77171-98-3Relevant articles and documents
Screening of a virtual mirror-image library of natural products
Noguchi, Taro,Oishi, Shinya,Honda, Kaori,Kondoh, Yasumitsu,Saito, Tamio,Ohno, Hiroaki,Osada, Hiroyuki,Fujii, Nobutaka
supporting information, p. 7653 - 7656 (2016/07/06)
We established a facile access to an unexplored mirror-image library of chiral natural product derivatives using d-protein technology. In this process, two chemical syntheses of mirror-image substances including a target protein and hit compound(s) allow the lead discovery from a virtual mirror-image library without the synthesis of numerous mirror-image compounds.
Stability and reactivity of aryloxyl radicals derived from a novel antioxidant BO-653 and related compounds. Effects of substituent and side chain in solution and membranes
Watanabe, Akira,Noguchi, Noriko,Fujisawa, Akio,Kodama, Tatsuhiko,Tamura, Kunio,Cynshi, Osamu,Niki, Etsuo
, p. 5438 - 5442 (2007/10/03)
2,3-Dihydro-5-hydroxy-2,2-dipentyl-4,6-di-tert-butylbenzofuran (BO-653) is a novel antioxidant designed as a drug for inhibition of lipid peroxidation in vivo. To understand the dynamics of action of BO-653 as an antioxidant, the effects of substituents and side chains on the stability and reactivity of the BO-653 derived radical were studied and compared with the aryloxyl radicals derived from related compounds including α-tocopherol. The rate constants for the reactions of the aryloxyl radicals with themselves, lipid, hydroperoxide, and ascorbate were measured with a stopped-flow electron spin resonance (ESR) spectroscope equipped with a rapid mixing device. The ortho substituents exerted profound effects on the rate of bimolecular decay reactions and the reaction with ascorbic acid, while the effects on the reactions with methyl linoleate and tert-butyl hydroperoxide were much less significant. The side chain at the 2-position did not exert any effect in organic solution but the two pentyl side chains, when compared with two methyl side chains, diminished the apparent reactivities in the liposomal membranes.
Electron Transfer Reactions of Halothane-derived Peroxyl Free Radicals, CF3CHClO2.: Measurement of Absolute Rate Constants by Pulse Radiolysis
Moenig, Joerg,Asmus, Klaus-Dieter,Schaeffer, Michel,Slater, Trevor F.,Willson, Robin L.
, p. 1133 - 1138 (2007/10/02)
The halothane-derived peroxyl radical CF3CHClO2. has been generated in aqueous solutions by pulse radiolysis.Absolute rate constants for the reduction of halothane (2-bromo-2-chloro-1,1,1-trifluoroethane) by hydrated electrons, hydrogen atoms, and propan-2-ol free radicals have been determined to be k 1.4E10, 3.8E8, and 7.6E7 l mol-1 s-1, respectively.The predominant product radical CF3CHCl rapidly adds O2, and an estimate of k 1.3E9 l mol-1 s-1, has been obtained for the absolute rate constant of this reaction.The resulting peroxyl radical CF3CHClO2. has been found to react rapidly with a variety of nucleophilic compounds such as 2,2'-azinobis(3-ethylbenzthiazoline-6-sulphonate), the phenothiazines promethazine, chlorpromazine, and metiazinic acid, the vitamins C and E, and propyl gallate.The absolute rate constants for these reactions are found to be generally lower than for corresponding reactions of the carbon tetrachloride-derived radical, CCl3O2..