1449650-33-2Relevant academic research and scientific papers
Regioselective synthesis of 1- and 4-tetralones from heteroaryl-3-cyclobutanols
Allen, Lewis A. T.,Greenfield, Jake L.,Natho, Philipp,Parsons, Philip J.,Rouse, Annie B.,White, Andrew J. P.,Yang, Zeyu
, (2020)
Herein we describe the first transition-metal-free ring expansion of four-membered rings to 1-tetralones from 3-substituted heteroaromatic compounds, and the first example of an oxetanol ring expansion to an oxa-tetralone. We also experimentally investiga
Regioselective Electrochemical Cyclobutanol Ring Expansion to 1-Tetralones
Petti, Alessia,Natho, Philipp,Lam, Kevin,Parsons, Philip J.
supporting information, p. 854 - 858 (2021/01/12)
A mild electrochemical method for the regioselective preparation of 1-tetralones under environmentally friendly conditions from readily available cyclobutanols was developed. A series of aromatic- and heteroaromatic-fused 1-tetralones was accessed through ring expansion of the functionalized cyclobutanols via electrochemical generation of alkoxy radicals and intramolecular cyclization.
Enantioselective Synthesis of 1- and 4-Hydroxytetrahydrocarbazoles through Asymmetric Transfer Hydrogenation
Dilek, ?mer,Patir, Süleyman,Ertürk, Erkan
, p. 69 - 72 (2019/01/04)
Several 1- and 4-hydroxytetrahydrocarbazoles were prepared in high yields (up to 99%) and excellent enantiomeric excesses (up to >99% ee) from the corresponding 1- and 4-oxotetrahydrocarbazoles through asymmetric transfer hydrogenation by using the commercially available Noyori-Ikariya ruthenium catalyst. The immediate use of the freshly prepared catalyst and the use of a HCO 2 H-DABCO (11:6) mixture as the hydrogen source are crucial for achieving high activity and enantioselectivity. In this way, a tetrahydrocarbazole heterocycle fused to a lactone moiety was synthesized in 45% yield and 97% ee.
A novel necroptosis inhibitor - Necrostatin-21 and its SAR study
Wu, Zhijie,Li, Ying,Cai, Yu,Yuan, Junying,Yuan, Chengye
, p. 4903 - 4906 (2013/09/02)
An initial structure-activity relationship study of the novel necroptosis inhibitor Nec-21 was described. Any changes of the tetracyclic scaffold were detrimental for the activity. Introduction of a substituent to 7 or 8 position (e.g., cyano or methoxy group, respectively), would increase the activity. The 7 and 8-position disubstituted compound 17b was 35-fold as potent as the lead, while EC50 reached 14 nM.
