Pyrrole ring closure

Analogously, when the above sequence was followed with pyrrole, ring closure of 141 did occur (when n = 2 or 3) but the cycloadduct 142 underwent rearomatization to an oxime which added to phenylisocyanate providing carbamate 143 in moderate yield [40]. 

By 2D TOCSY NMR spectroscopy (TOCSY - total correlated spectroscopy), the structure of a biosynthetic intermediate of PQQ was shown to be 3a-(2-amino-2-carboxyethyl)-4,5-dioxo-4,5,6,7,8,9-hexahydroquinoline-7,9-dicarboxylic acid 15, not its constitutional isomer 16 <2004JA3452>. This result shows that the last enzyme on the biosynthetic pathway of PQQ facilitates a pyrrole ring closure and an unprecedented eight-electron oxidation of 15. 

A variety of pyrrole ring closure reactions are conveniently formulated as proceeding via nitrene intermediates, although it is doubtful whether a free nitrene is involved. Pyrolysis of o-nitrobiphenyls with iron(II) oxalate (61T(16)80), or reduction under milder conditions with triethyl phosphite (65JCS4831) or tris(trimethylsilyl) phosphite (79TL375), leads to the carbazole, as does the pyrolysis or photolysis of 2-azidobiphenyls (Scheme 3) (75JA6193). 

The development of methods to effect nucleophilic addition to carbon-carbon double bonds by prior activation with metal cations has been applied, at least in a preliminary way, as a method of pyrrole ring closure. The conversion of butadienes to N-substituted pyrroles can be accomplished in two stages. In acetic add, 1,4-dienes react with PdnCl2 to give tr-allyl complexes with introduction of acetate at C-4. The ir-allyl complexes then react with amines to give a l-amino-4-acetoxy-2-butene (equation 70). When the addition of the amine is carried out in the presence of a silver salt and triphenylphosphine, a pyrrole is isolated, probably by cyclization of the amino-substituted allyl-Pd complex (equation 71) (81CC59). Although this procedure is attractive in terms of the simplicity of the... 

Interaction of a-chloro ketones and /3-keto esters in the presence of ammonia leads to both furans and pyrroles. The ring closures are dissimilar, however, in that the positions of the substituent groups on the nuclei are not the same in the two series. The pyrrole ring closure prob-... 

Exanple 5, Furan ring opening-pyrrole ring closure ... 

Pyrrole can be reduced catalyticaHy to pyrroHdine over a variety of metal catalysts, ie, Pt, Pd, Rh, and Ni. Of these, rhodium on alumina is one of the most active. Less active reducing agents have been used to produce the intermediate 3-pyrroline (36). The 2-pyrrolines are ordinarily obtained by ring-closure reactions. Nonaromatic pyrrolines can be reduced easily with to pyrroHdines. 

A further example of an azo coupling reaction with an activated methylene compound (12.91), followed by ring closure to give a pyridazine derivative (12.92) in good yield (66%) was decribed by Gewald and Hain (1984). The reductive treatments of 12.92 give the pyrrole compounds 12.93 and 12.94 in 70% yield (Scheme 12-45). 

Petrillo reports that the reaction of l,4-diaryl-2,3-dinitrobutadienes 42 with representative primary amines leads to //-alkyl-3-alkylamino-2,5-diaryl-4-nitropyrrolidines 43 presumably via a disfavored 5-endo-trig ring closure <00EJOC903>. Acid catalyzed elimination of the amine led to the corresponding trans-2,5-diaryl-3-nitro-3-pyrrolines 44 which could be dehydrogenated to the corresponding pyrroles 45. 

Alder/retrograde Diels-Alder reaction sequence of a diaryl alkyne with a 3,6-dicarbomethoxy tetrazine. The resulting diazine (14) is then reduced, cleaved and cyclized with Zn/acetic acid to the 2,3,4,5-tetrasubstituted pyrrole (15), which is then N-alkylated with a-bromo-4-methoxyacetophenone to give a pentasubstituted pyrrole (16). The synthesis of lukianol A is completed by ester hydrolysis, decarboxylation, ring closure and deprotection. 

Examples of the coupling of enam-ines are rare [60]. In most cases, the enamines undergo methanolysis to form electroinactive aminoacetals prior to the coupling reaction. Enamino ketones or enamino esters, however, yield via dimerization of the radical cations and subsequent ring closure pyrrole derivatives... 

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