From Simple Cyclic 1,3-Ketoamides to Complex Spirolactams by Supported Heterogeneous Organocatalysis with PS-BEMP

Benmaati, Aouicha; Zahmani, Hadjira Habib; Hacini, Salih; Menéndez, J. Carlos; Bugaut, Xavier; Rodríguez, Jean; Constantieux, Thierry

doi:10.1055/s-0035-1561485

Synthesis

2016

DOI: 10.1055/s-0035-1561485

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From Simple Cyclic 1,3-Ketoamides to Complex Spirolactams by Supported Heterogeneous Organocatalysis with PS-BEMP

Aouicha Benmaati

Hadjira Habib Zahmani

Salih Hacini

et al.

Abstract: International audienceThe reaction between cyclic 1,3-ketoamides and Michael acceptors in the presence of a catalytic amount of a polymer-supported organobase PS-BEMP has been developed for a direct access to spirocyclic 1,3-ketolactams through a domino Michael addition/hemiacetalization sequence. The products could be isolated in high chemical yields and purities after simple filtration, and the catalyst could be re-used without any re-activation. These spirolactams, containing a hemiaminal moiety, may be vie… Show more

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Cited by 4 publications

References 7 publications

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Time‐Dependent Diastereodivergent Michael Addition Enabled by Phosphazenes Acting as Catalysts and Reactants

Tukhtaev¹,

Bezzubov

Тарасенко³

et al. 2021

Adv Synth Catal

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A switching of the step order within cascade process enabled design of a diastereodivergent approach to phosphazenopyrrolines with a 1,3‐relationship of stereocenters. The approach is based on a cascade transformation of readily accessible γ‐azidobutyronitriles that includes Staudinger, aza‐Wittig and Michael steps. Stereodivergence is achieved at the Michael step that is self‐catalyzed by phosphazene intermediates and provides construction of quaternary stereocenter. Depending on the type of phosphazene intermediates, generating either via Staudinger reaction or via subsequent intramolecular aza‐Wittig reaction with nitrile and then reacting with a Michael acceptor, either trans‐ or cis‐isomers of the target product can be produced. Thus, diastereoselectivity can be achieved by varying the time of addition for the Michael acceptor. Therefore, three distinct roles were revealed for phosphazenes in this process: catalysts, reactants and stereoselectivity controllers. This stereodivergent strategy was applied for the synthesis of all stereoisomers of the biorelevant tetrahydro‐7‐aza‐indoles.

show abstract

Time‐Dependent Diastereodivergent Michael Addition Enabled by Phosphazenes Acting as Catalysts and Reactants

Tukhtaev¹,

Bezzubov

Тарасенко³

et al. 2021

Adv Synth Catal

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show abstract

Highly Diastereo‐ and Enantioselective Synthesis of α‐Spiro‐δ‐lactams by an Organocascade Reaction

et al. 2017

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An asymmetric synthesis of α-spiro-δ-lactam via organocascade reaction from easily accessible starting materials is reported. The catalytic sequence undergoes enantioselective Michael addition of β-ketoamide to α,β-unsaturated aldehyde catalysed by a secondary amine catalyst, followed by hemiaminal annulation. Optically enantiopure compounds with three stereogenic centres are obtained in good yields and excellent selectivities (up to >20:1 dr and up to >99% ee).

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Identification of new biologically active synthetic molecules: comparative experimental and theoretical studies on the structure-antioxidant activity relationship of cyclic 1,3-ketoamides

et al. 2021

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From Simple Cyclic 1,3-Ketoamides to Complex Spirolactams by Supported Heterogeneous Organocatalysis with PS-BEMP

Cited by 4 publications

References 7 publications

Time‐Dependent Diastereodivergent Michael Addition Enabled by Phosphazenes Acting as Catalysts and Reactants

Time‐Dependent Diastereodivergent Michael Addition Enabled by Phosphazenes Acting as Catalysts and Reactants

Highly Diastereo‐ and Enantioselective Synthesis of α‐Spiro‐δ‐lactams by an Organocascade Reaction

Identification of new biologically active synthetic molecules: comparative experimental and theoretical studies on the structure-antioxidant activity relationship of cyclic 1,3-ketoamides

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