A. M. Mikhaleva scite author profile

A. M. Mikhaleva

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A.E. Favorsky Irkutsk Institute of Chemistry

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Dioximes of 1,3-Diketones in the Trofimov Reaction: New 3-Substituted Pyrroles

Zaitsev

Schmidt

Mikhaleva

et al. 2005

Chem Heterocycl Compd

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Dioximes of 1,3-diketones enter into the Trofimov reaction forming pyrroles containing an acyl or an O-vinyloxime substituent in position 3 of the pyrrole. In the case of sterically hindered dioximes the main reaction products are isoxazoles.Heterocyclic compounds containing a 3-acylpyrrole fragment are of interest for making new pharmacological preparations. For example, the cannabinoid activity of 1-alkyl-3-(naphthoyl)pyrroles [1] and 1-alkyl-3-(naphthoyl)indoles [2] is known, as is the antibiotic activity of verrucarin E, 3-acetyl-4-hydroxymethylpyrrole, isolated from Myrothecium verrucaria [3]. 3-Acylpyrroles and other 3-substituted pyrroles obtained from them are precursors of liquid crystal materials [4] and polypyrroles [5], possessing high electrical conductivity in comparison with their 1-substituted analogs [6]. Such conjugated polymers may be used for example to construct gas sensors [7], and also sensors capable of distinguishing DNA molecules [8].The acylation reaction used in the majority of cases for the synthesis of 3-acylpyrroles has low efficiency since electrophilic attack occurs predominantly at position 2 of the pyrrole ring. To direct substitution to position 3 it is necessary to introduce readily removable blocking groups into position 2 (a thiocarboxylate group [9]) or position 1 (triisopropylsilyl [10, 11], 1-phenylsulfonyl or 1-tosylsulfonyl [7,12, 13]).In the present work we have studied the possibility of synthesizing new 3-functionalized pyrroles with the aid of the Trofimov reaction [14-19] by the interaction of dioximes of acetylacetone (1a), benzoylacetone (1b), 5-ethylnonane-4,6-dione (1c), and 5,5-dimethylcyclohexane-1,3-dione (dimedone) (1d) with acetylene in the presence of KOH in DMSO.The selectivity of the interaction of dioxime 1a with acetylene depends strongly on the reaction temperature. At 100°C (1 h) the O-vinyloxime pyrrole derivative 2a is formed exclusively (11% yield), and at 120°C (1 h) the main product is the 2,3'-bipyrrole 3 (7% yield).Attention is attracted by the unusually high stability of the O-vinyloxime group of compound 2a under the reaction conditions. The formation of a second pyrrole ring with its participation occurs only on increasing the temperature to 120°C. It is known that for O-vinyloximes of 3-acylindoles pyrrolization in the system KOH-DMSO is also hindered and at 100-105°C occurs completely only after 8-10 h [20]. The reduced reactivity of the O-vinyloxime function at position 3 of the pyrrole ring in O-vinyloximes of 3-acylindoles __________________________________________________________________________________________ A. E.

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Dioximes of 1,3‐Diketones in the Trofimov Reaction: New 3‐Substituted Pyrroles.

et al. 2006

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Pyrrole derivatives R 0120 Dioximes of 1,3-Diketones in the Trofimov Reaction: New 3-Substituted Pyrroles. -The possibility of synthesizing new 3-functionalized pyrroles via Trofimov reaction of dioximes of 1,3-diketones with acetylene in superbasic media is demonstrated. Scope and limitations of the methodology are established. -(ZAITSEV, A. B.; SCHMIDT, E. Y.; MIKHALEVA, A. M.; AFONIN, A. V.; USHAKOV, I. A.; Chem.

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A. M. Mikhaleva

Dioximes of 1,3-Diketones in the Trofimov Reaction: New 3-Substituted Pyrroles

Dioximes of 1,3‐Diketones in the Trofimov Reaction: New 3‐Substituted Pyrroles.

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