743438-34-8Relevant articles and documents
NOVEL HEPATITIS C VIRUS INHIBITORS
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Page/Page column 35, (2013/07/05)
The invention provides compounds of formula (I): wherein Rings A and A' are independently 5-membered optionally substituted aromatic heterocycles; Q is C(=O)NR1R1' or formula U is C(R4)2, O, S, S(=O)2, C(R4)2C(R4)2, CH2O, OCH2, CH2S, SCH2, CH2S(=O)2, S(=O)CH2 or C=C(Ru )2; X is CH2, CHR12, CR12R12, O, S, S(=O)2 or NRx; m is 0, 1, 2 or 3; n is 0, 1, 2 or 3; the other variables are as defined in the claims, which are of use in the treatment or prophylaxis of hepatitis C virus infection, and related aspects.
Ruthenium(salen)-catalyzed aerobic oxidative desymmetrizatin of meso-diols and its kinetics
Shimizu, Hideki,Onitsuka, Satoaki,Egami, Hiromichi,Katsuki, Tsutomu
, p. 5396 - 5413 (2007/10/03)
Chiral (nitrosyl)ruthenium(salen) complexes were found to be efficient catalysts for aerobic oxidative desymmetrization of meso-diols under photoirradiation to give optically active tactols. The scope of the applicability of this reaction ranges widely from acyclic diols to mono-cyclic diols, although fine ligand-tuning of the ruthenium(salen) complexes was required to attain high enantioselectivity (up to 93% ee). In particular, the nature of the apical ligand was found to affect not only enantioselectivity but also kinetics of the desymmetrization reaction. Spectroscopic analysis of the oxidation disclosed that irradiation of visible light is indispensable not only for dissociation of the nitrosyl ligand but also for single electron transfer from the alcohol-bound ruthenium ion to dioxygen.
Synthesis of cyclooctenones using intramolecular hydroacylation
Aloise,Layton,Shair
, p. 12610 - 12611 (2007/10/03)
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