Company Filing History:
Years Active: 2024
Title: Innovations of Chao Mu in Enzyme Engineering
Introduction
Chao Mu is a prominent inventor based in Jinan, China. He has made significant contributions to the field of enzyme engineering through his innovative research and development. His work focuses on enhancing the stability and activity of enzymes, which has important implications for various industrial applications.
Latest Patents
Chao Mu holds a patent for "Mutants of D-amino acid transaminase obtained based on supercomputing-assisted technology and application thereof." This patent describes a new mutant of D-amino acid transaminase that has been developed using supercomputing-assisted technology. The mutant exhibits a half-life of over 12 hours at 40° C., a significant improvement compared to the wild-type enzyme, which has a half-life of only 8.8 minutes. Additionally, the half-inactivation temperature of the mutant is 45.3° C., approximately 5.4° C. higher than that of the wild-type enzyme. This enhanced thermal stability and enzymatic activity broaden the potential applications of the mutant in various industries.
Career Highlights
Chao Mu is affiliated with the Shandong Computer Science Center, which is recognized as a national Supercomputer Center in Jinan. His work at this institution allows him to leverage advanced computational resources to drive innovation in enzyme engineering. His research has not only contributed to scientific knowledge but also holds substantial practical value for industrial applications.
Collaborations
Chao Mu collaborates with notable colleagues, including Xin Wang and Ming Yang. Their combined expertise fosters a productive research environment that enhances the development of innovative solutions in the field of computational biology and enzyme engineering.
Conclusion
Chao Mu's contributions to enzyme engineering through his patented innovations demonstrate the potential of supercomputing-assisted technology in advancing scientific research. His work not only enhances the understanding of enzyme stability but also opens new avenues for industrial applications.