Company Filing History:
2 out of 1,311 
1 out of 78 Years Active: 2011-2016
Title: Yuko Kishimoto: Innovator in Biomaterial Research
Introduction
Yuko Kishimoto is a prominent inventor based in Hyogo, Japan. She has made significant contributions to the field of biomaterials, particularly in the interaction between biomaterials and sugar chains. With a total of 2 patents, her work has the potential to advance research in various applications.
Latest Patents
Kishimoto's latest patents include innovative methods for measuring interactions between biomaterials and sugar chains. One notable invention is a method that allows for real-time and comprehensive measurement of these interactions using minimal amounts of biomaterial without the need for labeling. This method involves bringing a solution containing the biomaterial into contact with a ligand carrier, which includes a support with a metal surface and immobilized ligand conjugates. Each ligand conjugate is designed to bond with a sugar chain through a linker compound containing a sulfur atom.
Another significant patent involves the development of a stable sugar-immobilized metal nanoparticle. This nanoparticle facilitates easy immobilization of sugar chains and provides a low-cost method for measuring sugar-protein interactions without labeling. Kishimoto's work demonstrates the ability to visually confirm sugar-protein interactions through the use of maltose-immobilized gold nanoparticles.
Career Highlights
Throughout her career, Yuko Kishimoto has worked with esteemed organizations such as the Japan Science and Technology Agency and Kagoshima University. Her research has garnered attention for its innovative approaches to biomaterial evaluation and interaction measurement.
Collaborations
Kishimoto has collaborated with notable colleagues, including Yasuo Suda and Tomoaki Nishimura. These partnerships have contributed to her research and the advancement of her inventions.
Conclusion
Yuko Kishimoto's contributions to biomaterial research highlight her innovative spirit and dedication to advancing scientific understanding. Her patents reflect a commitment to developing methods that enhance the study of biomaterial interactions, paving the way for future advancements in the field.