Location History:
- Toronto, CA (2017)
- Red Deer, CA (2019 - 2023)
Company Filing History:
Years Active: 2017-2023
Title: Megan McLaughlin: Innovating Protein Sequencing
Introduction
Megan McLaughlin, an accomplished inventor based in Red Deer, Canada, has made significant contributions to the field of protein sequencing. With a total of three patents to her name, her innovative work is at the forefront of biochemistry and molecular biology.
Latest Patents
Megan's latest patent, titled "Protein Sequencing Method and Reagents," outlines a novel methodology and reagents that facilitate the sequencing of polypeptide molecules. This invention details a process in which a polypeptide is affixed to a substrate and subsequently contacted with various probes. Each probe is designed to selectively bind to an N-terminal amino acid or its derivatives. The probes that bind to the polypeptide are identified, allowing for the cleavage of the N-terminal amino acid or its derivative. Furthermore, this patent presents methods for sequencing multiple polypeptide molecules within a sample, highlighting its applicability in diverse research scenarios.
Career Highlights
Megan McLaughlin currently works at the University of Toronto, where she engages in pioneering research that enhances our understanding of protein sequencing. Her dedication to innovation in technology and science is evident in her published patents and ongoing research projects.
Collaborations
Throughout her career, Megan has collaborated with esteemed colleagues such as Andrew Emili and Kyrylo Zagorovsky. These collaborations reflect her commitment to advancing scientific research and strengthening the community of innovators in her field.
Conclusion
Megan McLaughlin's contributions to the realm of protein sequencing exemplify the spirit of innovation that drives scientific progress. Her work not only enriches our understanding of polypeptide molecules but also opens new avenues for research and application in biochemistry. As she continues to explore and expand upon her findings, the impact of her inventions will undoubtedly resonate within the scientific community and beyond.