Imines enantioselective reactions

Chiral oxazolidines 6, or mixtures with their corresponding imines 7, are obtained in quantitative yield from acid-catalyzed condensation of methyl ketones and ( + )- or ( )-2-amino-l-phcnylpropanol (norephedrine, 5) with azeotropic removal of water. Metalation of these chiral oxazolidines (or their imine mixtures) using lithium diisopropylamide generates lithioazaeno-lates which, upon treatment with tin(II) chloride, are converted to cyclic tin(II) azaenolates. After enantioselective reaction with a variety of aldehydes at 0°C and hydrolysis, ft-hydroxy ketones 8 are obtained in 58-86% op4. 

The optically active Schiff bases containing intramolecular hydrogen bonds are of major interest because of their use as ligands for complexes employed as catalysts in enantioselective reactions or model compounds in studies of enzymatic reactions. In the studies of intramolecularly hydrogen bonded Schiff bases, the NMR spectroscopy is widely used and allows detection of the presence of proton transfer equilibrium and determination of the mole fraction of tautomers [21]. Literature gives a few names of tautomers in equilibrium. The OH-tautomer has been also known as OH-, enol- or imine-form, while NH tautomer as NH-, keto-, enamine-, or proton-transferred form. More detail information concerning the application of NMR spectroscopy for investigation of proton transfer equilibrium in Schiff bases is presented in reviews.42-44... 

Asymmetric aza Diels-Alder reactions provide a useful route to optically active heterocyclics such as piperidines and tetrahydroquinolines.45 Although successful examples of diastereoselective approaches had been reported as early as 10 years ago,46 only recently have enantioselective reactions been accomplished.47 For example, the reaction of chiral amine-derived aromatic imine 115 with Brassard s diene 116 gives adduct 117 with up to 95% diaster-eoselectivity (Scheme 5-37).48... 

One problem for the asymmetric hydrogenation of imine is (E)/(Z) isomerism of the substrate, which may have a significant effect on the enantioselectivity of the reaction. This problem was difficult to address because of the rapid interconversion of the E and Z isomers of the imines under reaction conditions (Fig. 6-8). 

Particularly noteworthy is the discovery of a new type of the active catalyst 99,103,104 a crystalline, air-stable yellow-orange solid, which can serve as a highly enantioselective tool in the titanium-catalyzed hydrosilylation of imines. The reaction can be highly stereoselective for both acyclic and cyclic imines under a wide range of hydrogen pressures (Scheme 6-46). 

Zr-Catalyzed Enantioselective Cyanide Additions to Imines (Strecker Reactions)... 

SCHEME 18. Enantioselective reaction of organolithiums with imines. 

Asymmetric Mannich reactions provide useful routes for the synthesis of optically active p-amino ketones or esters, which are versatile chiral building blocks for the preparation of many nitrogen-containing biologically important compounds [1-6]. While several diastereoselective Mannich reactions with chiral auxiliaries have been reported, very little is known about enantioselective versions. In 1991, Corey et al. reported the first example of the enantioselective synthesis of p-amino acid esters using chiral boron enolates [7]. Yamamoto et al. disclosed enantioselective reactions of imines with ketene silyl acetals using a Bronsted acid-assisted chiral Lewis acid [8]. In all cases, however, stoichiometric amounts of chiral sources were needed. Asymmetric Mannich reactions using small amounts of chiral sources were not reported before 1997. This chapter presents an overview of catalytic asymmetric Mannich reactions. 

Protected glycine derivatives have been used as the nucleophilic partner in enantioselective syntheses of amino acid derivatives by chiral PTC (Scheme 10.9). Loupy and co-workers have reported the addition of diethyl acetylaminomalonate to chalcone without solvent with enan-tioselectivity up to 82% ee [44]. The recent report from the Corey group, with catalyst 8a used in conjunction with the benzophenone imine of glycine t-butyl ester 35, discussed earlier, results in highly enantioselective reactions (91-99% ee) with various Michael acceptors (2-cyclo-hexenone, methyl acrylate, and ethyl vinyl ketone) to yield products 71-73 [21], Other Michael reactions resulting in amino acid products are noted [45]. 

Some bifunctional 6 -OH Cinchona alkaloid derivatives catalyse the enantioselective hydroxyalkylation of indoles by aldehydes and a-keto esters.44 Indole, for example, can react with ethyl glyoxylate to give mainly (39) in 93% ee. The enan- tioselective reaction of indoles with iV-sulfonyl aldimines [e.g. (40)] is catalysed by the Cu(OTf)2 complex of (S)-benzylbisoxazoline (37b) to form 3-indolylmethanamine derivatives, in up to 96% ee [e.g. (41a)] 45 Some 9-thiourea Cinchona alkaloids have been found to catalyse the formation of 3-indolylmethanamines [e.g. (41b)] from indoles and /V-PhS02-phenyli mines in 90% ee.46 Aryl- and alkyl-imines also give enantioselective reactions. 

Kobayashi and coworkers pioneered the use of enamides or enecarbamates as nucleophiles in enantioselective reactions with either glyoxylates or glyoxylate derived imines catalyzed by chiral copper complexes [65]. The reaction using enamides or enecarbamates as nucleophilic components, namely, the aza ene reaction, with imines provides P amino imines that can be readily transformed into... 

The vinylogous Mannich reaction of 2 silyloxy furans and imines may also be catalyzed through chiral Brpnsted acids, as shown by Akiyama et al. [10]. Previously, Akiyama [11] and Terada [12] had independently discovered that 3,3 substituted BINOL based phosphoric acids were excellent Bronsted acids for a broad range of mainly imine addition reactions via protonation of the imines and in situ formation of chiral iminium contact ion pairs. Using the slightly modified phosphoric acid 28 as catalyst carrying additional iodine substituents in the 6,6 positions, the y amino substituted butenolides 27 were obtained in excellent enantioselectivity and variable diastereoselectivity (Table 5.4). 

The higher steric hindrance of the /erf-butyl group compared with methyl has several advantages in enantioselective reaction of the imines formed from this ether (Sections D.1.1,1.2, D.2.1.). 

Lectka has shown that (l )-BlNAP-Pd(C104)2, is effective for enantioselective reaction of imines with silyl enol ethers such as 15. While Sodeoka used the aquo complexes, Lectka carried out the reaction under anhydrous conditions [5]. 

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