Aldol addition reactions intramolecular

Krische reported an intramolecular version of the tandem conjugate addition-aldol reaction. The reaction of enone-ketone 58 with phenylboronic acid 2 m occurs in diox-... 

Treatment of 206 with cesium fluoride in DMF clearly promoted an intramolecular nitro-aldol reaction furnishing, after acetylation, nitrocyclitol 207 as an a, 3-anomeric mixture. Exposure of 207 to liquid ammonia in THF resulted in formation of kinetically favoured a-acetamido derivative 208, probably from a Michael-type addition of ammonia to a nitroolefin intermediate. Reductive elimination of nitro-group in 208 and subsequent deprotection gave validamine 202, in a global 6% yield from glucuronolactone 205. 

A remarkable example of tandem conjugate addition-aldol reaction has been recently reported by Tomioka and coworkers. The transient lithium enolate, generated by 1,4-addition of benzyl lithium thiolate onto the corresponding a,-unsaturated ester182,595, is followed by an intramolecular aldol tandem cyclization, resulting in a five-membered... 

Krische and co-workers reported an intramolecular version of the tandem conjugate addition-aldol reaction. Enone-ketone 59 reacts with phenylboronic add (2m) in dioxane containing 5 equiv. of water [40] (Scheme 4.26). This cyclization probably proceeds through the (oxa-7t-allyl)rhodium intermediate. Because the intramolecular addition of the intermediate to the ketone is faster than protonolysis with water, the al-dol product is obtained in high yields. Binap is a ligand of choice, leading to the conjugate addition-aldol product in up to 95% ee. 

Scheme4.26 Rhodium-catalyzed asymmetric intramolecular conjugate addition-aldol reaction.

The aminocyclitol synthesis mediated by DHAP-dependent aldolases consists of a double aldol reaction, the first one enzymatically controlled by aldolases and the second one a spontaneous intramolecular nitro-aldol reaction (i.e., the Henry reaction) (Scheme 10.18). The latter makes use of the electrophilic carbonyl unit introduced by the first aldol addition on the nucleophilic character of carbon bonded to a nitro group installed from the acceptor (e.g., 62). This twofold C—C bond-forming reaction cascade was shown to deliver, after nitro group reduction, aminocyclitol analogs of valiolamine (63), of interest as inhibitors of intestinal glycosidases [141]. 

The intramolecular Michael addition of acyclic systems is often hampered by competing reactions, i.e., aldol condensations. With the proper choice of Michael donor and acceptor, the intramolecular addition provides a route to tram-substituted cyclopentanones, and cyclopentane and cyclohexane derivatives. Representative examples are the cyclizations of /3-oxo ester substituted enones and a,/J-unsaturated esters. 

A DFT study found a corresponding TS to be the lowest energy.167 This study also points to the importance of the solvent, DMSO, in stabilizing the charge buildup that occurs. A further computational study analyzed the stereoselectivity of the proline-catalyzed aldol addition reactions of cyclohexanone with acetaldehyde, isobu-tyraldehyde, and benzaldehyde on the basis of a similar TS.168 Another study, which explored the role of proline in intramolecular aldol reactions, is discussed in the next section.169... 

A particularly important example of the intramolecular aldol reaction is the Robinson annulation, a procedure that constructs a new six-membered ring from a ketone.171 The reaction sequence starts with conjugate addition of the enolate to methyl... 

The key cyclization in Step B-2 was followed by a sequence of steps that effected a ring expansion via a carbene addition and cyclopropyl halide solvolysis. The products of Steps E and F are interesting in that the tricyclic structures are largely converted to tetracyclic derivatives by intramolecular aldol reactions. The extraneous bond was broken in Step G. First a diol was formed by NaBH4 reduction and this was converted via the lithium alkoxide to a monomesylate. The resulting (3-hydroxy mesylate is capable of a concerted fragmentation, which occurred on treatment with potassium f-butoxide. 

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. 

We have already discussed a large group of reactions in which carbanions add to the C=0 group (cf. pp. 221-234), including examples of intramolecular carbanion addition, e.g. an aldol reaction (p. 226), Dieckmann reaction (p. 230), and the benzilic acid rearrangement (p. 232), and also to the C=C—C=O system, the Michael reaction... 

Under classical Mukaiyama conditions, silyl enol ether 2-372 and the Michael acceptors 2-373 and 2-374 underwent a twofold 1,4-addition to form an enolate in which an ideal set-up exists for an intramolecular aldol reaction. This led to 2-375 with the desired structural core of 2-376 in an overall yield of 42%. 

A SN reaction-based domino route to clerodane diterpenoid tanabalin (2-488) [258] has been described by Watanabe s group (Scheme 2.111) [259]. This natural product is interesting as it exhibits potent insect antifeedant activity against the pink bollworm, Pectinophora gossypiella, a severe pest of the cotton plant The domino sequence towards the substituted trans-decalin 2-487 as the key scaffold is induced by an intermolecular alkylation of the (5-ke toes ter 2-484 with the iodoalkane 2-483 followed by an intramolecular Michael addition/aldol condensation (Robin-... 

Deslongchamps and coworkers [26] used a combination of a transannular Diels-Alder cycloaddition and an intramolecular aldol reaction in the synthesis of the unnatural enantiomer of a derivative of the (+)-aphidicolin (4-74), which is a diterpe-noic tetraol isolated from the fungus Cephalosporium aphidicolia. This compound is an inhibitor of DNA polymerase, and is also known to act against the herpes simplex type I virus. In addition, it slows down eukaryotic cell proliferation, which makes it an interesting target as an anticancer agent... 

The stereoselective intramolecular Henry reactions have been reported by Seebach. The Michael addition of doubly deprotonated acetyl acetaldehyde to l-methylenedioxyphenyl-2-nitroethene followed by subsequent intramolecular nitro-aldol cyclization leads to the diastereomerically pure cyclohexanone derivative, where the nitro and OH groups are cis as shown in Eq. 3.73.114 This reaction is applied to the synthesis of l-desoxy-2-lycorinone as shown in Eq. 3.74.115... 

Perhaps the most elusive variant of the aldol reaction involves the addition of metallo-aldehyde enolates to ketones. A single stoichiometric variant of this transformation is known [29]. As aldolization is driven by chelation, intramolecular addition to afford a robust transition metal aldolate should bias the enolate-aldolate equilibria toward the latter [30, 31]. Indeed, upon exposure to basic hydrogenation conditions, keto-enal substrates provide the corresponding cycloal-dol products, though competitive 1,4-reduction is observed (Scheme 22.7) [24 d]. 

Application of this work to a domino process using 51 involves Michael addition of P-ketoesters [91], p-diketones or P-ketosulfones [92] to a,P-unsaturated ketones followed by an intramolecular aldol reaction provides highly functionalised cyclohexanone building blocks with up to four contiguous chiral centres. Gryko has also reported examples of this domino Michael/intramolecular aldol reaction in the coupling of 1,3-diketones and methyl vinyl ketone using L-proUne as catalyst [93],... 

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