Oxazolidinones Subject

The interesting structures of the Lasioderma compounds have been the subject of many syntheses, serving as models for stereocontrolled approaches. More recent syntheses of serricornin form two groups those using chiral auxiliaries (oxazolidinone [250],boronic esters [251],and SAMP/RAMP [252]) and those involving chemoenzymatic steps ([253-255]). 

Enolates or etiolate equivalents from chiral 3-acyl-2-oxazolidinones have also been subjected to electrophiles from various organometallic reagents (see Table n)36-39-44... 

The alcohol 177 was converted to starting substrates oxazolidinone 178 by acylation followed by reduction of the azide function along with cyclization. Oxazolidinone 178 was protected with f-butylpyrocarbonate-4-(dimethylamino) pyridine (DMAP) and triethylamine, which was further subjected to reductive cleavage of the benzyl ester unit to afford carboxylic acid 179. The treatment of 179 with solution of l-chloro-/V./V,2-trimethyl-1-propenv I airline resulted in the easy formation of the corresponding acid chloride which on reaction with imine in the presence of triethylamine provided the stereoselective formation of spiro-p-lactam 180. 

Most traditional methods use hydrochloric acid solutions as the acid reagent for the hydrolysis or alcoholysis of fi-lactams. Methanolic solutions of trimethylchloro-silane are able to generate HCI in situ, and the trick has been employed successfully for the methanolysis of fi-lactams in a route to aspartic acid derivatives [60, 61] and 2-oxazolidinones[62], respectively. Recently the use of silica-supported acid reagent has been reported as a convenient alternative. The reagent (Si02-Cl) prepared from admixing silica gel and SOCl2 in dichloromethane and subjected to dryness, is able to run the methanolysis of (1-lactams at room temperature in 20 min [63]. 

Stepwise Selective Amine and Amide Alkylation (Fig. 14) 44 A first alkylation step is performed by suspending (78) in a 2 M solution of a suitable alkyl halide in DMF at 50° for 24-48 h. After thorough washing with DMF (3x), CH2C12 (3x), and THF (3x) intermediate (79) (usually formed with >85% purity) is subjected to the final alkylation. The reaction flask is sealed with a fresh rubber septum and flushed with nitrogen followed by cooling to 0°. In a separate flame-dried 25-ml round-bottom flask 12 equiv. (with respect to 79) of 5-phenylmethyl-2-oxazolidinone is added. To the reaction flask freshly distilled THF is added (the appropriate volume to provide a 0.2 M solution of the 5-phenylmethyl-2-oxazolidi-none). The resulting clear solution is then cooled to —78° and 1.6 M n-butyl... 

Neri et al89 reported the desymmetrization of A-Boc-serinol 98 by the selective monoacetylation using PPL (porcine pancreas lipase) and vinyl acetate as the acylating agent in organic solvent. The mono acetylated product (R)-99 was obtained after 2 hours with 99% ee and isolated in 69% chemical yield. Traces of the diacetylated product 100 were observed. The cyclization of (R)-99 in basic medium afforded the racemic oxazolidinone 101. The latter was subjected to enzymatic hydrolysis in phosphate buffer affording (R)-... 

The capabilities of 5-8 for enantioselective cyclopropanation were determined (34) from reactions at room temperature of d- and/or /-menthyl diazoacetate (MDA) with styrene (Table 1), which allows direct comparison with results from both the Aratani (A-Cu) and Pfaltz (P-Cu) catalysts (19, 24). Cyclopropane product yields ranged from 50 to 75%, which were comparable to those obtained with chiral copper catalysts, but enantiomeric excesses were considerably less than those reported from use of either P-Cu or A-Cu. Furthermore, these reactions were subject to exceptional double diastereoselectivity not previously seen to the same degree with the chiral copper catalysts. Although chiral oxazolidinone ligands proved to be promising, the data in Table 1 suggested that steric interactions alone would not sufficiently enhance enantioselectivities to advance RI12L4 as an alternative to A-Cu or P-Cu. 

An asymmetric synthesis of the aminocyclopentitol has been achieved from an acylated oxazolidinone (Scheme 38).110 Thus, the acylated oxazolidinone 295 was subjected to boron triflate-catalyzed condensation with 3-butenal to yield the syn aldol product 297 in 63% yield. Similarly, the A-acyloxazoI idineth ione 296 delivered the aldol adduct 298 in 75% yield when enolized with TiCl4-(—)-sparteine and then... 

Combination of the reagents TiCU, BuaN, and TMSOTf, was reported to be effective for Claisen condensation, as exemplified in Eqs (42) and (43) [129]. When acyl-oxazolidinones were subjected to reaction with TiCU and a tertiary amine, homocoupling reaction at the a-position of the acyl group took place to give succinic acid derivatives [146], The lithium enolate of an ester or amide has been alkylated with an (N,C>)-acetal in the presence of Ti(0-/-Pr)4 (Eq. 44) [147,148]. 

It has been observed that addition of Lewis acids to the free radical allylation improved the chemical yield [101]. When substrates with a chiral auxiliary were subjected to free radical allylation in the presence of a Lewis acid, the desired allylated products were obtained with high stereoselectivity [94 d]. In these reactions the Lewis acid plays a pivotal role in fixing the conformation of radical intermediates. Recently Sibi indicated that an elevated reaction temperature accelerated inversion of the stereochemistry of the radical-centered carbon giving rise to greater diastereoselectivity (Scheme 12.39) [102]. When enantiomerically pure Lewis acids were employed as chiral auxiliaries enantioselective free radical allylation of sulfones [103] and oxazolidinones [104] were realized. In the latter reaction two contiguous chiral centers were generated successfully in a single operation with excellent stereoselectivity via tandem C-C bond formation both enantiomers can be se-... 

The propionate derivative of oxazolidinone 214 was allowed to condensate with the aldehyde 215 to furnish 216 in 87% yield. Borohydride reduction of 216 gave diol 217. Selective tosylation of the primary alcohol resulted in spontaneous cyclization to give the pyrrolidinium tosylate salt, which was converted to its chloride salt 218 in 83% yield. Selective mono-deprotection of the salt afforded the free hydroxyl 219, which was acetylated and then subjected to hydrogenolysis in the presence IM hydrochloric acid to allow the isolation of the C(4)Me analogue 220 as its hydrochloride salt in quantitative yield. 

Another issue is the formation of oxazolidinones, which has been the subject of study by several research groups and is considered to be part of a parasitic equilibrium for proline-catalysed aldol reactions. More recent studies have indicated that this parasitic equilibrium may not be true, and that reversible oxazolidinone formation may help keep proline in solu-tion. Figure 5.3 illustrates a generalised mechanism for proline catalysis involving enamine intermediates. As aforementioned, the formation of oxazolidinones may or may not be part of a parasitic equilibrium. 

The adducts from these reactions can be transformed in a variety of compounds. As mentioned earlier, the unstable a-hydrazinoaldehydes are often not isolated but rather subjected to further reactions to yield a more stable compound, such as amino alcohols or oxazolidinones. Other transformations are illustrated in Scheme 11.5. For example, the so-formed a-hydrazinoaldehyde can further react with acetone under catalysis by 1 in a one-pot fashion to give optically active amino alcohols containing two stereogenic centers [19]. A subsequent Passerini reaction of the a-hydrazinoal-dehyde can be performed by reacting the aldehyde with an isocyanide. Schmidt and co-workers [20] have shown that this sequential reaction can provide rapid access to... 

Very recently, Compain proposed an approach to spirocyclic imino sugars (Scheme 41). The synthetic route started from known cyclobutanol 208, which was transformed into carbamate 209. Rhodium-catalyzed intramolecular C-H amination performed on that compound led to oxazolidinone 211. Subsequently, this compound was Al-allylated and subjected to the ring-closing metathesis with the Grubbs II cat. As a... 

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