Company Filing History:
Years Active: 2001-2003
Title: **Innovations of Inventor Yongquan Xue**
Introduction
Yongquan Xue is a notable inventor based in Saint Paul, MN, who has significantly contributed to the field of metabolic engineering. With a total of two patents to his name, Xue focuses on innovative pathways for synthesizing biopolymers that have important applications in various industries.
Latest Patents
Xue's latest patents reflect his groundbreaking work in metabolic engineering. The first patent pertains to the "Metabolic engineering of polyhydroxyalkanoate monomer synthases," which outlines a novel pathway for the synthesis of polyhydroxyalkanoate. This invention also includes a method for synthesizing recombinant polyhydroxyalkanoate monomer synthases derived from multifunctional fatty acid synthases or polyketide synthases, generating hydroxyacyl acids capable of polymerization.
The second patent focuses on "DNA encoding methymycin and pikromycin." It details a similar innovative pathway for the synthesis of polyhydroxyalkanoates and provides a biosynthetic gene cluster for methymycin and pikromycin, as well as for desosamine. Both patents underline Yongquan Xue's commitment to advancing sustainable biopolymer production.
Career Highlights
Yongquan Xue is affiliated with the University of Minnesota, where he works at the forefront of research in biopolymer synthesis. His contributions not only help advance academic knowledge in the field but also pave the way for practical applications that can benefit various sectors, including biodegradable materials and pharmaceuticals.
Collaborations
Throughout his career, Yongquan Xue has collaborated with esteemed colleagues such as David H. Sherman and Mark D. Williams. These collaborations enhance the innovative potential of Xue's projects, combining expertise from various domains of biochemistry and synthetic biology.
Conclusion
Yongquan Xue stands out as an inventor dedicated to harnessing metabolic engineering for the creation of sustainable solutions. With his innovative patents and collaborative efforts at the University of Minnesota, he continues to influence the landscape of biopolymer research and development, representing the promise of scientific innovation for future applications.