Company Filing History:
Years Active: 2013-2018
Title: Innovations by Suzanne Walker Kahne: A Pioneer in Glycosyltransferase Research
Introduction
Suzanne Walker Kahne, based in Brookline, MA, is a prominent inventor known for her significant contributions to the field of glycosyltransferase research. With a total of nine patents to her name, she has developed innovative methods and compounds that have implications for antibiotic discovery and synthesis.
Latest Patents
Among her latest patents are groundbreaking inventions that focus on bacterial glycosyltransferases. One such patent is titled "Methods and compounds for identifying glycosyltransferase inhibitors," which provides moenomycin-based probe compounds for screening inhibitors of these crucial enzymes. This invention lays the groundwork for developing new antibiotics that can combat bacterial infections. Another notable patent is on "Chemoenzymatic methods for synthesizing moenomycin analogs." This patent explains methods for creating moenomycin analogs and includes compositions and kits for the synthesis of these compounds, showcasing her role in advancing pharmaceutical applications.
Career Highlights
Kahne's work is primarily affiliated with Harvard College, where she conducts research and drives innovation in her field. Her extensive patent portfolio reflects her dedication to advancing scientific knowledge and practical applications related to glycosyltransferases.
Collaborations
Working alongside esteemed colleagues such as Daniel E Kahne and Hirokazu Tsukamoto, Suzanne Walker Kahne fosters a collaborative environment that enhances the impact and scope of her research. These collaborations are essential in pushing the boundaries of what is possible in biochemical research and patent development.
Conclusion
Suzanne Walker Kahne's innovative contributions in the field of glycosyltransferase research are pivotal in the search for new antibiotics and synthetic methods. Through her extensive patent work and collaborations, she continues to significantly impact the scientific community, paving the way for future advancements in medicine.