Company Filing History:
Years Active: 2015
Title: The Innovative Contributions of William Gregory Cox
Introduction
William Gregory Cox is a notable inventor based in Vancouver, WA (US). He has made significant contributions to the field of molecular biology through his innovative patent. His work focuses on the detection of immobilized nucleic acids, which has important implications for various scientific applications.
Latest Patents
William Gregory Cox holds a patent for the "Detection of immobilized nucleic acid." This invention provides methods for determining the presence of immobilized nucleic acid using unsymmetrical cyanine dyes that are derivatives of thiazole orange. The methods involve immobilizing nucleic acid, whether single or double-stranded DNA, RNA, or a combination thereof, on a solid or semi-solid support. The immobilized nucleic acid is then contacted with an unsymmetrical cyanine dye compound and illuminated with an appropriate wavelength to determine the presence of the nucleic acid. The cyanine dye compounds are typically present in an aqueous staining solution that facilitates the interaction between the dye compound and the immobilized nucleic acid. William Gregory Cox has 1 patent to his name.
Career Highlights
Cox is associated with Life Technologies Corporation, where he applies his expertise in molecular biology and contributes to advancements in the field. His work has been instrumental in developing methods that enhance the detection and analysis of nucleic acids, which are crucial for research and clinical applications.
Collaborations
Throughout his career, William Gregory Cox has collaborated with notable colleagues, including Matthew Paul Beaudet and Stephen T. Yue. These collaborations have fostered a productive environment for innovation and research.
Conclusion
William Gregory Cox's contributions to the field of molecular biology through his patent on the detection of immobilized nucleic acids highlight his innovative spirit and dedication to scientific advancement. His work continues to influence research methodologies and applications in the life sciences.