Company Filing History:
Years Active: 2011
Title: Innovations in Rubber Production by Christopher J D Mau
Introduction
Christopher J D Mau is an accomplished inventor based in Pullman, WA (US). He has made significant contributions to the field of rubber production through his innovative work with guayule plants. His research focuses on creating transgenic lines that enhance the production of latex rubber, which has important industrial applications.
Latest Patents
Mau holds a patent for "Guayule plants, products, and derivatives." This patent involves the creation of transgenic guayule lines that express transgenes encoding for prenyltransferase and allylic diphosphate synthase. These advancements are crucial for rubber production as they lead to plants that generate latex rubber with reduced levels of guayulin, a compound known to cause skin irritation in some animals. The manipulation of prenyltransferase production allows for better control over resin production, which has significant industrial implications. Furthermore, this manipulation can produce latex particles of varying sizes, containing rubber of different molecular weights, enhancing industrial production capabilities.
Career Highlights
Mau's career is marked by his dedication to advancing agricultural biotechnology. His work has not only contributed to the field of rubber production but has also opened new avenues for research and development in plant-based materials. His innovative approach has garnered attention within the scientific community and industry alike.
Collaborations
Mau collaborates with Katrina Cornish, a fellow researcher in the field. Their partnership has led to significant advancements in understanding and improving the properties of guayule plants for industrial use.
Conclusion
Christopher J D Mau's contributions to the field of rubber production through his innovative work with guayule plants exemplify the impact of biotechnology on industrial applications. His research continues to pave the way for advancements in sustainable materials.