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Imines intramolecular

Anilides with pendant double bonds 898 undergo DMP-induced stereoselective oxidative cyclization to give complex and diverse natural product-like polycycles 899 (Scheme 3.361) [1176,1277]. This oxidative cyclization is proposed to occur by the initial ortho directed oxidation of anilide 898 to give an ort/io-hydroxylated benzene ring that is further oxidized to the quinone imine intramolecular Diels-Alder cyclization of the... [Pg.301]

Ma has developed a three-component allene carboamination reaction for the stereoselective synthesis of 2,5-as-disubstituted pyrrolidine derivatives [54]. A representative transformation involving allene 58, 4-iodoanisole, and imine 59 that generates 60 in 90% yield is shown below (Eq. (1.28)). The reaction is believed to proceed through the intermediate Jt-allylpalladium complex 62, which is formed by carbopalladation of the alkene to give 61 followed by addition of the malonate anion to the activated imine. Intramolecular capture of the allylpalladium moiety by the pendant nitrogen nucleophile affords the pyrrolidine product. A related asymmetric synthesis of pyrazolidines that employs azodicarboxylates as one of the electrophilic components has also been reported [55]. The pyrazolidine products are obtained with up to 84% ee when chiral bis oxazolines are employed as ligands. [Pg.12]

Enamines derived from ketones are allylated[79]. The intramolecular asymmetric allylation (chirality transfer) of cyclohexanone via its 5-proline ally ester enamine 120 proceeds to give o-allylcyclohexanone (121) with 98% ee[80,8l]. Low ee was observed in intermolecular allylation. Similarly, the asymmetric allylation of imines and hydrazones of aldehydes and ketones has been carried out[82]. [Pg.308]

Amines undergo aminopalladation to alkynes. The intramolecular addition of amines to alkynes yields cyclic imines. The 3-alkynylamine 273 was cyclized to the 1-pyrroline 274, and the 5-alkynylamine 275 was converted into the 2,3,4,5-tetrahydropyridine 276[137]. Cyclization of o-(l-hexynyl)aniline (277)... [Pg.502]

As was the case with reactions of vinylindoles, the most elaborate synthetic targets approached by the indole-2,3-quinodimethane route have been alka-loids[18]. The route has been applied to aspidospenna[l9 ] and kopsine[20] structures. The fundamental reaction pattern is illustrated in equation 16.7. An indole-2,3-quinodimethane is generated by W-acylation of an Ai-(pent-4-enyl)-imine of a 2-methyl-3-formylindole. Intramolecular 2 -P 4 cydoaddition then occurs. [Pg.168]

The tertiary amine is formed in a similar manner from the imine and a secondary amine. This side reaction can be minimized by carrying out the hydrogenation in the presence of ammonia, which tends to shift the equiHbrium back towards the imine. When a compound with two or more nitrile groups is hydrogenated, the formation of both cycHc and acycHc secondary and tertiary amines is possible, depending on whether the side reaction is intramolecular or intermolecular. For example, for the hydrogenation of adiponitfile ... [Pg.258]

Another type of bifunctional catalysis has been noted with a,cn-diamines in which one of the amino groups is primary and the other tertiary. These substituted diamines are from several times to as much as 100 times more reactive toward imine formation than similar monofunctional amines. This is attributed to a catalytic intramolecular proton transfer. [Pg.494]

An elegant approach to fluonnated (3-lactams starts with a Reformatshi reaction of alky] halodifluoroacetates on imines, followed by an intramolecular acyla non of the ammo function formed in situ [49] (equation 24)... [Pg.532]

The formation of bicyclic imines (263,264) from piperidine enamines and y-bromopropyl amines may appear at first sight to be a simple extension of the reactions of enamines with alkyl halides. However, evidence has been found that the products are formed by an initial enamine exchange, followed by an intramolecular enamine alkylation. Thus y-bromodiethylamino-propane does not react with piperidinocyclohexene under conditions suitable for the corresponding primary amine. Furthermore, the enamine of cyclopentanone, but not that of cyclohexanone, requires a secondary rather than primary y-bromopropylamine, presumably because of the less favorable imine to enamine conversion in this instance. [Pg.351]

Comforth has reviewed literature reports and independently studied the special cases of reaction of 1 with salicylaldehyde and with 2-acetoxybenzaldehyde. Coumarins (10) are afforded in the condensation of 1 with salicylaldehyde or its imine, whereas when 2-acetoxybenzaldehyde is used, acetoxy oxazolone 12 is the major product. The initial aldol condensation product between the oxazolone and 2-acetoxybenzaldehyde is the 4-(a-hydroxybenzyl)oxazolone 11, in which base-catalyzed intramolecular transacetylation is envisioned. The product 9 (R = Ac) can either be acetylated on the phenolic hydroxy group, before or after loss of acetic acid, to yield the oxazolone 12, or it can rearrange, by a second intramolecular process catalyzed by base and acid, to the hydrocoumarin, which loses acetic acid to yield 10. When salicylaldehyde is the starting material, aldol intermediate 9 (R = H) can rearrange directly to a hydrocoumarin. Comforth also accessed pure 4-(2 -hydroxyphenylmethylene)-2-phenyloxazol-5(4//)-one (13) through hydrolysis of 12 with 88% sulfuric acid. [Pg.230]

Two possible mechanisms exist for the Friedlander reaction. The first involves initial imine formation followed by intramolecular Claisen condensation, while the second reverses the order of the steps. Evidence for both mechanisms has been found, both... [Pg.411]

The Pictet-Spengler reaction is an acid-catalyzed intramolecular cyclization of an intermediate imine of 2-arylethylamine, formed by condensation with a carbonyl compound, to give 1,2,3,4-tetrahydroisoquinoline derivatives. This condensation reaction has been studied under acid-catalyzed and superacid-catalyzed conditions, and a linear correlation had been found between the rate of the reaction and the acidity of the reaction medium. Substrates with electron-donating substituents on the aromatic ring cyclize faster than the corresponding unsubstituted compounds, supporting the idea that the cyclization process is involved in the rate-determining step of the reaction. [Pg.470]

Molecular and crystal structures of the macroheterocycle 102 were studied by X-ray [96JCS(D)1203]. As for bis-imines of di(o-formylphenyl) telluride 106, [89MI1 91JOM(402)331] only one of two potentially possible intramolecular coordination N Te bonds exists in a molecule of the macrocycle 102, which, in... [Pg.34]

Intramolecular reactions of nitrile imines as a fruitful source of heterocycles 98H(47)541. [Pg.217]

See other pages where Imines intramolecular is mentioned: [Pg.533]    [Pg.809]    [Pg.243]    [Pg.88]    [Pg.65]    [Pg.357]    [Pg.533]    [Pg.809]    [Pg.243]    [Pg.88]    [Pg.65]    [Pg.357]    [Pg.261]    [Pg.181]    [Pg.438]    [Pg.147]    [Pg.42]    [Pg.23]    [Pg.208]    [Pg.138]    [Pg.80]    [Pg.271]    [Pg.219]    [Pg.204]    [Pg.1305]    [Pg.57]    [Pg.61]    [Pg.467]   
See also in sourсe #XX -- [ Pg.581 ]



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