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Chiral auxiliaries cycloadditions

It has been shown that the sulfinyl group present as chiral auxiliary either in dienophiles or in dienes is very useful for controlling the enantio- and diastereofacial selectivity in the asymmetric Diels-Alder reaction [43]. A wide variety of enantiomerically pure cyclohexadienedicarboxylates has been produced by cycloaddition of the sulfinylmaleate 39 with several dienes under catalyzed... [Pg.112]

Clay-catalyzed asymmetric Diels-Alder reactions were investigated by using chiral acrylates [10]. Zn(II)- and Ti(IV)-K-10 montmorillonite, calcined at 55 °C, did not efficiently catalyze the cycloadditions of cyclopentadiene (1) with acrylates that incorporate large-size chiral auxiliaries such as cA-3-neopentoxyisobornyl acrylate (2) and (-)-menthyl acrylate (3, R = H) (Figure 4.1). This result was probably due to diffusion problems. [Pg.145]

Good results were obtained with (R)-0-acryloylpantolactone (4) in which the dienophile was incorporated with a smaller chiral auxiliary. Some results are reported in Table 4.4, where the cycloadditions catalyzed by Zn(II)-, Fe(II)- and Ti(IV)-K-10 exchanged montmorillonite calcined at 120 °C and 550 °C are compared with those that were not catalyzed and with TiCU- and EtAlCh-catalyzed reactions. Among the metal-clays activated, the Ti(IV)-K-10 was the best catalyst with high conversion and acceptable enantioselectivity obtained after 2 h. [Pg.146]

Waldmann H., Braun M. Amino Acid Esters As Chiral Auxiliaries in Asymmetric Cycloadditions Gazz. Chim. Ital. 1991 121 277-284... [Pg.323]

The highly ordered cyclic TS of the D-A reaction permits design of diastereo-or enantioselective reactions. (See Section 2.4 of Part A to review the principles of diastereoselectivity and enantioselectivity.) One way to achieve this is to install a chiral auxiliary.80 The cycloaddition proceeds to give two diastereomeric products that can be separated and purified. Because of the lower temperature required and the greater stereoselectivity observed in Lewis acid-catalyzed reactions, the best diastereoselectivity is observed in catalyzed reactions. Several chiral auxiliaries that are capable of high levels of diastereoselectivity have been developed. Chiral esters and amides of acrylic acid are particularly useful because the auxiliary can be recovered by hydrolysis of the purified adduct to give the enantiomerically pure carboxylic acid. Early examples involved acryloyl esters of chiral alcohols, including lactates and mandelates. Esters of the lactone of 2,4-dihydroxy-3,3-dimethylbutanoic acid (pantolactone) have also proven useful. [Pg.499]

The following cycloaddition reactions involve chiral auxiliaries and proceed with a good degree of diastereoselectivity. Provide a rationalization of the formation of the preferred product on the basis of a TS. [Pg.615]

FIGURE 4.37 Some examples of diastereoselective cycloadditions using chiral auxiliaries. [Pg.109]

Construction of the cyclopentane ring was accomplished by utilization of Trosf s Pd-mediated diastereoselective [3+2] trimethylenemethane (TMM) cycloaddition [4] on the cinnamate 5 having an Evans type chiral auxiliary [4b], The resulting diastereomeric mixture (3 1 at best) of 7a and 7b was separated by careful silica gel column chromatography (7a is less polar than 7b under normal phase). Puri-... [Pg.46]

The Davies group has described several examples of a rhodium-catalyzed decomposition of a diazo-compound followed by a [2+1] cycloaddition to give divinyl cyclopropanes, which then can undergo a Cope rearrangement. Reaction of the pyrrol derivative 6/2-51 and the diazo compound 6/2-52 led to the tropane nucleus 6/2-54 via the cyclopropane derivative 6/2-53 (Scheme 6/2.11) [201]. Using (S)-lactate and (R)-pari lolaclorie as chiral auxiliaries at the diazo compound, a diastereoselectivity of around 90 10 could be achieved in both cases. [Pg.429]

To control the stereochemistry of 1,3-dipolar cycloaddition reactions, chiral auxiliaries are introduced into either the dipole-part or dipolarophile. A recent monograph covers this topic extensively 70 therefore, only typical examples are presented here. Alkenes employed in asymmetric 1,3-cycloaddition can be divided into three main groups (1) chiral allylic alcohols, (2) chiral amines, and (3) chiral vinyl sulfoxides or vinylphosphine oxides.63c... [Pg.251]

Asymmetric 1,3-dipolar cycloaddition of cyclic nitrones to crotonic acid derivatives bearing chiral auxiliaries in the presence of zinc iodide gives bicyclic isoxazolidines with high stereoselectivity (Eq. 8.51). The products are good precursors of (3-amino acids such as (+)sedridine.73 Many papers concerning 1,3-dipolar cycloaddition of nitrones to chiral alkenes have been reported, and they are well documented (see Ref. 63). [Pg.252]

Cycloaddition of nitrile oxides to alkenes with various chiral auxiliaries are summarized in Table 8.1, which shows chiral alkenes and differential excess (de). [Pg.266]

Braun, K. R., and H. Kunz. Chiral Auxiliaries in Cycloadditions, Wiley-VCH, 1999. [Pg.298]

Dipolar cycloaddition reactions are of main interest in nitrile oxide chemistry. Recently, reviews and chapters in monographs appeared, which are devoted to individual aspects of these reactions. First of all, problems of asymmetric reactions of nitrile oxides (130, 131), including particular aspects, such as asymmetric metal-catalyzed 1,3-dipolar cycloaddition reactions (132, 133), development of new asymmetric reactions utilizing tartaric acid esters as chiral auxiliaries (134), and stereoselective intramolecular 1,3-dipolar cycloadditions (135) should be mentioned. Other problems considered are polymer-supported 1,3-dipolar cycloaddition reactions, important, in particular, for combinatorial chemistry... [Pg.19]

An unusual solvent effect was observed in cycloadditions of aromatic nitrile N-oxides with alkyl-substituted p-benzoquinones in ethanol-water (60 40) the reaction rates were 14-fold greater than those in chloroform (148). The use of ion pairs to control nitrile oxide cycloadditions was demonstrated. A chiral auxiliary bearing an ionic group and an associated counterion provides enhanced selectivity in the cycloaddition the intramolecular salt effect controls the orientation of the... [Pg.20]

However, most asymmetric 1,3-dipolar cycloaddition reactions of nitrile oxides with alkenes are carried out without Lewis acids as catalysts using either chiral alkenes or chiral auxiliary compounds (with achiral alkenes). Diverse chiral alkenes are in use, such as camphor-derived chiral N-acryloylhydrazide (195), C2-symmetric l,3-diacryloyl-2,2-dimethyl-4,5-diphenylimidazolidine, chiral 3-acryloyl-2,2-dimethyl-4-phenyloxazolidine (196, 197), sugar-based ethenyl ethers (198), acrylic esters (199, 200), C-bonded vinyl-substituted sugar (201), chirally modified vinylboronic ester derived from D-( + )-mannitol (202), (l/ )-menthyl vinyl ether (203), chiral derivatives of vinylacetic acid (204), ( )-l-ethoxy-3-fluoroalkyl-3-hydroxy-4-(4-methylphenylsulfinyl)but-1 -enes (205), enantiopure Y-oxygenated-a,P-unsaturated phenyl sulfones (206), chiral (a-oxyallyl)silanes (207), and (S )-but-3-ene-1,2-diol derivatives (208). As a chiral auxiliary, diisopropyl (i ,i )-tartrate (209, 210) has been very popular. [Pg.25]

Diastereoselective intramolecular 1,3-dipolar cycloadditions of alkylidene-cyclopropyl nitrones provide spirocyclopropylisoxazolidines. These compounds have been shown to undergo either thermally induced ring expansion to octahydro[l]pyrindin-4-ones or to acid induced ring contraction into fS-lactams with concomitant loss of ethylene (Scheme 2.218) (710-716). Use of chiral auxiliaries, that is (L)-2-acetoxylactate can lead to enantiomerically enriched heterocycles (715). [Pg.302]

The asymmetric 1,3-dipolar cycloaddition of nitrones (515), possessing an electron-withdrawing group, to allylic alcohols was achieved by using diisopropyl (/ ,/ )-tartrate [(R,R-DIPT)] as a chiral auxiliary. The isoxazolidines (516) and... [Pg.324]

The utility of a new fluorine supported chiral auxiliary was established in a series of catalyzed and uncatalyzed 1,3-dipolar cycloaddition reactions with diphenylnitrone (637b) (Scheme 2.281) (797). The yields and selectivities of the cycloadducts (645a—d) compare favorably with those obtained with conventional Evans-type auxiliaries (798). Purification of the products was greatly improved by using fluorous solid phase extraction (FSPE). [Pg.355]

The highly stereoselective 1,3-dipolar cycloaddition of C-phenyl-iV-glycosylnitrones (336) and (679) to dimethyl maleate D14, with the sugar moiety acting as a chiral auxiliary, has been used in enantioselective syntheses of isoxazolidines (678) and (678 ent) (Scheme 2.292) (118). [Pg.364]

Chromium carbene complexes have also been known to react with imine equivalents to afford /3-lactam derivatives234. Furthermore, [3 + 2]-cycloaddition of an alkenylchromium carbene 133 with imines proceeded to afford 3-pyrroline derivatives 134 in the presence of a Lewis acid catalyst (Equation (21)),235 where GaClj or Sn(OTf)2 were efficient promoters. Alkenylcarbenes bearing chiral auxiliaries afforded the desired cycloadduct in optically pure form. [Pg.432]


See other pages where Chiral auxiliaries cycloadditions is mentioned: [Pg.27]    [Pg.335]    [Pg.194]    [Pg.78]    [Pg.80]    [Pg.30]    [Pg.184]    [Pg.408]    [Pg.278]    [Pg.446]    [Pg.413]    [Pg.69]    [Pg.289]    [Pg.894]    [Pg.174]    [Pg.20]    [Pg.25]   
See also in sourсe #XX -- [ Pg.319 , Pg.320 , Pg.325 ]




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