Company Filing History:
Years Active: 2010-2012
Title: Péter Závodszky: Innovator in Serine Protease Research
Introduction
Péter Závodszky is a notable inventor based in Budapest, Hungary. He has made significant contributions to the field of biochemistry, particularly in the area of serine proteases. With a total of two patents to his name, Závodszky's work has implications for both research and clinical applications.
Latest Patents
Závodszky's latest patents focus on "Folded recombinant catalytic fragments of multidomain serine proteases, preparation and uses thereof." This invention pertains to unglycosylated folded C-terminal fragments of a multidomain serine protease of the complement cascade. These fragments can be obtained through expression in a bacterial host and are capable of binding recognition molecules of the complement cascade, such as C1 or MBL. The invention also encompasses methods and bacterial expression vectors for preparing these fragments. Additionally, it outlines the uses of these fragments for raising antibodies, screening substrates or inhibitors of serine proteases, and their applications in research and treatment of complement-related disorders. Furthermore, the invention includes assay methods for assessing MASP-1 and MASP-2 levels in biological samples, providing valuable research tools, assays, and diagnostic kits for complement research.
Career Highlights
Závodszky is currently associated with Targetex Kft., where he continues to advance his research in the field of serine proteases. His work has garnered attention for its innovative approach to understanding and manipulating the complement cascade.
Collaborations
Some of Závodszky's notable coworkers include Péter Gál and Géza Ambrus-Aikelin. Their collaborative efforts contribute to the ongoing research and development in the field.
Conclusion
Péter Závodszky's contributions to the field of serine proteases highlight his role as an innovator in biochemistry. His patents not only advance scientific understanding but also pave the way for potential therapeutic applications.