Company Filing History:
Years Active: 1996-2002
Title: Nicole Chaubet: Innovator in Plant Biotechnology
Introduction
Nicole Chaubet is a prominent inventor based in Strasbourg, France. She has made significant contributions to the field of plant biotechnology, particularly in the development of chimeric genes that enhance herbicide tolerance in plants. With a total of 4 patents to her name, her work has had a substantial impact on agricultural practices.
Latest Patents
Nicole's latest patents include innovative solutions for transforming plants. One of her notable inventions is a chimeric gene designed to confer increased tolerance to glyphosate, a widely used herbicide. This gene comprises a promoter region, a transit peptide region, a sequence encoding glyphosate tolerance, and a polyadenylation signal region. The promoter region consists of at least one promoter of a plant histone gene, which enables the expression of the herbicide tolerance protein in areas where glyphosate accumulates. Additionally, she has developed an isolated DNA sequence that serves as a regulatory element in a chimeric gene, facilitating the transformation of plants. This regulatory element includes at least one intron in the noncoding 5' region of a plant histone gene, allowing for the expression of the protein in rapidly growing zones.
Career Highlights
Throughout her career, Nicole has worked with notable companies in the agricultural sector, including Rhone-Poulenc Agrochimie and Aventis Cropscience GmbH. Her expertise in plant biotechnology has positioned her as a leader in her field, contributing to advancements that benefit agricultural productivity and sustainability.
Collaborations
Nicole has collaborated with esteemed colleagues such as Claude Gigot and Georges L. Freyssinet. These partnerships have further enriched her research and development efforts in plant biotechnology.
Conclusion
Nicole Chaubet's innovative work in plant biotechnology, particularly her development of chimeric genes for herbicide tolerance, showcases her significant contributions to the field. Her patents and collaborations reflect her commitment to advancing agricultural science and improving crop resilience.