Diels diastereoselective using chiral

An interesting Diels-Alder reaction using chiral enamines is reported by Backvall, in which a cyclic nitronate is formed in good yield and excellent diastereoselectivity (Eq. 8.98).155... 

Asymmetric Diels-Alder reactions. Unlike methyl crotonate, which is a weak dienophile, chiral (E)-crotonyl oxazolidinones when activated by a dialkylaluminum chloride (1 equiv.) are highly reactive and diastereoselective dienophiles. For this purpose, the unsaturated imides formed from oxazolidinones (Xp) derived from (S)-phenylalanol show consistently higher diastereoselectivity than those derived from (S)-valinol or (IS, 2R)-norephedrine. The effect of the phenyl group is attributed in part at least to an electronic interaction of the aromatic ring. The reactions of the unsaturated imide 1 shown in equation (I) are typical of reactions of unsaturated N-acyloxazolidinones with cyclic and acyclic dienes. All the Diels-Alder reactions show almost complete endo-selectivity and high diastereoselectivity. Oxazolidinones are useful chiral auxiliaries for intramolecular Diels-Alder... 

Clearly, an important feature will be the selectivity of these reactions. In this respect, the control of endo- and exo-selectivity using different Lewis acids, the induced diastereoselectivity with chiral heterobutadienes as well as chiral heterodienophiles and finally the use of chiral Lewis acids for the enantioselec-tive synthesis will be discussed. In recent time some attention has been paid to hetero Diels-Alder reactions in aqueous solutions and in the presence of inor-... 

A high asymmetric induction in intramolecular hetero Diels-Alder reactions was found using chiral 1-oxa-1,3-butadienes with a stereogenic center in the tether [54]. Such compounds can easily be obtained by a Knoevenagel condensation of a 1,3-dicarbonyl compound such as iV,N-dimethylbarbituric acid with a chiral aldehyde bearing a dienophile moiety [169 a] (Scheme 2-3). With the stereogenic center in a-position relative to the oxadiene or dienophile moiety an excellent induced diastereoselectivity is obtained for the nearly exclusively formed trans-cycloadduct (simple diastereoselectivity = 97.9 2.1 and 98.3 1.7,... 

Diels-Alder Reactions. Chiral a,p-unsaturated imides participate in Lewis acid-promoted Diels-Alder cycloaddition reactions to afford products in uniformly excellent endo/exo and endo diastereoselectivities (eq 50 and 51). Unfortunately, this reaction does not extend to certain dienophiles, including methacryloyl imides, p,3-dimethylacryloyl imides, or alkynic imides. Cycloadditions also occur with less reactive acyclic dienes with high diastereoselectivity (eq 52). Of the auxiliaries surveyed, the phenylalanine-derived oxazolidinones provided the highest diastereoselectivities. This methodology has been recently extended to complex intramolecular processes (eq 53). In this case, use of the unsubstituted achiral oxazolidinone favored the undesired diastereomer. 

Diastereoselective Diels-Alder Reactions Using Chiral Auxiliaries... 

Chiral 3-alkenoyl-l,3-oxazolidin-2-ones have been developed and used in highly diastereoselective Diels-Alder reactions by Evans et al. [26] (Scheme 1.34). In this reaction these dienophiles are highly reactive compared with the corresponding... 

The chiral copper reagent 24 is an effective catalyst not only for intermolecular, hut also for intramolecular Diels-Alder reactions, as shown in the following schemes (Scheme 1.41, 1,42, 1.43). Synthetically useful octalin and decalin skeletons were synthesized in high enantio- and diastereoselectivity. The synthetic utility of this intramolecular Diels-Alder reaction has been demonstrated hy a short total synthesis of isopulo upone [23, 33d]. 

Similarly a marked increase of regioselectivity has been shown in the catalyzed Diels-Alder reactions of the chiral bicyclic lactame 24 (Scheme 3.9) with a variety of dienes [27] (isoprene, mircene, (E,E)-L4-dimethylbutadiene, 2,3-di-methylbutadiene, 2-siloxybutadiene). The catalyzed reactions were more regio-selective and totally enJo-antz-diastereoselective anti with respect to the bridgehead methyl group). The results of the cycloadditions with isoprene and mircene are reported in Scheme 3.9. The cycloadducts have then been used to provide interesting fused carbocycles [28] with high enantiomeric purity as shown in Scheme 3.10. 

Base-catalyzed Diels-Alder reactions are rare (Section 1.4). A recent example is the reaction of 3-hydroxy-2-pyrone (145) with chiral N-acryloyl oxazolidones 146 that uses cinchona alkaloid as an optically active base catalyst [97] (Table 4.25). Only endo adducts were obtained with the more reactive dienophile 146 (R = H), the best diastereoselectivity and yields being obtained with an i-Pr0H/H20 ratio of 95 5. The reaction of 146 (R = Me) is very slow, and a good adduct yield was only obtained when the reaction was carried out in bulky alcohols such as t-amyl alcohol and t-butanol. 

Waldmann used (R) and (5>aminoacid methyl esters and chiral amines as chiral auxiliaries in analogous aza-Diels-Alder reactions with cyclodienes.111 The diastereoselectivity of these reactions ranged from moderate to excellent and the open-chain dienes reacted similarly. Recently, the aza-Diels-Alder reaction was used by Waldmann in the asymmetric synthesis of highly functionalized tetracyclic indole derivatives (Eq. 12.45), which is useful for the synthesis of yohimbine- and reserpine-type alkaloids.112... 

Dienes with Chiral Auxiliaries The use of dienes with the chiral auxiliary attached to the C-l position of the dienes is the most popular in asymmetric Diels-Alder reactions.59 In 1980, Trost reported high asymmetric induction in the Diels-Alder reaction using l-(S)-0-methylmandeloxy-l,4-butadiene59a However, the result obtained by Trost et al. has remained unique for more than a decade, at least in terms of enantioselectivity. The asymmetric Diels-Alder reaction of chiral diene-amines with nitroalkenes gives aminocyclohexenes with good diastereoselectivity (Eq. 8.37).60 The development in the area of chiral dienes is slow it may be due to the difficulty of preparing these compounds. 

As mentioned in the previous section, chiral dienophile 17 is highly enantiose-lective and meets the criteria for double asymmetric induction. A set of asymmetric reactions have been performed by Masamune s group using 49 as an achiral diene and (S)/(R -methyl mendelates (S)/(R)-51 as chiral dienes.2a The Diels-Alder reaction between (,S)-17 and 49 exhibits the high diastereoselective potential of 17. As shown in Scheme 5-17, in the presence of a catalytic amount of BF3 Et20, the reaction of (.S )-17 and 49 gives compound 50 as the major product with a diastereoselectivity of over 100 1. The reaction of (S )-17 with... 

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... 

Dipolar addition is closely related to the Diels-Alder reaction, but allows the formation of five-membered adducts, including cyclopentane derivatives. Like Diels-Alder reactions, 1,3-dipolar cycloaddition involves [4+2] concerted reaction of a 1,3-dipolar species (the An component and a dipolar In component). Very often, condensation of chiral acrylates with nitrile oxides or nitrones gives only modest diastereoselectivity.82 1,3-Dipolar cycloaddition between nitrones and alkenes is most useful and convenient for the preparation of iso-xazolidine derivatives, which can then be readily converted to 1,3-amino alcohol equivalents under mild conditions.83 The low selectivity of the 1,3-dipolar reaction can be overcome to some extent by introducing a chiral auxiliary to the substrate. As shown in Scheme 5-51, the reaction of 169 with acryloyl chloride connects the chiral sultam to the acrylic acid substrate, and subsequent cycloaddition yields product 170 with a diastereoselectivity of 90 10.84... 

Bis(oxazoline)-type complexes, which have been found useful for asymmetric aldol reactions, Diels-Alder, and hetero Diels-Alder reactions can also be used for inducing 1,3-dipolar reactions. Chiral nickel complex 180, which can be prepared by reacting equimolar amounts of Ni(C10)4 6H20 and the corresponding (J ,J )-4,6-dibenzofurandiyl-2,2 -bis(4-phenyloxazoline) (DBFOX/Ph) in dichloromethane, can be used for highly endo-selective and enantioselective asymmetric nitrone cycloaddition. The presence of 4 A molecular sieves is essential to attain high selectivities.88 In the absence of molecular sieves, both the diastereoselectivity and enantioselectivity will be lower. Representative results are shown in Scheme 5-55. 

Then the potential for asymmetric induction of some of these chiral ionic liquids was investigated. The aza Diels-Alder cycloaddition between the enantiomericaUy pure (/ )-imine 31 and the Danishefsky s diene 32 was chosen as model asymmetric reaction (Scheme 8). The reaction was performed at room temperature for 5 h using 0.5 equiv. of ionic liquid and 1.5 equiv. of diene. In the absence of chiral ILs, the same coupling required a Lewis acid catalyst (0.1 equiv. of ZnC ) and afforded the main product 33 in 60% yield and low diastereoselectivity (32% de). 

Oppolzer sultam-like chiral auxiliary (e.g., Xc in 304) has been studied in Diels-Alder cycloaddition reactions (Scheme 43) <2003JP0700>. The TiCU-promoted reaction of dienophile 304 and 1,3-cyclopentadiene 305 in DCM is complete within 18h and excellent diastereoselectivity of product 306 is observed. The same reaction in the absence of Lewis acid provides product 306 in very low yield. However, switching to trifluoroethanol as the solvent, the cycloaddition reaction proceeds to completion, albeit with slightly diminished levels of diastereoselectivity for Diels-Alder adduct 306. Surprisingly, the use of hexane as the solvent affords the opposite (23, J 31-diastereomer of 306 as the major product. 

The amino acid derived chiral oxazolidinone 188 is a very commonly used auxiliary in Diels-Alder and aldol reactions. However, its use in diastereoselective 1,3-dipolar cycloadditions is less widespread. It has, however, been used with nitrile oxides, nitrones, and azomethine ylides. In reactions of 188 (R = Bn, R =Me, R = Me) with nitrile oxides, up to 92% de have been obtained when the reaction was performed in the presence of 1 equiv of MgBr2 (303). In the absence of a metal salt, much lower selectivities were obtained. The same observation was made for reactions of 188 (R = Bn, R = H, R = Me) with cyclic nitrones in an early study by Murahashi et al. (277). In the presence of Znl2, endo/exo selectivity of 89 11 and up to 92% de was observed, whereas in the absence of additives, low selectivities resulted. In more recent studies, it has been shown for 188 (R =/-Pr, R = H, R =Me) that, in the presence of catalytic amounts of Mgl2-phenanthroline (10%) (16) or Yb(OTf)3(20%) (304), the reaction with acyclic nitrones proceeded with high yields and stereoselectivity. Once again, the presence of the metal salt was crucial for the reaction no reaction was observed in their absence. Various derivatives of 188 were used in reactions with an unsubstituted azomethine ylide (305). This reaction proceeded in the absence of metal salts with up to 60% de. The presence of metal salts led to decomposition of the azomethine ylide. 

The 3-acyl-2(3F/)-oxazolones function as good dienophiles in cycloaddition reactions with cyclic 2,4-dienes such as cyclopentadienes and anthracenes. Thus, the thermal reaction of 3-acetyl-2(37/)-oxazolone with cyclopentadiene and the hexachloro and hexamethyl derivatives gives endo-cycloadducts exclusively. In particular, the chiral cycloadducts 221 and 223 derived from the diastereoselective Diels-Alder reactions of 3-(2-exo-alkoxy-l-apocamphanecarbonyl)-2(3/7)-oxazo-lones with hexamethylcyclopentadiene and 9,10-dimethylanthracene, respectively, are highly useful as chiral 2-oxazolidinone auxiliaries. The conformationally rigid roofed structures play a crucial role in affording excellent chiral induction (Fig. 5.54). 

Two asymmetric Diels-Alder approaches to analogues like 830 and 831 have been described. In the hrst case, chiral catalysts were employed for an enantiose-lective Diels-Alder reaction, but unfortunately, none of the chiral catalysts showed any enantioselectivity upon analysis of the reaction mixtures. Alternatively, a chiral oxazolone 840 incorporating a menthyl carbonate at C-4 was prepared and used as a dienophile with cyclopentadiene. In this case, the exo/endo ratio was 60 40 but no signihcant endo or exo diastereoselectivity was obtained (Scheme 7.258). ° ... 

Some enantiomerically pure substituted 2-oxazolidinones are excellent as chiral auxiliaries. From the pioneering studies 2 conducted in the early 1980 s of the uses of such auxiliaries has emerged what is perhaps the most widely used method today for the preparation of enantiomerically highly enriched a-alkylalkanoic acids, alcohols and aldehydes, that is, the alkylation of enolates from chiral 3-acylated 2-oxazolidinones followed by auxiliary removal2 59. The early work has been reviewed60-62. These enantiomerically pure cyclic imide auxiliaries have been used not only for alkylations but also in a plethora of a-functionalization reactions, such as diastereoselective aldol, a-hydroxylation, a-amination and Diels-Alder reactions and these are discussed elsewhere in this volume. 

Section A.5). Indeed, three enantiomeric pairs of 2-oxazolidinones have been commercially available since 1991. Enantiomerically pure 4-phenyl-2-oxazolidinone has likewise been prepared from / -aminobenzeneethanol (phenylglycinol)64. Base-catalyzed acylation of the enantiomerically pure 2-oxazolidinones with an appropriate acyl chloride gives the desired 3-acyl-2-oxazolidinones 3, 6 and 9 which have been used extensively in highly diastereoselective reactions of various types such as alkylations, aldol reactions (see Section D.l.3.4.2.4), hydrox-ylations (see Section D.4.1), aminations (see Section D.7.1) and Diels-Alder reactions (see Section D. 1.6.1.6) alkylation giving products with induced chirality in the a-position. 

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