Stereoselective Claisen

Hydroxyalkyl)porphyrins,84-85 I07b 109 easily accessible from porphyrins by Friedel-Crafts acylation and subsequent reduction, undergo a stereoselective Claisen rearrangement with N,N-dimethylacetamide dimethyl acetal. The substitution pattern and the stereochemical arrangement of the derived chlorins match those of naturally occurring chlorins9 (see Section 1.2.1.2.). 

A highly stereoselective Claisen rearrangement was used to synthesize AE, 1 OZ-tetradecadien-1 -yl acetate, principal component... 

Stereoselective Claisen-type [3,3] sigmatropic rearrangements of propynyl vinyl ethers, which are intermediates in the reaction of propynyl alcohols with aldehydes or ortho esters leading to a-allenic aldehydes or esters, have been reported15,16. 

Ester enolate Claisen rearrangement (4, 307- K)8 6, 276-277 7, 209-210). Lithium hexamethyldisilazide is comparable to LDA in combination with HMPT for stereoselective Claisen rearrangement of ester cnolates. ... 

T. Nakata et al. developed a simple and efficient synthetic approach to prepare (+)-methyl-7-benzoylpederate, a key intermediate toward the synthesis of mycalamides. The key steps were the Evans asymmetric aldol reaction, stereoselective Claisen condensation and the Takai-Nozaki olefination. The diastereoselective Claisen condensation took place between a 5-lactone and the lithium enolate of a glycolate ester. 

In the enantioselective total synthesis of (+)- and (-)-saudin, the core of the synthetic strategy was a Lewis acid mediated stereoselective Claisen rearrangement to establish the correct relative stereochemistry between the Cl and... 

A partial synthesis of villalstonine (322) has been achieved by Cook, following the biomimetic method of LeQuesne (223), by condensation of synthetic (-i-)-macroline (338), or the more stable macroline equivalent (341), with natural pleiocarpamine (342) in ().2N HCl, to furnish villalstonine (Scheme 22). The (+)-macroline was prepared starting from the optically active tetracyclic ketone 343, prepared from D-(-i-)-tryptophan by an en-antiospecific Pictet Spengler reaction and stereocontrolled Dieckmann cyclization. The synthesis (Scheme 23) features the use of a stereoselective Claisen rearrangement, followed by stereospecific hydroboration-oxidation of the exocyclic methylene function at C(16), to install the required C(15) and C(16) stereochemistry (225-227). 

The first total synthesis of the intricate Stemona alkaloid (+ /—)-isostemofoline (224) was reported by Kende and coworkers 81) starting from 1,2-hexanediol (225) which was straightforwardly converted to 227 (Scheme 22) 82). Reductive cycUzation with sodium hydrosulfite in refluxing aqueous ethanol, and protection of the unstable pyrrole as tert-butyl carbamate, afforded 228 in five steps with 12% overall )deld. The key bicyclic ketone 231 was assembled by [4 + 3] cycloaddition of pyrrole 228 and diazoester 229 promoted by rhodium octanoate dimer, followed by enol silane deprotection, exo-specific hydrogenation, and nucleophilic decarboxylation (47% overall yield). Sodium methoxide-catalyzed aldol condensation of ketone 231 and furfural provided the Q-j/i-unsaturated ketone 232 whose olefin configuration was established by nOe studies. Allylation of 232 provided a 2.4 1 mixture of ketone 234 and the corresponding allylic enol ether 233, which could be converted to the former via a stereoselective Claisen rearrangement. 

In a multistep synthesis of (-)-acetomycin (31), which served to confirm its absolute configuration, the doubly-branched furanose (32) (Scheme 5), produced from D-glucose by a stereoselective Claisen rearrangement (Vol. 23, p. 150), was degraded to the intermediate (33), which was subsequently elaborated to the target (glucose carbons indicated). 5... 

A stereoselective Claisen rearrangement occurs when butyro-ortholactones are heated with allylic alcohols the products are substituted butyrolactones. In contrast to the low dienophilicity that is usually observed for a -unsaturated lactones, the ester lactone (159) readily undergoes stannic-chloride-catalysed Diels-Alder reaction at room temperature. 3-Thiolen-2-one (160) is a useful... 

Nelson SG, Bungard CJ, Wang K. Catalyzed olefin isomerization leading to highly stereoselective Claisen rearrangements of aliphatic allyl vinyl ethers. J. Am. Chem. Soc. 2003 125(43) 13000-13001. 

The category of 2-Gp-keyed transforms which disconnect C-C bonds is among the most important of all transform types. These transforms, especially in their stereoselective versions, are workhorses of retrosynthetic planning as their names alone attest aldol, Michael, Claisen,... 

Triflates of titanium and tin are effective catalysts for various condensations of carbonyl compounds [I2I, 122, 123, 124, 125] Claisen and Dieckmann type condensations between ester functions proceed under mild conditions in the presence of dichlorobis(trifluoromethanesulfonyloxy)titaiiiuin(rV) and a tertiary amine (equations 59 and 60) These highly regio- and stereoselective condensations were used successfully m the synthesis of carbohydrates [122]... 

The stereochemical outcome of the reaction is determined by the geometry of the transition state for the Claisen rearrangement a chairlike conformation is preferred,and it proceeds strictly by an intramolecular pathway. It is therefore possible to predict the stereochemical course of the reaction, and thus the configuration of the stereogenic centers to be generated. This potential can be used for the planning of stereoselective syntheses e.g the synthesis of natural products. 

In 1997, Lindstrom and Somfai reported aza-[3,3]-Claisen enolate rearrangements of vinylaziridines (Scheme 2.45) [70]. Treatment of l-acyl-2-vinylaziridines 179 with LHMDS resulted in the stereoselective formation of seven-membered lactams 181, presumably through a boat-like transition state 180. 

The Ireland-Claisen reaction of ( )-vinylsilanes has been applied to the stereoselective synthesis of syn- and c/nti-2-substituted 3-silyl alkcnoic acids. a R-2-Alkyl-3-silyl acids are prepared by rearrangement of ( )-silyl ketene acetals which are generated in situ from the kinetically formed (Z)-enolate of the corresponding propionate ester40. Chelation directs the stereochemistry of enolization of heteroelement-substituted acetates in such a way that the syn-diastereomers are invariably formed on rearrangement403. 

The high catalytic activity also enabled aza-Claisen rearrangements to form Al-substituted quaternary stereocenters (Fig. 26) [71]. The catalyst does not need to distinguish between differently sized substituents on the double bond of 49 (e.g., R = CDa, R = CHs, ee = 96%), indicating that coordination of the olefin is the stereoselectivity predetermining step. The imidate-N-atom subsequently attacks intermediate 47-1 from the face remote to the Pd-center totally resulting in a... 

The stereoselectivity of silyl ketene acetal Claisen rearrangements can also be controlled by specific intramolecular interactions.246 The enolates of a-alkoxy esters adopt the Z-configuration because of chelation by the alkoxy substituent. 

The synthesis in Scheme 13.44 is also based on a carbohydrate-derived starting material. It controlled the stereochemistry at C(2) by means of the stereoselectivity of the Ireland-Claisen rearrangement in Step A (see Section 6.4.2.3). The ester enolate was formed under conditions in which the T -enolate is expected to predominate. Heating the resulting silyl enol ether gave a 9 1 preference for the expected stereoisomer. The... 

Neier and coworkers have used a domino Diels-Alder/Ireland-Claisen process for the synthesis of (rac)-juvabione 4-46 and (rac)-epijuvabione [15]. Since neither the Diels-Alder reaction of the acetal 4-44 and methyl acrylate nor the sigmatropic rearrangement seemed to be stereoselective, these authors obtained the cyclohexene derivative 4-45 as a mixture of three diastereomers (Scheme 4.9). 

As shown earlier in many examples, the Claisen rearrangement of allyl vinyl ethers also provides a very powerful method for carbon-carbon bond formation in domino processes. Usually, the necessary ethers are formed in a separate step. However, both steps can be combined in a novel domino reaction developed by Buchwald and Nordmann [306]. This starts from an allylic alcohol 6/4-102 and a vinyl iodide 6/4-103, using copper iodide in the presence of the ligand 6/4-104 at 120 °C to give 6/4-105 (Scheme 6/4.25). The reaction even allows the stereoselective formation of two adjacent quaternary stereogenic centers in high yield. 

An intramolecular nitrone 1,3-dipolar cycloaddition reaction to give 46 from 45 followed by reductive N-O bond cleavage afforded a stereoselective synthesis of the tetrahydro 177-1-benzazepines 47 the nitrone precursors 44 were prepared in turn by a Claisen rearrangement from an IV-allylamine <06SL2275>. 

In a series of publications over the past few years, the group of Barriault has reported on microwave-assisted tandem oxy-Cope/Claisen/ene and closely related reactions [175-178], These pericyclic transformations typically proceed in a highly stereoselective fashion and can be exploited for the synthesis of complex natural products possessing decalin skeletons, such as the abietane diterpene wiedamannic... 

Scheme 18.43 Stereoselective synthesis of enprostil by orthoester-Claisen rearrangement [125a] (THP = tetrahydropyranyl).

Further variations of the Claisen rearrangement protocol were also utilized for the synthesis of allenic amino acid derivatives. Whereas the Ireland-Claisen rearrangement led to unsatisfactory results [133b], a number of variously substituted a-allenic a-amino acids were prepared by Kazmaier [135] by chelate-controlled Claisen rearrangement of ester enolates (Scheme 18.47). For example, deprotonation of the propargylic ester 147 with 2 equiv. of lithium diisopropylamide and transmetallation with zinc chloride furnished the chelate complex 148, which underwent a highly syn-stereoselective rearrangement to the amino acid derivative 149. 

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