Organocatalytic Asymmetric Vinylogous Michael Reactions

Yin, Yanli; Jiang, Zhiyong

doi:10.1002/cctc.201700941

Cited by 68 publications

(26 citation statements)

References 97 publications

(52 reference statements)

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“…Compared to the intensive research on enolization of carbonyl compounds, the dienolization of linear α,β‐unsaturated compounds is much less investigated except for some special substrates. [ 6‐11 ] Utilization of these dienolates in organic synthesis would result in synthetically powerful vinylogous reaction. [ 6‐11 ] Generally speaking, the dienolization of linear α,β‐unsaturated ketones, esters, and amides is very challenging in the presence of a common organic base due to the high p K a value of the γ‐protons.…”

Section: Background and Originality Contentmentioning

confidence: 99%

“…[ 6‐11 ] Utilization of these dienolates in organic synthesis would result in synthetically powerful vinylogous reaction. [ 6‐11 ] Generally speaking, the dienolization of linear α,β‐unsaturated ketones, esters, and amides is very challenging in the presence of a common organic base due to the high p K a value of the γ‐protons. Therefore, linear β,γ‐unsaturated compounds are employed in asymmetric catalysis to facilitate the generation of the corresponding dienolates by means of the relatively low p K a value of α‐protons (Scheme 1a).…”

Section: Background and Originality Contentmentioning

confidence: 99%

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Catalytic Asymmetric Mannich‐Type Reaction Enabled by Efficient Dienolization of α,β‐Unsaturated Pyrazoleamides†

et al. 2020

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Asymmetric catalysis | Vinylogous reaction | Pyrazoleamide | Copper catalyst | Dienolization (E)-α,β-Unsaturated pyrazoleamides undergo facile dienolization to furnish copper(I)-(1Z,3Z)-dienolates as the major in the presence of a copper(I)-(R)-DTBM-SEGPHOS catalyst and Et 3 N, which react with aldimines to afford syn-vinylogous products as the major diastereoisomers in high regio-and enantioselectivities. In some cases, the diastereoselectivity is low, possibly due to the low ratio of copper(I)-(1Z,3Z)-dienolates to copper(I)-(1Z,3E)-dienolates. (Z)-Allylcopper(I) species is proposed as effective intermediates, which may form an equilibrium with copper(I)-(1Z,3Z)-dienolates. Interestingly, the present methodology is a nice complement to our previous report, in which (E)-β,γ-unsaturated pyrazoleamides were employed as the prenucleophiles in the copper(I)-catalyzed asymmetric vinylogous Mannich-Type reaction and anti-vinylogous products were obtained. In the previous reaction, copper(I)-(1Z,3E)-dienolates were generated through α-deprotonation, which might form an equilibrium with (E)-allylcopper(I) species. Therefore, it is realized in the presence of a copper(I) catalyst that (E)-α,β-unsaturated pyrazoleamides lead to syn-products and (E)-β,γ-unsaturated pyrazoleamides lead to anti-products. Finally, by use of (E)-β,γ-unsaturated pyrazoleamide, (E)-α,β-unsaturated pyrazoleamide, (R)-DTBM-SEGPHOS, and (S)-DTBM-SEGPHOS, the stereodivergent synthesis of all four stereoisomers is successfully carried out. Then by following a three-step reaction sequence, all four stereoisomers of N-Boc-2-Ph-3-Me-piperidine are synthesized in good yields, which potentially serve as common structure units in pharmaceutically active compounds.

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Section: Background and Originality Contentmentioning

confidence: 99%

Section: Background and Originality Contentmentioning

confidence: 99%

Catalytic Asymmetric Mannich‐Type Reaction Enabled by Efficient Dienolization of α,β‐Unsaturated Pyrazoleamides†

et al. 2020

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“…Over the last few years, research involving catalytic asymmetric direct vinylogous reactions have been growing rapidly A variety of vinylogous pronucleophiles such as butenolides, butyrolactams, coumarins, allyl alkyl/aryl ketones, 5‐alkyl‐4‐nitroisoxazoles, 3‐alkylidene oxindoles, α‐alkyl/arylidene pyrazolinones, 2‐allylazaarenes, β,γ‐unsaturated amides and esters, oxazole‐2‐thiones, N ‐2,2,2‐trifluoroethyl isatin ketimines, enals and enones, nitrones, and α,α‐dicyanoalkenes (Scheme ). have been explored for direct vinylogous Michael reaction.…”

Section: Introductionmentioning

confidence: 99%

The Vinylogous Michael Addition of 3‐Alkylidene‐2‐oxindoles to β,γ‐Unsaturated α‐Keto Esters by Bifunctional Cinchona Alkaloids

et al. 2020

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A highly enantioselective vinylogous Michael addition of 3‐alkylidene‐2‐oxindoles with β,γ‐unsaturated α‐keto esters using a bifunctional tertiary‐amine thiourea catalyst is demontsrated. The challenging Michael reaction with the β,γ‐unsaturated α‐keto esters has been accomplished due to the synchronized H‐bond guided dual activation of vinylogous nucleophile and electrophile by catalyst. The reaction afforded product in high yield while resulting in excellent stereocontrol (> 19:1 E/Z and upto 99 % ee).

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“…One particular class of selective oxidation reactions achieved by a combined use of air as an oxidant and copper as a catalyst is highly desirable due to the natural abundance of air and copper [4][5][6] . Over the past few decades, great progress has been made in this field and many successful Cu-catalyzed aerobic reactions have been developed [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22][23] .Catalytic vinylogous reactions are among the most important reactions in organic synthesis due to their extensive application in the synthesis of complex natural products and bioactive molecules [24][25][26][27] . Despite significant advances in transition metal-catalyzed α-or β-functionalization of α,β-and β,γ-unsaturated compounds [28][29][30][31][32] , the vinylogous version leading to synthetically valuable γ-substituted α,β-unsaturated compounds [33][34][35][36] has been rarely studied.…”

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confidence: 99%

Computational exploration of copper catalyzed vinylogous aerobic oxidation of unsaturated compounds

Wang

Zhou

et al. 2021

Sci Rep

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Selective oxidation is one of the most important and challenging transformations in both academic research and chemical industry. Recently, a highly selective and efficient way to synthesize biologically active γ-hydroxy-α,β-unsaturated molecules from Cu-catalyzed vinylogous aerobic oxidation of α,β- and β,γ-unsaturated compounds has been developed. However, the detailed reaction mechanism remains elusive. Herein, we report a density functional theory study on this Cu-catalyzed vinylogous aerobic oxidation of γ,γ-disubstituted α,β- and β,γ-unsaturated isomers. Our computational study unveils detailed mechanism for each elementary step, i.e. deprotonation, O2 activation, and reduction. Besides, the origin of regioselectivity, divergent reactivities of substrates as well as reducing agents, and the byproduct generation have also been investigated. Notably, the copper catalyst retains the + 2 oxidation state through the whole catalytic cycle and plays essential roles in multiple steps. These findings would provide hints on mechanistic studies and future development of transition metal-catalyzed aerobic oxidation reactions.

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Organocatalytic Asymmetric Vinylogous Michael Reactions

Cited by 68 publications

References 97 publications

Catalytic Asymmetric Mannich‐Type Reaction Enabled by Efficient Dienolization of α,β‐Unsaturated Pyrazoleamides†

Catalytic Asymmetric Mannich‐Type Reaction Enabled by Efficient Dienolization of α,β‐Unsaturated Pyrazoleamides†

The Vinylogous Michael Addition of 3‐Alkylidene‐2‐oxindoles to β,γ‐Unsaturated α‐Keto Esters by Bifunctional Cinchona Alkaloids

Computational exploration of copper catalyzed vinylogous aerobic oxidation of unsaturated compounds

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