Conjugate addition reactions compounds

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. 

Enamines react with acceptor-substituted alkenes (Michael acceptors) in a conjugate addition reaction for example with o ,/3-unsaturated carbonyl compounds or nitriles such as acrylonitrile 8. With respect to the acceptor-substituted alkene the reaction is similar to a Michael addition ... 

How might conjugate addition reactions of lithium diorganocopper reagents be used to synthesize the following compounds ... 

Michael reaction (Section 23.10) The conjugate addition reaction of an enolate ion to an unsalurated carbonyl compound. 

It will be recalled that one of the key operations in the synthesis of IJK ring system 86 is the intramolecular conjugate addition reaction (see 90—>89, Scheme 17b) to form ring J. In the context of compound 90, the electrophilic a,/ -unsaturated ester moiety and the potentially nucleophilic tertiary hydroxyl group reside in proximal regions of space, a circumstance that would seem to favor the desired cyclization evept (see Scheme 19). Indeed, exposure of a solution of 90 in THFto sodium hydride (1 equiv.) for one hour at 25 °C results in the formation of compound 89 in 92% yield. In... 

These compounds are not isolated, but used directly in situ for conjugate addition reactions (15-24). Another method for the preparation of such reagents (but with Zn instead of Li) allows them to be made from a-acetoxy halides ... 

Related compounds have been generated from BocRNCH2SnR 3 and s-butyllithium/ CuCN which also added to conjugated ketones. Other amino-cuprates are known to give conjugate addition reactions... 

Cyanide ion acts as a carbon nucleophile in the conjugate addition reaction. The pK of HCN is 9.3, so addition in hydroxylic solvents is feasible. An alcoholic solution of potassium or sodium cyanide is suitable for simple compounds. 

In a, P-unsaturated carbonyl compounds and related electron-deficient alkenes and alkynes, there exist two electrophilic sites and both are prone to be attacked by nucleophiles. However, the conjugated site is considerably softer compared with the unconjugated site, based on the Frontier Molecular Orbital analysis.27 Consequently, softer nucleophiles predominantly react with a, (i-unsaturated carbonyl compounds through conjugate addition (or Michael addition). Water is a hard solvent. This property of water has two significant implications for conjugate addition reactions (1) Such reactions can tolerate water since the nucleophiles and the electrophiles are softer whereas water is hard and (2) water will not compete with nucleophiles significantly in such... 

In recent years, the use of a-substituted phosphoryl compounds has mushroomed as they have become recognized as useful analogues of a-substituted carboxyl compounds (including the a-amino acids), as well as materials with their own applications. We will begin here by reviewing the well-established approaches toward such materials, specifically the Abramov and Pudovik reactions, including the associated conjugate addition reactions, and then consider the newer approaches toward such compounds. 

Silyl esters of trivalent phosphorus acids have been used successfully in conjugate addition reactions using acrylates,393 395 nitriles,394 amides,396 397 ketones and aldehydes,398-404 and nitro compounds.387... 

Feringa and co-workers described the tandem addition-aldol cyclization protocol leading to the formation of 6,6-, 6,7-, and 6,8-annulated bicyclic systems (Scheme 68).39 Using Cu(n)-29 as catalyst and functionalized organozinc reagents as nucleophiles, the conjugate addition reaction followed by aldol cyclization can offer highly enantioselec-tive annulation products (up to 98% ee). This method can be used in the synthesis of carbocyclic compounds, such as steroids, terpenes, and other natural products. 

Shibasaki s lanthanide-alkaline metal-BINOL system, discussed in Chapters 2 and 3, can also effect the asymmetric conjugate addition reaction. As shown in Scheme 8-35, enantioselective conjugate addition of thiols to a,/ -unsaturated carbonyl compounds proceeds smoothly, leading to the corresponding products with high yield and high ee.76... 

Woodward et al. have used the binaphthol-derived ligand 40 in asymmetric conjugate addition reactions of dialkylzinc to enones [46]. Compound 40 has also been studied as a ligand in allylic substitutions with diorganozinc reagents [47]. To allow better control over selectivity in y substitution of the allylic electrophiles studied, Woodward et al. investigated the influence of an additional ester substituent in the jS-position (Scheme 8.25). 

The first application of NMR diffusion measurements to determine the aggregation state of a transition metal catalyst concerned the chiral, tetranuclear Cu(i) catalysts 130-132, used in the conjugate addition reactions of anions to a,p-unsatu-rated cyclic ketones. Compounds 130-132 react wdth isonitriles to form 133-135, and do not degrade to lower molecular weight species (see Eq. (20)) [109]. 

The Pd-catalyzed acylation of organozincs was reported in 1983144, and it has since been widely employed as one of the most satisfactory methods of acylation of organometals20. Even in cases where ,/J-unsaturated carbonyl compounds are the products, their subsequent conjugate addition reactions do not appear to be competitive. Among recent examples of its application to the synthesis of natural products, the synthesis of amphidi-nolides Tl, , T4 and T5 by Fiirstner and coworkers213 is particularly noteworthy (Scheme 81). 

---