Camphorsultams

A similar but asymmetric variant of the reaction, involving the radical addition of alkyl iodides and trialkylboranes to chiral azirine esters derived from 8-phenyl-menthol and camphorsultam, in the presence of a Cu(i) catalyst, has subsequently been reported [64]. The diastereoselectivity of the addition is variable (0-92% de)... 

Indium-mediated allylation reactions of a-keto imides derived from Oppolzer s sultam proceeded in aqueous THF in good yields and excellent diastereoselectivity (Eq. 11.43).74 The indium-mediated allylation of the Oppolzer camphorsultam derivatives of glyoxylic oxime ether... 

Clerici and Porta reported that phenyl, acetyl and methyl radicals add to the Ca atom of the iminium ion, PhN+Me=CHMe, formed in situ by the titanium-catalyzed condensation of /V-methylanilinc with acetaldehyde to give PhNMeCHMePh, PhNMeCHMeAc, and PhNMeCHMe2 in 80% overall yield.83 Recently, Miyabe and co-workers studied the addition of various alkyl radicals to imine derivatives. Alkyl radicals generated from alkyl iodide and triethylborane were added to imine derivatives such as oxime ethers, hydrazones, and nitrones in an aqueous medium.84 The reaction also proceeds on solid support.85 A-sulfonylimines are also effective under such reaction conditions.86 Indium is also effective as the mediator (Eq. 11.49).87 A tandem radical addition-cyclization reaction of oxime ether and hydrazone was also developed (Eq. 11.50).88 Li and co-workers reported the synthesis of a-amino acid derivatives and amines via the addition of simple alkyl halides to imines and enamides mediated by zinc in water (Eq. 11.51).89 The zinc-mediated radical reaction of the hydrazone bearing a chiral camphorsultam provided the corresponding alkylated products with good diastereoselectivities that can be converted into enantiomerically pure a-amino acids (Eq. 11.52).90... 

Asymmetric Michael addition of nitromethane to a crotonyl camphorsultam gives access to the enantio-pure 2-oxoesters, which may be converted into the 3-hydroxy-5-methylpiperidin-... 

On the nitrone side, high levels of selectivities have been reached using camphorsultam-derived nitrone 87 since hexahydro-isoxazolo[2,3- ]pyridine 88 en route to (—)-histrionicotoxin was obtained as a single regio- and diaster-eoisomer <1999JA4900> (Scheme 28). A polyhydroxylated hexahydro-isoxazolo[2,3- ]pyridine could also be obtained starting from a nitrone derived from a C2-symmetric piperidine <2002TL9357>. 

The first diastereoselective synthesis of a tetrahydrothiophene derivative was reported by Karlsson and Hdgberg (32,95). The parent ylide la was added to a variety of C,C-dipolarophiles (79) bearing (—)-(15)-2,10-camphorsultam as the chiral auxiliary group to exclusively give trans-cycloadducts 80a,b with high diastereoselectivity [diastereomeric ratio (dr) 9 1], (Scheme 5.28). 

The enantiomeric synthesis of rranj-3,4-disubstituted tetrahydrothiophenes using a sulfur ylide cycloaddition has been reported <990L1667>. The sulfur ylide derived from the action of cesium fluoride on sulfide 111 underwent an asymmetric cycloaddition with chiral a,p-unsaturated camphorsultam amide 112 giving tetrahydrothiophene 113 (80% de). The configuration was confirmed by cleavage of the chiral auxiliary followed by reductive desulfurization with Raney-Ni which gave known carboxylic acid 114. 

For a related V-acyl camphorsultam see G. Bernardinelli, W. Oppolzer, D. Dupuis, Acta Crystallogr., Sect. C 42, 1460 (1986). 

A practicable strategy to provide access to chiral pyrazolidine-3-carboxylic acid (16) makes use of asymmetric dipolar cycloaddition of diazoalkanes to u,p-unsaturated carboxylic acid derivatives. For this purpose a chiral auxiliary of the alkene component is used, e.g. Op-polzer s1166 1671 (lf )-2,10-camphorsultam.t164l As shown in Scheme 7, by reaction of (tri-methylsilyl)diazomethane (41) with /V-( aery I oy I )cam p h ors u 11 am (42), the AL(4,5-dihy-dropyrazoline-5-carbonyl)camphorsultam (43) is obtained. Reduction of 44 with sodium cyanoborohydride leads to A-(pyrazolidine-3-carbonyl)camphorsultam (45) as the 35-dia-stereoisomer (ee 9 1) in 65 to 80% yields.[164] The camphorsultam 45 is then converted into the methyl ester 46 by reaction with magnesium methylate without racemizationj1641... 

Camphorsultam. A dry, 2-L, three-necked, round-bottomed flask is equipped with a 1.5-in egg-shaped Teflon stirring bar, a 250-mL addition funnel, and a 300-mL Soxhlet extraction apparatus equipped with a mineral oil bubbler connected to an inert gas source. The flask is charged with 600 mL of dry tetrahydrofuran (THF) (Note 1) and 6.2 g (0.16 mol) of lithium aluminum hydride (Note 2). Into the 50-mL Soxhlet extraction thimble is placed 35.0 g (0.16 mol) of (-)-(camphorsulfonyl)imine (Note 3) and the reaction mixture is stirred and heated at reflux. After all of the (camphorsulfonyl)imine has been siphoned into the reaction flask (3-4 hr), the mixture is allowed to cool to room temperature. The unreacted lithium aluminum hydride is cautiously hydrolyzed by dropwise addition of 200 mL of 1 N hydrochloric acid via the addition funnel (Note 4). After the hydrolysis is complete the contents of the flask are transferred to a 1-L separatory funnel, the lower, silver-colored aqueous layer is separated, and the upper layer placed in a 1-L Erlenmeyer flask. The aqueous phase... 

Camphorsultam was first prepared by the catalytic hydrogenation of (-)-(camphorsulfonyl)imine over Raney nickel.2 Lithium aluminum hydride reduction was used by Oppolzer and co-workers in their synthesis of the sultam.3-4 However, because of the low solubility of the sultam in tetrahydrofuran, a large amount of solvent was required.4 In the procedure described here the amount of solvent is significantly reduced by using a Soxhlet extractor to convey the imine slowly into the reducing medium.5... 

Oppolzefs chiral auxiliary,6 (-)-2,10-camphorsultam, is useful in the asymmetric Diels-Alder reaction,3 4 and for the preparation of enantiomerically pure p-substituted carboxylic acids7 and diols,8 in the stereoselective synthesis of A2-isoxazolines,9 and in the preparation of N-fluoro (-)-2,10-camphorsultam, an enantioselective fluorinating reagent.10... 

In addition to the synthesis of enantiomerically pure (camphorylsulfonyl)oxaziridine7 and its derivatives,8 the (camphorsulfonyl)imine has been used in the preparation of (-)-2,10-camphorsultam (Oppolzers auxiliary),6-9 (+)-(3-oxocamphorysulfonyl)oxaziridine10 and the N-fluoro-2,10-camphorsultam, an enantioselective fluorinating reagent.11... 

Michael C. Weismiller, James C. Towson, and Franklin A. Davis 154 SYNTHESIS OF (-)-D-2,10-CAMPHORSULTAM... 

A method of preparing either cis- or trans-aziridine carboxylates (39) from A-diphenylphosphinylimines (37) and the chiral enolate (36) derived from A-bromo-acetyl 25-2,10-camphorsultam (35) has been reported.54 When the arylimine is substituted in the ortho -position, the product is either a mixture of cis- and trans-aziridine or only the trans-isomer. When the ortho-substituent is H or NO2, only a cz s-aziridine is obtained. The suggested mechanism is partially shown in Scheme 18. Both steric and inductive effects of the ortho- substituent affect the stereochemistry of the addition complex (38) and the stereochemistry of the final aziridine. 

Asymmetric radical reactions. Curran et al,3 report several asymmetric reactions of radicals derived from Oppolzer s camphorsultam. Thus the reaction of the iodosultam 1 with allyltributyltin initiated by triethylborane provides an epimeric... 

A chiral synthesis of epibatidine is achieved by using a chiral amide derived from camphorsultam instead of the ester 450... 

Many chiral auxiliaries are derived from 1,2-amino alcohols.7 These include oxazolidinones (l),7-9 oxazolines (2),10 11 bis-oxazolines (3),1213 oxazinones (4),14 and oxazaborolidines (5).15-17 Even the 1,2-amino alcohol itself can be used as a chiral auxiliary.18-22 Other chiral auxiliaries examples include camphorsultams (6),23 piperazinediones (7),24 SAMP [(S)-l-amino-2-methoxy-methylpyrrolidine] (8) and RAMP (ent-8),25 chiral boranes such as isopinocampheylborane (9),26 and tartaric acid esters (10). For examples of terpenes as chiral auxiliaries, see Chapter 5. Some of these auxiliaries have been used as ligands in reagents (e.g., Chapters 17 and 24), such as 3 and 5, whereas others have only been used at laboratory scale (e.g., 6 and 7). It should be noted that some auxiliaries may be used to synthesize starting materials, such as an unnatural amino acid, for a drug synthesis, and these may not have been reported in the primary literature. 

Smith exploited a Lewis-acid-mediated asymmetric Diels-Alder reaction34 between 1,3-butadiene and the Oppolzer acryloyl camphorsultam 78 to set the remote C(29) stereocentre in phenylsulfone 57 (Scheme 17.17). This tactic procured acid 8 in 93% enantiomeric excess (ee), after base-promoted hydrolysis of the chiral auxiliary. Utilising a procedure published by Martin and co-workers,35 Smith iodolactonised acid 8, and... 

Oppolzer and co-workers34 have attributed the high topological bias observed in this [4 + 2]-cycloaddition to the chelated endo transition state shown in 109, wherein the diene adds to the less-hindered at face of the rigidly-held acrylimide (Scheme 17.29). This orientation for the alkene component appears to minimise steric repulsions between it and the camphorsultam framework. 

Highly diastereoselective alkyl radical addition to Oppolzer s camphorsultam derivative (33) of oxime provides enantiomerically pure a-alkyl-a-amino acid derivative (34) at — 78 °C by the same method as shown in eq. 10.16. Moreover, enantioselective tandem radical 1,2-difunctionalization of cinnamamide (35) can be carried out with high stereoselectivity, using the chelation manner of the cinnamamide and a chiral bisoxazoline ligand on Mgl2, as shown in eq. 10.17. 

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