4- Oxazolin-2-ones synthesis

Early on in the study of the synthesis of taxol from baccatin III it was realized that the C-13 hydroxyl group of baccatin III is very hindered, so that acylation by a bulky protected side chain is difficult. One of the favored approaches to overcoming this problem is to protect the 2 -hydroxyl group through a cyclic structure, usually as an oxazolidine or an oxazoline. The synthesis of these protected side chains thus becomes an important goal. 

Ring fission occurs readily in many of these compounds. For example, azlactones, i.e. 4JT-oxazolin-5-ones containing an exocyclic C=C bond at the 4-position (508), are hydrolyzed to a-benzamido-a,/3-unsaturated acids (509), further hydrolysis of which gives a-keto acids (510). Reduction and subsequent hydrolysis in situ of azlactones is used in the synthesis of a-amino acids e.g. 508 -> 507). 

Azlactones — see also l,3-Oxazolin-5-ones Erlenmeyer synthesis, 6, 202 hydrolysis, S, 64, 101 tautomerism, 6, 186 unsaturated... 

The aziridine-2-carboxaldehyde 56 can also serve as synthon for the synthesis of sphingosines, which are important biomembrane constituents [64]. One possible route involves the addition of an alanate to the aldehyde. In a later stage of this synthetic plan the aziridine can be opened, either via the intermediacy of an oxazoline or directly with dilute acid. Unfortunately, the reaction of aldehyde 56 with a vinylalanate has a poor diastereoselectivity of 3 2. Therefore, an alternative approach was considered, namely one involving the addition of a vinylzinc reagent to the aldehyde thereby employing our N-tritylaziridinediphenyl-methanol 51 as the chiral catalyst. Gratifyingly, only one diastereomer was obtained. Reductive removal of the trityl function, acetylation of the hydroxy... 

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>. 

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. 

The discovery of oxazoline hydroxamates as potential inhibitors of LpxC was the result of high-throughput screening of large libraries of compounds at the Merck Research Laboratories in collaboration with the Department of Biochemistry, Duke University Medical Center [95]. The lead compound, L-573,655, was a racemic mixture of 4-carbohydroxamido-2-phenyl-2-oxazoline, which had been previously made by Stammer et al. [96] as a precursor in the chemical synthesis of cyclosporine. Namely, (R,S)-serine methyl ester hydrochloride (149) is converted into (R,S)-4-carbomethoxy-2-phenyl-2-oxazoline (150) via treatment with ethyl benzimidate using the Elliot procedure [97]. Treatment of this ester with one equivalent each of hydroxylamine and sodium methoxide in methanol at room temperature affords the desired (R,S)-4-carbohydroxamido-2-phenyl-2-oxazoline (151), as depicted in Scheme 30. 

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. 

Synthesis of natural-type aminopolysaccharide having dibenzylchitin structure was achieved by the polymerization of a sugar oxazoline monomer, 1 having one hydroxy group at position 4 (Scheme 4) [9]. The polymerization was carried out with an acid catalyst in 1,2-dichloroethane solvent at reflux temperature. All the H-NMR, C-NMR, and IR spectra as well as elemental analysis data of the isolated polysaccharide supported that the polymerization proceeded by the stereoregular glycosylation to give (1 4)-... 

A ferrocenyloxazoline with only one adjacent position available for deprotonation will lithiate at that position irrespective of stereochemistry. This means that the same oxazoline can be used to form ferrocenes with either sense of planar chirality. The synthesis of the diastereoisomeric ligands 311 and 313 illustrates the strategy (Scheme 143), which is now commonly used with other substrates to control planar chirality by lithiation (see below). Ferrocene 311 is available by lithiation of 305 directly, but diastereoselective silylation followed by a second lithiation (best carried out in situ in a single pot) gives the diastereoisomeric phosphine 313 after deprotection by protodesilylation ". ... 

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. ° ... 

Tundo and colleagues reported the synthesis of 4-oxazolin-2-one 110 by [3,3]-sigmatropic rearrangement of an enehydroxylamine derivative 109 resulting from the reaction of a ketoxime with dimethyl carbonate at high temperatures and in basic medium (equation 33). 

Most of the reports, since the 1980s, on the chemistry of 2-oxazolones concern 2(3f/)-oxazolones (4-oxazolin-2-ones) 1 and only few reports have appeared on the isomeric 2(5//)-oxazolones (5-oxazolin-2-ones) 2. Thus, the emphasis of this chapter has been to survey information on the synthesis and reactions of the 2(3//)-oxazolones 1 that has appeared over the past two decades. 

The 5-oxazolones or oxazolin-5-ones are very interesting heterocyclic compounds that have been used as intermediates in the synthesis of a variety of organic molecules. Two structural classes are possible, the 5(27T)-oxazolones (or 3-oxazo-lin-5-ones) and 5(47T)-oxazolones (or 2-oxazolin-5-ones). These structures differ only in the position of the double bond. Apart from the presence of the heteroatoms (N and O), the carbonyl group and the double bond, the 2- or 4-position, respectively, can be saturated or unsaturated. The isomeric 5-oxazolones are... 

Proton abstraction and epimerization of activated oxazolines is comparable to a similar epimerization known for oxazolidinones. For example, Omura and Smith reported an elegant synthesis of all four stereoisomers of 3-hydroxyleucine from ( )-4-methyl-2-penten-l-ol (Scheme 8.123). One of the key steps was the efficient epimerization of the cis-oxazolidinone ester 380 to the trans-oxazohdinone acid 381 during saponihcation. 

Oxazoline-directed aromatic substitution and addition reactions provide synthetic chemists with powerful tools for the construction of complex aromatic compounds. Since the last authoritative review by Meyers, these technologies have matured and found widespread applications in organic synthesis. While there has been somewhat limited methodological research in this area in the intervening years, one particularly exciting new development is the diastereoselective ortho-metalations directed by chiral oxazolines. Sections 8.3.9.1-8.3.9.3 will discuss these new developments as well as new synthetic applications of these reactions. 

One of the most useful aspects of the oxazoline-directed aromatic substitution is the synthesis of biaryls. This method nicely complements other well-known biaryl... 

Oxazoline-directed conjugate addition of nucleophiles to a naphthalene nucleus is one of the most useful methods to prepare dihydronaphthalenes. Since Meyers last comprehensive review, the focus has been directed to stereoselective synthesis of these important compounds. Meyers laboratory has continued their preeminence in this field and has expanded the scope and applications of this reaction. 

The power of chiral C2-symmetric bis(oxazolines) in cyclopropanation reactions has also been exhibited in total synthesis. One example is Corey and co-workers synthesis of sirenin 63 using bis(oxazoline) ligand 8 (Fig. 9.19). They showed that the intramolecular cyclopropanation of diazo derivative 61 proceeded in 77% yield and with 90% ee. Shibasaki and co-workers constructed prostratin 67 through the intermediate cyclopropane 66, also shown in Figure 9.19. Using bis(oxazoline) ligand 64 and copper(I) triflate-derived catalyst, compound 66 was prepared in 70% yield and 92% ee from diazo derivative 65. ... 

In the mid-seventies, with the development of generally applicable stoichiometric asymmetric syntheses, especially the Meyers oxazoline methodology as the first one, the scientific community began to believe that asymmetric synthesis really worked resulting in an explosive growth of this new field. Later on, and mainly driven by the fact that the biological activity of enantiomers is usually different, dozens of new chemical companies were founded all over the world in a newly created area called chirotechnology . 

P,y-Unsaturated ketones. The last step in a synthesis of /J.y-enones involves hydrolysis of a 2-allyl-3-oxazoline-5-one, previously conducted with Ba(OH)2 in variable yield. Recent investigations reveal that treatment with CrfOAclj-HjPOj or reduction with NaBIl4 in TlIE -CIljOH followed by a treatment with citric acid is superior. 

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