Carbonyl compounds, asymmetric

E Emori, T. Arai, H. Sasai, M Shibasaki, A Catalytic Michael Addition of Thiols to a, -Unsaturated Carbonyl Compounds Asymmetric Protonations, J. Am Chem Soc 1998,120, 4043-4044. 

Asymmetric Coiyugate Addition of Allyl- and Crotylphosphonamides/ The asymmetric C-allylation of a, 3-unsaturated carbonyl compounds is a powerful tool for the functionalization of a carbonyl compound in the P-position. Since such a process normally leads to the corresponding enolate derivative when anionic reagents are used, there exists the possibility of trapping with an electrophile. Thus sequential addition and trapping can lead to vicinally substituted carbonyl compounds. Asymmetric allylation has been achieved previously with simple cycloalkenones using phosphorus and sulfur based reagents that must be prepared in diastereomerically pure form. 

Bolm, C., Luong, T. K. K., Beckmann, O. Oxidation of carbonyl compounds asymmetric Baeyer-Villiger oxidation. Asymmetric Oxidation Reactions). 2001,147-151... 

Since conjugate (Michael) addition and Diels-Alder reactions use a,p-unsat united carbonyl compounds, asymmetric versions of these reactions could use the auxiliaries that we have seen in aldol reactions in the form of 118 and 119. Diels-Alder reactions work very well with these unsaturated amides and also with amides 121 derived from Oppolzer s chiral sultam14 120, prepared simply from camphorsulfonyl chloride. 

Allenyl boronic ester. In principle, using a chiral Lewis acid catalyst, it should be possible to activate carbonyl compounds asymmetrically. In our early work, we focused... 

Emori E, Aral T, Sasai H, Shihasaki M. A catalytic Michael addition of thiols to a,p-unsaturated carbonyl compounds asymmetric Michael additions and asymmetric protonations. J. Am. Chem. Soc. 1998 120 4043 044. 

Scheme 15. Vinylcupration of fluoro-carbonyl compounds Asymmetric MBH Reaction...

Catalytic asymmetric hetero-Diels-Alder addition of carbonyl compounds 99ACR605. 

Chiral boron(III) Lewis acid catalysts have also been used for enantioselective cycloaddition reactions of carbonyl compounds [17]. The chiral acyloxylborane catalysts 9a-9d, which are also efficient catalysts for asymmetric Diels-Alder reactions [17, 18], can also catalyze highly enantioselective cycloaddition reactions of aldehydes with activated dienes. The arylboron catalysts 9b-9c which are air- and moisture-stable have been shown by Yamamoto et al. to induce excellent chiral induction in the cycloaddition reaction between, e.g., benzaldehyde and Danishefsky s dienes such as 2b with up to 95% yield and 97% ee of the cycloaddition product CIS-3b (Scheme 4.9) [17]. 

The Aggarwal group has used chiral sulfide 7, derived from camphorsulfonyl chloride, in asymmetric epoxidation [4]. Firstly, they prefonned the salt 8 from either the bromide or the alcohol, and then formed the ylide in the presence of a range of carbonyl compounds. This process proved effective for the synthesis of aryl-aryl, aryl-heteroaryl, aryl-alkyl, and aryl-vinyl epoxides (Table 1.2, Entries 1-5). 

Of course, the most practical and synthetically elegant approach to the asymmetric Darzens reaction would be to use a sub-stoichiometric amount of a chiral catalyst. The most notable approach has been the use of chiral phase-transfer catalysts. By rendering the intermediate etiolate 86 (Scheme 1.24) soluble in the reaction solvent, the phase-transfer catalyst can effectively provide the enolate with a chiral environment in which to react with carbonyl compounds. 

Azirines (three-membered cyclic imines) are related to aziridines by a single redox step, and these reagents can therefore function as precursors to aziridines by way of addition reactions. The addition of carbon nucleophiles has been known for some time [52], but has recently undergone a renaissance, attracting the interest of several research groups. The cyclization of 2-(0-tosyl)oximino carbonyl compounds - the Neber reaction [53] - is the oldest known azirine synthesis, and asymmetric variants have been reported. Zwanenburg et ah, for example, prepared nonracemic chiral azirines from oximes of 3-ketoesters, using cinchona alkaloids as catalysts (Scheme 4.37) [54]. 

A reiterative application of a two-carbon elongation reaction of a chiral carbonyl compound (Homer-Emmonds reaction), reduction (DIBAL) of the obtained trans unsaturated ester, asymmetric epoxidation (SAE or MCPBA) of the resulting allylic alcohol, and then C-2 regioselective addition of a cuprate (Me2CuLi) to the corresponding chiral epoxy alcohol has been utilized for the construction of the polypropionate-derived chain ]R-CH(Me)CH(OH)CH(Me)-R ], present as a partial structure in important natural products such as polyether, ansamycin, or macro-lide antibiotics [52]. A seminal application of this procedure is offered by Kishi s synthesis of the C19-C26 polyketide-type aliphatic segment of rifamycin S, starting from aldehyde 105 (Scheme 8.29) [53]. 

Formation of C-C Bonds by Addition to Chiral Acyclic Carbonyl Compounds 1.3.1.3.1. Addition to Acyclic a-Alkyl-Substituted Carbonyl Compounds Cram-Selective 1,2-Asymmetric Induction... 

Addition to a-Hydroxy or a-Alkoxy Carbonyl Compounds Chelation-Controlled 1,2-Asymmetric Induction... 

In most cases of diastereoselective nucleophilic addition reactions where achiral organometallic reagents are added to chiral carbonyl compounds, the chirulity inducing asymmetric center is in close vicinity to the newly created center and cannot be removed without the loss of chirality of either the inducing center or the newly formed center. This type of reaction is very useful in propagating chirality in a molecule from one center to an adjacent one, or in immolative processes. 

While in first experiments the diastereomeric ratios were not determined, the addition of optically active /erf-butyl 2-(4-methylphenylsulfinyl)acetate to prostereogenic carbonyl compounds proceeded with high asymmetric induction34-38. 

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