1208236-34-3Relevant articles and documents
Air- and Light-Stable S-(Difluoromethyl)sulfonium Salts: C-Selective Electrophilic Difluoromethylation of β-Ketoesters and Malonates
Lu, Sheng-Le,Li, Xin,Qin, Wen-Bing,Liu, Jian-Jian,Huang, Yi-Yong,Wong, Henry N. C.,Liu, Guo-Kai
supporting information, p. 6925 - 6929 (2018/10/24)
Air- and light-stable electrophilic difluoromethylating reagents, S-(difluoromethyl)-S-phenyl-S-(2,4,6-trialkoxyphenyl) sulfonium salts were successfully developed, and the introduction of intramolecular hydrogen bonds plays a crucial role for the stabilities and reactivities of these reagents. C-selective difluoromethylation of a broad range of β-ketoesters and malonates proceeded smoothly under mild reaction conditions to give good to excellent yields with excellent C/O regioselectivities.
Substituted aryl malonamates as new serine β-lactamase substrates: Structure-activity studies
Adediran,Cabaret,Lohier,Wakselman,Pratt
experimental part, p. 282 - 291 (2010/04/05)
A series of substituted aryl malonamates have been prepared. These compounds are analogues of aryl phenaceturates where the amido side chain has been replaced by a retro-amide. Like the phenaceturates, these compounds are substrates of typical class A and class C β-lactamases, particularly of the latter, and of soluble DD-peptidases. The effect of substituents α to the ester carbonyl group on turnover by these enzymes is similar to that in the phenaceturates. On the other hand, N-alkylation of the side chain amide of malonamates, but not of phenaceturates, retains the susceptibility of the compounds to hydrolysis by β-lactamases. This reactivity is not enhanced, however, by bridging the amide nitrogen and Cα atoms. A phosphonate analogue of the malonamates was found to be an irreversible inhibitor of the β-lactamases. These results, therefore, provide further evidence for the covalent access of compounds bearing retro-amide side chains to the active sites of β-lactam-recognizing enzymes.
