19437-20-8Relevant articles and documents
Asymmetric Transfer Hydrogenation: Dynamic Kinetic Resolution of α-Amino Ketones
Gediya, Shweta K.,Clarkson, Guy J.,Wills, Martin
, p. 11309 - 11330 (2020/10/12)
A series of α-amino ketones were reduced using asymmetric transfer hydrogenation (ATH) through a dynamic kinetic resolution (DKR). The protecting group was matched to the reducing agent, and following optimization, a series of substrates were investigated, giving products in high diastereoselectivity, over 99% ee in several cases and full conversion. The methodology was applied to the enantioselective synthesis of an MDM2-p53 inhibitor precursor.
The preparation and in vitro antiproliferative activity of phthalimide based ketones on MDAMB-231 and SKHep-1 human carcinoma cell lines
Chan, Sau Hing,Lam, Kim Hung,Chui, Chung Hin,Gambari, Roberto,Yuen, Marcus Chun Wah,Wong, Raymond Siu Ming,Cheng, Gregory Yin Ming,Lau, Fung Yi,Au, Yiu Kwok,Cheng, Chor Hing,Lai, Paul Bo Shan,Kan, Chi Wai,Kok, Stanton Hon Lung,Tang, Johnny Cheuk On,Chan, Albert Sun Chi
experimental part, p. 2736 - 2740 (2009/10/09)
The 'one pot' condensation reaction for the synthesis and potent antiproliferative inhibition of α-phthalimide based ketones is reported here. 2-Phthalimide-1-(4-fluoro-phenyl)ethanone (5) showed the best growth inhibition on human MDAMB-231 breast carcin
Characterization of a series of 3-amino-2-phenylpropene derivatives as novel bovine chromaffin vesicular monoamine transporter inhibitors
Perera, Rohan P.,Wimalasena, D. Shyamali,Wimalasena, Kandatege
, p. 2599 - 2605 (2007/10/03)
A series of 3-amino-2-phenylpropene (APP) derivatives have been synthesized and characterized as novel competitive inhibitors, with Ki values in the μM range, for the bovine chromaffin granule membrane monoamine transporter(s) (bVMAT). Although, these inhibitors are structurally similar to the bVMAT substrate tyramine, none of them were measurably transported into the granule. Structure - activity studies have revealed that, while the 3′- or 4′-OH groups on the aromatic ring enhance the inhibition potency, Me or OMe groups in these positions reduce the inhibition potency. Halogen substitution on the 4′-position of the aromatic ring causes gradual increase of the inhibition potency parallel to the electron donor ability of the halogen. Substituents on the NH2 as well as on the 3-position of the alkyl chain reduce the inhibition potency. Comparative structure - activity analyses of APP derivatives with tyramine and the neurotoxin 1-methyl-4-phenylpyridinium suggest that the flexibility of the side chain and the relative orientation of the NH2 group may be critical for the efficient transport of the substrate through the bVMAT. Comparable bVMAT affinities of these inhibitors to that of DA and other pharmacologically active amines suggest that they are suitable for the structure activity and mechanistic studies of monoamine transporters and may also be useful in modeling the mechanism of action of amphetamine-related derivatives.