One Step Preparation of 1,4-Diketones from Methyl Ketones and α-Bromomethyl Ketones in the Presence of ZnCl2 · t-BuOH · Et2NR as a Condensation Agent

Nevar, Natali M.; Kel’in, Alexander V.; Kulinkovich, O. G.

doi:10.1055/s-2000-6418

Cited by 38 publications

(26 citation statements)

References 15 publications

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“…For the preparation of the diamino compound 6 , bearing a pyrrole ring in the structure, Paal–Knorr synthesis was applied . The precursor 1,4‐diketone was prepared using the aldol condensation of 2‐bromo‐4′‐nitroacetophenone with 4′‐nitroacetophenone in the presence of zinc chloride‐diethylamine‐ t ‐butanol complex as the condensation agent . The resulted diketone then yielded 2,5‐bis(4‐nitrophenyl)pyrrole ( 5 ) in the Paal–Knorr reaction.…”

Section: Resultsmentioning

confidence: 99%

“…[24] The precursor 1,4-diketone was prepared using the aldol condensation of 2-bromo-4 0 -nitroacetophenone with 4 0 -nitroacetophenone in the presence of zinc chloridediethylamine-t-butanol complex as the condensation agent. [25] The resulted diketone then yielded 2,5-bis(4nitrophenyl)pyrrole (5) in the Paal-Knorr reaction. The nitro groups in compound 5 were reduced to amino moieties using catalytic hydrogenation in the presence of Pd/C to give the desired 2,5-bis(4-aminophenyl)pyrrole (6) in 81% yield (Scheme 2).…”

Section: Chemistrymentioning

confidence: 99%

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Novel Catechol Derivatives of Arylimidamides as Antileishmanial Agents

Rezaei

Saghaie

Sabet

et al. 2018

Chemistry & Biodiversity

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Two novel bis-arylimidamide derivatives with terminal catechol moieties (9a and 10a) and two parent compounds with terminal phenyl groups (DB613 and DB884) were synthesized as dihydrobromide salts (9b and 10b). The designed compounds were hybrid molecules consisting of a catechol functionality embedded in an arylimidamide moiety. All compounds were examined for in vitro antiparasitic activity upon promastigotes of Leishmania major and L. infantum as well as axenic amastigotes of L. major. It was shown that conversion of terminal phenyl groups into catechol moieties resulted in more than 10-fold improvement in potency, coupled with lower cytotoxicity against fibroblast cells, compared to the corresponding parent compounds. The furan-containing analog 9a exhibited the highest activity with submicromolar IC values, ranging from 0.29 to 0.36 μm, which is comparable in efficacy to the reference drug amphotericin B (IC 0.28 - 0.33 μm). The results justify further study of this class of compounds. It seems that the combination of catechol chelating groups with potent antiparasitic agents could improve the efficacy by presenting novel hybrid compounds.

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Section: Resultsmentioning

confidence: 99%

Section: Chemistrymentioning

confidence: 99%

Novel Catechol Derivatives of Arylimidamides as Antileishmanial Agents

Rezaei

Saghaie

Sabet

et al. 2018

Chemistry & Biodiversity

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“…It must also be assumed that, in the course of the reaction, there arise some kind of products other than the diketones 2 and keto acids 3 which previously simply could not be found or separated. In this paper we have carried out a detailed study of the composition of the products formed upon acylation of thiophenes 1a-c using succinyl dichloride in the presence of different amounts of AlCl 3 , as well as SnCl 4 and TiCl 4 , in order to optimize the synthesis of the diketones 2.…”

Section: A-cmentioning

confidence: 99%

“…With regard to the most frequently used of these, the Stetter method is based on a Michael addition of aldehydes to the activated double bond of enones in the presence of cyanide or thiazolium salt [2,3]. Particularly promising for the preparation of unsymmetrical 1,4-diketones (although somewhat time consuming) is the method due to Kulinkovich et al based on the reaction of methyland -bromomethyl ketones [4]. The reactions of diesters or N,N,N',N'-tetrasubstituted succinic acid diamides with hetaryl lithium [5] or reaction of sodium acetylide with hetarenecarbaldehydes and subsequent conversion of the 1,4-dihetarylbut-2-en-1,4-diol to the corresponding 1,4-diketone in the presence of alcoholic alkali solution [6] are relatively simple but they give low yields.…”

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confidence: 99%

Peculiarities of the behavior of succinyl dichloride in Friedel-Crafts reaction with thiophenes*

Смирнов

Афанасьев

Беленький

2011

Chem Heterocycl Comp

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Keywords: 4,4-di(2-thienyl)but-3-enoic acids, 4,4-di(2-thienyl)butyrolactones, 4-oxo-4-(2-thienyl)butyric acids, succinyl dichloride, 1,4-(2-thienyl)butane-1,4-diones, thiophenes, acylation.1,4-Di(2-thienyl)butane-1,4-diones are convenient starting materials for the preparation of 2,5-di(2-thienyl)pyrroles, -furans, and -thiophenes which, in turn, can serve as precursors of polymers and monomers which show electrical conductivity and particular photochemical properties [1]. The known syntheses of 1,4-dihetarylbutane-1,4-diones are very varied. With regard to the most frequently used of these, the Stetter method is based on a Michael addition of aldehydes to the activated double bond of enones in the presence of cyanide or thiazolium salt [2,3]. Particularly promising for the preparation of unsymmetrical 1,4-diketones (although somewhat time consuming) is the method due to Kulinkovich et al. based on the reaction of methyland -bromomethyl ketones [4]. The reactions of diesters or N,N,N',N'-tetrasubstituted succinic acid diamides with hetaryl lithium [5] or reaction of sodium acetylide with hetarenecarbaldehydes and subsequent conversion of the 1,4-dihetarylbut-2-en-1,4-diol to the corresponding 1,4-diketone in the presence of alcoholic alkali solution [6] are relatively simple but they give low yields.We consider in more detail the data available for the Friedel-Crafts reaction of thiophene 1a, 2-methylthiophene 1b, and 2-bromothiophene 1c with succinyl dichloride (SDC) as the method for synthesizing the di(2-thienyl)-1,4-dione 2a and the substituted bis(5-methyl-2-thienyl)-1,4-dione 2b, and bis(5-bromo-2-thienyl)-1,4-dione 2c, respectively. This apparently simple and obvious route meets a series of complications, _______ * Dedicated to the memory of an outstanding heterocyclic chemist and unsurpassed editor, Alexey Nikolaevich Kost,

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“…Salt: Brown solid (0.33 g), mp 244-7 °C; 'H-NMR (DMSO-4,) δ 6.78 (s, 2H), 7.26-8.07 (m, 18H), 9.07 (br s, 1H), 9.13 (br s, 1H), 9.88 (br s, 1H), 9.94 (br s, 1 Η), 11.57 (br s, 1 Η), 11.66 (br s, 2H), 11.70 (br s, 2H); 13 C-NMR δ 2H), 11.14 (br s, 1H);13 C-NMR δ 151.9, 151.3, 148.1, 137.2, 134.7, 133.7, 133.3, 132.7, 132.6, 132.2, 129.5, 128.0, 127.6, 127.5, 127.2, 126.4, 126.0, 125.5, 124.9, 121.9, 121.3, 118.8, 118.3, 116.7, 107.6, 106.6; MS (GC/MS) m/z (rel. int.)…”

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confidence: 99%