82983-20-8Relevant articles and documents
Enantioselective Enzymatic Reduction of Acrylic Acids
An, Chihui,Shaw, Megan H.,Tharp, Annika,Verma, Deeptak,Li, Hongming,Wang, Heather,Wang, Xiao
, p. 8320 - 8325 (2020/11/03)
An ene-reductase (ERED 36) with broad substrate specificity was identified, and optimization studies led to the development of an enzymatic protocol for the reduction of α,β-unsaturated acids under mild, aqueous conditions. The substrate scope includes aromatic- A nd aliphatic-substituted acrylic acids, as well as cyclic α,β-substituted acrylic acids, yielding chiral α-substituted acids with exquisite levels of enantioselectivity (>99% ee).
Pd(II)-catalyzed intramolecular amidoarylation of alkenes with molecular oxygen as sole oxidant
Yip, Kai-Tai,Yang, Dan
, p. 2134 - 2137 (2011/06/19)
Stereoselective palladium-catalyzed synthesis of structurally versatile indoline derivatives, using molecular oxygen as the sole oxidant, is described. New C-N and C-C bonds form across an alkene in an intramolecular manner. The C-N bond-forming step proceeds via a syn-amidopalladation pathway. The moderate kinetic isotope effects (intramolecular KIE = 3.56) suggest that electrophilic aromatic substitution occurs in the arylation step.
New orally active enkephalinase inhibitors: Their synthesis, biological activity, and analgesic properties
Senokuchi, Kazuhiko,Nakai, Hisao,Nagao, Yuuki,Sakai, Yasuhiro,Katsube, Nobuo,Kawamura, Masanori
, p. 441 - 463 (2007/10/03)
A series of (4s)-4-[(2S)-benzyl-3-mercaptopropionylamino]-4-(N- phenylcarbamoyl)-butyric acids has been identified as potent systemically active enkephalinase inhibitors. Structure-activity relationships (SAR) are discussed. Further chemical modification of the inhibitors was carried out in order to identify the inhibitors which are orally active in an animal model. Compounds of particular interest are the prodrug-like analogues, including 5b (ONO-9902). Their analgesic effects after oral administration were evaluated.