Zn-ProPhenol Catalyzed Enantio- and Diastereoselective Direct Vinylogous Mannich Reactions between α,β- and β,γ-Butenolides and Aldimines

Trost, Barry M.; Gnanamani, Elumalai; Tracy, Jacob S.; Kalnmals, Christopher A.

doi:10.1021/jacs.7b11361

Cited by 52 publications

(23 citation statements)

References 27 publications

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“…Recently, Trost and co-workers reported a Zn-ProPhenol catalyzed reaction between butenolides 146 and imines 124 c to obtain tetrasubstituted vinylogous Mannich products 147 in good yield and excellent diastereo-and enantioselectivity (Scheme 35). [67] Unlike most reported systems, this process does not require pre-activation of the butenolides as siloxyfurans. [68] Moreover, both a,b-and b,g-butenolides were equally competent nucleophiles with a wide range of substitution at the 4-and 5-positions rather than being limited to a simple methyl group or hydrogen.…”

Section: Angewandte Chemiementioning

confidence: 99%

“…Recently, Trost and co‐workers reported a Zn‐ProPhenol catalyzed reaction between butenolides 146 and imines 124 c to obtain tetrasubstituted vinylogous Mannich products 147 in good yield and excellent diastereo‐ and enantioselectivity (Scheme ) . Unlike most reported systems, this process does not require pre‐activation of the butenolides as siloxyfurans .…”

Section: Catalytic Asymmetric Addition To Iminesmentioning

confidence: 99%

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Dinuclear Metal‐ProPhenol Catalysts: Development and Synthetic Applications

2019

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The ProPhenol ligand is a member of the chiral aza‐crown family that spontaneously forms a bimetallic complex upon treatment with alkyl metal reagents, such as Et2Zn and Bu2Mg. The resulting complex features Lewis acidic and Brønsted basic sites, enabling simultaneous activation of both nucleophile and electrophile in the same chiral environment. Since the initial report in 2000, metal‐ProPhenol catalysts have been used to facilitate a broad range of asymmetric transformations, including aldol, Mannich, and Henry reactions, as well as alkynylations and conjugation additions. By promoting such a diverse array of reactions, these complexes provide rapid and atom‐economical access to valuable complex building blocks. In this Review, we describe in detail the development and synthetic applications of these versatile catalysts with a special focus on recent efforts to improve reactivity and selectivity through ligand design and structural modification.

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Section: Angewandte Chemiementioning

confidence: 99%

Section: Catalytic Asymmetric Addition To Iminesmentioning

confidence: 99%

Dinuclear Metal‐ProPhenol Catalysts: Development and Synthetic Applications

2019

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“…Kürzlich haben Trost und Mitarbeiter eine Zn‐ProPhenol‐katalysierte Reaktion zwischen Butenoliden 146 und Iminen 124 c berichtet, bei der sie tetrasubstituierte vinyloge Mannich‐Produkte 147 in guten Ausbeuten und exzellenten Diastereo‐ und Enantioselektivitäten erhielten (Schema ) . Im Unterschied zu den meisten anderen bekannten Systemen erfordert dieser Prozess keine Präaktivierung der Butenolide als Siloxyfurane .…”

Section: Katalytische Asymmetrische Addition An Imineunclassified

“…a-Verzweigte Aldehyde 143 stellten gleichfalls reaktionsfähige Nukleophile dar, um eine Reihe chiraler b-Aminoaldehyde 144 zu synthetisieren. [66] Anschließend kçnnen die Addukte 144 im Eintopf mit einem zweiten Nukleophil [67] Im Unterschied zu den meisten anderen bekannten Systemen erfordert dieser Prozess keine Präaktivierung der Butenolide als Siloxyfurane. [68] Zudem erwiesen sich a,b-wie auch b,g-Butenolide als gleichermaßen reaktionsfähige Nukleophile mit einer großen Substituentenvielfalt an den 4-und 5-Posi-tionen, im Unterschied zu einer Limitierung auf eine einfache Methylgruppe oder Wasserstoff.…”

Section: Katalytische Enantioselektive Mannich-reaktionunclassified

Zweikernige Metall‐ProPhenol‐Katalysatoren: Entwicklung und Anwendungen in der Synthese

2019

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ProPhenol‐Moleküle gehören zur Gruppe der chiralen Azakronen‐Verbindungen und bilden bei Umsetzung mit Alkylmetall‐Reagenzien wie Et2Zn und Bu2Mg spontan einen bimetallischen Komplex. Dieser Komplex hat Lewis‐saure und Brønsted‐basische Reaktionszentren, die eine simultane Aktivierung eines Nukleophils und eines Elektrophils in derselben chiralen Umgebung erlauben. Seit dem ersten Bericht im Jahr 2000 haben Metall‐ProPhenol‐Katalysatoren eine große Bandbreite asymmetrischer Umwandlungen wie Aldol‐, Mannich‐ und Henry‐Reaktionen sowie Alkinylierungen und konjugierte Additionen ermöglicht. Aufgrund der vielfältigen Einsatzmöglichkeiten bei unterschiedlichen Reaktionen erlauben diese Komplexe einen schnellen und atomökonomischen Zugang zu wertvollen komplexen Baugruppen. In diesem Aufsatz beschreiben wir detailliert die Entwicklung und synthetischen Anwendungen dieser vielseitigen Katalysatoren, mit besonderem Blick auf kürzliche Bemühungen, Reaktivität und Selektivität durch Ligandendesign und strukturelle Veränderungen zu verbessern.

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“…Furthermore, the butenolides could be unmasked to give access to 1,2‐amino alcohols, another pharmaceutically and synthetically relevant motif . In addition, our recent success shows that Zn‐ProPhenol can activate butenolides of various substitutions for reaction with aldimines whereas other Mannich methods are mainly restricted to α‐angelica lactone or 2( 5H )‐furanone, or require preactivation to the siloxyfurans . However, our process must overcome the potential 1,4‐addition onto the alkynyl ketimines as well as the steric hindrance during the construction of two contiguous tetrasubstituted stereocenters, which remains rare and difficult in modern asymmetric catalysis…”

Section: Figurementioning

confidence: 99%

Direct Catalytic Asymmetric Vinylogous Additions of α,β‐ and β,γ‐Butenolides to Polyfluorinated Alkynyl Ketimines

2018

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We report a Zn‐ProPhenol catalyzed asymmetric Mannich reaction between butenolides and polyfluorinated alkynyl ketimines to obtain vinylogous products featuring two contiguous tetrasubstituted stereogenic centers. Notably, this is the first successful use of ketimines in the ProPhenol Mannich process, and the reaction offers a new approach for the preparation of pharmaceutically relevant products possessing trifluoromethylated tetrasubstituted alkylamines. The reaction can be performed on large scale with reduced catalyst loading without impacting its efficiency. Moreover, the acetylene moiety can be further elaborated using various methods.

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Zn-ProPhenol Catalyzed Enantio- and Diastereoselective Direct Vinylogous Mannich Reactions between α,β- and β,γ-Butenolides and Aldimines

Cited by 52 publications

References 27 publications

Dinuclear Metal‐ProPhenol Catalysts: Development and Synthetic Applications

Dinuclear Metal‐ProPhenol Catalysts: Development and Synthetic Applications

Zweikernige Metall‐ProPhenol‐Katalysatoren: Entwicklung und Anwendungen in der Synthese

Direct Catalytic Asymmetric Vinylogous Additions of α,β‐ and β,γ‐Butenolides to Polyfluorinated Alkynyl Ketimines

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