Nitrogen heterocycles preparation

Nitrogen heterocycles, preparation from aziridinium salts ... 

Lown and Matsumoto,7 in a comprehensive study on the reactions of diphenylcyclopropenone (11) with nitrogen heterocycles, prepared 6-hydroxy-2,7,8-triphenylpyrrolo[l,2-a]pyrimidine (13) by allowing 4-phenylpyrimidine (12) to react with 11 [Eq. (2)1. This synthesis can also be viewed as a 2,3-dipolar cycloaddition reaction in which 11 serves as a very reactive 1,3-dipole and the 4-phenylpyrimidine (12) is a dipolaro-phile. Note that in both of these syntheses the pyrrole portion of the resulting bicyclic system is completely substituted. 

Triazoles are obtained via 1,3-dipolar cycloadditions between azides and al-kynes, and they are probably the most common nitrogen heterocycles prepared on solid supports via 1,3-dipolar cycloaddition. A wide variety of 1,2,3-triazoles have been prepared on solid supports, with an alkyne or azide attached to the resin. In addition, various linkers have been studied. Alkyne-functionalized alcohol was attached to the MeOPEG resin with an oxalyl chloride linkage (Scheme 11.23). Cycloaddition of alkynes with carbohydrate-derived azides gave resin-bound 1,2,3-triazoles, and reductive cleavage with sodium borohydride released the products as primary alcohols. 

FIGURE 14.7 Examples of nitrogenated heterocycles prepared in our group by the strategy indicated in Figure 14.6. 

Two synthetic bridged nitrogen heterocycles are also prepared on a commercial scale. The pentazocine synthesis consists of a reductive alkylation of a pyridinium ring, a remarkable and puzzling addition to the most hindered position, hydrogenation of an enamine, and acid-catalyzed substitution of a phenol derivative. The synthesis is an application of the reactivity rules discussed in the alkaloid section. The same applies for clidinium bromide. 

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. 

Phosphines behave similarly, and compounds of the type R3P and R4P X can be so prepared. The reaction between triphenylphosphine and quaternary salts of nitrogen heterocycles in an aprotic solvent is probably the best way of dealkylating the heterocycles, for example, ... 

Besides complexes of thiosemicarbazones prepared from nitrogen heterocycles, iron(III) complexes of both 2-formylthiophene thiosemicarbazone, 26, and 2-acetylthiophene thiosemicarbazone, 27, have been isolated [155]. Low spin, distorted octahedral complexes of stoichiometry [Fe(26)2A2]A (A = Cl, Br, SCN) were found to be 1 1 electrolytes in nitromethane. Low spin Fe(27)3A3 (A = Cl, Br, SCN) complexes were also isolated, but their insolubility in organic solvents did not allow molar conductivity measurements. Infrared speetra indicate coordination of both via the azomethine nitrogen and thione sulfur, but not the thiophene sulfur. The thiocyanate complexes have spectral bands at 2065, 770 and 470 cm consistent with N-bonded thiocyanato ligands, but v(FeCl) and v(FeBr) were not assigned due to the large number of bands found in the spectra of the two ligands. 

Pyrrole derivatives substituted in positions 1-, 3-, or 4- have also been electrochemically polymerized (positions 2- and 5- must be free for polymerization). Besides homopolymers, copolymers can also be prepared in this way. Other nitrogen heterocycles that have been polymerized by anodic oxidation include carbazole, pyridazine, indole, and their various substitution derivatives. 

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). 

In addition to alkenes and alkynes, allenes have attracted considerable interest due to their unique reactivity and multireaction sites. Therefore, transition-metal-catalyzed nucleophilic addition reaction of amines and imines to allenes has been extensively studied to prepare biologically important amines and nitrogen-heterocycles.31,31d... 

A variety of cyclic olefins (5-, 6-, and 7-membered) that contain nitrogen have been prepared via ring-closing metathesis, for example as shown in Eq. 33 [209]. Other examples are shown in Eqs. 34 [210] and 35 [211]. A variety of pyrrolizi-dines, indolizidines, quinolizidines, pyrrolidinoazocines, piperidinoazocines, and other fused nitrogen heterocycles have also been prepared via ROM (e.g., Eq.36 [212,213]). 

Nitrogen heterocycles can also be prepared by the RCM of unsaturated amines having a diphenyl thioacetal moiety (Table 14.3) [31]. 

K. Paulvannan, Preparation of Tricyclic Nitrogen Heterocycles via Tandem Four-Component Condensation/ Intramolecular Diels-Alder Reaction , Tetrahedron Lett. 1999, 40,1851-1854. 

Scheme 16.12 Preparation offive-membered nitrogen heterocycles.

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. 

The recent impact of solid-phase synthesis on medicinally relevant benzoaime-lated nitrogen heterocycles has been recently reviewed [16], therefore in this section only recent publications are included. Benzoannelated heterocycles can be prepared efficiently through cyclization on solid supports employing classical heterocycle forming reactions such as the Fischer [425], the Bischler-Napieralski [426], Tsuge [427], Nenitzescu [428], and Richter [140] reactions. In addition, the... 

Two independent papers have reported the synthesis of nitrogen-heterocycle complexes of the type [RhCl3(py-X)3] (py-X = 3-Etpy, 3-CNpy, 4-Etpy, or 4-CNpy) and rr(ans-[RhY2L4] (Y = Cl or Br L = several substituted pyridines, isoquinoline, pyrimidine, pyrazole, thiazole, and substituted imidazoles). All the compounds were prepared catalytically by boiling RhCl3.3H20 with ethanolic solutions of L. It is interesting that 2-substituted... 

Reductive cyclization of the 2-halogenophenyl group onto an adjacent phenyl substituent is a useful reaction for the preparation of condensed ring nitrogen heterocycles. Examples of the process include the formation of aromatic and conjugated 7t-systems [168, 169]. It has been applied to the synthesis of an aporphine... 

Paulvannan K (1999) Preparation of tricyclic nitrogen heterocycles via tandem four-component condensation/intramolecular Diels-Alder reaction. Tetrahedron Lett 40 1851-1854... 

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