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Subject reaction with aldimines

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],... [Pg.77]

To a solution of aldimine 1 (0.01 mol) in acetone, added ethyl-a-mercapto/a-cya-noacetate (0.01 mol) followed by basic alumina (20 g) with constant stirring. The reaction mixture taken in a beaker, was thoroughly mixed and the adsorbed material was dried in air. The adsorbed reactant in the beaker was placed in an alumina bath and subjected to microwave irradiation for 1-2 min. On completion of the reaction as followed by TLC examination, the mixture was cooled to room temperature and the product was extracted into acetone (3x15 mL). Recovering of solvent under reduced pressure yielded the product, which was purified by recrystallization from the mixture of ethanol-acetone. [Pg.124]

Imines and their derivatives could be used in an analogous way to aldehydes, ketones, or their derivatives this subject has been reviewed [79]. A competition experiment between an aldimine and the corresponding aldehyde in the addition to an enol silyl ether under titanium catalysis revealed that the former is less reactive than the latter (Eq. 14) [80]. In other words, TiCU works as a selective aldehyde activator, enabling chemoselective aldol reaction in the presence of the corresponding imine. (A,0)-Acetals could be considered as the equivalent of imines, because they react with enol silyl ethers in the presence of a titanium salt to give /5-amino carbonyl compounds, as shown in Eqs (15) [81] and (16) [79,82]. [Pg.663]

Strecker reaction to establish a new stereocenter is subject to asymmetric induction, capable of creating either a tertiary" or quaternary carbon atom in the presence of 59. The peptido-imine 60 proves to be an excellent ligand for the Ti(IV)-mediated cyanation of aldimines. On catalysis of the bicyclic guanidine 61 the addition of HCN to A-benzhydrylaldimines affords a-amino nitrile derivatives with moderate to good ee. ... [Pg.107]

Figure 11.13 Reactions at a-carbon of a-amino acids catalyzed by pyridoxal enzymes All three substituents at C are subject to labilization in the three types of a-carbon reactions. The hydrogen is labilized in recemization reactions, the amino group is labUized in the transamination and the carboxyl group is labilized in decarboxylation. a-Amino acid condenses with pyridoxal phosphate to yield pyridoxylidene imino acid (an aldimine). The common intermediate, aldimine and distinct ketimines leading to the production of oxo-acid (in transamination), amino acid (in racemization) and amine (in decarboxylation) are shown. The catalytic acid (H-A-) and base (-B ) are symbolic both can be from the same residue such as Lys258 in aspartate aminotransferase. Figure 11.13 Reactions at a-carbon of a-amino acids catalyzed by pyridoxal enzymes All three substituents at C are subject to labilization in the three types of a-carbon reactions. The hydrogen is labilized in recemization reactions, the amino group is labUized in the transamination and the carboxyl group is labilized in decarboxylation. a-Amino acid condenses with pyridoxal phosphate to yield pyridoxylidene imino acid (an aldimine). The common intermediate, aldimine and distinct ketimines leading to the production of oxo-acid (in transamination), amino acid (in racemization) and amine (in decarboxylation) are shown. The catalytic acid (H-A-) and base (-B ) are symbolic both can be from the same residue such as Lys258 in aspartate aminotransferase.
Peddinti also reported a simple and efficient one-pot synthesis of benzoxazolic bicyclo[2.2.2]octenones 29-31 by subjecting 2-methoxy-substituted phenolic aldimines of type 26 to a similar treatment with DIB in the presence of the same kind of dienophiles 24, or furans, in MeOH [47], This clever domino reaction starts with a DIB-mediated oxidative cychzation of the phenolic aldimines into the phenolic benzoxazoles 27, which are then converted, with a second equivalent of DIB, into the MOBs 28 that are finally trapped with excess of dienophile to furnish selectively the expected [4+2] cycloadducts 29-31 (Fig. 11) [47]. [Pg.33]

Following advances made in reduction reactions (vide supra), hydroboration and diboration have been the subject of intense investigation with NHC-Cu catalysts. Early work by Sadighi revealed that [(ICy)Cu(Ot-Bu)] efficiently catalyzed the 1,2-diboration of aldehydes. Mechanistic studies permitted to rationalize a number of features of this reaction and notably ruled out a possible oxidative addition pathway to favour c-activation of the diboron reagent by the copper centre. [(ICy)Cu(Ot-Bu)] was also used for the diaster-eoselective diboration—in fact, hydroboration after work-up—of sulfinyl aldimines. ... [Pg.322]

See other pages where Subject reaction with aldimines is mentioned: [Pg.113]    [Pg.140]    [Pg.355]    [Pg.47]    [Pg.113]    [Pg.176]    [Pg.336]    [Pg.111]    [Pg.136]    [Pg.149]    [Pg.680]   


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Aldimine

Aldimines

Reaction with aldimines

Subject aldimines

Subject reactions

Subject reactions with

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