Company Filing History:
Years Active: 2013-2014
Title: Christopher Hubmeier: Innovator in Plant Genetic Engineering
Introduction
Christopher Hubmeier, an accomplished inventor based in Ballwin, MO, has made significant contributions to the field of plant genetic engineering. With a total of three patents to his name, Hubmeier's innovations play a vital role in enhancing transgene expression in plants, which is crucial for agricultural advancements.
Latest Patents
Hubmeier's latest patents reflect his commitment to improving plant genetics. The first patent is titled "Chimeric regulatory sequences comprising introns for plant gene expression." This invention relates to a method that employs dicot introns or elements thereof to boost transgene expression in plants. It also includes constructs, transgenic plants, and seeds that utilize the polynucleotide for effective transgene expression.
His second patent, "Rice transgenic event 17053 and methods of use thereof," presents innovative solutions involving a transgenic rice event known as 17053. This patent encompasses plants, plant cells, seeds, and commodity products derived from this specific event. Additionally, it provides polynucleotides specific to event 17053 and outlines methods related to the utilization of this patented technology.
Career Highlights
Christopher Hubmeier is currently associated with Monsanto Technology LLC, a company renowned for its pioneering advancements in agricultural biotechnology. His work at the company underscores his dedication to research and innovation in the sector.
Collaborations
Throughout his career, Hubmeier has collaborated with notable colleagues, including Yun-Chia Sophia Chen and Can Duong. These collaborations have enriched his research and contributed to the successful development of his patented inventions.
Conclusion
As an inventor, Christopher Hubmeier has significantly impacted the agricultural biotechnology field through his innovative patents. His work exemplifies the importance of research and collaboration in advancing plant genetic engineering, promising a brighter future for agricultural practices.