Company Filing History:
Years Active: 2008
Title: **Ernst Oliw: Innovator in Lipoxygenase Research**
Introduction
Ernst Oliw is a notable inventor based in Danderyd, Sweden, recognized for his significant contributions to the field of microbial proteins and enzymatic research. He holds a patent that highlights his innovative work in lipoxygenase, a crucial enzyme involved in various biological processes.
Latest Patents
Oliw's patent focuses on lipoxygenase, providing essential sequence information about a microbial protein exhibiting lipoxygenase activity. The invention outlines a method for producing this protein using recombinant DNA technology. Specifically, it details the isolation of a gene encoding lipoxygenase, its cloning into a strain, and the subsequent sequencing. Remarkably, the lipoxygenase discovered by Oliw shows less than 25% identity to previously known lipoxygenase sequences, with the closest match being the human 15S lipoxygenase. The research confirms that the recombinant lipoxygenase is glycosylated, enhancing its functional attributes.
Career Highlights
Oliw is currently associated with Novozymes A/S, a company recognized for its pioneering role in bioinnovation and enzyme production. His work at Novozymes has been instrumental in advancing our understanding of lipoxygenases and their applications in various industries, including pharmaceuticals and agriculture.
Collaborations
Throughout his career, Ernst Oliw has collaborated with numerous professionals, including his notable coworkers Soren Christensen and Akiko Sugio. These collaborations have played a vital role in driving forward the research and development of enzymatic activity and its applications.
Conclusion
In summary, Ernst Oliw's contributions to lipoxygenase research and his patent represent a significant advancement in the field of microbial proteins. His work at Novozymes A/S, along with his collaborations, demonstrates the value of teamwork in fostering innovations in biotechnology. As the research progresses, Oliw's findings may pave the way for new applications and enhance our understanding of enzymatic processes in biological systems.