Company Filing History:
Years Active: 2001-2003
Title: The Innovations of Diane Ball: A Pioneer in Xylanase Research
Introduction
Diane Ball, a prominent inventor based in Yangebup, Australia, has made significant contributions to the field of biotechnology. With two patents to her name, her work focuses on the development of bacterial proteins that possess xylanase activity, which have important applications in various industrial processes, including the bleaching of wood pulps.
Latest Patents
Diane's latest patent revolves around a specific bacterium and the proteins it produces that exhibit xylanase activity. This invention emphasizes the unique characteristics of xylanases that are free from significant cellulase activity and remain effective at high temperatures and in neutral to alkaline pH conditions. The preferred bacterium, designated B230, was isolated from white-rotted kerri wood in Western Australia and has been deposited in the Australian Government Analytical Laboratories, adhering to the guidelines of the Budapest Treaty. This gram-positive, obligatively aerobic, rod-shaped bacterium with a centrally-located spore displays specific taxonomic characteristics determined by the VITEK method.
Career Highlights
Throughout her career, Diane has worked with notable companies in the biotechnology sector, including Biotech International and Agenix Limited. Her impressive background reflects her dedication to advancing research in enzymatic applications, positioning her as a key player in her field.
Collaborations
Diane Ball has collaborated with talented individuals including Robert William Dunlop and Bin Wang, enhancing her research efforts and contributing to the collective knowledge in the area of biotechnology. These collaborations exemplify her commitment to working with others to drive innovation forward.
Conclusion
Diane Ball’s inventive spirit and her contributions to the development of xylanase proteins mark her as an influential figure in biotechnology. Her patents not only demonstrate her expertise but also represent significant advancements that can have a lasting impact in various industrial applications. Through her work, Diane continues to pave the way for future innovations in the field.