exhibit the reactivity typical of this class of compounds, ie, Michael and Michael-type conjugate addition reactions and a variety of cycloaddition and related reactions. Although less reactive than the corresponding acrylates as the result of the electron-donating effect and the steric hindrance of the a-methyl group, methacrylates readily undergo a wide variety of reactions and are valuable intermediates in many synthetic procedures. 

The mechanism of the Fiesselmann reaction between methylthioglycolate and a,P-acetylenic esters proceeds via consecutive base-catalyzed 1,4-conjugate addition reactions to form thioacetal Enolate formation, as a result of treatment with a stronger base, causes a Dieckmann condensation to occur providing ketone 8. Elimination of methylthioglycolate and tautomerization driven by aromaticity provides the 3-hydroxy thiophene dicarboxylate 9. 

Conjugate addition of strong nucleophiles to the >C=N—C=C< moiety, followed by ring opening of the resulting saturated 5 4H)-oxazolone. Thus, 57 reacts with simple or peptidic amino acid esters [Eq. (31)]. Similarly, 62 gives 63 in methanolic 7i-propylamine, and... 

Although deprotonation of simple 1,3-dithiolanes at the 2 position is usually accompanied by cycloreversion to the alkene and dithiocarboxylate, this does not occur for the 2-ethoxycarbonyl compound 55. The anion of this is readily generated with LDA and undergoes conjugate addition to a,(3-unsaturated ketones, esters, and lactones to give, after deprotection, the a,8-diketoester products 56 (73TL2599). In this transformation 55 therefore acts as an equivalent of Et02C-C(0) . 

Formal oxidation of pyrrolidine to the succinimide stage affords a series of compounds used as anticonvulsant agents for treatment of seizures in petit mal epilepsy. Knoevnagel condensation of benzaldehyde with ethyl cyanoacetate affords the unsaturated ester, 9. Conjugate addition of cyanide ion leads to the di-nitrile ester (10). Hydrolysis in mineral acid affords the succinic acid (11), presumably by decarboxylation of the intermediate tricarboxyllie acid. Lactamization with methylamine gives phensuximide (12). ... 

The Hantsch pyridine synthesis provides the final step in the preparation of all dihydrop-yridines. This reaction consists in essence in the condensation of an aromatic aldehyde with an excess of an acetoacetate ester and ammonia. Tlie need to produce unsymmetrically subsrituted dihydropyridines led to the development of modifications on the synthesis. (The chirality in unsymmetrical compounds leads to marked enhancement in potency.) Methyl acetoacetate foniis an aldol product (30) with aldehyde 29 conjugate addition of ethyl acetoacetate would complete assembly of the carbon skeleton. Ammonia would provide the heterocyclic atom. Thus, application of this modified reaction affords the mixed diester felodipine 31 [8]. 

Recently, elegant synthesis of ruin -MRS carbapenum has been reported. Sequential reaction of nitromethane via conjugate addition-elimination to a,fi-unsanirated esters followed by Pd-catalyzed subsdnidon of the residdng allyl nitro compound with the naphthosultam affords the allyladon product which is an and fEq. 7.20. ... 

The best Michael reactions are those that take place when a particularly stable enolate ion such as that derived from a /i-keto ester or other 1,3-dicarbonyl compound adds to an unhindered a,/3-unsaturated ketone. Tor example, ethyl acetoacetate reacts with 3-buten-2-one in the presence of sodium ethoxide to yield the conjugate addition product. 

A Michael reaction involves the conjugate addition of a stable enolate ion donor to an o,/3-unsaturated carbonyl acceptor, yielding a 1,5-dicarbonyl product. Usually, the stable enolate ion is derived from a /3-diketone, jS-keto ester, malonic ester, or similar compound. The C—C bond made in the conjugate addition step is the one between the a carbon of the acidic donor and the (3 carbon of the unsaturated acceptor. 

The first step of the Robinson annulation is simply a Michael reaction. An enamine or an enolate ion from a jS-keto ester or /3-diketone effects a conjugate addition to an a-,/3-unsaturated ketone, yielding a 1,5-diketone. But as we saw in Section 23.6,1,5-diketones undergo intramolecular aldol condensation to yield cyclohexenones when treated with base. Thus, the final product contains a six-membered ring, and an annulation has been accomplished. An example occurs during the commercial synthesis of the steroid hormone estrone (figure 23.9). 

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