Company Filing History:
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1 out of 832,912 Years Active: 2001-2003
Title: June Harland: Innovator in Cell Cycle Regulation
Introduction
June Harland, an inventor based in Glasgow, GB, has made significant contributions to the field of cellular biology through her patented innovations. With a total of two patents, her work focuses on methods for identifying substances that disrupt vital cellular interactions.
Latest Patents
June Harland's latest patents showcase her cutting-edge research methods in identifying cell cycle regulators. These inventions deal with the interaction between herpes simplex virus (HSV) ICP34.5 polypeptide and proliferating cell nuclear antigen (PCNA). The patented methods involve providing the HSV ICP34.5 polypeptide as a first component, the PCNA as a second component, and then testing substances that may interfere with their interaction. The determination of whether a substance disrupts this interaction is crucial for understanding viral mechanisms and developing new therapeutic strategies.
Career Highlights
Throughout her career, June Harland has worked on innovative projects that deepen our understanding of cellular biology. Her collaboration with the University Court of the University of Glasgow has been particularly notable, demonstrating her involvement in academic research that pushes the boundaries of current knowledge in her field.
Collaborations
In her professional journey, June has collaborated with esteemed colleagues such as Susanne Moira Brown and Alasdair R Maclean. These partnerships have facilitated a dynamic exchange of ideas, contributing to the development of her significant patents and advancing the research agenda.
Conclusion
June Harland stands out as an influential inventor within the realm of cell biology, particularly through her innovative methods for identifying cell cycle regulators. Her patents not only reflect her commitment to scientific advancement but also underscore the collaborative efforts that drive innovation within academic and research institutions. As the understanding of cellular mechanisms continues to grow, June Harland's contributions will likely play a vital role in future biomedical research.