Company Filing History:
Years Active: 2017
Title: **Innovative Contributions of Thomas Kickenweiz in Biotech**
Introduction
Thomas Kickenweiz is a notable inventor based in Graz, Austria, recognized for his significant contributions to the field of biotechnology. With his inventive mind, he has secured one patent that showcases his expertise and innovation within this rapidly evolving domain.
Latest Patents
His patent, titled **Bidirectional Promoter**, refers to an innovative library of bidirectional expression cassettes or expression vectors. This invention comprises a repertoire of bidirectional promoter sequences, which allows for the operable linking of a promoter sequence to a first gene in one direction and an oppositely oriented second gene in the other direction, distinct from the first gene. Additionally, it covers bidirectional promoter sequences designed for CHO cells. Furthermore, Kickenweiz's invention includes methods for screening or selecting a bidirectional promoter suitable for expressing at least two genes of interest (GOI) in a host cell, along with a kit that supports this methodology.
Career Highlights
Thomas Kickenweiz is associated with the **Technische Universität Graz**, an institution recognized for its commitment to research and innovation. His role there not only focuses on patenting inventions but also contributes to the academic community's advancements in biotechnology.
Collaborations
Kickenweiz collaborates closely with esteemed colleagues such as Thomas Vogl and Lukas Sturmberger. These collaborations enhance the research outcomes and push the boundaries of biotech innovations, leveraging shared knowledge and expertise.
Conclusion
In summary, Thomas Kickenweiz stands out as a forward-thinking inventor whose work in the field of bidirectional promoters paves the way for advancements in gene expression systems. His collaboration with other research professionals further amplifies the impact of his inventions, contributing to the broader landscape of biotechnology. The implications of his innovations may transform methodologies for genetic expression, opening new avenues for research and application in various biotechnological fields.