Location History:
- White Plains, NY (US) (2004)
- San Diego, CA (US) (2004 - 2007)
Company Filing History:
Years Active: 2004-2007
Title: Mary Cismowski: Innovator in Cellular Signal Transduction
Introduction
Mary Cismowski is a prominent inventor based in San Diego, California. She has made significant contributions to the field of cellular signal transduction, holding a total of four patents. Her work focuses on developing innovative assay systems that enhance the understanding of cellular interactions and their implications in pharmacology.
Latest Patents
Cismowski's latest patents include groundbreaking inventions such as "Cell surface proteins and use thereof as indicators of activation of cellular signal transduction pathways." This invention provides a rapid and robust assay system for screening and identifying pharmaceutically effective compounds that interact with cellular proteins. The assay enables the identification of compounds that act as agonists or antagonists to the bioactivity of cellular proteins, facilitating the rapid screening of large numbers of compounds. Another notable patent is related to "AGS proteins and nucleic acid molecules and uses therefor," which discloses a screening assay in yeast for identifying G-protein coupled-receptor independent activators and inhibitors of the pheromone pathway. This invention also includes isolated AGS proteins, nucleic acid molecules, and various therapeutic methods utilizing these compositions.
Career Highlights
Throughout her career, Mary Cismowski has worked with notable companies such as Osi Pharmaceuticals, Inc. and Cadus Technologies, Inc. Her experience in these organizations has allowed her to develop and refine her innovative approaches to cellular signaling and pharmacological research.
Collaborations
Cismowski has collaborated with esteemed colleagues, including Emir Duzic and Kirill Ostanin. These partnerships have contributed to her success in advancing research in the field of cellular signal transduction.
Conclusion
Mary Cismowski is a distinguished inventor whose work has significantly impacted the understanding of cellular signal transduction. Her innovative patents and collaborations highlight her dedication to advancing scientific research and pharmaceutical development.