1,2-addition reactions acyl anions

Mattson AE, Bharadwaj AR, Zuhl AM, Scheldt KA (2006a) Thiazolium-catalyzed additions of acylsilanes a general strategy for acyl anion addition reactions. J Org Chem 71 5715-5724... 

In addition, the use of thiazolium catalyzed processes to prepare conq)ounds which are the result of an acyl anion addition reaction have shown utility in synthetic organic chemistry. The benzoin condensation (21-24) and the Stetter reaction (25-27) represent two of the most powerful exan5>les of these types of transformations (Figure 2.). 

An interesting application of the Paal thiophene synthesis was documented for the synthesis of a polystyrene-oligothiophene-polystyrene copolymer. In the Stetter reaction of aldehyde 13 and P-dimethylaminoketone 14, in situ generation of the a,p-unsaturated ketone preceded nucleophilic 1,4-conjugate addition by the acyl anion... 

Problems of acyl anion equivalents met above in the synthesis of similar TMs disappear if (25) is made from the alkene (26), A Wittig is the obvious method to make (26) and reaction between (27) and PhgCO will probably give (26), An alternative is the dehydration of (28), made by Grignard addition to ester (20), Osmium tetroxide was used for the hydroxylation. 

The only acyl anion (6) equivalents we have met which will carry out Michael additions are nitro compounds (p Tig3 and 213) but the scales arc weighted against such a Michael reaction as the most hindered atom must be attacked. 

Aldol addition and related reactions of enolates and enolate equivalents are the subject of the first part of Chapter 2. These reactions provide powerful methods for controlling the stereochemistry in reactions that form hydroxyl- and methyl-substituted structures, such as those found in many antibiotics. We will see how the choice of the nucleophile, the other reagents (such as Lewis acids), and adjustment of reaction conditions can be used to control stereochemistry. We discuss the role of open, cyclic, and chelated transition structures in determining stereochemistry, and will also see how chiral auxiliaries and chiral catalysts can control the enantiose-lectivity of these reactions. Intramolecular aldol reactions, including the Robinson annulation are discussed. Other reactions included in Chapter 2 include Mannich, carbon acylation, and olefination reactions. The reactivity of other carbon nucleophiles including phosphonium ylides, phosphonate carbanions, sulfone anions, sulfonium ylides, and sulfoxonium ylides are also considered. 

The Michael addition of nitroalkanes to a,P-unsaturated ketones followed by the Nef reaction has been extensively used as a method for the conjugated addition of acyl anions to enones (see Section 6.1, Nef Reaction). This strategy is one of the best methods for the preparation of 1,4-dicarbonyl compounds.156a h Various natural products have been prepared via this route.157 For example, r/.v-jasmone is prepared from readily available materials, as shown in Scheme 4.19.156f... 

The thiazolium-catalyzed addition of an aldehyde-derived acyl anion with a Michael acceptor (Stetter reaction) is a well-known synthetic tool leading to the synthesis of highly funtionalized products. Recent developments in this area include the direct nucleophilic addition of acyl anions to nitroalkenes using silyl-protected thiazolium carbinols <06JA4932>. In the presence of a fluoride anion, carbinol 186 is not cleaved to an aldehyde... 

Tyrosine may be targeted specifically for modification through its phenolate anion by acylation, through electrophilic reactions such as the addition of iodine or diazonium ions, and by Mannich condensation reactions. The electrophilic substitution reactions on tyrosine s ring all occur at the ortho position to the —OH group (Figure 1.11). Most of these reactions proceed effectively only when tyrosine s ring is ionized to the phenolate anion form. 

A different approach toward highly substituted pyrroles involving a one-pot sila-Stetter/Paal-Knorr strategy was realized by Bharadwaj and Scheidt (Scheme 6.182) [343]. In this multicomponent synthesis, catalyzed by a thiazolium salt, an acyl anion conjugate addition reaction of an acylsilane (sila-Stetter) was coupled in situ with the conventional Paal-Knorr approach. Employing microwave conditions at 160 °C for 15 min, the acylsilane was combined with the cx/l-unsaturated ketone in... 

Now this is exactly the same situation we encountered when we compared the reactivity of aldehydes and ketones with that of carboxylic acid derivatives (see Section 7.8). The net result here is acylation of the nucleophile, and in the case of acylation of enolate anions, the reaction is termed a Claisen reaction. It is important not to consider aldol and Claisen reactions separately, but to appreciate that the initial addition is the same, and differences in products merely result from the absence or presence... 

Breslow and co-workers elucidated the currently accepted mechanism of the benzoin reaction in 1958 using thiamin 8. The mechanism is closely related to Lapworth s mechanism for cyanide anion catalyzed benzoin reaction (Scheme 2) [28, 29], The carbene, formed in situ by deprotonation of the corresponding thiazolium salt, undergoes nucleophilic addition to the aldehyde. A subsequent proton transfer generates a nucleophilic acyl anion equivalent known as the Breslow intermediate IX. Subsequent attack of the acyl anion equivalent into another molecule of aldehyde generates a new carbon - carbon bond XI. A proton transfer forms tetrahedral intermediate XII, allowing for collapse to produce the a-hydroxy ketone accompanied by liberation of the active catalyst. As with the cyanide catalyzed benzoin reaction, the thiazolylidene catalyzed benzoin reaction is reversible [30]. 

Suzuki and co-workers achieve aromatic substitution of fluoroarenes with a variety of aldehydes in good yields [91, 92], Imidazolilydene carbene formed from 143 catalyzes the reaction between 4-methoxybenzaldehyde 22a and 4-fluoroni-trobezene 141 to provide ketone 142 in 77% yield (Scheme 20). Replacement of the nitro group with cyano or benzoyl results in low yields of the corresponding ketones. The authors propose formation of the acyl anion equivalent and subsequent addition to the aromatic ring by a Stetter-like process forming XXVIII, followed by loss of fluoride anion to form XXIX. 

She and co-workers took advantage of the acyl anion equivalent formed from the addition of an NHC to an aldehyde to catalyze the formation of benzopyranones via an intramolecular S 2 displacement (Scheme 50) [167], Various aromatic aldehydes provide alkylation products in moderate yields when the leaving group is either tosylate or iodide. No reaction was observed when phenyl or methyl was placed alpha to the leaving group. 

The synthetic utility of a-phosphorus- and a-thio-stabilized carbanions is the subject of numerous reviews.21 Notable are additions of phosphonium ylides (237),183 sulfonium ylides (238),l84 ° oxosulfo-nium ylides (239)184 " and sulfoximine ylides (240)184,1 to electron-deficient alkenes which afford nucleophilic cyclopropanation products. In contrast, with a-(phenylthio)-stabilized carbanions, which are not acyl anion equivalents, either nucleophilic cyclopropanation or retention of the hetero substituent occurs, depending on the acceptor and reaction conditions used. For example, carbanion (241) adds to 1,1-... 

The anionic complexes (50) are obtained from the group VI carbonyl and the dilithium derivatives of the hydroxyalkynes HC=CCR2(OH) subsequent protonation or acylation affords propadienylidene (51) or carbene (52) complexes by complex cyclization and addition reactions (Scheme 3) (28). Attempts to obtain the dimethyl complex by reaction of the chromium alkynolate dianion with COCl2 gave only polymeric material. More stable complexes were obtained with R = aryl (73). 

Convenient reagent equivalents could be a nitroalkane (for the acyl anion syn-thon, p. 627), and acrolein or an acrylic ester (for the carbocation). The reaction would then be a Michael addition process (Section 5.11.6, p. 681), followed by functional group modification (e.g. C—N02 to 0=0, p. 599, and CHO to C02H, p. 667). 

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