Ring Transformation of Pyridines and Benzo Derivatives under the Action of C-Nucleophiles

Abstract: The data on ring transformations of heterocyclic systems containing a pyridine ring on treatment with C-nucleophiles are generalized and described systematically over the period of up to 1999. CONTENTS I. Introduction II. Cyclopentadiene derivatives III. Ketones and enamines 1. Ring transformations of dinitropyridones 2. Ring transformations of nitropyridinium salts into indoles IV. β-Dicarbonyl compounds and carboxylic acids V. Nitroalkanes and sulfoxides VI. Conclusion I. INTRODUCTIONPyridine ring is relativ… Show more

“…Subsequently, a large number of reactions with ring opening and ring transformation of pyridine derivatives induced by nucleophilic reagents have been discovered and studied. [2,4,5] In particular, a number of new rearrangements, some of which are general for the chemistry of heterocyclic compounds, such as the amidine rearrangement [6,7] and the enamine rearrangement [2,8] of pyridine derivatives, and the unusual ring transformation of nitropyridinium salts into indoles [9] have been described in our previous publications. The main structural factors and conditions influencing the ring transformation pathway that have been identified to date provide grounds to expect great prospects for further research along these lines.…”

A Novel Ring Transformation of Pyridinium Salts as a Route to 4-Arylpyridines

“…Subsequently, a large number of reactions with ring opening and ring transformation of pyridine derivatives induced by nucleophilic reagents have been discovered and studied. [2,4,5] In particular, a number of new rearrangements, some of which are general for the chemistry of heterocyclic compounds, such as the amidine rearrangement [6,7] and the enamine rearrangement [2,8] of pyridine derivatives, and the unusual ring transformation of nitropyridinium salts into indoles [9] have been described in our previous publications. The main structural factors and conditions influencing the ring transformation pathway that have been identified to date provide grounds to expect great prospects for further research along these lines.…”

A Novel Ring Transformation of Pyridinium Salts as a Route to 4-Arylpyridines

“…Quite a number of the pyridine ring transformations under the action of nucleophiles was discovered lately [3,4]. First of all a series of new rearrangements should be mentioned, like amidine rearrangement [5,6], enamine rearrangement of pyridine derivatives [3,7], and the unusual reaction we discovered of the ring transformation of nitropyridinium salts into indoles [8,9].…”

“…Isoquinoline derivatives may be regarded both as a fused azine system which is characterized as a whole by a higher electron-deficiency with respect to nucleo philes [1,9], and as pyridine derivatives that typically enter into the nucleophilic additions and ring transformation reactions [1013].…”

Reactivity of 4-Methylpyridinium Salts in a New Reaction of Ring Transformation of Pyridine and Isoquinoline Derivatives

“…It is known that reactions of dinitropyridines with ketones in the presence of bases can be accompanied by rearrangements involving opening of the pyridine ring [4]. For example, 1-methyl-3,5-dinitropyridin-2(1H)-one reacts with acetone in the presence of organic bases to give p-nitrophenols [5] and p-nitroanilines [6].…”

“…We briefly reported in [7] that successive nucleophilic addition of acetone dicarbanion to 3,5-dinitropyridin-2-ol and double Mannich condensation yield tricyclic compounds containing a 3,7-diazabicyclo[3.3.1]nonane fragment. In continuation of these studies, in this work we examined in detail the product structure by two-dimensional high-resolution NMR techniques and X-ray analysis and synthesized a series of new 6-substituted 4,8-dinitro-2,6-diazatricyclo-[6.4.0.0 4,9 ]dodecane-3,11-diones from various primary amines. Initial 3,5-dinitropyridin-2-ol (1) was prepared according to the procedure described in [8] by nitration of pyridin-2-ol.…”

Synthesis of tricyclic systems on the basis of σ-adduct of 3,5-dinitropyridin-2-ol with acetone