V. V. Rao scite author profile

Imidoylketenes 11 and oxoketenimines 12 are generated by flash vacuum thermolysis of Meldrum's acid derivatives 9, pyrrolediones 17 and 18, and triazole 19 and are observed by IR spectroscopy. Ketenimine-3-carboxylic acid esters 12a are isolable at room temperature. Ketenes 11 and ketenimines 12 undergo rapid interconversion in the gas phase, and the ketenes cyclize to 4-quinolones 13. When using an amine leaving group in Meldrum's acid derivatives 9c, the major reaction products are aryliminopropadienones, ArN=C=C=C=O (15). The latter react with 1 equiv of nucleophile to produce ketenimines 12 and with 2 equiv to afford malonic acid imide derivatives 16. N-Arylketenimine-C-carboxamides 12c cyclize to quinolones 13c via the transient amidinoketenes 11c at temperatures of 25-40 degrees C. This implies rapid interconversion of ketenes and ketenimines by a 1,3-shift of the dimethylamino group, even at room temperature. This interconversion explains previously poorly understood outcomes of the ynamine-isocyanate reaction. The solvent dependence of the tautomerism of 4-quinolones/4-quinolinols is discussed. Rotational barriers of NMe(2) groups in amidoketenimines 12c and malonioc amides and amidines 16 (24) are reported.

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Gold(i) and gold(iii) phosphine complexes: synthesis, anticancer activities towards 2D and 3D cancer models, and apoptosis inducing properties

Reddy

Privér

Rao

et al. 2018

Dalton Trans.

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A series of gold(i), gold(iii) and cationic gold(i) complexes of tris(4-methoxyphenyl)phosphine and tris(2,6-dimethoxyphenyl)phosphine were synthesised and fully characterised by spectroscopic methods. The molecular structures of selected complexes were also determined by X-ray diffraction analysis. The prepared complexes [AuX{P(CH-4-OMe)}] [X = Cl (1), Br (2), I (3)], [AuCl{P(CH-4-OMe)}] (4), [Au{P(CH-4-OMe)}]PF (5), [AuX{P(CH-2,6-{OMe})}] [X = Cl (6), Br (7), I (8)], [AuCl{P(CH-2,6-{OMe})}] (9) and [Au{P(CH-2,6-{OMe})}]PF (10) were investigated for their anticancer activity against five human tumor cell lines [ovarian (SKOV-3), fibrosarcoma (HT1080), glioblastoma (U87MG), prostate (PC-3), and cervical (HeLa)] as well as against 3D spheroidal models of HeLa cells. The cationic complex 10 was found to exhibit a remarkably broad spectrum of anticancer activity with approximately 30-fold higher toxicity than cisplatin against PC-3 and U87MG cancer cells; this complex also showed the strongest inhibition of spheroid growth in 3D models of HeLa cells. The mechanism of anticancer activity of these gold complexes was found to be strong inhibition of thioredoxin reductase, increased ROS production and subsequent apoptosis induction as evidenced by the sub G1 cell accumulation, DNA fragmentation, and caspase-3 activation.

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Synthesis of aminoquinolones from triazoles via carboxamidoketenimine and amidinoketene intermediates

Rao¹,

Wentrup²

1998

J. Chem. Soc., Perkin Trans. 1

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N-Mesityl-C-acylketenimines: 1,5-Sigmatropic Shifts and Electrocyclization to Quinolines

et al. 1998

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Flash vacuum thermolysis (FVT) of triazoles 6a-c generates alpha-oxoketenimines 10, the ester 10a being isolable. FVT of pyrroledione 8 generates the isomeric imidoylketene 9a. Ketenes 9 and ketenimines 10 undergo thermal interconversion by 1,3-shifts of methoxy and dimethylamino groups under mild FVT conditions (ca. 350-400 degrees C). Both 9 and 10 are directly observable by IR spectroscopy at either 77 K or on Ar matrix isolation at 12 K. On FVT at temperatures above ca. 400 degrees C, the ketenimines 10 undergo a 1,5-H shift to o-quinoid imines 12/13, followed by electrocyclization to dihydroquinolines 14 (unobserved) and 15 (observed by NMR). The latter are easily oxidized to alkylquinoline-3-carboxylates or quinoline-3-carboxamides 16 by atmospheric oxygen. Ab initio calculations on model compounds 18-23 predict an energy barrier of ca. 38 kcal mol(-)(1) (161 kJ mol(-)(1)) for the 1,5-H shift in N-(o-methylphenyl)ketenimines via the transition state TS19 followed by an electrocyclization barrier to dihydroquinoline 23a via TS22a of ca. 16 kcal mol(-)(1).

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Heterocyclic Compounds; IX. A Facile Synthesis of Methaqualone and Analogs¹

Manhas¹,

Amin²,

Rao³

1977

Synthesis

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V. V. Rao

Aryliminopropadienone−C-Amidoketenimine− Amidinoketene−2-Aminoquinolone Cascades and the Ynamine−Isocyanate Reaction

Gold(i) and gold(iii) phosphine complexes: synthesis, anticancer activities towards 2D and 3D cancer models, and apoptosis inducing properties

Synthesis of aminoquinolones from triazoles via carboxamidoketenimine and amidinoketene intermediates

N-Mesityl-C-acylketenimines: 1,5-Sigmatropic Shifts and Electrocyclization to Quinolines

Heterocyclic Compounds; IX. A Facile Synthesis of Methaqualone and Analogs¹

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V. V. Rao

Aryliminopropadienone−C-Amidoketenimine− Amidinoketene−2-Aminoquinolone Cascades and the Ynamine−Isocyanate Reaction

Gold(i) and gold(iii) phosphine complexes: synthesis, anticancer activities towards 2D and 3D cancer models, and apoptosis inducing properties

Synthesis of aminoquinolones from triazoles via carboxamidoketenimine and amidinoketene intermediates

N-Mesityl-C-acylketenimines: 1,5-Sigmatropic Shifts and Electrocyclization to Quinolines

Heterocyclic Compounds; IX. A Facile Synthesis of Methaqualone and Analogs1

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Heterocyclic Compounds; IX. A Facile Synthesis of Methaqualone and Analogs¹