Company Filing History:
Years Active: 2024
Title: Innovations in Agricultural Biotechnology: The Work of Qinghua Li
Introduction
Qinghua Li, located in Hangzhou, China, is an innovative inventor in the field of agricultural biotechnology. He holds a significant patent that showcases his commitment to advancing the science of genetically engineered organisms. His work primarily focuses on enhancing the efficiency of agricultural processes through biotechnological methods.
Latest Patents
Qinghua Li is credited with a patent for a "Phosphinothricin dehydrogenase mutant, genetically engineered bacterium and one-pot multi-enzyme synchronous directed evolution method." This patent discloses a mutant phosphinothricin dehydrogenase with specific amino acid modifications, resulting in improved functionality. The inventive process involves the creation of a recombinant bacterium that facilitates the synchronous directed evolution of enzymes, significantly increasing the activity of the recombinant bacteria while offering a simpler, more efficient method for preparing L-PPT with high material conversion rates and selectivity.
Career Highlights
Qinghua Li's career has been marked by his role at Zhejiang University, where he has collaborated with fellow researchers and pushed the boundaries of agricultural biotechnology. His innovative approaches have contributed to enhancing crop protection strategies, which are essential in a world increasingly challenged by food security and agricultural sustainability.
Collaborations
Throughout his career, Qinghua Li has worked alongside notable colleagues such as Yaping Xue and Feng Cheng. Collaborative efforts in research have further enriched the quality and impact of their collective scientific endeavors, leading to advancements in the potential applications of genetically engineered bacteria within agriculture.
Conclusion
The work of Qinghua Li exhibits the profound capabilities of innovative research in biotechnology. His patent on the phosphinothricin dehydrogenase mutant stands as a testament to the potential of genetic engineering in enhancing agricultural productivity. As the agricultural landscape continues to evolve, Li's contributions will undoubtedly play a significant role in shaping the future of sustainable farming practices.