1100575-44-7Relevant articles and documents
Native Amine-Directed ortho -C-H Halogenation and Acetoxylation /Condensation of Benzylamines
Chand-Thakuri, Pratibha,Alahakoon, Indunil,Liu, Daniel,Kapoor, Mohit,Kennedy, John F.,Jenkins, Kenneth W.,Rabon, Allison M.,Young, Michael C.
, p. 341 - 354 (2021/10/07)
Free or unfunctionalized benzylamines are well known to participate in C-H activation in the presence of palladium salts. Despite the ease with which these complexes can be activated, subsequent functionalization of the dimeric cyclometalates can be chall
Structure-activity relationship study of [1,2,3]thiadiazole necroptosis inhibitors
Teng, Xin,Keys, Heather,Jeevanandam, Arumugasamy,Porco Jr., John A.,Degterev, Alexei,Yuan, Junying,Cuny, Gregory D.
, p. 6836 - 6840 (2008/03/14)
Necroptosis is a regulated caspase-independent cell death mechanism that results in morphological features resembling non-regulated necrosis. This form of cell death can be induced in an array of cell types in apoptotic deficient conditions with death receptor family ligands. A series of [1,2,3]thiadiazole benzylamides was found to be potent necroptosis inhibitors (called necrostatins). A structure-activity relationship study revealed that small cyclic alkyl groups (i.e. cyclopropyl) and 2,6-dihalobenzylamides at the 4- and 5-positions of the [1,2,3]thiadiazole, respectively, were optimal. In addition, when a small alkyl group (i.e. methyl) was present on the benzylic position all the necroptosis inhibitory activity resided with the (S)-enantiomer. Finally, replacement of the [1,2,3]thiadiazole with a variety of thiophene derivatives was tolerated, although some erosion of potency was observed.