1940-19-8Relevant articles and documents
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Karrer,Kehrer
, p. 29,31 (1942)
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A Novel Synthesis of Homologated Allylic Alcohols Using Dimethylsulphonium Methylide
Harnett, J. J.,Alcaraz, L.,Mioskowski, C.,Martel, J. P.,Gall, T. Le,et al.
, p. 2009 - 2012 (1994)
The reaction of excess dimethylsulphonium methylide with various aliphatic and aromatic ketones leads exclusively to homologated allylic alcohols in good yields.
Schlosser,Coffonet
, p. 575 (1972)
Antiandrogenic, maspin induction, and antiprostate cancer activities of tanshinone IIA and its novel derivatives with modification in ring A
Liu, Weiguo,Zhou, Jinming,Geng, Guoyan,Shi, Qingwen,Sauriol, Francoise,Wu, Jian Hui
, p. 971 - 975 (2012)
Expression of metastatic suppressor maspin is lost in advanced prostate cancer. Clinically relevant mutations in androgen receptor (AR) convert antiandrogens into AR agonists, promoting prostate tumor growth. We discovered tanshinone IIA (TS-IIA) is a potent antagonist of mutated ARs and induces maspin expression through AR. TS-IIA suppressed AR expression and induced apoptosis in LNCaP cells. Syntheses of TS-IIA derivatives (1-9) revealed that the 4,4-dimethyl group at ring A is important for TS-IIA's antiandrogenic and maspin induction activities.
Photochemical Organocatalytic Regio- and Enantioselective Conjugate Addition of Allyl Groups to Enals
Berger, Martin,Carboni, Davide,Melchiorre, Paolo
supporting information, p. 26373 - 26377 (2021/11/16)
We report the first catalytic enantioselective conjugate addition of allyl groups to α,β-unsaturated aldehydes. The chemistry exploits the visible-light-excitation of chiral iminium ions to activate allyl silanes towards the formation of allylic radicals, which are then intercepted stereoselectively. The underlying radical mechanism of this process overcomes the poor regio- and chemoselectivity that traditionally affects the conjugate allylation of enals proceeding via polar pathways. We also demonstrate how this organocatalytic strategy could selectively install a valuable prenyl fragment at the β-carbon of enals.
NiH-Catalyzed Proximal-Selective Hydroamination of Unactivated Alkenes
Jeon, Jinwon,Lee, Changseok,Seo, Huiyeong,Hong, Sungwoo
supporting information, p. 20470 - 20480 (2020/11/27)
Reported herein is a modular, NiH-catalyzed system capable of proximal-selective hydroamination of unactivated alkenes with diverse amine sources. The key to the successful implementation of this approach is the promotion of NiH insertion into even highly substituted olefins via coordination of the bidentate directing group to the nickel complex. A wide range of primary and secondary amines can be installed in both internal and terminal unactivated alkenes with excellent regiocontrol under the optimized reaction conditions. This protocol is flexible and general for the preparation of a variety of valuable β- and γ-amino acid building blocks that would otherwise be difficult to synthesize. The utility of this transformation was further demonstrated by the site-selective late-stage modification of complex and medicinally relevant molecules. Combined experimental and computational studies illuminate the detailed reaction mechanism.
Synthesis method of 2-(1-cyclohexenyl) ethylamine
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Paragraph 0041-0043, (2020/11/02)
The invention belongs to the technical field of organic chemistry, and particularly relates to a synthesis method of a compound 2-(1-cyclohexenyl) ethylamine (I). Cyclohexanone (II) and a Grignard reagent are subjected to a Grignard reaction in an organic solvent to be converted into 1-vinyl cyclohexanol (III), the 1-vinyl cyclohexanol (III) and a chlorination reagent are subjected to a chlorination/rearrangement one-pot reaction in an organic solvent in the presence of organic alkali to prepare (2-chloroethylene methylene) cyclohexane (IV), the (2-chloroethylene methylene) cyclohexane (IV) and urotropine are subjected to quaternization in an organic solvent to form N-cyclohexylidene ethyl urotropine hydrochloride (V), and finally, hydrolysis rearrangement is carried out in a solvent in the presence of inorganic mineral acid to obtain the 2-(1-cyclohexenyl) ethylamine (I). The compound (I) has important industrial application value as an intermediate for synthesizing the antitussive drug dextromethorphan hydrobromide. The method has the advantages of cheap and accessible raw materials, mild reaction conditions, high yield and high product purity, is simple to operate, and is convenient for industrial production.