Company Filing History:
Years Active: 2001-2007
**Title: Shana O'Kelley: Pioneering Innovations in Electrochemical Sensing**
Introduction
Shana O'Kelley, based in Pasadena, California, is a prominent inventor known for her significant contributions to the field of electrochemical sensing technologies. With a total of four patents to her name, O'Kelley is making strides in advancing biosensing methods that have applications in genetic analysis and disease detection.
Latest Patents
Her most recent innovation, titled "Electrochemical sensor using intercalative, redox-active moieties," describes compositions and methods for the electrochemical detection and localization of genetic point mutations and common DNA lesions. This patent emphasizes the use of oligonucleotide duplexes adsorbed onto electrodes, where an intercalative, redox-active moiety is adhered or crosslinked. By probing these duplexes electrochemically, O'Kelley’s technology can identify interruptions in DNA-mediated electron transfer, which reflect various genetic perturbations such as mutations or protein bindings.
Career Highlights
Shana O'Kelley works at the California Institute of Technology, where her research focuses on developing innovative biosensing technologies. Her inventive approaches have resulted in four groundbreaking patents that significantly enhance the capabilities of current genetic detection methodologies. Her work has garnered attention in both academic and practical applications within the bioscience field.
Collaborations
Throughout her career, O'Kelley has collaborated with esteemed colleagues, including Jacqueline K. Barton and Michael G. Hill, pooling their expertise to push the boundaries of electrochemical sensing. These collaborations highlight the importance of teamwork in innovation, showcasing how shared knowledge can lead to impactful advancements in research.
Conclusion
Shana O'Kelley stands out in the realm of inventors for her influential work in biosensing technologies. Her patents not only demonstrate her commitment to advancing scientific knowledge but also pave the way for future innovations in genetic detection and analysis. As she continues her journey at the California Institute of Technology, her contributions will undoubtedly leave a lasting mark in the field.