Aldol cyclization stereoselective

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... 

DFT methods have been used to explore the nature of the transition states giving rise to stereoselectivity in intramolecular aldol cyclizations catalysed by amino acids.116 Proline and primary amino acids are compared, identifying the factors explaining why proline is better in some cases, but not always. 

Michael addition followed by an aldol cyclization can be used for stereoselective synthesis of cyclohexanes. 

Lange and his co-workers have reported a short, convenient approach to the sesquiterpene (—)-acorenone (170) centred about the stereoselective Michael addition of l-methoxybut-3-en-2-one to the less hindered face of the enamine (169) followed by aldol cyclization, ° and Oppolzer etal. have synthesized acorenone and several other members of the same sesquiterpene family by further elaboration of the cis,trans mixture of esters (171) formed, with 100% cndo-selectivity, during the intramolecular thermal ene reaction of the 1,6-diene (172). ... 

Developed in the early 1970s, this reaction, also called the Hajos-Parrish reaction or Hajos-Parrish-Ender-Sauer-Wiechert reaction, is one of the earliest processes for the stereoselective synthesis of Wieland-Miescher ketone, an important building block for steroids and terpenoid synthesis. This reaction is a proline mediated asymmetric variation to the Robinson annulation. Hajos and Parrish of Hoffmann-La Roche Inc. in 1971 and 1974 published an asymmetric aldol cyclization of triketones such as that of structure 39, which affords optically active annulation products in the presence of catalytic amounts of (S)-proline (Z-proline). One of the early examples is the synthesis of 41 from the triketone 39 (a product of the Michael addition of MVK to the corresponding 2-methylcyclopentane-l,3-dione), the reaction is performed in two steps first by ring formation in the presence of 3 mol % of (iS)-proline in DMF to afford the ketol 40 in 100% yield after crystallization with 93% ee and then by reaction with toluenesulfonic acid to give the dehydrated adduct 41. The formation of the Wieland-Miescher Ketone 44 follows the same synthetic route, starting from the tri-ketone 42 to give the end product in 75% optical purity and 99.8% of optical yield. 

There are different approaches for stereocontrol for the Robinson annulation the control can either arise fi-om the inherent nature of the starting ketone and/or the vinyl ketones substituents in combination with the reaction conditions, or by the use of a chiral catalyst. In the first case, an example is the stereoselective aldol cyclization to give the ketol intermediate 50. In this case the cyclization is kinetically controlled under protic basic conditions of sodium ethoxide and ethanol as it gives the cw-fused adduct rather than the more stable trans-fased ketol, which is not detected at any time during the reaction. 

Stork and his co-workers have reported an exceptionally elegant route for the synthesis of 11 -oxygenated steroids.The key step is a highly stereoselective, intramolecular Diels-Alder reaction that is undergone by (63) to give tetracyclic but non-steroidal (64). However, ozonolysis of (64) followed by aldol cyclization gave the 11-ketosteroid (65) in excellent yield. 

Chen et al. reported that oxindole-type a-isothiocyanato imides 271 had high activities in the aldol-cyclization reaction with inactive simple ketones. With the promotion of thiourea catalyst 1401, the cascade process of either aromatic or aliphatic ketones 206 with 3-isothiocyanato oxindoles 271 proceeded smoothly to afford spirooxindoles 272 bearing a quaternary stereogenic center with perfect stereoselectivity (Scheme 2.72) [102],... 

The early Escherunoser-Stork results indicated, that stereoselective cyclizations may be achieved, if monocyclic olefins with 1,5-polyene side chains are used as substrates in acid treatment. This assumption has now been justified by many syntheses of polycyclic systems. A typical example synthesis is given with the last reaction. The cyclization of a trideca-3,7-dien-11-ynyl cyclopentenol leads in 70% yield to a 17-acetyl A-norsteroid with correct stereochemistry at all ring junctions. Ozonolysis of ring A and aldol condensation gave dl-progesterone (M.B. Gravestock, 1978 see p. 279f.). 

The intramolecular reductive aldol reaction of keto-enones was successfully conducted under conditions similar to those described above, employing a cationic Rh complex and PI13P (Scheme 20) [34]. The keto-enone 63 was cyclized in the presence of added K2CO3 to give the ketone-aldol 64 in 72% yield with exclusive ds-selectivity. Dione-enone derivatives, for example 68 and 70, were efficiently cyclized to furnish bicyclic aldol products 69 and 71, respectively, wherein three stereogenic centers of the bicyclic product form stereoselectivity through the intermediacy of a Rh-enolate. 

The epothilone synthesis in Scheme 13.49 has been used as the basis for a combinatorial approach to epothilone analogs. 167 The acyclic precursors were synthesized and attached to a solid support resin by steps A-E in Scheme 13.58. The cyclization and disconnection from the resin were then done by the olefin metathesis reaction. The aldol condensation in step D is not highly stereoselective. Similarly, olefin metathesis gives a mixture of E- and Z-stereoisomers so that the product of each combinatorial sequence is a mixture of four isomers. These were separated by thin-layer chromatography prior to bioassay. In this project, reactants A (3 variations), B (3 variations), and C (5 variations) were used, generating 45 possible combinations. The stereoisomeric products increase this to 180 (45 x 4). 

The intramolecular Michael reaction is also a powerful transformation. In the cyclizations reported by Tetsuaki Tanaka of Osaka University (J. Org. Chem. 2004, 69, 6335), the stereochemical outcome is controlled by the chirality of the sulfoxide. Remarkably, subsequent alkylation or aldol condensation leads to one or two additional off-ring stereocenters with high diastereocontrol. Note that the high stereoselectivity in the cyclization is only observed with the (Z)-unsaturated ester. 

Highly stereoselective aldol reactions of lithium ester enolates (LiCR1 R2CC>2R3) with (/0-2-(/ -tolylsulfiny I (cyclohexanone have been attributed to intermediacy of tricoordinate lithium species which involve the enolate and the sulfinyl and carbonyl oxygens of the substrates.43 The O-metallated /<-hydroxyalkanoatcs formed by aldol-type reaction of carbonyl compounds with enolates derived from esters of alkanoic acids undergo spontaneous intramolecular cyclization to /1-lactones if phenyl rather than alkyl esters are used the reaction has also been found to occur with other activated derivatives of carboxylic acids.44... 

Some /J-heteroatom substituted a,/J-unsaturated acyl silanes react with methyl ketone enolates in a stepwise stereoselective cyclopentannelation process, formally a [3 + 2] annelation, which may proceed through aldol reaction followed by Brook rearrangement and cyclization (Scheme 111)223. 

Paulsen, H., Antons, S., Brandes, A., et al. (1999) Stereoselective Mukaiyama-Michael/Michael/Aldol domino cyclization as the key step in the synthesis of penta-substituted arenes an efficient access to highly active inhibitors of cholesteryl ester transfer protein (CETP). Angew. Chem. Int. Ed. 38, 3373-3375. 

An interesting transformation which involves dimerization and cyclization was discovered when the y-enone 81 was reductively converted to 82. The mechanism of this dimerization-cyclization is yet to be elucidated. It involves two molecules of reactant, reduction and some aldol type condensation. The process is catalyzed by DMP+ and proceeds with high stereoselectivity yielding a single isomer. 

An intramolecular tandem Michael aldol reaction was described for esters that have an enolizable aldehyde in the molecule. The lithium ester enolate generated through the Michael reaction undergoes an intramolecular aldol reaction. Thus, the reaction of unsaturated esters 153 with lithium benzylthiolate provided the expected cyclization products 156 and 157 via (w-formylenolate 154 in an excellent cis stereoselectivity (Scheme 49)no. 

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