Hydroxy-amides

Re-arrangement between amino-cster and hydroxy-amide forms in derivatives of amino-alcohols are not uncommon and the mechanism of this interchange in one series has been discussed by Phillips and Baltzly... [Pg.637]

In 1949, Comforth showed that preparation of 2,5-disubstituted oxazoles was not limited to diaryloxazoles through condensation of aldehydes (benzaldehyde, n-hept-aldehyde) with a-hydroxy-amides (lactamide). The intermediate oxazolidone 13 were converted into oxazoles 14 on warming with phosphoryl chloride. ... [Pg.235]

Wipf and Miller have reported side-chain oxidation of 3-hydroxy amides with the Dess-Martin periodinane, followed by immediate cyclodehydration with triphenylphosphine-iodine, which provides a versatile extension of the Robinson-Gabriel method to substituted oxazoles. Application of this method was used to prepare the oxazole fragment 10 in 55% overall yield from 3-hydroxy amide 8. [Pg.250]

When an a-hydroxy amide is treated with Br2 in aqueous NaOH under Hofmann rearrangement conditions, loss of C02 occurs and a chain-shortened aldehyde is formed. Propose a mechanism. [Pg.969]

When a cold (-78 °C) solution of the lithium enolate derived from amide 6 is treated successively with a,/ -unsaturated ester 7 and homogeranyl iodide 8, intermediate 9 is produced in 87% yield (see Scheme 2). All of the carbon atoms that will constitute the complex pentacyclic framework of 1 are introduced in this one-pot operation. After some careful experimentation, a three-step reaction sequence was found to be necessary to accomplish the conversion of both the amide and methyl ester functions to aldehyde groups. Thus, a complete reduction of the methyl ester with diisobutylalu-minum hydride (Dibal-H) furnishes hydroxy amide 10 which is then hydrolyzed with potassium hydroxide in aqueous ethanol. After acidification of the saponification mixture, a 1 1 mixture of diastereomeric 5-lactones 11 is obtained in quantitative yield. Under the harsh conditions required to achieve the hydrolysis of the amide in 10, the stereogenic center bearing the benzyloxypropyl side chain epimerized. Nevertheless, this seemingly unfortunate circumstance is ultimately of no consequence because this carbon will eventually become part of the planar azadiene. [Pg.467]

Racemic a-amino amides and a-hydroxy amides have been hydrolyzed enantio-selectively by amidases. Both L-selective and o-selective amidases are known. For example, a purified L-selective amidase from Ochrobactrum anthropi combines a very broad substrate specificity with a high enantioselectivity on a-hydrogen and a,a-disubstituted a-amino acid amides, a-hydroxyacid amides, and a-N-hydroxya-mino acid amides [102]. A racemase (a-amino-e-caprolactam racemase, EC 5.1.1.15) converts the o-aminopeptidase-catalyzed hydrolysis of a-amino acid amides into a DKR (Figure 6.38) [103]. [Pg.148]

The method is not restricted to secondary aryl alcohols and very good results were also obtained for secondary diols [39], a- and S-hydroxyalkylphosphonates [40], 2-hydroxyalkyl sulfones [41], allylic alcohols [42], S-halo alcohols [43], aromatic chlorohydrins [44], functionalized y-hydroxy amides [45], 1,2-diarylethanols [46], and primary amines [47]. Recently, the synthetic potential of this method was expanded by application of an air-stable and recyclable racemization catalyst that is applicable to alcohol DKR at room temperature [48]. The catalyst type is not limited to organometallic ruthenium compounds. Recent report indicates that the in situ racemization of amines with thiyl radicals can also be combined with enzymatic acylation of amines [49]. It is clear that, in the future, other types of catalytic racemization processes will be used together with enzymatic processes. [Pg.105]

Treatment of D-glucoascorbic acid (XV) with diazomethane gives a 2,3-dimethyl derivative (LXXIX) and this upon repeated treatment with silver oxide and methyl iodide yields 2,3,5,6,7-pentamethyl-D-glucoascorbic acid (LXXX). Ozonization of the latter followed by hydrolysis gives oxalic acid and 3,4,5-trimethyI-D-arabonic acid (LXXXI). This acid was shown to possess a free hydroxyl group at C2 by reason of the fact that the amide of LXXXI gives a positive Weerman reaction for a-hydroxy amides, i.e., when the amide is treated with sodium hypochlorite, sodium isocyanate is produced, the latter being identified by... [Pg.114]

Mamyama et al.25 have obtained high-molecular-weight poly(benzoxazole)s by the low-temperature solution polycondensation of A,A 0,0 -tetrais(trimethyl-silyl)-substituted 2,2-bis(3-amino-4-hydroxyphenyl)-l,l,l,3,3,3-hexafluoro-propane (25) with aromatic diacids and subsequent thermal cyclodehydration of the resulting poly(o-hydroxy amide)s in vacuo. In this method, aromatic diamines with low nucleophilicity are activated more positively through the conversion to the /V-silylated diamines, and the nucleophilicity of the fluorine-containing bis(o-aminophenol) can be improved by silylation. [Pg.144]

DMAc at 0 to 5°C for 8 h and fluorine-containing poly(o-hydroxy amides) (27) having an inherent viscosity of 0.40 dl/g is obtained (Scheme 15).25... [Pg.145]

In the second stage, the polyfo-hydroxy amides) (27) are subjected to thermal cyclodehydration to convert to poly(benzoxazole) (28). The conversion requires 15 to 20 h at 250°C in vacuo for its completion. The resulting poly(benzoxazole) (28) has an inherent viscosity of 0.49 dl/g. [Pg.145]

The precursor of poly(penzoxazole) (28), poly(o-hydroxy amide) (27) is amorphous and readily soluble in DMF, NMP, DMSO, pyridine, THF, and acetone.25 Transparent, flexible, and tough film of 27 can be obtained by casting. However, fluorine-containing poly(benzoxazole) (28) from 25 dissolves only in concentrated sulfuric acid and o-chlorophenol. [Pg.147]

N. Kambe, T. Inoue, and N. Sonoda 154 SYNTHESIS OF AN a-HYDROXY-AMIDE N.N-DIETHYL-2-HYDROXY-4-PHENYLBUTANAMIDE. GENERATION OF N.N-DIETHYL-CARBAMOYLLITHIUM VIA LITHIUM-TELLURIUM EXCHANGE AND ITS REACTION WITH 3-PHENYLPROPANAL... [Pg.305]

K. L. Amsberry, A. E. Gerstenberger, R. T. Borchardt, Amine Prodrugs Which Utilize Hydroxy Amide Lactonization. II. A Potential Esterase-Sensitive Amide Prodrug , Pharm. Res. 1991, 8, 455-461. [Pg.549]

The actual synthesis (Scheme 21) started with the stereoselective alkylation of Myers hydroxy-amide 131 [40] followed by reductive removal of the auxiliary to give 132 in high yield and enantioselectivity. Wittig olefination furnished enoate 133, which was then elaborated into the (E)-l-acetoxy-diene 129 using... [Pg.31]

As previously explored by Bode, other a-reducible substrates, such as a,P-epoxy aldehyde and aziridinylaldehyde, are competent partners for redox reactions. (Scheme 33) [109], Various amines are compatible nucleophiles in this methodology in which P-hydroxy amides are furnished in good yield and excellent diastereose-lectivity. A similar reaction manifold was discovered concurrently by Bode and co-workers using imidazole as co-catalyst [117],... [Pg.116]

Scheme 33 Synthesis of 3-hydroxy amides catalyzed by NHCs...

By analogy with the synthesis of a-hydroxy acids one can envisage a one-pot synthesis of a-hydroxy amides from aldehydes via hydrocyanation and in situ NHase-catalyzed hydrolysis to the amide. Since enantioselective NHases are very rare, the enantioselectivity should be derived from HnL-catalyzed hydrocyanation. The second step has been described for the Rhodococcus erythropolis NHase-catalyzed hydration of (R)-mandelonitrile to give the (R)-amide with retention of enantiopurity [43]. [Pg.125]

Activated A-alkyl-O-acylhydroxamic acid derivatives 75 undergo base catalysed rearrangement to give 2-acyloxyamides 76 in good to excellent yields (50-100%) (equation 26). These precursors of 2-hydroxy amides (77) are good intermediates to prepare ethanol-amines, oxindoles and oxazolidinediones. [Pg.360]

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