Company Filing History:
Years Active: 1992-2000
Title: The Innovative Contributions of Donald A. Glaser
Introduction
Donald A. Glaser is a distinguished inventor based in Berkeley, California, recognized for his groundbreaking work in genetics. With a total of 2 patents to his name, Glaser has made significant contributions to the field of genetic transformation, developing methods that have potential applications in creating genetically engineered organisms.
Latest Patents
Glaser's latest inventions include two pivotal patents centered around the concept of accelerated particle-mediated transformation. The first patent, titled "Method for Genetic Transformation," details a method and apparatus that introduces foreign genes into organisms. This involves coating carrier particles, which are then physically accelerated into cells, allowing the treated cells to incorporate the foreign gene into their genome. The second patent, "Apparatus for Genetic Transformation," describes a similar process but elaborates on an apparatus that utilizes a shock wave to propel the carrier particles into the cells. Both inventions can be employed to create various genetically engineered organisms, highlighting Glaser's innovative approach to genetic engineering.
Career Highlights
Donald A. Glaser has had an impressive career, significantly impacting the field of biotechnology. He has worked with notable companies such as Agracetus and Powderject Vaccines, Inc., where he applied his expertise in genetics to advance biotechnological applications.
Collaborations
Throughout his career, Glaser has collaborated with esteemed colleagues including Dennis E. McCabe and Brian J. Martinell. These collaborations have not only enriched his research but have also contributed to the collective advancement of genetic transformation techniques.
Conclusion
Donald A. Glaser's innovations in genetic transformation have paved the way for future advancements in biotechnology. His patents reflect a deep understanding of genetic engineering, showcasing his commitment to utilizing science for creating engineered organisms. As a prominent figure in his field, Glaser's contributions will likely influence the future of genetic research and its applications in various industries.