1,6-addition diastereoselectivity

With chiral auxiliaries1,41 a remote chiral moiety is temporarily introduced into the substrate in order to direct the nucleophilic addition diastereoselectively. The chiral auxiliary can be removed from the initial addition product with complete conservation of the chirality of the desired product and also of the chiral auxiliary. The recovered chiral auxiliary can then be reused in further reactions. Therefore, chiral auxiliaries are used to chiralize an a priori achiral carbonyl substrate by the introduction of a covalently bound, but nevertheless easily removable, chiral source. 

Irradiation (A, > 280 nm) of a hexane/isopropyl alcohol solution of the disilene precursor ( )-14 (Scheme 8) in a quartz tube at room temperature produced threo-1-isopropoxy-1,2-dimethyl-1,2-diphenyldisilane 37a, which is the product of syn addition of isopropyl alcohol to ( )-16 together with a small amount of the erythro-isomer 38a (37a/38a => 99/1, 62% yield). High syw-addition diastereoselectivity was also found... 

Chiral dienes have proved to be less popular in asymmetric Diels-Alder reactions than their chiral dienophile counterparts. This is primarily a result of the problem of designing a molecule that incorporates a chiral moiety, such as the formation of a chiral isoprenyl ether or vinyl ketene acetal.187-190 In addition, diastereoselectivities often are not high,54 191-199 as illustrated by the cycloaddition of the chiral butadiene 5 with acrolein (Scheme 26.4). Improved stereoselection is observed through the use of double asymmetric induction, although this is a somewhat wasteful protocol.35,54 177 200... 

Similarly, when the substituted salicylaldehydes 5 were reacted with the (Z)-/ -nitrostyrenes 6, a variety of dihydrobenzopyrans rac-1 were obtained diastereomerically pure in 41-80% yield58. Note that the products rac-1, bearing three stereocenters, arise from an additional diastereoselective addition of the intermediate nitronate anion to the aldehyde carbonyl group. Again, the relative configuration of the product(s) is in accord with a thermodynamically controlled reaction. 

Pracejus also studied the tandem nucleophilic addition/diastereoselective protonation of optically pure (S)-phenylethylamine on phenylmethylketene [11], With the aim of synthesizing amino acids and their derivatives, Calmes and coworkers reinvestigated the reaction of prochiral ketenes (generated in situ from acid chorides in the presence of a tertiary amine) with (R)-pantolactonc, an a-hydroxylactone [12], The authors have shown that the diastereoselectivity is dependent on the base used. Particularly, triethylamine and quinuclidine afforded complementary results and the diasteromeric ratios observed with quinuclidine suggest that the high stereoselections could be observed in nucleophilic additions to prochiral ketenes in the presence of cinchona alkaloids. 

Ally I addition. Diastereoselectivity for the addition of an aUyl group to hexacarbonyl-dicobalt complexes of 4-hydroxy-2-alkynals is much higher using allyltriphenylstannane instead of the tributyl congener. 

Besace Y, Berlan J, Pourcelot G, Huche M. Effet de solvant remarquable dans 1 addition diastereoselective d organocuprates sur une oxazolidine chirale a,p insaturee. J. Organomet. Chem. 1983 247 C11-C13. 

Melnyk O, Stephan E, Pourcelot G, Cresson P. Additions diastereoselectives d alkyl, alcenyl, aryl et allyl cuprates a des imides chirales insaturees. Tetrahedron 1992 48 841-850. 

The highly regio- and diastereoselective addition of an alkyl and an arylthio group to an olefinic double bond ( carbosulfenylation ) is achieved with arenesulfenyl chlorides and alkyl-chloro-titanium(IV) species (Reetz reagent, from R2Zn/TiCU 5 1 M. T. Reetz, 1987, 1989), Use of the more bulky 2,4,6-triisopropylbenzenesulfenyl chloride improves the yield of the highly versatile alkyl aryl sulfide products. 

A highly diastereoselective alkcnylation of c/s-4-cyclopentene-l,3>diols has been achieved with 0-protected (Z)-l-iodo-l-octen-3-ols and palladium catalyst (S. Torii, 1989). The ( )-isomers yielded 1 1 mixtures of diastcrcomcric products. The (Z)-alkenylpalladium intermediate is thought to undergo sy/i-addition to the less crowded face of the prochiral cyclopentene followed by syn-elimination of a hydropalladium intermediate. 

Dramatic rate accelerations of [4 + 2]cycloadditions were observed in an inert, extremely polar solvent, namely in5 M solutions oflithium perchlorate in diethyl ether(s 532 g LiC104 per litre ). Diels-Alder additions requiring several days, 10—20 kbar of pressure, and/ or elevated temperatures in apolar solvents are achieved in high yields in some hours at ambient pressure and temperature in this solvent (P.A. Grieco, 1990). Also several other reactions, e.g, allylic rearrangements and Michael additions, can be drastically accelerated by this magic solvent. The diastereoselectivities of the reactions in apolar solvents and in LiClO EtjO are often different or even complementary and become thus steerable. 

The frequent use of chiral controller or auxiliary groups in enantioselective synthesis (or diastereoselective processes) obviously requires the addition of such units retrosynthetically, as illustrated by the antithetic conversion 34 =i> 35. 

There are a number of powerful synthetic reactions which join two trigonal carbons to form a CC single bond in a stereocontrolled way under proper reaction conditions. Included in this group are the aldol, Michael, Claisen rearrangement, ene and metalloallyl-carbonyl addition reactions. The corresponding transforms are powerfully stereosimplifying, especially when rendered enantioselective as well as diastereoselective by the use of chiral controller groups. Some examples are listed in Chart 20. 

The key step to this first reported case of the highly diastereoselective addition of a fluorinated enolate in an aldol process is the selective formation of the enolate a,a-Difluonnated enolates prepared by a metallation process employing either a zinc-copper couple [S] or reduced titanium species [9] undergo aldol condensation smoothly (equation 9) (Table 5)... 

One of the most significant developmental advances in the Jacobsen-Katsuki epoxidation reaction was the discovery that certain additives can have a profound and often beneficial effect on the reaction. Katsuki first discovered that iV-oxides were particularly beneficial additives. Since then it has become clear that the addition of iV-oxides such as 4-phenylpyridine-iV-oxide (4-PPNO) often increases catalyst turnovers, improves enantioselectivity, diastereoselectivity, and epoxides yields. Other additives that have been found to be especially beneficial under certain conditions are imidazole and cinchona alkaloid derived salts vide infra). 

There has been recent interest in naphtho-fused dithiepines as chiral acyl anion equivalents, particularly since the starting dithiol 128 can be obtained in enan-tiomerically pure form (89TL2575). This is transformed using standard methods into the dithiepine 129, but showed only moderate diastereoselectivity in its addition to carbonyl compounds. On the other hand, as we have seen previously for other systems, formation of the 2-acyl compound 130 and reduction or addition of a Grignard reagent gave the products 131 with much better stereoselectivity (91JOC4467). 

The validity of the model was demonstrated by reacting 35 under the same reaction conditions as expected, only one diastereoisomer 41 was formed, the structure of which was confirmed by X-ray analysis. When the vinylation was carried out on the isothiazolinone 42 followed by oxidation to 40, the dimeric compound 43 was obtained, showing that the endo-anti transition state is the preferred one. To confirm the result, the vinyl derivative 42 was oxidized and the intermediate 40 trapped in situ with N-phenylmaleimide. The reaction appeared to be completely diastereoselective and a single diastereomer endo-anti 44 was obtained. In addition, calculations modelling the reactivity of the dienes indicated that the stereochemistry of the cycloaddition may be altered by variation of the reaction solvent. 

When having an Q ,/3-unsaturated carbonyl moiety, 2(5/7)-furanones are capable of undergoing 1,4-Michael-type additions. It was found that 1,4-addition reactions of thiophenols to the furanones 168,170, and 172 take place at room temperature in the presence of triethylamine to give a quantitative yield of the adducts 169, 171, and 173. Complete diastereoselective Michael-type addition occurred in all cases (Scheme 48) (88T7213). 

For azomethine ylides and carbonyl ylides, the diastereoselectivity is more complex as the presence of an additional chiral center in the product allows for the formation of four diastereomers. Since the few reactions that are described in this chapter of these dipoles give rise to only one diastereomer, this topic will not be mentioned further here [10]. 

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