Location History:
- York, GB (1999 - 2006)
- Fulford, GB (1999 - 2007)
Company Filing History:
4 out of 1,218 
1 out of 19 Years Active: 1999-2007
Title: Simon McQueen-Mason: Innovator in Plant Expansin Proteins
Introduction
Simon McQueen-Mason is a prominent inventor based in York, GB. He has made significant contributions to the field of plant biology, particularly in the study of expansin proteins. With a total of 5 patents to his name, his work has implications for agricultural practices and plant biotechnology.
Latest Patents
One of his latest patents is titled "Purified plant expansin proteins and DNA encoding same." This invention introduces a new class of proteins known as expansins, which serve as catalysts for the extension of plant cell walls. The invention details the isolation of two proteins from cucumber hypocotyls, referred to as 'cucumber expansin-29' and 'cucumber expansin-30.' Additionally, the patent discusses the sequencing of peptide fragments from the cEx-29 protein and the use of polymerase chain reaction to amplify expansin cDNA. Another significant patent involves the "Modification of plant fibers," which focuses on the isolation and characterization of novel expansin gene sequences from various tree species. This work aims to alter expansin levels in trees, leading to observable changes in plant height and internode length.
Career Highlights
Throughout his career, Simon McQueen-Mason has worked with notable organizations, including the Penn State Research Foundation and Advanced Technologies (Cambridge) Limited. His research has advanced the understanding of plant biology and has potential applications in improving crop yields and plant resilience.
Collaborations
Simon has collaborated with esteemed colleagues such as Daniel J. Cosgrove and Mark J. Guiltinan. These partnerships have enriched his research and contributed to the advancement of knowledge in the field of plant expansins.
Conclusion
Simon McQueen-Mason's innovative work in the field of plant expansin proteins has paved the way for advancements in agricultural biotechnology. His contributions are vital for future research and applications in enhancing plant growth and resilience.