Simulation-Based Optimization of Bi-Enzymatic System for the Synthesis of Enantiopure Chiral Compounds

机译：基于模拟基于Bi酶系统的对映对手性化合物的合成优化

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Efficiency of multi-step cascade reactions can be enhanced by optimization of the bio-catalysts stoichiometry. A model was built to predict an optimized total enzyme load and mass ratio between the two enzymes. Here we use the Michaelis-Menten kinetic equation to develop the model. Differential equations involved in the dynamic simulations were solved using an iterative program written in python 3.7. The model gives insights to achieve high conversion efficiency and low enzyme loading. The quality of the product and yield can be enhanced by the optimization of the stoichiometry of the enzymes. The output of the model for the 99.95% conversion was the mass ratio of DhaA31: HheCwt (0.82: 0.18) and total loading of enzyme 2.2 mg.

机译：通过优化生物催化剂化学计量，可以提高多步级联反应的效率。建立模型以预测两种酶之间的优化总酶负荷和质量比。在这里，我们使用Michaelis-Menten动力学方程来开发模型。使用在Python 3.7中写入的迭代程序来解决了动态仿真中涉及的微分方程。该模型能够实现高转化效率和低酶负载的见解。通过优化酶的化学计量的优化，可以提高产物和产量的质量。该模型的输出为99.95％转化率为DHAA31：HHECWT（0.82：0.18）的质量比和酶总载荷2.2毫克。

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《International Computer Conference on Wavelet Active Media Technology and Information Processing》|2019年|1 v.|共4页
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BOGALE TADESS FANTAYE; IJAZ GUL; LIXIA TANG;
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中图分类信息处理（信息加工）;
关键词
Biochemistry; Mathematical model; Kinetic theory; Biological system modeling; Load modeling; Optimization; Loading;

机译：生物化学;数学模型;动力学理论;生物系统建模;载荷建模;优化;装载;

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1. Catalytic Synthesis of Enantiopure Chiral Alcohols via Addition of Grignard Reagents to Carbonyl Compounds [J] . Collados Juan F., Sola Ricard, Harutyunyan Syuzanna R., ACS catalysis . 2016,第3期

机译：格氏试剂与羰基化合物的催化合成对映纯手性醇
2. (R)-(+)-[VCD(-)984]-4-Ethyl-4-methyloctane: A cryptochiral hydrocarbon with a quaternary chiral center. (1) synthesis of the enantiopure compound and unambiguous determination of absolute configuration [J] . Fujita T., Obata K., Kuwahara S., European journal of organic chemistry . 2010,第33期

机译：（R）-（+）-[VCD（-）984] -4-乙基-4-甲基辛烷：具有季手性中心的隐手性烃。（1）对映纯化合物的合成和绝对构型的明确测定
3. Synthesis of Enantiopure Epoxide Compounds Using Dimeric Chiral Salen Catalyst [J] . Geon-Joong Kim, Seong-Jin Kim, Wenji Li, Hwahak konghak . 2005,第6期

机译：二聚手性Salen催化剂合成对映体纯环氧化合物
4. Simulation-Based Optimization of Bi-Enzymatic System for the Synthesis of Enantiopure Chiral Compounds [C] . BOGALE TADESS FANTAYE, IJAZ GUL, LIXIA TANG International Computer Conference on Wavelet Active Media Technology and Information Processing . 2019

机译：基于模拟的双酶体系优化对映纯手性化合物的合成
5. Applications of enantiopure sulfinimine derived chiral amine building blocks for the asymmetric synthesis of tropane alkaloids and cyclic cis-β-amino acid derivatives [D] . Theddu, Naresh 2011

机译：对映体纯的亚氨嘧啶衍生的手性胺结构单元在托烷生物碱和环状顺式-β-氨基酸衍生物的不对称合成中的应用
6. HPLC Separation of Diastereomers: Chiral Molecular Tools Useful for the Preparation of Enantiopure Compounds and Simultaneous Determination of Their Absolute Configurations [O] . Nobuyuki Harada 2016

机译：HPLC分离非对映异构体：手性分子工具可用于制备对映纯化合物并同时测定其绝对构型
7. Catalytic Synthesis of Enantiopure Chiral Alcohols via Addition of Grignard Reagents to Carbonyl Compounds [O] . Juan F. Collados, Ricard Solà, Syuzanna R. Harutyunyan, 2016

机译：通过向羰基化合物加入GRIGNARD试剂来催化合成对闭合手性醇
8. Chiral Amide Directed Assembly of a Diastereo- and Enantiopure Su-pramolecular Host and its Application to Enantioselective Catalysis of Neutral Substrates. [R] . Zhao, C., Sun, Q., Hart-Cooper, W. M., 2013

机译：手性酰胺定向组装的非对映体和对映体纯的su-分子主体及其在中性底物对映选择性催化中的应用。

Simulation-Based Optimization of Bi-Enzymatic System for the Synthesis of Enantiopure Chiral Compounds

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