Subject with imines

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. 

Compared with aldehydes and ketones, aldimines and ketimines are less reactive towards nucleophilic addition. Furthermore, imine additions are subject to steric constraints, and rapid deprotonation proceeds with imines bearing ot-hydrogen atoms. The Lewis acid promoted addition methodology has provided a solution to these problems. 

The reaction of ester enolates with imines is a general method for the preparation of /5-lactams. This reaction is clearly not a concerted cycloaddition. The enolate adds to the imine generating an arnido ester intermediate. This intermediate, which is usually not isolated, cyclizes to give the /3-lactam. Since this subject has been recently reviewed81, only the stereochemical aspects of this reaction will be discussed here. In this reaction there are four possible sites for the chiral auxiliary. As in ketene imine cycloadditions, stereogenic centers can be introduced into the substituent on the imine carbon (R1), the substituent on the imine nitrogen (R2) or the substituent on the acyl portion of the ester (R3). There is a fourth possibility in these cycloadditions since the stereogenic center can also be introduced into the alkyl portion of the ester (R4), In some cases /r K-/ -lactams are obtained exclusively, while in other cases, mixtures of cis- and trans-isomers are isolated. 

In 1998, Anderson reported a diastereoselective synthesis of vicinal diamines involving acid-catalyzed aza-Henry (or nitro-Mannich) reactions of nitro-alkanes 296 with imines 297 (Scheme 11.38) (188). Subsequent reduction of the nitro group could be carried out with Sml2 to give the corresponding 1,2-anti diamines 299. The development of catalytic enantioselective aza-Henry reactions would provide access to such structurally important 1,2-diamino building blocks in optically active form and has been the subject of considerable attention [23, 189]. 

Anilines react with ct-haloacetophenones to give 2-arylindoles. In a typical procedure an W-phenacylaniline is heated with a tw o-fold excess of the aniline hydrobromide to 200-250°C[1]. The mechanism of the reaction was the subject of considerable investigation in the 1940s[2]. A crucial aspect of the reaction seems to be the formation of an imine of the acetophenone which can isomerize to an aldimine intermediate. This intermediate apparently undergoes cyclization more rapidly (path bl -> b2) than its precursor (Scheme 7.3). Only with very reactive rings, e.g, 3,5-dimethoxyaniline, has the alternative cydiz-ation (path al a2) to a 3-arylindole been observed and then only under modified reaction conditions[3],... 

Equiv of the imine 2 is dissolved in the appropriate solvent and 1 cquiv of the silyl ketene acetal 1 is added, the mixture is cooled to —70 °C and 0.1 equiv of TMSTf is added. After 15 h the reaction is quenched with H.O. 10% aq NH40H is added to make the piT basic, and the reaction mixture is extracted with F.tOAc. The crude product (obtained after the usual workup) is subjected to silica gel chromatography (pet. cthcr/Et20) to give the pure /J-amino ester 3. 

There are expressions of uncertainty concerning the mechanism of the first step of the Strecker amino acid synthesis13-17. The reaction can proceed via the formation of an imine and subsequent nucleophilic attack of cyanide (path ). Alternatively, it has been speculated that the reaction of the aldehyde with hydrogen cyanide furnishes a cyanohydrin (path ), which then is subjected to a nucleophilic displacement of the hydroxy group by the amino function. 

The photoelimination of carbon dioxide from esters and lactones is a process that has been the subject of detailed investigations. Discussion here is limited to nitrogen containing systems. 3,4-Diphenylsydnone (464), on irradiation in benzene, is converted via the nitrile imine 465 into 2,4,5-triphenyl-1,2,3-triazole (466)388 initial bond formation between N-2 and C-4 followed by loss of carbon dioxide to give the diazirine 467 is proposed to account for the formation of the nitrile imine. Nitrile imines generated in this way have been trapped with alkenes and alkynes to give pyrazoles389... 

In 2001, Sarko and coworkers disclosed the synthesis of an 800-membered solution-phase library of substituted prolines based on multicomponent chemistry (Scheme 6.187) [349]. The process involved microwave irradiation of an a-amino ester with 1.1 equivalents of an aldehyde in 1,2-dichloroethane or N,N-dimethyl-formamide at 180 °C for 2 min. After cooling, 0.8 equivalents of a maleimide dipo-larophile was added to the solution of the imine, and the mixture was subjected to microwave irradiation at 180 °C for a further 5 min. This produced the desired products in good yields and purities, as determined by HPLC, after scavenging excess aldehyde with polymer-supported sulfonylhydrazide resin. Analysis of each compound by LC-MS verified its purity and identity, thus indicating that a high quality library had been produced. 

The ligand reaction step may occur either with the template metal still intact or may take place after removal of the metal ion from the ring. As already mentioned, many of the Schiff-base macrocycles are unstable in the absence of a coordinated metal ion. However, for such systems, it has often been possible to hydrogenate the coordinated imine functions directly. The resulting saturated ligands will not be subject to the hydrolytic degradation which occurs for the imine precursors in the absence of their metal ion. 

Complexation of an amino acid derivative with a transition metal to provide a cyanation catalyst has been the subject of investigation for some years. It has been shown that the complex formed on reaction of titanium(IV) ethoxide with the imine (40) produces a catalyst which adds the elements of HCN to a variety of aldehydes to furnish the ( R)-cyanohydrins with high enantioselectivity[117]. Other imines of this general type provide the enantiomeric cyanohydrins from the same range of substrates11171. 

Some 4,5-dihydro[l,2,4]triazolo[3,4-r-]benzo[l,2,4]triazines 57 easily reacted with aromatic aldehydes to result in the formation of synthetically valuable azomethine imines 58 <2005EJO3553>. The transformation took place at room temperature in the presence of tetrafluoroboric acid in 10 min in high yields. The product 58 was conveniently prepared and stored in the form of tetrafluoroborate salt, and was subjected to further reactions (e.g., 1,3-dipolar cycoadditions see Section 11.19.5.4.) by in situ liberation of the free base prior to transformation. 

To demonstrate the feasibility of organic synthesis using this support, the authors immobilized a N-Boc protected glycin (22) on the support (Scheme 7.5). After deprotection imine formation readily occurs with an excess of benzaldehyde. The product was then subjected to a Staudinger reaction with phenoxyacetylchlor-ide to yield the polymer supported / -lactam (26) which could be released to give the yS-lactam (27) with TEA in methanol. 

Poly[(aniline-2-chloroaniline)-4-toluenesulfonic acid salt] was obtained by oxidative copolymerization of aniline with 2-chloroaniline in solutions containing 4-toluenesulfonic acid. The copolymer salt was subjected to heat treatment under nitrogen atmosphere at elevated (about 150°C) temperatures. The heat-treated samples acquired electric conductivity of 2.7 X 10 f2 cm . According to ESR spectra, the heated poly[(aniline-2-chloroaniline)-4-toluenesulfonic salt] exists as the poly(semiquinone imine ion-radical) in which unpaired electrons are localized on or near the nitrogen atoms (Palaniappan 1997). 

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