Company Filing History:
Years Active: 2000
Title: John K. Jackson: Pioneer in Genetic Engineering of PHA Polymerases
Introduction
John K. Jackson is an innovative inventor based in Plymouth, MN. He holds one patent that showcases his cutting-edge work in the field of genetic engineering, specifically relating to polyhydroxyalkanoate (PHA) polymers. His contributions significantly advance the understanding and application of modified enzymes for PHA production.
Latest Patents
John K. Jackson's sole patent is titled "Modified Pseudomonas oleovorans phaC1 nucleic acids encoding bispecific." This patent details a genetically engineered Pseudomonas oleovorans phaC1 polyhydroxyalkanoate polymerase that has a tailored substrate specificity. The invention features a 'bispecific' PHA polymerase that efficiently copolymerizes both short-chain length and medium-chain length monomers. Additionally, the patent includes methods for creating this modified polymerase, producing PHA using it, and assessing altered substrate specificity.
Career Highlights
John is associated with the University of Minnesota, where he continues to contribute to advancements in biotechnology and genetic engineering. His research focuses on the innovative applications and potential harnessing of modified enzymes, which can lead to more sustainable biopolymer production.
Collaborations
Throughout his career, John K. Jackson has collaborated with notable researchers, including Friedrich Srienc and David A. Somers. These collaborations enhance the academic and practical implications of his research, paving the way for novel solutions in various applications of bioengineering.
Conclusion
John K. Jackson's work exemplifies the forefront of innovation in biotechnological applications. His patented advancements in PHA polymerases distinctly contribute to the evolving landscape of environmentally friendly materials and sustainable practices in the industry. As the research in this field progresses, Jackson's inventions pave the way for future breakthroughs in polymer science.