Regioselectivity asymmetric allylation, enantioselective

The synthesis of lycorane (13) by Mori and Shiba-saki121 is breathtaking for its use of three consecutive Pd catalyzed C-C bond forming reactions. Thus, Pd-catalyzed asymmetric allylic substitution of a benzoate in meso 7 in the presence of the chiral bisphos-phine 8 leads to the regioselective formation of 10 in 40 % ee It is easy to overlook this low level of enantioselectivity when we are faced with the subsequent elegant Pd-catalyzed reactions Pd-catalyzed intramolecular animation is followed by a Pd-catalyzed Heck coupling to afford 12, which is then readily converted to the target molecule... 

With 1-alkoxyallenes as proelectrophiles, the palladium-catalysed asymmetric allylic alkylation proceeds with 1,3-dicarbonyl compounds as pronucleophiles with excellent regioselectivity good enantioselectivity (82-99% ee) was obtained with the Trost lig- and. The pH of the medium proved crucial for the reactivity and selectivity. By using the more acidic Meldrum s acids, the reactions required a co-catalytic amount of a Brpnsted acid, such as CF3CO2H. On the other hand, the less acidic 1,3-diketones failed to react under these conditions but the reaction proved to occur in the presence of the weaker benzoic acid, suggesting the need for general base catalysis. Indeed, a mixture of Et3N and PhCOiH proved to be optimal (93-99% ee). A mechanistic model to rationalize these results has been developed.88... 

Trost and coworkers [911, 1066] have examined the asymmetric allylation of sodium malonate with achiral cyclic allylic systems that lack a regioselectivity problem. Enantioselection occurs during the formation of the 7t-allyl complex. 

Independent from the work of Oestreich and co-workers, the group of Shintani and Hayashi presented another example of NHC-copper(I)-catalyzed asymmetric allylic substitution of allylic phosphates by nucleophilic silicon (Scheme 28) [61]. The NHC precursor L23 in combination with CuCl and NaOH as base allowed for the enantioselective preparation of several a-chiral allylic silanes. The choice of base is cmcial as aUcoxides had a negative effect on the regioselectivity (not... 

Subsequently they utilized the cobalt-mediated asymmetric synthesis of [7]helicene-like molecules described above in helicene-based phosphite ligand synthesis. The application of ligand P,S)-2 to rhodium-catalyzed asymmetric hydro-formylation revealed excellent regioselectivity, although the enantioselectivity was low (Scheme 10.14) [15]. For iridium-catalyzed asymmetric allylic amination, the... 

Catalytic Asymmetric Allylation Although significant progress has been made in the asymmetric allylic alkylation (AAA) reactions during the last four decades, the employment of sulfur nucleophiles to construct C—S bonds with high regioselectivity and enantioselectivity has met with little success until recently. In 1986, Hiroi and... 

In 2010, Ueda and Hartwig reported on an iridium-catalyzed asymmetric allylation of sodium sulfinates 345 to branched allylic sulfones 348 with high regioselectivities and enantioselectivities (Scheme 46.40). Notably, the reaction proceeded with a broad range of acyclic allylic carbonates 346 and aryl and alkyl sodium sulfinates 345. Most recently, Zhao et al. developed the catalytic asymmetric allylic alkylations of acyclic allylic carbonates 346 using sodium thiophenoxide and alkyl thiolates 348 to give good-to-excellent selectivities for branched products 350 with excellent enantioselectivities. 

In connection with the synthetic work directed towards the total synthesis of polyene macrolide antibiotics -such as amphotericin B (i)- Sharpless and Masamune [1] on one hand, and Nicolaou and Uenishi on the other [2], have developed alternative methods for the enantioselective synthesis of 1,3-diols and, in general, 1, 3, 5...(2n + 1) polyols. One of these methods is based on the Sharpless asymmetric epoxidation of allylic alcohols [3] and regioselective reductive ring opening of epoxides by metal hydrides, such as Red-Al and DIBAL. The second method uses available monosaccharides from the "chiral pool" [4], such as D-glucose. 

Allylic acetates in conjunction with phosphinooxazolines (PHOX) as chiral ligands were used for the first asymmetric Ir-catalyzed allylic substitution (Scheme 9.7) [5]. The reaction was slow, compared to that catalyzed by the [lr(COD)Cl]2/P(OPh)3 system or the parent complex [lr(COD)Cl]2, although both regioselectivity and enantioselectivity were very high. The aminations were generally slow, yet quite interesting results were achieved in intramolecular aminations nevertheless [17, 18] in particular, a very strong influence of halide salts was found. 

As described in many reviews, Trost and his co-workers have carried out a pioneering work on the molybdenum-and tungsten-catalyzed allylic alkylation of allylic esters regioselectivity of the reaction is often complementary to the palladium-catalyzed allylic alkylation. The first asymmetric version was disclosed by Pfaltz and Lloyd-Jones in 1995 (Equation (63)). They used a catalytic amount of a novel tungsten complex, prepared from [W(CO)3(MeCN)3] or [W(cycloheptatriene) (COIs] and optically active (diphenylphosphino)phenyloxazolines 57, for the allylic alkylation of 3-aryl-2-propenyl phosphate with dimethyl sodiomalonate to isolate the corresponding branched alkylated compounds as a major isomer with an excellent enantioselectivity (96% ee). Unexpectedly, 3-aryl-2-propenyl carbonates are shown to be unreactive. It is worth noting that an isostructural molybdenum complex does not promote the catalytic alkylation under the same reaction conditions. In contrast, Lloyd-Jones and Lehmann reported the stereocontrolled... 

Asymmetric dihydroxy lation of substituted aryl allyl ethers also proceeds with high enantioselectivities (89-95% ee) providing that there are no ortho substituents on the aryl group. Dienes, polyenes, and enynes can also be regioselectively dihydrox-ylated (eq 2-5). In some cases, such as in the asymmetric dihy-droxylation of a,3- and 3,y-unsaturated amides, the amount of... 

Alcohols can be obtained from many other classes of compounds such as alkyl halides, amines, al-kenes, epoxides and carbonyl compounds. The addition of nucleophiles to carbonyl compounds is a versatile and convenient methc for the the preparation of alcohols. Regioselective oxirane ring opening of epoxides by nucleophiles is another important route for the synthesis of alcohols. However, stereospe-cific oxirane ring formation is prerequisite to the use of epoxides in organic synthesis. The chemistry of epoxides has been extensively studied in this decade and the development of the diastereoselective oxidations of alkenic alcohols makes epoxy alcohols with definite configurations readily available. Recently developed asymmetric epoxidation of prochiral allylic alcohols allows the enantioselective synthesis of 2,3-epoxy alcohols. 

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