化学
对称化
动力学分辨率
对映体过量
产量(工程)
手性助剂
腈
对映选择合成
组合化学
对映体
亲核细胞
酰化
有机化学
立体化学
分子内力
脂肪酶
烯酮
催化作用
转鼓
手性(物理)
生物催化
作者
Sagar Chandrakant Dalsaniya,Aayushi Ashish Navre,Aishwarya Valliappan,Gurrala Sheelu,Subhash Ghosh,Thenkrishnan Kumaraguru
标识
DOI:10.1021/acs.oprd.6c00055
摘要
A scalable chemo-enzymatic process for Brivaracetam preparation has been developed, featuring lipase-catalyzed desymmetrization of 2-propylpropane-1,3-diol (21) using commercially available lipase from Burkholderia cepacia (BCL). The reaction in DIPE at −20 °C with 20% w/w enzyme loading delivered chiral alcohol 22 in 83% isolated yield and >90% enantiomeric excess (e.e.). This intermediate was efficiently converted to the key chiral building block, (R)-3-n-propyllactone (KSM-I, 1), through a concise three-step sequence involving selective tosylation of the primary hydroxyl group, nucleophilic substitution with NaCN in the presence of catalytic NaI to form nitrile 24, and subsequent intramolecular lactonization under basic conditions. The enzyme demonstrated excellent recyclability, and the chiral lactone’s synthetic utility was validated by enriching the chiral purity of intermediate 27 to >99% e.e via crystallization, resulting in Brivaracetam with 99% chiral purity. This sustainable, cost-efficient route highlights the commercial viability of the enantiomerically enriched intermediate, 1 (90% e.e) for API manufacturing.
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