2243-53-0Relevant articles and documents
-
Labib,Cordier
, p. 1051 (1955)
-
-
Morton,Grovenstein
, p. 5437,5439 (1952)
-
sEH Inhibitor or pharmaceutically acceptable composition thereof as well as preparation method and application thereof
-
Paragraph 0125-0126, (2021/09/21)
The invention provides sEH inhibitor or a pharmaceutically acceptable composition and a preparation method and application thereof, and belongs to the technical field of medicines. sEH Inhibitor or a pharmaceutically acceptable composition thereof according to the present invention is provided, and the sEH inhibitor has the structure shown I. sEH Inhibitor provided by the invention can stabilize an endogenous substance epoxy fatty acid with wide physiological activity, has a strong inhibition effect on human recombinant sEH, and can be used for regulating the generation of a plurality of pro-inflammatory cytokines. The invention relieves the stress of endoplasmic reticulum, prevents or reverses the dysfunction of endothelial dysfunction, stabilizes mitochondria function multiple action mechanisms to obviously relieve neuropathic pain, and can effectively avoid adverse reactions related to the target spot. Furthermore, the sEH inhibitor structure provided by the invention does not contain free carboxyl groups, can avoid adverse reactions such as gastrointestinal irritation caused by oral administration, and is small in adverse reaction, high in bioavailability, excellent in analgesic effect and small in administration amount.
Nickel-catalyzed electrocarboxylation of allylic halides with CO2
Wu, La-Xia,Deng, Fang-Jie,Wu, Lin,Wang, Huan,Chen, Tai-Jie,Guan, Ye-Bin,Lu, Jia-Xing
, p. 13137 - 13141 (2021/08/03)
Nickel-catalyzed regioselective electrocarboxylation of allylic halides with CO2at atmospheric pressure has been developed by adjusting reaction parameters, including catalyst, solvent, temperature and additive. β,γ-Unsaturated carboxylic acids were obtained in moderate to good yields and with high chain selectivity. This reaction shows tolerance to functional groups. In addition, cyclic voltammetry was performed to provide the possible mechanism of nickel-catalyzed CO2allylation.