Current Developments in Michael Addition‐Based Multicomponent Domino Reactions Involving 1,3‐Dicarbonyls and Derivatives

Liéby-Muller, Frédéric; Simon, Céline; Constantieux, Thierry; Rodríguez, Jean

doi:10.1002/qsar.200540201

Cited by 116 publications

(16 citation statements)

References 59 publications

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“…Hantzsch, Biginelli). [104][105][106] Variations on these themes have led to the discovery of many interesting MCRs. However, options for further expansion of this repertoire are limited.…”

Section: Discussionmentioning

confidence: 99%

Multicomponent Reaction Design in the Quest for Molecular Complexity and Diversity

2011

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Multicomponent reactions have become increasingly popular as tools for the rapid generation of small-molecule libraries. However, to ensure sufficient molecular diversity and complexity, there is a continuous need for novel reactions. Although serendipity has always played an important role in the discovery of novel (multicomponent) reactions, rational design strategies have become much more important over the past decade. In this Review, we present an overview of general strategies that allow the design of novel multicomponent reactions. The challenges and opportunities for the future will be discussed.

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“…Hantzsch, Biginelli). [104][105][106] Variations on these themes have led to the discovery of many interesting MCRs. However, options for further expansion of this repertoire are limited.…”

Section: Discussionmentioning

confidence: 99%

Multicomponent Reaction Design in the Quest for Molecular Complexity and Diversity

2011

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“…Although this addition with such substrates is an old, but still very powerfull and simple reaction, it came to be of interest for MCRs only recently, and has emerged as promising approach with a wide synthetic potential in heterocyclic synthesis. In this context, we will focus in this paragraph on recent selected examples of the application of Michael additionbased MCRs 65 to the synthesis of chiral polysubstituted heterocycles 66 in the five-to seven-membered series.…”

Section: Mcrs Based On the Michael Additionmentioning

confidence: 99%

1,3-Dicarbonyl compounds in stereoselective domino and multicomponent reactions

Bonne¹,

Coquerel²,

Constantieux³

et al. 2010

Tetrahedron: Asymmetry

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“…Rodriguez and co-workers [45,46] reported that a difference in steric hindrance can affect the mode of cyclization towards different bicyclic structures in a Michael addition based 3CR involving a 1,3-dicarbonyl (11), an acrolein (12), and a primary amine (13) or (14) (Scheme 6). Applying the same reaction conditions, a less hindered amine (13) led to the 1,6-hydronaphthyridine (±)-(15), whereas a much more hindered amine (14) directed the cyclization towards the formation of the azabicyclo[3.3.1]nonanone (±)-(16) (dd skel = 2).…”

Section: A -Multicomponent Cycloaddition Reactions a Source Of Strucmentioning

confidence: 99%

“…In the inverse electron demand [4+2] heterocycloaddition, the [(tBuBOX)Cu(OTf) 2 ] complex ((R)- (49) or (S)-(49)) proved to be a robust enantioselective catalyst that displays a broad substrate tolerance. By permuting the catalyst ((R)- (49) or (S)- (49)) and the support-bound vinyl ethers ((Z)- (47) or (E)- (48)) in the reaction with the , -unsaturated ketoester (46), each of the four possible combinations can selectively lead to a new stereoisomer (50), (50'), (51) or (51').…”

Section: B -Diastereodivergencementioning

confidence: 99%