Northwest university (20240318153). Construction Method and Applications of Glycosyltransferase BS-YjiC Mutant simplified abstract

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Construction Method and Applications of Glycosyltransferase BS-YjiC Mutant

Organization Name

Northwest university

Inventor(s)

Weina Li of Xi’an (CN)

Daidi Fan of Xi’an (CN)

Chenhui Zhu of Xi’an (CN)

Construction Method and Applications of Glycosyltransferase BS-YjiC Mutant - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240318153 titled 'Construction Method and Applications of Glycosyltransferase BS-YjiC Mutant

Simplified Explanation: The patent application relates to a glycosyltransferase bs-yjic mutant obtained through site-directed mutation, which is more effective in catalyzing protopanaxadiol to produce rare ginsenosides F12 and Rh2.

  • The glycosyltransferase bs-yjic mutant is created by mutating specific amino acids in the wild-type glycosyltransferase bs-yjic.
  • The mutant enzyme is better suited for converting protopanaxadiol into rare ginsenosides F12 and Rh2.
  • This innovation enhances the flexibility of the production process for these valuable compounds.

Potential Applications: 1. Pharmaceutical industry for the production of rare ginsenosides. 2. Biotechnology companies for enzyme engineering applications. 3. Research institutions for studying glycosylation processes.

Problems Solved: 1. Enhancing the efficiency of converting protopanaxadiol to rare ginsenosides. 2. Improving the specificity of the glycosyltransferase enzyme. 3. Streamlining the production process of valuable compounds.

Benefits: 1. Increased yield of rare ginsenosides. 2. Enhanced enzymatic activity for specific glycosylation reactions. 3. Simplified and optimized production processes.

Commercial Applications: Optimizing Enzyme Engineering for Rare Ginsenoside Production

Questions about Glycosyltransferase bs-yjic Mutant: 1. How does the glycosyltransferase bs-yjic mutant improve the production of rare ginsenosides? 2. What are the potential implications of this innovation in the pharmaceutical industry?

Frequently Updated Research: Stay updated on the latest advancements in enzyme engineering for glycosylation processes to improve rare ginsenoside production.


Original Abstract Submitted

a glycosyltransferase bs-yjic mutant, a construction method and an application thereof provided, relating to the field of genetic engineering technologies. the glycosyltransferase bs-yjic mutant is obtained by performing site-directed mutation on amino acids at the 125, 178, 313, 125and 178, or 125and 313positions of a wild-type glycosyltransferase bs-yjic with the amino acid sequence as shown in seq id no: 1. compared with the wild-type glycosyltransferase bs-yjic, the glycosyltransferase bs-yjic mutant is more suitable for catalyzing protopanaxadiol (ppd) to generate rare ginsenosides f12 and rh2, which is more conducive to the flexibility of the production process.

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