Location History:
- Tucker, GA (US) (2003 - 2007)
- Lilburn, GA (US) (2006 - 2007)
Company Filing History:
Years Active: 2003-2007
Title: Innovations and Contributions of Inventor Rebecca S Arnold
Introduction
Rebecca S Arnold is a prominent inventor based in Tucker, GA (US). She has made significant contributions to the field of biotechnology, particularly in the area of reactive oxygen intermediates and their effects on biological functions. With a total of five patents to her name, Arnold's work has the potential to impact various aspects of cellular biology and medicine.
Latest Patents
Arnold's latest patents include "Mitogenic Oxygenases" and "Dual Oxidases as Mitogenic and Endocrine Regulators." The first patent relates to new genes encoding for the production of novel proteins involved in the generation of reactive oxygen intermediates that affect cell division. This invention also provides vectors containing these genes, cells transfected with these vectors, antibodies raised against these novel proteins, kits for detection, localization, and measurement of these genes and proteins, and methods to determine the activity of drugs that affect the activity of the proteins. The second patent similarly focuses on new genes that produce proteins involved in generating reactive oxygen intermediates and peroxidative reactions, affecting biological functions such as cell division, thyroid hormone biosynthesis, and tissue fibrosis.
Career Highlights
Rebecca S Arnold is affiliated with Emory University, where she conducts her research and development work. Her academic and professional background has equipped her with the expertise necessary to innovate in her field.
Collaborations
Arnold has collaborated with notable colleagues, including J David Lambeth and Kathy Griendling. These partnerships have likely contributed to the advancement of her research and the successful development of her patents.
Conclusion
Rebecca S Arnold's contributions to the field of biotechnology through her innovative patents highlight her role as a leading inventor. Her work continues to pave the way for advancements in understanding cellular processes and developing therapeutic applications.