Ring constructions by the use of fluorine substituent as activator and controller

By using the properties of fluorine such as electronic effects and leaving-group ability, two types of ring-forming reactions have been achieved starting from fluoroolefins: (i) fluorinated vinyl ketones with a vinyl and/or an aryl group, which undergo fluorine-directed and/or -activated Nazarov, Friedel-Crafts, and tandem cyclizations in their combination to construct highly functionalized and fused ring systems and (ii) gem-difluoroolefins bearing a nucleophilic center on the carbon δ to the flourines undergo intramolecular substitution for the fluorine via "anti-Baldwin" 5-endo-trig closures leading to ring-fluorinated heterocycles. Throughout these reactions, fluorines function as an activator of the substrates and a controller over the reaction pathways.

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10.24.4 Product Subclass 4: Pyrazino[1,2-a]indoles and Related Benzo-Fused Ring Systems

10.1055/sos-sd-110-02056 ◽

2021 ◽

Author(s):

P. A. Harris

Keyword(s):

Indole Derivatives ◽

Aryl Group ◽

Ring Systems ◽

Keto Ester ◽

Fused Ring

AbstractThe synthesis of pyrazino[1,2-a]indoles and related indolo[1,2-a]quinoxalines and pyrido[2′,1′:3,4]pyrazino[1,2-a]indol-5-ium salts are reviewed in this chapter. The most common routes to pyrazino[1,2-a]indoles involve cyclization of indole derivatives containing a formyl, keto, ester, or nitrile function at the 2-position. Indolo[1,2-a]quinoxalines are most readily accessed via cyclization of 1-(aryl)-1H-indoles, where the aryl group is substituted at the 2-position by either amino, iodo, or nitro functionality.

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Impact of Electronic Effects on the Nucleofugality of Leaving Groups

Synthesis ◽

10.1055/s-0036-1590792 ◽

2017 ◽

Vol 49 (15) ◽

pp. 3422-3432 ◽

Cited By ~ 3

Author(s):

Bernard Denegri ◽

Mirela Matić ◽

Olga Kronja

Keyword(s):

Short Review ◽

Linear Free Energy Relationship ◽

Electronic Effects ◽

Resonance Effects ◽

Linear Free Energy ◽

Leaving Group ◽

Negative Hyperconjugation ◽

Leaving Groups ◽

The Impact ◽

Leaving Group Ability

A short review of the development of nucleofugality and electrofugality scales based on solvolysis rates of benzhydryl derivatives is presented. Accordingly, the rate of the heterolytic step in the SN1 displacement reaction and the leaving group ability (nucleofugality) in a given solvent are related with the special linear free-energy relationship (LFER) equation: log k = s f (N f + E f). The impact of electronic effects in the leaving group (nucleofuge) on the overall SN1 reactivity of the substrate is given. The importance of inductivity, resonance, polarity and field effects in the leaving group moiety in the transition state is analyzed. Also, the effect of the negative hyperconjugation and the influence of other electronic effects in the leaving group on the height of the reaction intrinsic barrier are considered.1 Introduction2 Development of the Nucleofugality Scale3 Inductive and Resonance Effects4 Negative Hyperconjugation5 Intrinsic Barrier6 Conclusions

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Leaving group ability in base-promoted alkene-forming 1,2-eliminations

Journal of the Chemical Society Chemical Communications ◽

10.1039/c39750000940 ◽

1975 ◽

pp. 940 ◽

Cited By ~ 18

Author(s):

Donald R. Marshall ◽

Patsy J. Thomas ◽

Charles J. M. Stirling

Keyword(s):

Leaving Group ◽

Leaving Group Ability

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Leaving Group Ability in Nucleophilic Aromatic Amination by Sodium Hydride–Lithium Iodide Composite

Synthesis ◽

10.1055/s-0039-1690010 ◽

2019 ◽

Vol 52 (03) ◽

pp. 393-398

Author(s):

Jia Hao Pang ◽

Derek Yiren Ong ◽

Kohei Watanabe ◽

Ryo Takita ◽

Shunsuke Chiba

Keyword(s):

Nucleophilic Substitution ◽

Methoxy Group ◽

Sodium Hydride ◽

Lithium Iodide ◽

Substitution Reactions ◽

Computational Approaches ◽

Nucleophilic Substitution Reactions ◽

Leaving Group ◽

Leaving Group Ability

The methoxy group is generally considered as a poor leaving group for nucleophilic substitution reactions. This work verified the superior ability of the methoxy group in nucleophilic amination of arenes mediated by the sodium hydride and lithium iodide through experimental and computational approaches.

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Synthesis of Pyrazolofuropyrazine via One-Pot SNAr Reaction and Intramolecular Direct C–H Arylation

Synthesis ◽

10.1055/s-0036-1591885 ◽

2018 ◽

Vol 50 (07) ◽

pp. 1493-1498 ◽

Cited By ~ 3

Author(s):

Shinichiro Fuse ◽

Hiroyuki Nakamura ◽

Megumi Inaba ◽

Shinichi Sato ◽

Manjusha Joshi

Keyword(s):

Drug Discovery ◽

Rapid Development ◽

Ring System ◽

Biologically Active ◽

Drug Candidate ◽

One Pot ◽

Ring Systems ◽

Drug Candidates ◽

Fused Ring ◽

Snar Reaction

Fused-ring systems containing heterocycles are attractive templates for drug discovery. Biologically active 6-5-5+6 fused-ring systems that possess heterocycles are available, but these require a relatively large number of synthetic steps for preparation. Therefore, pyrazolofuropyrazine was designed as a 6-5-5+6 ring system template that incorporates ready accessibility for drug discovery. Pyrazolofuropyrazines were successfully constructed in only a few steps via one-pot SNAr reaction/intramolecular C–H direct arylation. As a drug candidate, pyrazolofuropyrazine has earned a favorable LogP, although significant biological activity has yet to be established; the ready accessibility of pyrazolofuropyrazine template, however, offers an opportunity for the rapid development of promising new drug candidates.

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