Rapid Production of Nitrilase Containing Silica Nanoparticles Offers an Effective and Reusable Biocatalyst for Synthetic Nitrile Hydrolysis

Joshua D. Swartz; Scott A. Miller; David Wright

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Rapid Production of Nitrilase Containing Silica Nanoparticles Offers an Effective and Reusable Biocatalyst for Synthetic Nitrile Hydrolysis

机译：快速生产含硝化酶的二氧化硅纳米颗粒为合成腈水解提供了有效且可重复使用的生物催化剂

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Rapid and efficient immobilization of nitrilase within silica nanoparticles overcomes many hurdles associated with biocatalysis. A water-miscible dendrimer catalyzes the condensation of silicic acid to silica dioxide, entrapping electrostatically bound nitrilase molecules. Michaelis-Menten kinetics shows encapsulated nitrilase functions similarly to free nitrilase in solution. Additionally, HPLC analysis demonstrates that simple benchtop separation and recycling of the biocatalyst over 10 individual reactions are achieved without significant loss of enzyme and/or function. These findings broaden the use of nitrilases in the production of fine chemicals as well as general syntheses by overcoming some of the traditional barriers associated with enzyme reagents and nitrile conversion.

机译：快速有效地将腈水解酶固定在二氧化硅纳米颗粒中，克服了许多与生物催化相关的障碍。与水混溶的树枝状大分子催化硅酸与二氧化硅的缩合，截留静电结合的腈水解酶分子。 Michaelis-Menten动力学显示封装的腈水解酶功能类似于溶液中的游离腈水解酶。此外，HPLC分析表明，在10个单独的反应中，可以实现简单的台式分离和生物催化剂的循环利用，而不会显着降低酶和/或功能。这些发现通过克服与酶试剂和腈转化相关的一些传统障碍，扩大了腈水解酶在精细化学品生产和一般合成中的应用。

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《Organic process research & development 》 |2009年第3期| 共6页
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Joshua D. Swartz; Scott A. Miller; David Wright;
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1. Rapid Production of Nitrilase Containing Silica Nanoparticles Offers an Effective and Reusable Biocatalyst for Synthetic Nitrile Hydrolysis [J] . Joshua D. Swartz, Scott A. Miller, David Wright Organic process research & development . 2009 ,第3期

机译：快速生产含硝化酶的二氧化硅纳米颗粒为合成腈水解提供了有效且可重复使用的生物催化剂
2. Exploring the synthetic applicability of a cyanobacterium nitrilase as catalyst for nitrile hydrolysis [J] . Mukherjee C, Zhu DM, Biehl ER, European journal of organic chemistry . 2006 ,第23期

机译：探索蓝细菌腈水解酶作为腈水解催化剂的合成适用性
3. Enhanced catalytic stability and reusability of nitrilase encapsulated in ethyleneamine-mediated biosilica for regioselective hydrolysis of 1-cyanocycloalkaneacetonitrile [J] . Xu Zhe, Huang Ji-Wei, Xia Chao-Lie, International Journal of Biological Macromolecules: Structure, Function and Interactions . 2019 ,第期

机译：增强乙基胺介导的Biosilica中包封乙基胺介导的Biosilica的催化稳定性和可重用性，用于1-氰基烷基丙二腈的区域选择性水解
4. ON SILICA GELS IMMOBILIZED CELLULASE AS BIOCATALYST FOR HYDROLYSIS OF CARBOXYMETHYL CELLULOSE [C] . Mateja PRIMOZIC, Zoran NOVAK, Maja HABULIN, Italian Conference on Supercritical Fluids and Their Applications . 2004

机译：在硅胶上固定化纤维素酶作为生物催化剂，用于水解羧甲基纤维素
5. The hydrolysis behaviour of magnides, aluminides and sodides and its application to production of nanoparticles. [D] . Wang, Huabin. 2008

机译：丙交酯，铝化物和硫化物的水解行为及其在纳米颗粒生产中的应用。
6. A Human-Relevant 3D In Vitro Platform for an Effective and Rapid Simulation of Workplace Exposure to Nanoparticles: Silica Nanoparticles as Case Study [O] . Luisana Di Cristo, Fabio Boccuni, Sergio Iavicoli, 2020

机译：一种人类相关的3D体外平台用于纳米颗粒的工作场所暴露的有效快速模拟：二氧化硅纳米粒子作为案例研究
7. Erratum to: Enhancing the catalytic potential of nitrilase from Pseudomonas putida for stereoselective nitrile hydrolysis [O] . Anirban Banerjee, Praveen Kaul, U. C. Banerjee 2017

机译：错误：提高普利替玻璃的硝基酶的催化潜力进行立体选择性丁腈水解

Rapid Production of Nitrilase Containing Silica Nanoparticles Offers an Effective and Reusable Biocatalyst for Synthetic Nitrile Hydrolysis

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