Catalytic asymmetric allylic alkylation

The catalytic enantioselective addition of vinylmetals to activated alkenes is a potentially versatile but undeveloped class of transformations. Compared to processes with arylmetals and, particularly alkylmetals, processes with the corresponding vinylic reagents are of higher synthetic utility but remain scarce, and the relatively few reported examples are Rh-catalysed conjugate additions. In this context, Hoveyda et al. reported very recently an efficient method for catalytic asymmetric allylic alkylations with vinylaluminum reagents that were prepared and used in Thus, stereoselective reactions... 

The subject of catalytic asymmetric allylic alkylations has been thoroughly and... 

Uozumi, Y. and Shibatomi, K., Catalytic asymmetric allylic alkylation in water with a recyclable resin-supported P,N-chelating palladium complex, J. Am. Chem. Soc., 2001,123, 2919-2920. 

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. 

Pd-catalyzed asymmetric allylic alkylation is a typical catalytic carbon-carbon bond forming reaction [ 126 -128]. The Pd-complex of the ligand (R)-3b bearing methyl, 2-biphenyl and cyclohexyl groups as the three substituents attached to the P-chirogenic phosphorus atom was found to be in situ an efficient catalyst in the asymmetric allylic alkylation of l-acetoxy-l,3-diphenylprop-2-en (4) with malonate derivatives in the presence of AT,0-bis(trimethylsilyl)acetamide (BSA) and potassium acetate, affording enantioselectivity up to 96% and quantitative... 

Bayardon and Sinou have reported the synthesis of chiral bisoxazolines, which also proved to be active ligands in the asymmetric allylic alkylation of l,3-diphenylprop-2-enyl acetate, as well as cyclopropanation, allylic oxidations and Diels-Alder reactions. [62] The ligands do not have a fluorine content greater than 60 wt% and so are not entirely preferentially soluble in fluorous solvents, which may lead to a significant ligand loss in the reaction system and in fact, all recycling attempts were unsuccessful. However, the catalytic results achieved were comparable with those obtained with their non-fluorous analogues. 

The high regio- and stereospecificity in the rhodium-catalyzed system does not seem to be compatible with the catalytic asymmetric synthesis using a chiral rhodium catalyst, and thus, there have so far been very few reports on the use of chiral rhodium catalysts for the asymmetric allylic alkylation. In 1999, Pregosin and his co-workers first reported asymmetric rhodium-catalyzed allylic alkylation of allylic esters (Equation (48)). Use of optically active... 

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... 

The obtained amino functionalised imidazolium salts could be used to generate the corresponding palladium(ll) carbene complexes using the silver(l) complexes as carbene transfer agents. Application of these palladium(ll) complexes (predominantly in situ) in asymmetric allylic alkylation reactions between ( )-l,3-diphenylprop-3-enyl acetate and dimethyl malonate (a standard reaction for this catalytic process [145]) gave up to 80% ee,... 

Continuing with palladium chemistiy, Trost proposed a new asymmetric synthesis of anatoxin-a (Trost and Oslob, 1999) and the crucial step was the introduction of chirality by a catalytic process involving an intramolecular asymmetric allylic alkylation (Trost 2004) of the intermediate ( )-29 affording (+)-31 (Scheme 7.7). This step was catalyzed by palladium in presence of a chiral phosphine ligand. 

In 1999 Trost and Schroder reported on the first asymmetric allylic alkylation of nonstabilized ketone enolates of 2-substituted cyclohexanone derivatives, e.g. 2-methyl-1-tetralone (45), by using a catalytic amount of a chiral palladium complex formed from TT-allylpaUadium chloride dimer and the chiral cyclohexyldiamine derivative 47 (equation 14). The addition of tin chloride helped to soften the lithium enolate by transmetala-tion and a slight increase in enantioselectivity and yield for the alkylated product 46 was observed. Besides allyl acetate also linearly substituted or 1,3-dialkyl substituted allylic carbonates functioned well as electrophiles. A variety of cyclohexanones or cyclopen-tanones could be employed as nucleophiles with comparable results . Hon, Dai and coworkers reported comparable results for 45, using ferrocene-modified chiral ligands similar to 47. Their results were comparable to those obtained by Trost. 

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 pioneering studies, Yamamoto reported catalytic, asymmetric allylation reactions of aldehydes with allylsilanes in the presence of chiral acyloxy-borane complexes (CAB, 188) as shown in Equation 11 [120]. The observed enantioselectivities are impressively high for y-alkyl-substituted allylsilanes (>90% ee), but only modest for the parent allyltrimethylsilane (55% ee). 

A few intriguing developments in the area of tetrahydro-P-carboline synthetic methodology include the report of a catalytic asymmetric Pictet-Spengler reaction <06JACS1086> and an enantioselective Pd-catalyzed intramolecular allylic alkylation of indoles <06JACS1424>. A one-step synthesis of 1-substituted-P-carbolines from L-tryptophan has appeared that bypassed the tetrahydro intermediate <06T10900>. 

Catalytic Asymmetric Alkylation of n-Allyl Metal Complexes... 

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