Location History:
- Macquarie Act 2615, AU (1999)
- Macquarie Act, AU (2001)
- Weetangera Act 2614, AU (2007)
Company Filing History:
1 out of 2,893 
1 out of 1,332 
1 out of 2,202 
Years Active: 1999-2007
Title: Innovations by Jeffrey Ellis in Plant Disease Resistance
Introduction
Jeffrey Ellis is an accomplished inventor based in Weetangera, ACT, Australia. He has made significant contributions to the field of plant genetics, particularly in identifying disease-resistance genes. With a total of 3 patents to his name, his work has the potential to revolutionize agricultural practices and enhance food security.
Latest Patents
One of his latest patents is titled "Methods of identifying plant disease-resistance genes." This invention outlines a method that includes several steps: providing a plant tissue sample, introducing a candidate plant disease-resistance gene through biolistic transformation, expressing this gene within the plant tissue, and determining if the sample exhibits a disease-resistance response. This method is crucial for identifying plant disease-resistance genes effectively.
Another notable patent is related to the "RPS gene family, primers, probes, and detection methods." This patent discloses substantially pure DNA encoding an Rps2 polypeptide and methods for using this DNA to express the Rps2 polypeptide in plant cells. This innovation aims to provide disease resistance to pathogens in transgenic plants, thereby enhancing agricultural resilience.
Career Highlights
Throughout his career, Jeffrey Ellis has worked with various organizations, including The General Hospital Corporation. His expertise in plant genetics and biotechnology has positioned him as a key figure in the field of agricultural innovation.
Collaborations
Jeffrey has collaborated with notable scientists such as Frederick M Ausubel and Brian J Staskawicz. These collaborations have furthered his research and contributed to advancements in plant disease resistance.
Conclusion
Jeffrey Ellis's work in identifying plant disease-resistance genes and developing innovative methods has made a significant impact on agricultural science. His contributions are vital for improving crop resilience and ensuring food security in the face of plant diseases.