Electron deficient stereocontrol

Okamura and Nakatani [65] revealed that the cycloaddition of 3-hydroxy-2-py-rone 107 with electron deficient dienophiles such as simple a,p-unsaturated aldehydes form the endo adduct under base catalysis. The reaction proceeds under NEtj, but demonstrates superior selectivity with Cinchona alkaloids. More recently, Deng et al. [66], through use of modified Cinchona alkaloids, expanded the dienophile pool in the Diels-Alder reaction of 3-hydroxy-2-pyrone 107 with a,p-unsaturated ketones. The mechanistic insight reveals that the bifunctional Cinchona alkaloid catalyst, via multiple hydrogen bonding, raises the HOMO of the 2-pyrone while lowering the LUMO of the dienophile with simultaneous stereocontrol over the substrates (Scheme 22). 

Yamamoto and co-workers (135,135-137) recently reported a new method for stereocontrol in nitrile oxide cycloadditions. Metal ion-catalyzed diastereoselective asymmetric reactions using chiral electron-deficient dipolarophiles have remained unreported except for reactions using a-methylene-p-hydroxy esters, which were described in Section 11.2.2.6. Although synthetically very useful and, hence, attractive as an entry to the asymmetric synthesis of 2-isoxazohnes, the application of Lewis acid catalysis to nitrile oxide cycloadditions with 4-chiral 3-(2-aIkenoyl)-2-oxazolidinones has been unsuccessful, even when > 1 equiv of Lewis acids are employed. However, as shown in the Scheme 11.37, diastereoselectivities in favor of the ffc-cycloadducts are improved (diastereomer ratio = 96 4) when the reactions are performed in dichloromethane in the presence of 1 equiv of MgBr2 at higher than normal concentrations (0.25 vs 0.083 M) (140). The Lewis acid... 

Suga et al. (197) reported the first stereocontrolled 1,3-dipolar cycloaddition reactions of carbonyl ylides with electron-deficient alkenes using a Lewis acid catalyst. Carbonyl ylides are highly reactive 1,3-dipoles and cannot be isolated. They are mainly generated through transition metal carbenoid intermediates derived in situ from diazo precursors by treatment with a transition metal catalyst. When methyl o-(diazoacetyl)benzoate is treated with A-methylmaleimide at reflux... 

A complete stereocontrol is achieved by addition of the bulky silyl radical (Me3Si)3Si to a chiral and conformationally flexible electron-deficient olefin 163, as shown in equation 68213. Replacement of (Me3Si)3Si with a less sterically hindered (n-Bu)3Sn gives a mixture of syn and anti diastereomeric adducts 164 and 165 in a ratio of 7 3. The A values (kcalmol-1) of the tin, carbon and silicon species follow the order (n-Bu Sn (1.1) < Me (1.7) < Me3Si (2.5), and the bond length for C—Sn (2.2 A) is longer than that for C-Si (1.85 A)214 215. 

Stereocontrolled conjugate addition of lithium dimethylcuprate to the electron deficient 2,3-double bond of allenes 851 leads to 5,6-dihydropyranM-oncs 852 in moderate yield (Equation 343) <2000J(P1)3188>. Similarly, the Ag(l)-catalyzed intramolecular cyclization of the allenic acid 853 is accelerated upon addition of diisopropylethyl-amine to afford the 3,6-dihydropyran-2-one 854, an intermediate during the total synthesis of (—)-malyngolide (Equation 344) <2000JA10470>. 

The 1,2-silyl migrative [3+2] cycloadditions of allylsilanes are applicable to a variety of electron-deficient multiple bonds. High diastereoselectivity is usually observed. These silicon-directed reactions are, therefore, valuable for stereocontrolled syntheses of highly functionalized five-membered carbocycles and heterocycles. 

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