Location History:
- Redwood City, CA (US) (2015)
- Los Altos, CA (US) (2011 - 2017)
Company Filing History:
Years Active: 2011-2017
Title: Innovator Spotlight: Galit Meshulam-Simon
Introduction
Galit Meshulam-Simon, an accomplished inventor based in Los Altos, California, has made significant contributions to the fields of biotechnology and fermentation. With a keen focus on microbial processes, she holds four patents that showcase her innovative approaches to converting various compounds for industrial applications.
Latest Patents
Galit Meshulam-Simon's latest patents demonstrate her expertise in microbial fermentation and compound production. One of her notable inventions involves pentose fermentation by a recombinant microorganism, which outlines methods and compositions for isomerizing xylose to xylulose, as well as processes for converting xylose into xylitol and xylulose. This patent includes critical elements such as nucleic acid constructs and recombinant fungal host cells. Another significant patent focuses on the production of monoterpenes, particularly tricyclene, through the cultivation of microbial organisms expressing terpene synthases and, optionally, prenyl transferases.
Career Highlights
Galit has had a diverse career, with impactful roles at renowned institutions. She has worked at Codexis, Inc., a company known for its innovations in enzyme technology and synthetic biology. Additionally, she has contributed her skills at Leland Stanford Junior University, furthering her research and development in biotechnology.
Collaborations
Throughout her career, Galit has collaborated with other prominent professionals in her industry. Two of her notable coworkers include Robert G. McDaniel and Oscar Alvizo, with whom she has likely engaged in innovative projects that leverage their combined expertise.
Conclusion
Galit Meshulam-Simon's contributions to innovation in biotechnology reflect her dedication to advancing the field through her patents and collaborative efforts. Her work not only highlights the potential of microbial processes but also sets the stage for future advancements, making her an influential figure in the world of inventions.