Engineering of Phenylacetaldehyde Reductase for Efficient Substrate Conversion in Concentrated 2-Propanol

Yoshihide Makino; Kousuke Inoue; Tohru Dairi; Nobuya Itoh

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Engineering of Phenylacetaldehyde Reductase for Efficient Substrate Conversion in Concentrated 2-Propanol

机译：苯乙醛还原酶用于浓缩2-丙醇中有效底物转化的工程

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Phenylacetaldehyde reductase (PAR) is suitable for the conversion of various aryl ketones and 2-alkanones to corresponding chiral alcohols. 2-Propanol acts as a substrate solvent and hydrogen donor of coupled cofactor regeneration during the conversion of substrates catalyzed by PAR. To improve the conversion efficiency in high concentrations of substrate and 2-propanol, selection of a PAR mutant library and the subsequent rearrangement of mutations were attempted. With only a single selection round and following the manual combination of advantageous mutations, PAR was successfully adapted for the conversion of high concentrations of substrate with concentrated 2-propanol. This method will be widely applicable for the engineering of enzymes potentially valuable for industry.

机译：苯乙醛还原酶（PAR）适用于将各种芳基酮和2-链烷酮转化为相应的手性醇。 2-丙醇在PAR催化的底物转化过程中充当底物溶剂和偶联辅因子再生的氢供体。为了提高在高浓度的底物和2-丙醇中的转化效率，尝试选择PAR突变体文库和随后的突变重排。仅需一轮选择，并手动组合了有益的突变，PAR就成功地适用于高浓度底物与浓2-丙醇的转化。该方法将广泛应用于可能对工业有价值的酶的工程设计。

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《Applied and Environmental Microbiology》 |2005年第8期|共8页
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Yoshihide Makino; Kousuke Inoue; Tohru Dairi; Nobuya Itoh;
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1. Engineering the phenylacetaldehyde reductase mutant for improved substrate conversion in the presence of concentrated 2-propanol [J] . Makino Y, Dairi T, Itoh N Applied Microbiology and Biotechnology . 2007,第4期

机译：在浓2-丙醇存在下工程化苯乙醛还原酶突变体以提高底物转化率
2. Engineering the phenylacetaldehyde reductase mutant for improved substrate conversion in the presence of concentrated 2-propanol [J] . Yoshihide Makino, Tohru Dairi, Nobuya Itoh Applied Microbiology and Biotechnology . 2007,第4期

机译：在浓2-丙醇存在下工程化苯乙醛还原酶突变体以改善底物转化
3. Engineering substrate specificity of succinic semialdehyde reductase (AKR7A5) for efficient conversion of levulinic acid to 4-hydroxyvaleric acid [J] . Yeon Young Joo, Park Hyung-Yeon, Yoo Young Je Journal of Biotechnology . 2015,第Null期

机译：琥珀酸半醛还原酶（AKR7A5）的工程底物特异性，可将乙酰丙酸有效转化为4-羟基戊酸
4. Concentrated Solar, Dual Axis-Tracking, Multi-junction GaAs Cell Photo-voltaic System Design for Efficient Solar Energy Conversion [C] . Mustafa G. Guvench, Philip W. Swanson, Kevin Michael Wacker American Society for Engineering Education Annual Conference and Exposition . 2015

机译：集中的太阳能，双轴跟踪，多结GaAs细胞光伏系统设计，实现高效的太阳能转换
5. The Making and Breaking of Lipids: The Characterization of the Protein-Protein and Protein-Substrate Interactions and Bioengineering of Type II Fatty Acid Synthases FabA and AcpP and the Structural and Functional Characterization of Iterative Type I Trans-Acting Enoyl-Reductase, LovC Polyketide Synthase. [D] . Nguyen, Chi Hanh Thi. 2014

机译：脂质的产生和断裂：II型脂肪酸合酶FabA和AcpP的蛋白质-蛋白质和蛋白质-底物相互作用的表征和生物工程以及I型迭代反式烯丙基还原酶，LovC聚酮合酶的结构和功能表征。
6. Engineering of Phenylacetaldehyde Reductase for Efficient Substrate Conversion in Concentrated 2-Propanol [O] . Yoshihide Makino, Kousuke Inoue, Tohru Dairi, 2005

机译：苯乙醛还原酶在浓缩2-丙醇中有效转化底物的工程
7. Engineering of Phenylacetaldehyde Reductase for Efficient Substrate Conversion in Concentrated 2-Propanol [O] . Makino, Yoshihide, Inoue, Kousuke, Dairi, Tohru, 2005

机译：苯乙醛还原酶在浓缩2-丙醇中有效转化底物的工程

Engineering of Phenylacetaldehyde Reductase for Efficient Substrate Conversion in Concentrated 2-Propanol

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