Synthesis, Docking, and Bioavailability of 2′‐Oxo‐3‐phenylspiro[cyclopropane‐1,3′‐indoline]‐2,2‐dicarbonitriles as Antibacterial Agents <i>In Silico</i>

Avula, Vijay Kumar Reddy; Chintha, Venkata Ramaiah; Vallela, Swetha; Anireddy, Jaya Shree; Chamarthi, Naga Raju; Rajendra, Wudayagiri

doi:10.1002/jhet.3396

Journal of Heterocyclic Chem

2018

DOI: 10.1002/jhet.3396

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Synthesis, Docking, and Bioavailability of 2′‐Oxo‐3‐phenylspiro[cyclopropane‐1,3′‐indoline]‐2,2‐dicarbonitriles as Antibacterial Agents In Silico

Vijay Kumar Reddy Avula

Venkata Ramaiah Chintha

Swetha Vallela

et al.

Abstract: An efficient method has been developed for the synthesis of N‐alkylated 2′‐oxo‐3‐phenylspiro[cyclopropane‐1,3′‐indoline]‐2,2‐dicarbonitrile from 3‐chloroindolin‐2‐one and 2‐benzylidenemalononitrile by using triethylamine as a base at room temperature and obtained the products in moderate to good yields. In extension, the scope of the reaction has been investigated by stepwise and one‐pot methods. Furthermore, in silico antibacterial activity was carried out in order to understand possible binding modes of nove… Show more

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“…The densely substituted cyclopropanes, which contain a special chemical transformation property and a unique 3D configuration space, act as valuable building blocks in both synthetic chemistry and drug discovery . In particular, the cyclopropanecarbonitrile motif is increasingly found in pharmaceuticals and active candidates . Beyond the diverse derivatization potential of the nitrile group, the biocompatible and metabolically stable nitrile functionality enhances polar interactions and endows leading compounds with hydrogen bonding properties (Figure ).…”

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confidence: 99%

Intramolecular H-Bonds in an Organocatalyst Enabled an Asymmetric Michael/Alkylation Cascade Reaction to Construct Spirooxindoles Incorporating a Densely Substituted Cyclopropane Motif

Wang

Yan

et al. 2022

Org. Lett.

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A cascade Michael addition/alkylation reaction between 3-chlorooxindoles and α-cyano chalcones catalyzed using a multifunctional quinine-derived aminoindanol-thiourea substance was investigated. A series of spirooxindoles incorporating a densely substituted cyclopropane motif were efficiently obtained with moderate to excellent diastereo- and enantioselectivity and further transformed to products with versatile structural diversity. Density functional theory (DFT) calculations indicated that the tentative intramolecular hydrogen bonds in the chiral catalyst were crucial for the stereocontrol.

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mentioning

confidence: 99%

Intramolecular H-Bonds in an Organocatalyst Enabled an Asymmetric Michael/Alkylation Cascade Reaction to Construct Spirooxindoles Incorporating a Densely Substituted Cyclopropane Motif

Wang

Yan

et al. 2022

Org. Lett.

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Nitrile‐Stabilized Quaternary Ammonium Ylide as an Arylcyanomethylene Transfer Agent: Diastereoselective Synthesis of Spiro‐Cyanocyclopropyl‐2‐Oxindoles

Nagpure,

Guchhait

2024

Eur J Org Chem

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Nitrile‐stabilized quaternary ammonium ylide as an effective aryl‐cyanomethylene transfer agent has been explored for the first time, which enables a spirocyclopropanation process with conjugated carboxamide of indole heterocycle. The developed In(OTf)3‐catalyzed method provides a straightforward, diastereoselective access to pharmaceutically relevant spiro‐cyclopropane‐2‐oxindole skeleton assembled with an α‐cyano and two (hetero)aromatic substitutions. The common difficulties of a cyclopropanation process, e.g., a conjugated carboxamide as valid substrate, cleavage‐susceptibility of amide bond, substrates scope limited to preferentially electron‐withdrawing group containing molecules, and the competing dehydrocyanation reaction of product generated from nitrile‐stabilized ylide have been overcome in the present spirocyclopropanation process.

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Synthesis, Docking, and Bioavailability of 2′‐Oxo‐3‐phenylspiro[cyclopropane‐1,3′‐indoline]‐2,2‐dicarbonitriles as Antibacterial Agents In Silico

Cited by 2 publications

References 44 publications

Intramolecular H-Bonds in an Organocatalyst Enabled an Asymmetric Michael/Alkylation Cascade Reaction to Construct Spirooxindoles Incorporating a Densely Substituted Cyclopropane Motif

Intramolecular H-Bonds in an Organocatalyst Enabled an Asymmetric Michael/Alkylation Cascade Reaction to Construct Spirooxindoles Incorporating a Densely Substituted Cyclopropane Motif

Nitrile‐Stabilized Quaternary Ammonium Ylide as an Arylcyanomethylene Transfer Agent: Diastereoselective Synthesis of Spiro‐Cyanocyclopropyl‐2‐Oxindoles

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