Integrated Biocatalysis in Multistep Drug Synthesis without Intermediate Isolation: A de Novo Approach toward a Rosuvastatin Key Building Block

Metzner Richard; Hummel Werner; Wetterich Frank; Koenig Burghard; Groeger Harald

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Integrated Biocatalysis in Multistep Drug Synthesis without Intermediate Isolation: A de Novo Approach toward a Rosuvastatin Key Building Block

机译：在没有中间隔离的情况下，在多步药物合成中进行集成生物催化：瑞舒伐他汀关键构建模块的从头研究方法

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In this contribution, we report the chemoenzymatic preparation of a key building block for the active pharmaceutical ingredient rosuvastatin, one of the "top 5 blockbuster drugs" with a worldwide market value of 6.25 billion USD in 2012, via a seven-step synthesis without isolation of intermediates and with incorporation of two highly efficient biotransformations. This chemoenzymatic process reaches excellent space-time yields by using high substrate concentrations (several hundred grams per liter), emphasizing the potential of biocatalysis for industrial processes related to pharmaceutical drug synthesis and the compatibility of enzyme chemistry with classical organic synthesis.

机译：在这项贡献中，我们报告了化学酶法制备活性药物成分瑞舒伐他汀的关键组成部分，瑞舒伐他汀是2012年全球市场价值62.5亿美元的“前五名重磅炸弹药物”之一，通过七步合成法进行了分离中间体并结合两个高效生物转化。通过使用高浓度的底物（每升几百克），这种化学酶促过程达到了极好的时空产率，强调了生物催化在与药物合成有关的工业过程中的潜力以及酶化学与经典有机合成的兼容性。

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《Organic process research & development 》 |2015年第6期| 共4页
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Metzner Richard; Hummel Werner; Wetterich Frank; Koenig Burghard; Groeger Harald;
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中图分类化学工业 ;
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1. Integrated Biocatalysis in Multistep Drug Synthesis without Intermediate Isolation: A de Novo Approach toward a Rosuvastatin Key Building Block [J] . Metzner Richard, Hummel Werner, Wetterich Frank, Organic process research & development . 2015 ,第6期

机译：在没有中间隔离的情况下，在多步药物合成中进行集成生物催化：瑞舒伐他汀关键构建模块的从头研究方法
2. Selective isolation of N-terminal peptides from proteins and their de novo sequencing by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry without regard to unblocking or blocking of N-terminal amino acids [J] . Yamaguchi M, Nakayama D, Shima K, Rapid Communications in Mass Spectrometry: RCM . 2008 ,第20期

机译：从基质中选择性分离N末端肽并通过基质辅助激光解吸/电离飞行时间质谱从头测序，而无需考虑N末端氨基酸的封闭或封闭
3. TEMPLATE SYNTHESIS OF A TETRAAZA MACROCYCLE WHICH INVOLVES BENZALDEHYDE RATHER THAN FORMALDEHYDE AS A BUILDING BLOCK ISOLATION AND STRUCTURE DETERMINATION OF THE OPEN-CHAIN SCHIFF BASE INTERMEDIATE COMPLEX [J] . Fabbrizzi L., Lanfredi AMM., Vassalli O., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 1996 ,第6期

机译：模板甲醛合成中甲醛与甲醛相比参与的四氮唑大分子的合成
4. Proline:a key building block in "de novo" designed peptide molecules [C] . Ernest Giralt, Miriam Royo, Marcelo Kogan, the International Peptide Symposium . 2001

机译：脯氨酸：“de novo”设计的肽分子中的一个关键构建块
5. Oxabicyclic Building Blocks as Key Intermediates in the Synthesis of Natural Products [D] . Oblak, E. Zachary 2011

机译：氧杂双环砌块作为天然产物合成中的关键中间体
6. Synthesis of Michael Adducts as Key Building Blocks for Potential Analgesic Drugs: In vitro in vivo and in silico Explorations [O] . Sajjad Ahmad, Mater H Mahnashi, Bandar A Alyami, 2021

机译：迈克尔加合物的合成作为潜在镇痛药的关键构建块：体外体内和硅勘探
7. Use of Aliphatic and Aromatic Styryl Isoxazoles as Versatile Intermediates for the Synthesis of Peptidomimetics, Drug Molecules and Optically Active Building Blocks for Organic Synthesis [O] . Wells Robert 2011

机译：脂肪族和芳香族苯乙烯基异恶唑类作为多功能中间体的用途，用于合成拟肽，药物分子和有机合成的光学活性结构单元
8. Bio-inspired Composites, a de novo Approach to the Conceptualization, Design and Synthesis of Tough Mesoscale Structures with Simple Building Blocks. [R] . Dimas, L. S. 2013

机译：生物灵感复合材料，是一种具有简单构建模块的坚固中尺度结构的概念化，设计和综合的重新方法。

Integrated Biocatalysis in Multistep Drug Synthesis without Intermediate Isolation: A de Novo Approach toward a Rosuvastatin Key Building Block

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