Minyan Li scite author profile

Direct C(sp3)–C(sp2) bond-formation under transition-metal-free conditions offers an atom-economical, inexpensive, and environmentally benign alternative to traditional transition metal-catalyzed cross-coupling reactions. A new chemo- and regioselective coupling protocol between 3-aryl-substituted-1,1-diphenyl-2-azaallyl derivatives and vinyl bromides has been developed. This is the first transition-metal-free cross-coupling of azaallyls with vinyl bromide electrophiles and delivers allylic amines in excellent yields (up to 99%). This relatively simple and mild protocol offers a direct and practical strategy for the synthesis of high-value allylic amine building blocks that does not require the use of transition metals, special initiators, or photoredox catalysts. Radical clock experiments, EPR studies and DFT calculations point to an unprecedented substrate-dependent coupling mechanism. Furthermore, an EPR signal was observed when the N-benzyl benzophenone ketimine was subjected to silylamide base, supporting formation of radical species upon deprotonation. The unique mechanisms outlined herein could pave the way for new approaches to transition-metal-free C–C bond formations.

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Transition-Metal-Free Radical C(sp³)–C(sp²) and C(sp³)–C(sp³) Coupling Enabled by 2-Azaallyls as Super-Electron-Donors and Coupling-Partners

Berritt

Matuszewski

et al. 2017

J. Am. Chem. Soc.

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The past decade has witnessed the rapid development of radical generation strategies and their applications in C–C bond-forming reactions. Most of these processes require initiators, transition metal catalysts or organometallic reagents. Herein, we report the discovery of a simple organic system (2-azaallyl anions) that enables radical coupling reactions under transition-metal-free conditions. Deprotonation of N-benzyl ketimines generates semi-stabilized 2-azaallyl anions that behave as “super-electron-donors” (SEDs) and reduce aryl iodides and alkyl halides to aryl and alkyl radicals. The SET process converts the 2-azaallyl anions into persistent 2-azaallyl radicals, which capture the aryl and alkyl radicals to form C–C bonds. The radical coupling of aryl and alkyl radicals with 2-azaallyl radicals makes possible the synthesis of functionalized amine derivatives without the use of exogenous radical initiators or transition metal catalysts. Radical clock studies and 2-azaallyl anion coupling studies provide mechanistic insight for this unique reactivity.

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JAZF1 ameliorates age and diet-associated hepatic steatosis through SREBP-1c -dependent mechanism

et al. 2018

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JAZF zinc finger 1 (JAZF1) is involved in glucose and lipid metabolisms. However, its role in aging- and nutrient-related hepatic steatosis is unclear. In the current study, we demonstrated that JAZF1 expression was markedly down-regulated in obesity-associated mice and nonalcoholic fatty liver disease (NAFLD) patients. During aging, JAZF1 expression was gradually down-regulated in both C57BL/6 J and JAZF1-Tg mice. In JAZF1-Tg mice, body fat content and hepatosteatosis were protected from HFD-induced steatosis, and accompanied by decreased lipogenesis gene expression. The inhibitory effects of hepatic steatosis in JAZF1-Tg mice, however, were disappeared during aging. In hepatocytes, over-expression of JAZF1 attenuated, while knockdown of JAZF1 enhanced the expression of lipogenesis genes. The over-expressing of JAZF1 in hepatocytes displayed the increased adenosine monophosphate-activated protein kinase (AMPK) phosphorylation and decreased sterol regulatory element-binding protein 1c (SREBP-1c) expression. The roles of JAZF1 were partially attenuated by Compound C. Mechanistically, JAZF1 suppressed SREBP-1c expression through the inhibition of transcriptional activity of liver X receptor response elements (LXREs) in the SREBP-1c promoter. Data illustrate that JAZF1 may have a crucial role in the regulation of age and nutrient-associated hepatosteatosis through an AMPK/SREBP-1c-dependent mechanism.

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Cation−π Interactions in the Benzylic Arylation of Toluenes with Bimetallic Catalysts

Sha

Tcyrulnikov

et al. 2018

J. Am. Chem. Soc.

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A method to directly arylate toluene derivatives with aryl bromides to generate diarylmethanes, which are important building blocks in drug discovery, is described. In this method, KN(SiMe) in combination with a (NIXANTPHOS)Pd catalyst accomplished the deprotonative activation of toluene derivatives to permit cross-coupling with aryl bromides. Good to excellent yields are obtained with a range of electron-rich to neutral aryl bromides. Both electron-rich and electron-poor toluene derivatives are well tolerated, and even 2-chlorotoluene performs well, providing a platform for introduction of additional functionalization. This discovery hinges on the use of a main group metal to activate toluene for deprotonation by means of a cation-π interaction, which is secured by a bimetallic K(NIXANTPHOS)Pd assembly. Mechanistic and computational studies support acidification of toluene derivatives by the K-cation- π interaction, which may prove pertinent in the development of other, new reaction systems.

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Minyan Li

Elevated Circulating Levels of Irisin and the Effect of Metformin Treatment in Women With Polycystic Ovary Syndrome

Transition-metal-free chemo- and regioselective vinylation of azaallyls

Transition-Metal-Free Radical C(sp³)–C(sp²) and C(sp³)–C(sp³) Coupling Enabled by 2-Azaallyls as Super-Electron-Donors and Coupling-Partners

JAZF1 ameliorates age and diet-associated hepatic steatosis through SREBP-1c -dependent mechanism

Cation−π Interactions in the Benzylic Arylation of Toluenes with Bimetallic Catalysts

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Minyan Li

Elevated Circulating Levels of Irisin and the Effect of Metformin Treatment in Women With Polycystic Ovary Syndrome

Transition-metal-free chemo- and regioselective vinylation of azaallyls

Transition-Metal-Free Radical C(sp3)–C(sp2) and C(sp3)–C(sp3) Coupling Enabled by 2-Azaallyls as Super-Electron-Donors and Coupling-Partners

JAZF1 ameliorates age and diet-associated hepatic steatosis through SREBP-1c -dependent mechanism

Cation−π Interactions in the Benzylic Arylation of Toluenes with Bimetallic Catalysts

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Product

Resources

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Transition-Metal-Free Radical C(sp³)–C(sp²) and C(sp³)–C(sp³) Coupling Enabled by 2-Azaallyls as Super-Electron-Donors and Coupling-Partners