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Nitrogen heterocycles, synthesis from

One final example that underscores the power of intramolecular domino reactions to achieve the stereoselective synthesis of complex nitrogen heterocycles comes from the work of Barluenga and Gonzalez, who studied the preparation of tetrahydro-quinolines by intramolecular arylation of olefins induced by the in-house developed IPy2BF4 iodonium reagent. When applied to amine 102, this method afforded the tetracyclic compound 103 by the creation of three rings and five stereocenters in an elegant, fully diastereoselective cationic cyclization cascade (Scheme 3.32) [79]. [Pg.69]

Synthesis of the title compound is representative of a number of syntheses of nonaromatic nitrogen heterocycles via Pd(Ill-catalyzed amination of olefins. These tosylated enamines are not readily available by standard synthetic methods, and show potential for further functionalization of the heterocycle. The saturated amine can be synthesized from the title compound by hydrogenation of the double bond followed by photolytic deprotection. ... [Pg.55]

As discussed in Chapter 6, nitro compounds are converted into amines, oximes, or carbonyl compounds. They serve as usefid starting materials for the preparation of various heterocyclic compounds. Especially, five-membered nitrogen heterocycles, such as pyrroles, indoles, ind pyrrolidines, are frequently prepared from nitro compounds. Syntheses of heterocyclic compounds using nitro compounds are described partially in Chapters 4, 6 and 9. This chapter focuses on synthesis of hetero-aromadcs fmainly pyrroles ind indolesi ind saturated nitrogen heterocycles such as pyrrolidines ind their derivadves. [Pg.325]

The reaction of A-acyliminium ions with nucleophilic carbon atoms (also called cationic x-amidoalkylation) is a highly useful method for the synthesis of both nitrogen heterocycles and open-chain nitrogen compounds. A variety of carbon nucleophiles can be used, such as aromatic compounds, alkcncs, alkyncs, carbcnoids, and carbanions derived from active methylene compounds and organometallics. [Pg.803]

The majority of sequential radical reactions deal with cyclizations as the key steps. The constructions of carbocycles, oxygen, and nitrogen heterocycles using (TMSlsSiH as a mediator are many and represents the expansion and importance of these synthetic approaches. For example, Nicolaou and coworkers found that (TMSlsSiH serves as a superior reagent in the radical-based approach toward the synthesis of azadirachtin, an antifeedant agent currently used as an insecticide, and in other related systems. ° ° Here below we collected a number of reactions mostly from the recent work in the area of intramolecular reactions. [Pg.139]

A convenient synthesis of 6-cyanopurines from A-THP protected 6-chloropurines is that shown in Scheme 16. This method should be applicable to other chloro nitrogen heterocycles <95CCC1386>. [Pg.284]

In Table IV some physical data and spectral characteristics of 6,7-secoberbines are listed. Only methyl corydalate (55) is optically active. Formula 55 presents the spatial structure of this compound, deduced by Nonaka et al. (65) and confirmed by Cushman et al. by both correlation with (+)-mesotetrahydrocorysamine (72) (<5S) and total synthesis (69). It is difficult to find common characteristic features in both the mass and H-NMR spectra of these alkaloids because they differ significantly from each other in their structures. On one hand, corydalic acid methyl ester (55) incorporates a saturated nitrogen heterocycle, while the three aromatic bases (56-58) differ in the character of the side chain nitrogen. For example, in mass fragmentation, ions of the following structures may be ascribed to the most intensive bands in the spectrum of 55 ... [Pg.253]

An efficient synthesis of rigid tricyclic (5 5 5) nitrogen heterocycles 64 has been achieved via sequential and tandem Ugi/intramolecular Diels-Alder (IMDA) cycloaddition of pyrrole derivatives <2004JOC1207> and the trienes 477 were prepared by the acylaton of amines 475 with the anhydride 476. The amines 475 were in turn prepared starting from pyrrole-2-carbaldehyde. The triene 477 on heating in toluene at 80 °C for 15 h underwent the IMDA to afford the tricyclic compound 64 as a single diastereomer in quantitative yield. The sterically bulky N-substitutent on the triene 477 promoted cycloaddition under milder condition at 65 °C in toluene to provide the tricyclic compound 64 in quantitative yield (Scheme 108). [Pg.701]

Many other nitrogen- and sulfur-containing rings are available from reactions of the Willgerodt-Kindler type. Benzo- and pyridino-fused thia-zoles, for example, are formed from anilines (benzeneamines) and amino-pyridines, respectively.25 Asinger26 has reviewed the scope of these reactions in heterocyclic synthesis. [Pg.55]

Norrish Type II photocyclizations have been employed in many instances in the synthesis of nitrogen heterocycles. Type II cyclizations are the result of an intramolecular hydrogen abstraction by an excited carbonyl group followed by cyclization of the resulting biradical. Hydrogen abstraction from the y-carbon atom is normally preferred. The introduction of a nitrogen atom... [Pg.293]

Gwilherm Evano was born in 1977 in Paris he studied chemistry at the Ecole Normale Superieure in Paris and received his Ph.D. from Universite Pierre et Marie Curie in 2002 under the supervision of Professors Francois Couty and Claude Agami. After postdoctoral study with Professor James S. Panek at Boston University, he became assistant professor at the University of Versailles in 2004. His research interests concern the field of asymmetric synthesis of nitrogen heterocycles as well as their reactivity and the total synthesis of natural products. [Pg.500]

This methodology has been applied to the diastereoselective synthesis of the pyrrolizidine alkaloid 196 from 194 via 195 (Scheme 15.62) [123], Furthermore, the diastereoselectivity of these reactions for different dipolarophiles has been investigated in detail [124] and could be extended to a ring closure to seven-membered nitrogen heterocycles [125,126]. [Pg.907]

At that time, as now, the enantiomers of many chiral amines were obtained as natural products or by synthesis from naturally occurring amines, a-amino acids and alkaloids, while others were only prepared by introduction of an amino group by appropriate reactions into substances from the chiral pool carbohydrates, hydroxy acids, terpenes and alkaloids. In this connection, a recent review10 outlines the preparation of chiral aziridines from enantiomerically pure starting materials from natural or synthetic sources and the use of these aziridines in stereoselective transformations. Another report11 gives the use of the enantiomers of the a-amino acid esters for the asymmetric synthesis of nitrogen heterocyclic compounds. [Pg.106]

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Nitrogen heterocycles, synthesis

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