Enolates asymmetric arylation

The asymmetric arylation of ketone enolates represents an attractive method for the preparation of optically active carbonyl compounds with a stereogenic quaternary center at the a-position to the carbonyl group. Such types of compounds are important intermediates for natural product synthesis. Replacement of BINAP by 109 provides... 

Transition Metal-Catalyzed Asymmetric Arylation of Enolates. 167... 

Buchwald has designed a hindered dialkylphosphino-binaphthyl ligand (3) that is much more active than the original ligand for asymmetric arylation of ketone enolates. Reactions occur at room temperature using only 2 mol % catalyst with enantioselectivities up to 94% [41]. Additionally, the Buchwald group has developed an electron-rich monodentate ligand (4) capable of vinylation of ketone enolates with up to 92% ee [42]. 

Keywords Phase transfer. Chiral ligand. Chiral base, Allylic alkylation. Cinchonine, Enolate alkylation. Asymmetric deprotonation. Asymmetric arylation. Radical alkylation... 

An alternative method for the formation of enantioenriched a-chloroesters, using A-heterocyclic carbene catalysts, was reported by Reynolds and Rovis (Scheme 13.14) [34]. In a similar mechanism to that presented in Scheme 13.12, initial attack of the carbene to the aldehyde and loss of HCl generated a chiral enolate. Asymmetric protonation of this enolate followed by displacement of the azolium species by a phenol produced enantiopure a-chloroesters. In contrast to the approach to chiral a-chloroesters presented in Scheme 13.13, a variety of aryl esters can be incorporated into the product by using different aryl alcohols (ArOH). Additionally, a carbon-chlorine bond is not formed in this reaction. Rather the introduction of a stereocenter in the chlorinated products is achieved via asymmetric protonation. This method was elaborated to use water as the proton/alcohol source to produce chiral a-chloro carboxylic acids (i.e., as in Scheme 13.12) [28]. Moreover, the use of D2O generated chiral a-chloro-a-deutero carboxylic acids. 

Hamada T, Chieffi A, Ahman J, Buchwald SL. An improved catalyst for the asymmetric arylation of ketone enolates. J. Am Chem. Soc. 2002 124(7) 1261-1268. 

There have been two general approaches to the direct asymmetric epoxidation of carbonyl-containing compounds (Scheme 1.2) ylide-mediated epoxidation for the construction of aryl and vinyl epoxides, and a-halo enolate epoxidation (Darzens reaction) for the construction of epoxy esters, acids, amides, and sulfones. 

Asymmetric conjugate addition of dialkyl or diaryl zincs for the formation of all carbon quaternary chiral centres was demonstrated by the combination of the chiral 123 and Cu(OTf)2-C H (2.5 mol% each component). Yields of 94-98% and ee of up to 93% were observed in some cases. Interestingly, the reactions with dialkyl zincs proceed in the opposite enantioselective sense to the ones with diaryl zincs, which has been rationalised by coordination of the opposite enantiofaces of the prochiral enone in the alkyl- and aryl-cuprate intermediates, which precedes the C-C bond formation, and determines the configuration of the product. The copper enolate intermediates can also be trapped by TMS triflate or triflic anhydride giving directly the versatile chiral enolsilanes or enoltriflates that can be used in further transformations (Scheme 2.30) [110],... 

Ojima, 1., Habus, 1., Zhao, M. (1991) Efficient and Practical Asymmetric Synthesis ofthe Taxol C-13 Side Chain, N-Benzoyl-(2R,3S)-3-phenylisoserine, and its Analogues via Chiral 3-Hydroxy-4-aryl-b-lactams Through Chiral Ester Enolate-Imine Cyclocondensation. Journal of Organic Chemistry, 56, 1681-1683. 

The a-arylation of carbonyl compounds (sometimes in enantioselective version) such as ketones,107-115 amides,114 115 lactones,116 azlactones,117 malonates,118 piperidinones,119,120 cyanoesters,121,122 nitriles,125,124 sul-fones, trimethylsilyl enolates, nitroalkanes, esters, amino acids, or acids has been reported using palladium catalysis. The asymmetric vinylation of ketone enolates has been developed with palladium complexes bearing electron-rich chiral monodentate ligands.155... 

Synthetic applications of the asymmetric Birch reduction and reduction-alkylation are reported. Synthetically useful chiral Intermediates have been obtained from chiral 2-alkoxy-, 2-alkyl-, 2-aryl- and 2-trialkylsllyl-benzamides I and the pyrrolobenzodlazeplne-5,ll-diones II. The availability of a wide range of substituents on the precursor benzoic acid derivative, the uniformly high degree of dlastereoselection in the chiral enolate alkylation step, and the opportunity for further development of stereogenic centers by way of olefin addition reactions make this method unusually versatile for the asymmetric synthesis of natural products and related materials. 

MeOC6H4, respectively. The titanium enolates were converted into silyl enol ethers 54 by treatment with chlorotrimethylsilane and lithium isopropoxide. Additionally, cyclic enones lb and Ic, and linear enones Id and le, are also good substrates for the asymmetric conjugate addition of phenyltitanium triisopropoxide, giving the corresponding arylation products with over 97% enantioselectivity. 

Fluorination of sulfonamides 147 and 148 takes place upon deprotonation with NaH and reaction with perchloryl fluoride, FCIO3, to give products 149 and 150 (Scheme 19) <2000JOC7583, 2000CPB1954>. The resulting A-fluorosultams 149 and 150 have been used for the asymmetric fluorination of aryl ketone enolates (vide infra). 

A similar sequence was reported where the asymmetry was introduced by the reaction of weio-3-substituted glutanc anhydrides and (S)-methylbenzylamines to give diastereomeric hemiamides that could be separated by recrystallization The asymmetnc desymmetrization of certain 4-aryl substituted glutanmides has also been accomplished with high levels of selectivity (up to 97% ee) by enolization with a chiral bis-lithium amide base. The selectivity of the reaction was shown to be the result of asymmetric enolization, followed by a kinetic resolution." ... 

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