Research Progress on the Enhancement of Immobilized Enzyme Catalytic Performance and Its Application in the Synthesis of Vitamin E Succinate
Liang Qu, Qiongya Lu, Liming Zhang, Fanzhuo Kong, Yuyang Zhang, Zhiyuan Lin, Xing Ni, Xue Zhang, Yani Zhao, Bin Zou

TL;DR
This paper explores how to improve enzyme performance for making vitamin E succinate, a stable and widely used vitamin derivative.
Contribution
The study introduces methods to enhance immobilized enzyme catalytic performance for vitamin E succinate synthesis.
Findings
Chemical modification and immobilization improved Candida rugosa lipase properties.
Optimized reaction conditions increased yield and reduced production costs.
The research provides new technical support for enzyme-catalyzed vitamin E succinate synthesis.
Abstract
Vitamin E succinate is a more mature vitamin E derivative, and its chemical stability and many effects have been improved compared with vitamin E, which can not only make up for the shortcomings of vitamin E application but also broaden the application field of vitamin E. At present, in developed countries such as Europe, America, and Japan, vitamin E succinate is widely used in health foods, and due to its good water solubility and stability, the vitamin E added to most nutritional supplements (tablets and hard capsules) is vitamin E succinate. At the same time, vitamin E succinate used in the food and pharmaceutical industries is mainly catalyzed by enzymatic catalysis. In this paper, Candida rugosa lipase (CRL) was studied. Chemical modification and immobilization were used to improve the enzymatic properties of CRL, and immobilized lipase with high stability and high activity was…
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Taxonomy
TopicsEnzyme Catalysis and Immobilization · Microbial Metabolic Engineering and Bioproduction · Electrochemical sensors and biosensors
