- Acetylation of (R,S)-propranolol catalyzed by Candida antarctica lipase B: An experimental and computational study
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The chemo- and enantioselectivity of the Candida antarctica lipase B (CalB)-catalyzed acetylation reaction of (R,S)-propranolol using vinyl acetate as acyl donor and toluene as organic solvent was studied. Because of the poor solubility of propranolol in toluene small quantities of methanol were added as cosolvent. The effects of the propranolol/vinyl acetate ratio, the enzyme purification procedure and the methanol concentration on the reaction were investigated. The reactions occurring in the system were quantitatively investigated using 1H and 13C NMR spectroscopy. The major reactions were the hydrolysis and alcoholysis of vinyl acetate, as a consequence of the presence of residual water and methanol in the reaction medium. Furthermore, the NMR analysis confirmed that O-acetyl-propranolol was formed exclusively. The reaction was also found to be enantioselective favoring the faster transformation of the R-propranolol. In addition to the experiments, molecular modeling was used to study the formation of the reactive Michaelis complexes between propranolol and acetylated CalB, using a combined molecular docking and molecular dynamics (MD) procedure. Only for the O-acetylation we found binding modes of the substrate leading to formation of the product, which explains the experimentally observed chemoselectivity of CalB.
- Escorcia, Andres M.,Molina, Daniel,Daza, Martha C.,Doerr, Markus
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- Facile Synthesis of Propranolol and Novel Derivatives
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Propranolol is one of the first medications of the beta-blocker used for antihypertensive drugs. This study reports the facile route for the synthesis of propranolol and its novel derivatives. Herein, propranolol synthesis proceeded from 1-naphthol and isopropylamine under mild and less toxic conditions. Novel propranolol derivatives were designed by reactions of propranolol with benzoyl chloride, pyridinium chlorochromate, and n-butyl bromide through esterification, oxidation reduction, and alkylation, respectively. The isolation and purity of compounds were conducted using column chromatography and thin-layer chromatography. Mass spectrometry and 1H-NMR spectroscopy were applied to identify new compounds structure. Propranolol derivatives from 2-chlorobenzoyl chloride (compound 3), 2-fluorobenzoyl chloride (compound 5), and especially acetic anhydride (compound 6) manifested high yields and significantly increased water solubility. Six semisynthetic propranolol derivatives promise to improve antioxidative and biological activities.
- Bach, Long Giang,Le, Van Thuan,Nguyen, Tan Tai,Nguyen, Thi Anh Nga,Nguyen, Thi Thuong,Nguyen, Trinh Duy,Tran, Nguyen Hai Tai,Tran, Vy Anh,Vo, The Ky,Vo, Thu-Thao Thi
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