共查询到19条相似文献,搜索用时 78 毫秒
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甘油在微生物代谢合成及生物催化中的应用 总被引:1,自引:0,他引:1
生物柴油是一种可再生能源,因其可替代石油来源的柴油而日益受到重视。随着生物柴油工业的蓬勃发展,其制备过程中的主要副产物甘油出现明显的产能过剩。作为一种廉价的清洁资源,甘油的深度开发和利用既是发展生物柴油工业的关键,也符合绿色化学的发展要求。近年来,甘油不仅作为重要的起始原料用于一些高附加值化学品的制备,而且因其独特的理化性质和易降解、生物相容性好等特性,在生物催化和绿色溶剂领域的应用研究日趋活跃。本文主要综述了甘油在工业微生物发酵、生物合成和绿色溶剂领域的研究进展,并就其应用中存在的一些问题,如甘油原料品质和微生物利用效率等进行分析,同时展望了甘油在生物催化领域的应用前景。 相似文献
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在有机溶剂中酶催化的不对称反应 总被引:1,自引:1,他引:1
酶作为催化剂在有机合成中有着巨大的潜力,这在文献中有很多报道,但酶催化的反应作为经典的有机合成方法还很少,为什么呢?这是因为传统的合成方法以有机溶剂为介质而酶催化的反应以往要在水溶液中进行,另外,水会 相似文献
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生物催化剂已被越来越多地用于高分子学中,产生了许多新的反应、工艺和商业用途.酶和全细胞工艺都引起了众多关注,生物催化剂的立体选择性是它们的主要优势之一,新的或改良的方法层出不穷.生物催化的进程主要集中在几个方面上:聚合反应、聚合物修饰反应、聚合物降解反应以及单体和低聚物的合成.在这篇文章中,我们总结了生物催化在高分子合成中的最新应用. 相似文献
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Felipe L. Oliveira Dr. Stefania P. de Souza Dr. Jonathan Bassut Prof. Heiddy M. Álvarez Prof. Yunier Garcia-Basabe Prof. Rodrigo O. M. Alves de Souza Prof. Pierre M. Esteves Prof. Raoni S. B. Gonçalves 《Chemistry (Weinheim an der Bergstrasse, Germany)》2019,25(69):15863-15870
Sustainability in chemistry heavily relies on heterogeneous catalysis. Enzymes, the main catalyst for biochemical reactions in nature, are an elegant choice to catalyze reactions due to their high activity and selectivity, although they usually suffer from lack of robustness. To overcome this drawback, enzyme-decorated nanoporous heterogeneous catalysts were developed. Three different approaches for Candida antarctica lipase B (CAL-B) immobilization on a covalent organic framework (PPF-2) were employed: physical adsorption on the surface, covalent attachment of the enzyme in functional groups on the surface and covalent attachment into a linker added post-synthesis. The influence of the immobilization strategy on the enzyme uptake, specific activity, thermal stability, and the possibility of its use through multiple cycles was explored. High specific activities were observed for PPF-2-supported CAL-B in the esterification of oleic acid with ethanol, ranging from 58 to 283 U mg−1, which was 2.6 to 12.7 times greater than the observed for the commercial Novozyme 435. 相似文献
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Dr. Patrick Bitterwolf Dr. Ahmed E. Zoheir Julian Hertel Sandra Kröll Dr. Kersten S. Rabe Prof. Christof M. Niemeyer 《Chemistry (Weinheim an der Bergstrasse, Germany)》2022,28(66):e202202157
All-enzyme hydrogel (AEH) particles with a hydrodynamic diameter of up to 120 nm were produced intracellularly with an Escherichia coli-based in vivo system. The inCell-AEH nanoparticles were generated from polycistronic vectors enabling simultaneous expression of two interacting enzymes, the Lactobacillus brevis alcohol dehydrogenase (ADH) and the Bacillus subtilis glucose-1-dehydrogenase (GDH), fused with a SpyCatcher or SpyTag, respectively. Formation of inCell-AEH was analyzed by dynamic light scattering and atomic force microscopy. Using the stereoselective two-step reduction of a prochiral diketone substrate, we show that the inCell-AEH approach can be advantageously used in whole-cell flow biocatalysis, by which flow reactors could be operated for >4 days under constant substrate perfusion. More importantly, the inCell-AEH concept enables the recovery of efficient catalyst materials for stable flow bioreactors in a simple and economical one-step procedure from crude bacterial lysates. We believe that our method will contribute to further optimization of sustainable biocatalytic processes. 相似文献
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Dr. Margit Winkler Dr. Martina Geier Dr. Steven P. Hanlon Prof. Dr. Bernd Nidetzky Prof. Dr. Anton Glieder 《Angewandte Chemie (International ed. in English)》2018,57(41):13406-13423
Human enzymes have been widely studied in various disciplines. The number of reactions taking place in the human body is vast, and so is the number of potential catalysts for synthesis. Herein, we focus on the application of human enzymes that catalyze chemical reactions in course of the metabolism of drugs and xenobiotics. Some of these reactions have been explored on the preparative scale. The major field of application of human enzymes is currently drug development, where they are applied for the synthesis of drug metabolites. 相似文献
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Shuke Wu Radka Snajdrova Jeffrey C. Moore Kai Baldenius Uwe T. Bornscheuer 《Angewandte Chemie (International ed. in English)》2021,60(1):88-119
Biocatalysis has found numerous applications in various fields as an alternative to chemical catalysis. The use of enzymes in organic synthesis, especially to make chiral compounds for pharmaceuticals as well for the flavors and fragrance industry, are the most prominent examples. In addition, biocatalysts are used on a large scale to make specialty and even bulk chemicals. This review intends to give illustrative examples in this field with a special focus on scalable chemical production using enzymes. It also discusses the opportunities and limitations of enzymatic syntheses using distinct examples and provides an outlook on emerging enzyme classes. 相似文献
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离子色谱法测定有机溶剂中痕量阴离子 总被引:8,自引:2,他引:8
采用阴离子交换分离,化学抑制模式,对甲醇、乙腈、异丙醇等有机溶剂中的阴离子进行测定。将有 机溶剂稀释一倍直接进样可以测定Cl-、NO-3、SO2-4,在一定的色谱条件下,3种阴离子都具有很好的线性和 较低的检出限。甲醇中Cl-、NO-3、SO2-43种离子的检出限分别是1.1、3.2和4.9μg/L,乙腈中分别是1.4、 7.1和16.5μg/L,异丙醇中分别是1.2、8.1和25.6μg/L。采用化学抑制模式的离子色谱法是一种检测有机 物中阴离子的高效、准确的方法。 相似文献
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《化学:亚洲杂志》2017,12(2):190-193
Synthetic chemistry remains a time‐ and labor‐intensive process of inherent hazardous nature. Our organic solvent disintegrating tablet (O‐Tab) technology has shown potential to make industrial/synthetic chemistry more efficient. As is the case with pharmaceutical tablets, our reagent‐containing O‐Tabs are mechanically strong, but disintegrate rapidly when in contact with reaction media (organic solvents). For O‐Tabs containing sensitive chemicals, they can be further coated to insulate them from air and moisture. 相似文献
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