Development of a Biocatalytic Process as an Alternative to the (-)-DIP-Cl-Mediated Asymmetric Reduction of a Key Intermediate of Montelukast

Jack Liang; James Lalonde; Birthe Borup

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Development of a Biocatalytic Process as an Alternative to the (-)-DIP-Cl-Mediated Asymmetric Reduction of a Key Intermediate of Montelukast

机译：生物催化过程的发展作为（-）-DIP-Cl介导的孟鲁司特关键中间体的不对称还原的替代方法

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A KetoREDuctase (KRED) engineered via directed evolution technologies catalyzed the asymmetric reduction of (E)-methyl 2-(3-(3-(2-(7-chloroquinolin-2-yl)vinyl)phenyl)-3-oxopropyl)benzate to the corresponding (S)-alcohol, a key intermediate in the synthesis of montelukast sodium (Singulair). Through synergistic efforts in process chemistry, molecular biology, bioinformatics and high throughput screening, a KRED with very high enantioselectivity (>99.9% ee) was developed for an economical and simple process that takes advantage of the physical properties of the substrate and product The evolved KRED is an efficient and robust enzyme for catalyzing the reaction of an essentially water insoluble substrate (c log P ≈ 7) at a 100 g/L loading in the presence of ~70% organic solvents at 45 °C. The biocatalytic process currently runs at >200 kg scale.

机译：通过定向进化技术设计的酮还原酶（KRED）催化2-（3-（3-（3-（2-（7-氯喹啉-2-基）乙烯基）乙烯基）苯基）-3-氧丙基）（E）-甲基的不对称还原合成相应的（S）-醇，它是孟鲁司特钠（Singulair）合成中的关键中间体。通过在过程化学，分子生物学，生物信息学和高通量筛选方面的协同努力，开发了具有非常高对映选择性（> 99.9％ee）的KRED，以经济，简单的方法利用了底物和产品的物理特性。 KRED是一种有效而强大的酶，可在45°C 〜70％有机溶剂存在下以100 g / L的负载量催化基本不溶于水的底物（c log P≈7）的反应。目前，生物催化过程的规模大于200千克。

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《Organic process research & development》 |2010年第1期|共6页
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Jack Liang; James Lalonde; Birthe Borup;
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1. Development of a Biocatalytic Process as an Alternative to the (-)-DIP-Cl-Mediated Asymmetric Reduction of a Key Intermediate of Montelukast [J] . Jack Liang, James Lalonde, Birthe Borup Organic process research & development . 2010,第1期

机译：生物催化过程的发展作为（-）-DIP-Cl介导的孟鲁司特关键中间体的不对称还原的替代方法
2. Ir/SpiroPAP Catalyzed Asymmetric Hydrogenation of a Key Intermediate of Montelukast: Process Development and Potential Impurities Study [J] . Zhu Guo-Liang, Zhang Xiang-Dong, Yang Li-Jun, Organic process research & development . 2016,第1期

机译：Ir / SpiroPAP催化孟鲁司特关键中间体的不对称加氢：工艺开发和潜在杂质研究
3. Development of a substrate-coupled biocatalytic process driven by an NADPH-dependent sorbose reductase from Candida albicans for the asymmetric reduction of ethyl 4-chloro-3-oxobutanoate [J] . Cai Ping, An Mingdong, Xu Lin, Biotechnology Letters . 2012,第12期

机译：由白色念珠菌的NADPH依赖性山梨糖还原酶驱动的底物偶联生物催化工艺的开发，用于不对称还原4-氯-3-氧代丁酸乙酯
4. Highly Stereoselective Biocatalytic Reductions for the Synthesis of Chiral Intermediates(Abstracts) [C] . I. Smonou, D. Kalaitzakis European Symposium on Organic Chemistry . 2007

机译：对手性中间体合成的高度立体化生物催化减少（摘要）
5. Asymmetric Biocatalytic Methods Enabled by Visible Light-Promoted Radical Processes outside and inside Enzyme Active Sites [D] . DeHovitz, Jacob Samuel. 2021

机译：通过可见光促进的酶活性位点外和内部的可见光促进的自由基过程实现的不对称生物催化方法
6. Biocatalytic Asymmetric Michael Additions of Nitromethaneto αβ-Unsaturated Aldehydes via Enzyme-bound IminiumIon Intermediates [O] . Chao Guo, †, Mohammad Saifuddin, -1

机译：硝基甲烷的生物催化不对称迈克尔加成反应通过酶结合的亚胺合成αβ-不饱和醛离子中间体
7. Asymmetric Synthesis of a Key Intermediate for Tofacitinib via a Dynamic Kinetic Resolution-Reductive Amination Protocol [O] . -1

机译：通过动态动力学分辨率 - 还原胺化方案，不对称合成Tofacitinib的关键中间体
8. Advanced Biocatalytic Processing of Heterogeneous Lignocellulosic Feedstocks to a Platform Chemical Intermediate (Lactic acid Ester) [R] . 2004

机译：将非均相木质纤维素原料高级生物催化加工成平台化学中间体（乳酸酯）

Development of a Biocatalytic Process as an Alternative to the (-)-DIP-Cl-Mediated Asymmetric Reduction of a Key Intermediate of Montelukast

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