Norman Davidson is a prominent inventor based in Sierra Madre, California. He has made significant contributions to the field of biochemistry, particularly in the study of potassium channels. With a total of 7 patents to his name, Davidson's work has had a profound impact on drug development and cellular electrophysiology.

Latest Patents

Davidson's latest patents include a method of inhibiting inward rectifier, G-protein activated, mammalian potassium channels and their uses. This invention provides compositions and methods for producing functional mammalian inward rectifier, G-protein activated potassium channels (Kir3.0 channels). The functional channel exhibits unique features, such as conducting inward but not outward potassium current, and is modulated by G-proteins. Another notable patent involves isolated nucleic acid molecules that encode inward rectifier, G-protein activated, mammalian potassium KGA channels. This invention also includes methods for isolating nucleic acid molecules from samples, which can be crucial for further research and applications.

Career Highlights

Davidson is affiliated with the California Institute of Technology, where he has been able to leverage his expertise in biochemistry and molecular biology. His research has contributed to a deeper understanding of potassium channels and their role in cellular processes.

Collaborations

Throughout his career, Davidson has collaborated with notable scientists such as Henry A. Lester and Nathan Dascal. These collaborations have further enriched his research and expanded the impact of his inventions.

Conclusion

Norman Davidson's innovative work in the field of potassium channels has led to significant advancements in biochemistry and drug development. His contributions continue to influence research and applications in cellular electrophysiology.

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