Company Filing History:
1 out of 832,843 Years Active: 2001
Title: **David D. Cass: Innovator in Plant Genetic Transformation**
Introduction
David D. Cass, an esteemed inventor from Edmonton, CA, has made significant contributions to the field of plant genetics through his innovative approach to transforming zygote, egg, or sperm cells. His work focuses on methodologies that enable the production of uniformly transformed plants capable of transmitting foreign genes to their progeny via sexual reproduction.
Latest Patents
David D. Cass holds a patent for his groundbreaking method titled "Transformation of zygote, egg or sperm cells and recovery of transformed plants from isolated embryo sacs." This patent presents a detailed methodology for introducing a foreign gene into zygotes or egg cells within isolated embryo sacs, allowing for the recovery of transformed plants. The method includes transforming sperm cells with a foreign gene, using these transformed cells to fertilize egg cells, and subsequently recovering transgenic plants that are capable of transmitting the introduced gene to future generations.
Career Highlights
Throughout his career, David has demonstrated a strong commitment to advancing agricultural biotechnology. His patent represents years of research and innovation, which has the potential to improve crop resilience and productivity through genetic modifications. His dedication to enhancing plant traits through advanced genetic methods showcases his expertise and forward-thinking approach in the field.
Collaborations
David D. Cass has collaborated with notable colleagues including Locksley Earl McGann and Guichang Zhang. These partnerships have fostered an environment of innovation and support, allowing for the sharing of ideas and expertise that have undoubtedly enriched the research and development of transgenic plants.
Conclusion
In summary, David D. Cass stands out as a pioneering inventor in the realm of plant genetic engineering. His patent on the transformation of zygote, egg, or sperm cells marks a noteworthy advancement in agricultural biotechnology, with implications that could lead to significant benefits in crop production and sustainability. As he continues to work with esteemed colleagues in the field, the impact of his contributions is expected to grow, leading to further innovations in plant genetics.