Oxazolines, 2-substituted, synthesis

A novel reaction for the synthesis of 4-amino-substituted quinolines 80 or 4-quinolones 81 was reported. Reaction of various ketones, such as 82 and 83, with o-oxazoline-substituted anilines 84 and 85 in the presence of a catalytic amount of /Mol ucncsul tonic acid (p-TSA) in dry w-butanol led to 80 and 81, respectively <06T9365>. To the authors surprise, the reaction of acetophenones 82 lead to a different outcome than that of the cyclic or acyclic ketones 83 containing more than one carbons a to the ketone. 

Chiral oxazolines have also been utilized for the synthesis of ehiral ketones bearing quaternary earbon stereoeenters. As shown below, reaetion of substituted oxazoline 30 with 2 equiv PhLi followed by treatment with benzyl bromide gives ketone 33 upon aeidie hydrolysis. This reaetion is believed to proeeed via addition of PhLi to keteneimine 31 to afford metalated enamine 32, whieh undergoes alkylation at the nueleophilie earbon to provide 33 after aqueous workup. ... 

Scheme 16 Failed attempts for the synthesis of 5-substituted 2-oxazolines...

The use of chiral bis(oxazoline) copper catalysts has also been often reported as an efficient and economic way to perform asymmetric hetero-Diels-Alder reactions of carbonyl compounds and imines with conjugated dienes [81], with the main focus on the application of this methodology towards the preparation of biologically valuable synthons [82]. Only some representative examples are listed below. For example, the copper complex 54 (Scheme 26) has been successfully involved in the catalytic hetero Diels-Alder reaction of a substituted cyclohexadiene with ethyl glyoxylate [83], a key step in the total synthesis of (i )-dihydroactinidiolide (Scheme 30). 

Gade and Bellemin-Laponnaz have reported the synthesis, in good yields, of chiral oxazoline-imidazoliums salts 10a (Scheme 8) obtained by reaction of 2-bromo-4(S)-t-butyl oxazoline with several mono-N-substituted imidazoles [16]. Similaly an imidazolium salt 10b bearing a paracyclophane substituent was prepared by Bolm [17]. 

In addition to the simple substitutions shown in Scheme 1, this reaction has been used in a variety of complex systems as a route to optically active substances. For example, use of chiral oxazolines in this coupling process has led to an asymmetric synthesis of (-)-steganone,3 podophyllotoxin,4 (-)-schizandrin,5 and (+)-phylictralin.6 The synthesis of (-)-schizandrin is sketched in Scheme 2. 

A direct catalytic conversion of esters, lactones, and carboxylic acids to oxazolines was efficiently achieved by treatment with amino alcohols in the presence of the tetranuclear zinc cluster Zn4(0C0CF3)60 as catalyst, essential for condensation and cyclodehydration reactions. For example, the use of (5)-valinol allowed the easy synthesis of oxazolines 125 and 126 in satisfactory yields <06CC2711>. A one-pot direct preparation of various 2-substituted oxazolines (as well as benzoxazoles and oxadiazoles) was also performed from carboxylic acids and amino alcohols (or aminophenols or benzhydrazide) using Deoxo-Fluor reagent <06TL6497>. 

An alternative procedure for the synthesis of aliphatic 2-substituted oxazoline hydroxamates was described by Pirrung and colleagues in the context of preparing inhibitors of E. coli LpxC zinc amidase [378], As shown in Scheme 6.210 a, the protocol involved the cyclization of suitable amides, formed in situ by acylation of a serine-derived 0-2,4-dimethoxybenzyl (DMB)-protected hydroxamate. The cyclization... 

The ferrocene-oxazoline catalyst 19 (Fig. 29.7) has recently been used to hydrogenate substituted quinolines [18]. The ligand synthesis is again similar to that of the original PHOX ligand, with introduction of phosphorus via orthometallation. 

Lithiated chiral oxazolines have been shown to react with various electrophiles, generating a new asymmetric center with considerable bias. This process has led to the synthesis of optically active a-alkylalkanoic acids,47 n-hydroxy(methoxy)alkanoic acids,48 / -hydroxy(methoxy)alkanoic acids,49 n-substituted y-butyrolactones,50 and 2-substituted-l,4-butanediols (Fig. 2-4).50... 

Preparation of the chiral biphenyls and binaphthyls with high enantiose-lectivity can be achieved via substitution of an aromatic methoxyl group with an aryl Grignard reagent using oxazoline as the chiral auxiliary.38 Schemes 8-10 and 8 11 outline the asymmetric synthesis of such chiral biaryl compounds. 

Lowenthal and Masamune (44) investigated the cyclopropanation of trisubsti-tuted alkenes leading to a chrysanthemic acid synthesis. They found that ligand 50c provided poor selectivities in this case (24% de for the trans isomer). Substitution in the 5 position of the oxazolines leads to increased selectivities, with excellent results provided by the BHT ester (94 6, 94% ee), Eq. 32. This ligand proved to be applicable to other trisubstituted and several cis-disubstituted alkenes, providing the corresponding cyclopropanes in ee values of 82-95%. These authors note that catalysts generated from CuOTf, CuOf-Bu, and Cu(II) precursors (with activation) provided similar yields and enantioselectivities. 

Gu, R.-L., Lee, I.S. and Sih, C.J., Chemo-enzymatic asymmetric synthesis of amino acids. Enantioselective hydrolyses of 2-phenyl-oxazolin-5-ones. Tetrahedron Lett., 1992, 33, 1953-1956 Crich, J., Brieva, R., Marquart, P., Gu, R.-L., Flemming, S. and Sih, C.J., Enzymic asymmetric synthesis of a-amino acids. Enantioselective cleavage of 4-substituted oxazolin-5-ones and thiazolin-5-ones. J. Org. Chem., 1993, 58, 3252-3258. 

Gawley and coworkers showed that oxazolines can be used in place of formamidines for asymmetric alkylations of tetrahydroisoquinolines. A number of substituted oxazolines were evaluated as chiral auxiliaries, and one derived from valinol was found to be optimal. Interestingly, the same enantiomer of valinol affords the opposite enantiomers of the substituted tetrahydroisoquinoline when incorporated into formamidine or oxazoline auxiliaries. An example is shown in Scheme 58, as applied to a synthesis of laudanosine and the morphinan 9-7 -0-methylflavinantine. ° ... 

In general, 2-amino-substituted oxazolines are more resistant to acid hydrolysis. For example, the 2-aminooxazoline moiety in the protected azasugar 316 was preserved during acid cleavage of a ketal in the hnal step of a trehazolin synthesis (Scheme 8.93). ° ... 

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