Use as chiral auxiliaries

As well as the disubstituted C2-symmelrie pyrrolidines E and F, the monosubstituted (f> )-2-(mcthoxymethyl)pyrrolidine G can be used as chiral auxiliary for the diastereoselecti ve addition of organomctallic reagents to a-oxo amides16. As with the phenylglyoxylic acid derivatives derived from amines E and F. methyllithium or methylmagnesium bromide in diethyl ether preferentially attack the (,S)-mms-conformer 11 (R = ( 6H5), leading to predominant formation of the (2 S)-diastercomer by Re-side attack. 

Several other oxazolidinones have been developed for use as chiral auxiliaries. The 4-isopropyl-5,5-dimethyl derivative gives excellent enantioselectivity.91 5,5-Diaryl derivatives are also quite promising.92... 

One example of the use of 2D-NMR experiments in conformational analysis is the study of molecular interactions between cinchonidine and acetic acid [26]. These alkaloids are used as chiral auxiliaries in enantioselective hydrogenations, and the enantiomeric excess is dependent on solvent polarity, acetic acid being a good solvent This suggests that protonation and a preferred conformation play a role in achieving high enantioselectivities. With a combination of COSY-experiments, 3J coupling constants and NOESY experiments, it was shown that one conformer is preferred in acidic solutions. 

In summary, the reaction of osmium tetroxide with alkenes is a reliable and selective transformation. Chiral diamines and cinchona alkakoid are most frequently used as chiral auxiliaries. Complexes derived from osmium tetroxide with diamines do not undergo catalytic turnover, whereas dihydroquinidine and dihydroquinine derivatives have been found to be very effective catalysts for the oxidation of a variety of alkenes. OsC>4 can be used catalytically in the presence of a secondary oxygen donor (e.g., H202, TBHP, A -methylmorpholine-/V-oxide, sodium periodate, 02, sodium hypochlorite, potassium ferricyanide). Furthermore, a remarkable rate enhancement occurs with the addition of a nucleophilic ligand such as pyridine or a tertiary amine. Table 4-11 lists the preferred chiral ligands for the dihydroxylation of a variety of olefins.61 Table 4-12 lists the recommended ligands for each class of olefins. 

Chiral oxazolidine compounds have also been used as chiral auxiliaries for asymmetric Diels-Alder reactions. Adam et al.8 demonstrated the cycloaddition of optically active 2,3-dimethyl oxazolidine derivatives with singlet oxygen. As shown in Scheme 5-9, the reaction of chiral substrate 39 with singlet oxygen provides product 40 in high diastereomeric ratio. 

A synthesis of novel chiral phosphine oxide aminal 113 has been developed by reacting phosphine oxide aldehyde 111 with diamine 112. The condensation gave a single diastereomer of the phosphine oxide aminal in 65% yield. This compound can be used as chiral auxiliary in asymmetric synthesis (Equation 15) <1996TA3431, 1996TL3051, 1996TL7465>. 

Carbohydrates have found widespread use as chiral auxiliaries in asymmetric Diels-Al-der reactions156. A recent example is a study conducted by Ferreira and colleagues157 who used carbohydrate based chiral auxiliaries in the Lewis acid catalyzed Diels-Alder reactions of their acrylate esters 235 with cyclopentadiene (equation 66). Some representative results of their findings, including the ratios of products 236 and 237, have been summarized in Table 9. The formation of 236 as the main product when diethylaluminum chloride was used in dichloromethane (entry 3) was considered to be the result of an equilibrium between a bidentate and monodentate catalyst-dienophile complex. The bidentate complex would, upon attack by the diene, lead to 236, whereas the monodentate complex would afford 236 and 237 in approximately equal amounts. The reversal of selectivity on changing the solvent from dichloromethane to toluene (entry 2 vs 3) remained unexplained by the authors. 

Figure 4. Common allylic boronate derivatives used as chiral auxiliary reagents in enan-tioselective carbonyl additions. (Only one stereoisomer is shown for simplicity.)...

The chemistry of chiral 1,3-dithiane 1-oxides, in particular their use as chiral auxiliaries, has been reviewed <19980PP145>. Some further developments in this field are the stereoselective a-alkylation with alkyl halides <1997T13149> or a-hydrazination with di-fert-butyl azodicarboxylate (DBAD) <2000T9683>. The carbonyl group of 2-acyl-l,3-dithiane 1-oxides was also used as an electrophile (Scheme 82). Interestingly, acyclic enolates react with these substrates to give a 95 5 mixture of anti- and ry -adduct, whereas cyclic enolates produce a mixture of anti- and ry -adduct in 8 92 ratio <2000JOC6027>. 

The methyl and benzyl esters of proline were also used as chiral auxiliaries in respective acrylamides, but the isoxazoline cycloadducts were obtained with only poor to modest stereoselectivity (189,190). The related indoline-2-carboxylic acid derivative 33, however, showed excellent ability to direct nitrile oxide attack, favoring one rotamer (Scheme 6.37), and thereby leading to 3-phenylisoxazoline-5-carboxamide... 

Substituted 3,6-dialkoxy-2,5-dihydropyrazines are regioselectively metalated by strong alkyl-lithium bases, such as butyllithium, (l-methylpropyl)lithium, fcrf-butyllithium, or lithium diiso-propylamide, at the less substituted carbon atom (C5). Metalation proceeds at low temperatures (in general, below — 70 C) in THF as solvent. Electrophiles suitable for alkylation of the lithiated derivatives include alkyl iodides, bromides and chlorides, as well as alkyl methanesulfonates, 4-methylbenzenesulfonates and trifluoromethanesulfonates. The electrophile adds trans to the substituent at C2 in a highly stereoselective fashion, with typical diastereomeric excesses of greater than 90% (syn addition has been reported in only one case where a-methylphenyl alanine was used as chiral auxiliary and an alkyl trifluoromethanesulfonate as electrophile18). 

Starting with the fundamental work of Wiechert et al. 65) and Hajos et al.66), more than 15 amino acids have so far been used as chiral auxiliaries. It is remarkable that in most cases catalysts of the (S)-series, to which most natural a-amino acids belong, induce (S)-configuration. Chiral auxiliaries of the (R)-series, on the other hand, lead predominantly to products having an (R)-configuration. 

In the total synthesis of an anthracycline antibiotic, the key step was an asymmetric halolactonization reaction. The corresponding bromolactones were formed with high stereoselectivity (d.s. > 90%). (S)-Proline was used as chiral auxiliary. 

Chiral Phosphorus Compounds Koizumi et al. 251 have prepared a series of chiral organophosphorus compounds (256) in which the phosphorus atom is the asymmetric center, whereby amino acid derivatives were used as chiral auxiliary reagents. 

The asymmetric synthesis of (lR,3S)-d.v-chrysanthemic acid was reported by Mukaiyama et al. 268) (R)-phenylglycinol was used as chiral auxiliary. 

Asymmetric oxidation of prochiral sulfides is one of the most effective routes for the preparation of chiral sulfoxides. These latter molecules attract great interest, as they are useful synthons for some drugs. They can also be used as chiral auxiliaries due to their configurational stability. The oxidation can be performed by using complexes... 

Chiral acetals have also been used as chiral auxiliaries for the enantioselective cyclopropanation of a,/3-unsaturated carbonyl derivatives (Figure 7). Yamamoto s tartrate derived auxiliaries (15) based on the ether-directed cyclopropanation allowed the efficient preparation of cyclopropylcarboxaldehyde derivatives The reaction proceeded with high diastereocontrol, and the auxiliary could be cleaved under mild acidic conditions (equation 73). 

In all cases where secondary alcohols are used as chiral auxiliaries, one can understand (and predict) the stereochemical outcome of these reactions, if one takes into account (i) that esters of secondary alcohols always try to adopt a conformation with a coplanar (horseshoe-type) arrangement of the carbonyl group, the ether oxygen and the alkoxy C—H bond 18-19 and (ii) that in the presence of Lewis acids, ( )-enoates appear to prefer the s-trans conformation (antiplanar position of the carbonyl group and the C—C double bond).20 Depending on the structure of the chiral auxiliary, one of the two (diastereotopic) faces of the double bond will now be more or less shielded, forcing the nucleophile to attack on the opposite face. 

In an isolated case, a tertiary alcohol was used as chiral auxiliary the crotonate (19), prepared from the (+)-camphor-derived alcohol (18), undergoes highly diastereoselective 1,4-addition of a cuprate reagent (Scheme 6).24... 

A general approach towards the asymmetric synthesis of amino acid derived 4-alkyl-4-carboxy-2-azetidinones has been described [192], The (+)- or (-)-lO-(N, Af-dicyclohexylsulfamoyl)isobomeol was used as chiral auxiliary in the intramolecular cyclization of /V-(/>methoxybenzyI)-/V-chloroacetyl Phe and Ala derivatives for the stereocontrolled base-catalyzed construction of the (1-lactam ring (Scheme 85). 

Optically active a-alkoxycarbonylthioaldehydes were prepared from the corresponding a-dichloroacetates by treatment with bis(tributyltin)sulfide and tetrabutylammonium fluoride309 8-arylmenthols were used as chiral auxiliaries and the thioaldehydes underwent asymmetric hetero-Diels-Alder cycloaddition (equation 48). 

CRAMP was used as chiral auxiliary. dde of corresponding SAMP-hydrazone. eAfter two recrystallizations of the ketol. ... 

The intermolecular Diels-Alder reaction between the dibromoenone (111) and dienes (112) provides access to bicyclo[5.4.0]undecane systems (113) that are common core structures of many natural products (Scheme 32).118 The alio-threonine-derived O-(/ -biphenyl carbonyl oxy)-/i-phenyloxazaborolidi none catalyses the enan-tioselective Diels-Alder reaction of acyclic enones with dienes.119 The reversal of facial selectivity in the Diels-Alder cycloaddition of a semicyclic diene with a bro-moenone was induced by the presence of the bromo substituent in the dienophile.120 Mixed Lewis acid catalyst (AlBr3/AIMe3) catalyses the Diels-Alder reaction of hindered silyloxydienes with substituted enones to produce highly substituted cyclohexenes.121 Chiral /V-enoyl sultams have been used as chiral auxiliaries in the asymmetric Diels-Alder reactions with cyclopentadiene.122... 

Several reports have employed a more traditional approach where the use of enantio-pure chiral amino auxiliaries, that, after the successful Strecker reaction, can be chemically modified to yield the free amino acids. For example, Chakraborty and co-workers have reported the highly diastereoselective addition of trimethylsilyl cyanide to a variety of a-phenylglycinol-derived benzaldimines [16]. (S)-a-Methylbenzylamine has been used as a chiral auxiliary for the asymmetric Strecker reaction [17]. (R)-Phenylglycinol has been utilized as a chiral auxiliary from the asymmetric Strecker reaction products of aldehydes in the synthesis of a,a-disubstituted amino acids [18]. (R)- and (S)-2-Amino-2-phenylethanol were used as chiral auxiliaries in the synthesis of optically pure a-arylglycines [19]. 

Optically pure 1,3-oxathiins have been used as chiral auxiliaries for the synthesis of (E)-monoaryl epoxides (95JOC3494) and (5-substituted ketones (95SL501), whilst the desulfurisation of some dihydro-1,4-oxathiins affords E-alkyl vinyl ethers (95SL1274). 

Camphor derivatives are also used as chiral auxiliaries in asymmetric aldol condensations (e.g., Scheme 5.10).49 51... 

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