Ketones asymmetric, boron reagents

Asymmetric Reduction of Unsymmetrical Ketones Using Chiral Boron Reagents Review Synthesis 1992, 605. 

Chiral diamino carbene complexes of rhodium have been merely used in asymmetric hydrosilylations of prochiral ketones but also in asymmetric addition of aryl boron reagents to enones. 

Reviews on stoichiometric asymmetric syntheses M. M. Midland, Reductions with Chiral Boron Reagents, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 2, Chap. 2, Academic Press, New York, 1983 E. R. Grandbois, S. I. Howard, and J. D. Morrison, Reductions with Chiral Modifications of Lithium Aluminum Hydride, in J. D. Morrison, ed.. Asymmetric Synthesis, Vol. 2, Chap. 3, Academic Press, New York, 1983 Y. Inouye, J. Oda, and N. Baba, Reductions with Chiral Dihydropyridine Reagents, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 2, Chap. 4, Academic Press, New York, 1983 T. Oishi and T. Nakata, Acc. Chem. Res., 17, 338 (1984) G. Solladie, Addition of Chiral Nucleophiles to Aldehydes and Ketones, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 2, Chap. 6, Academic Press, New York, 1983 D. A. Evans, Stereoselective Alkylation Reactions of Chiral Metal Enolates, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 3, Chap. 1, Academic Press, New York, 1984. C. H. Heathcock, The Aldol Addition Reaction, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 3, Chap. 2, Academic Press, New York, 1984 K. A. Lutomski and A. I. Meyers, Asymmetric Synthesis via Chiral Oxazolines, in J. D. Morrison, ed., Asymmetric Synthesis, Vol. 3, Chap. 

Paterson et have prepared the enolate of 3-pentanone, an achiral ketone, with (-( )- or (-)-IpcaBOTf and have found that its aldol reactions with various aldehydes proceed with high syn.anti ratios (>9 1) and respectable enantioselectivities (5 1-20 1) (Scheme 44). High degrees of asymmetric induction are noted with unhindered aldehydes, llie combination of the chiral ethyl ketone (104) and (-t-)-Ipc2BOTf constitutes a matched pair, which enhances the diastereofacial selectivity of the resulting enolate (compared to that obtained with an achiral boron reagent), and provides via aldol reactions high... 

Table 10 Asymmetric Aldol Reaction of Ketones with Various Boron Reagents"...

Ketone enolates have also been investigated in the asymmetric boron-mediated aldol reaction. The chiral boron reagents (+)- or (-)-diisopinocampheylboron tri-flate [(lpc)2BOTf], derived from a-pinene, allow the formation of the m-enolate and promote enantioselective aldol reactions with aldehydes to give either enantiomer of the syn aldol product. For example, the asymmetric aldol reaction between pentan-3-one and 2-methylpropenal takes place in the presence of (-)-(Ipc)2BOTf and diisopropylethylamine to give the syn aldol product 74 as the major enantiomer (1.84). 

Dialkylboron trifluoromethanesulfonates (Inflates) are particularly useful reagents for the preparation of boron enolates from carbonyl compounds, including ketones, thioesters and acyloxazoiidinones. Recentiy, the combination of dicylohexyiboron trifluoromethanesulfonate and triethyiamine was found to effect the enolization of carboxyiic esters. The boron-mediated asymmetric aldoi reaction of carboxyiic esters is particuiariy usefui for the construction of anti p-hydroxy-a-melhyl carbonyl units. The present procedure is a siight modification of that reported by Brown, et ai. ... 

Potentially useful asymmetric reduction using boron-based reducing agents involves stoichiometric and catalytic processes.1060,1061 Of the stoichiometric reagents reported, those that are the most promising for the highly enantioselective reduction of various functionalized ketones are 532,1062 533,1062 48a,1063-1065 534,1063,1066-1071 anc 535 (Scheme 41).1061... 

Imidazole-containing compounds have been utilized as reagents for various synthetic transformations. A convenient access to substituted allyl enol carbonates was established through the reaction of ketone enolates with the complex of allyl l//-imidazole-l-carboxylates 74 and boron trifluoride etherate <07JOC9372>. Relatively mild and highly efficient Cul-catalyzed /V-arylation procedures for imidazoles with aryl and heteroaryl bromides or chlorides have been developed in the presence of ligands 75 and cesium carbonate <07JOC2737>. a, -Unsaturated 2-acyl imidazoles 76 are an alternative and practical class of dienophiles for the DNA-based catalytic asymmetric Diels-Alder reaction in... 

As above (eq 1), a major drawback of this reagent is the lack of a readily available enantiomer. There are many alternative methods for the enantioselective propionate aldol reaction. The most versatile chirally modified propionate enolates or equivalents are N-propionyl-2-oxazolidinones, a-siloxy ketones, boron enolates with chiral ligands, as well as tin enolates. Especially rewarding are new chiral Lewis acids for the asymmetric Mukaiyama reaction of 0-silyl ketene acetals. Most of these reactions afford s yw-aldols good methods for the anri-isomers have only become available recently. ... 

The modification of aluminum or boron hydrides with chiral protic substances, such as R OH or RR NH, generates useful reagents for the asymmetric reduction of prochiral ketones or imines leading to optically active secondary alcohols and amines, respectively. Some reviews have appearered in the literature. ... 

Given this problem, the attachment of the butanone synthon to aldehyde 74 prior to the methyl ketone aldol reaction was then addressed. To ovenide the unexpected. vTface preference of aldehyde 74, a chiral reagent was required and an asymmetric. syn crotylboration followed by Wacker oxidation proved effective for generating methyl ketone 87. Based on the previous results, it was considered unlikely that a boron enolate would now add selectively to aldehyde 73. However, a Mukaiyama aldol reaction should favour the desired isomer based on induction from the aldehyde partner. In practice, reaction of the silyl enol ether derived from 87 with aldehyde 73, in the presence of BF3-OEt2, afforded the required Felkin adduct 88 with >97%ds (Scheme 9-29). This provides an excellent example of a stereoselective Mukaiyama aldol reaction uniting a complex ketone and aldehyde, and this key step then enabled the successful first synthesis of swinholide A. 

The use of various catalysts in the asymmetric addition of HCN (or an equivalent reagent) to achiral aldehydes and ketones, giving optically active cyanohydrins has been discussed. The catalysts include enzymes, chiral polymers, boron, and chiral titanium complexes.1908... 

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