92865-65-1Relevant articles and documents
Chemoenzymatic Route for the Synthesis of (S)-Moprolol, a Potential β-Blocker
Ghosh, Saptarshi,Bhaumik, Jayeeta,Banoth, Linga,Banesh, Sooram,Banerjee, Uttam Chand
, p. 313 - 318 (2016/03/19)
A biocatalytic route for the synthesis of a potential β-blocker, (S)-moprolol is reported here. Enantiopure synthesis of moprolol is mainly dependent on the chiral intermediate, 3-(2-methoxyphenoxy)-propane-1,2-diol. Various commercial lipases were screened for the enantioselective resolution of (RS)-3-(2-methoxyphenoxy)propane-1,2-diol to produce the desired enantiomer. Among them, Aspergillus Niger lipase (ANL) was selected on the basis of both stereo- and regioselectivity. The optimized values of various reaction parameters were determined such as enzyme (15 mg/mL), substrate concentration (10 mM), organic solvent (toluene), reaction temperature (30 °C), and time (18 h).The optimized conditions led to achieving >49% yield with high enantiomeric excess of (S)-3-(2-methoxyphenoxy)propane-1,2-diol. The lipase-mediated catalysis showed regioselective acylation with dual stereoselectivity. Further, the enantiopure intermediate was used for the synthesis of (S)-moprolol, which afforded the desired β-blocker. Chirality 28:313-318, 2016.
Kinetic resolution of acyclic 1,2-diols using a sequential lipase- catalyzed transesterification in organic solvents
Theil,Weidner,Ballschuh,Kunath,Schick
, p. 388 - 393 (2007/10/02)
A method for the kinetic resolution of 3-(aryloxy)-1,2-propanediols rac- 1a-n without additional protection-deprotection steps using a lipase- catalyzed sequential transesterification with lipase amano PS has been developed. In the first step of this one-pot procedure the racemic 1,2-diols are acylated regioselectively at the primary hydroxy group without enantioselection. The subsequent acylation at the secondary hydroxy group of the formed primary monoacetate is responsible for high enantioselection. The enantioselectivity of this transformation depends significantly on the substitution pattern of the aryl ring and the organic solvent used. 3- (Aryloxy)-1,2-propanediols with substituents in the para-position show a much higher enantioselectivity than the corresponding derivatives with ortho- substituents. Among other substrates, the pharmaceuticals Mephenesin, Guaifenesin, and Chlorphenesin have been resolved. The replacement of the aryloxy by an alkyl substituent causes a dramatic decrease of enantioselectivity.