Company Filing History:
6 out of 6,602 
6 out of 16,338 
Years Active: 2005-2008
Title: The Innovative Contributions of Janine L. Weaver
Introduction
Janine L. Weaver, an accomplished inventor based in Bear, Delaware, has made significant contributions to the field of plant disease resistance through her innovative work in nucleic acid molecule inventions. With a total of six patents to her name, Weaver continues to influence agricultural biotechnology and enhance plant health against fungal pathogens.
Latest Patents
Among her latest inventions, Weaver has developed the RHIZOC3 nucleic acid molecules, which target the encoding of defensive polypeptides to bolster a plant's resistance to fungal infections. This patent not only outlines the nucleic acid molecules but also describes methods for their application, including the use of vectors, expression cassettes, viruses, cells, and plants. Another significant patent includes the FUS6 nucleic acid molecules, focusing on enhancing disease resistance in plants. Similar to her previous work, this invention provides a comprehensive approach to utilizing Fus6 defensive polypeptides to combat fungal pathogens, facilitating a healthier agricultural ecosystem.
Career Highlights
Throughout her career, Janine L. Weaver has worked with esteemed companies such as Pioneer Hi-Bred International, Inc. and E.I. du Pont de Nemours and Company. These experiences have allowed her to leverage her expertise in biotechnology and innovation, significantly impacting plant science research and development.
Collaborations
Weaver has collaborated with notable professionals in her field, including Daniel J. Altier and Rafael Herrmann. These partnerships have enriched her research endeavors and contributed to the successful development of her patented inventions.
Conclusion
Janine L. Weaver exemplifies the role of innovation in advancing agricultural practices and plant health. Her contributions, encapsulated in her patents, serve as a testament to her commitment to enhancing disease resistance in plants, ultimately benefiting the agricultural industry and food security. Her work reflects a dedication to research and collaboration that continues to inspire future inventions in the field.