Company Filing History:
Years Active: 2009
Title: The Innovations of Cheryl Renee Dittrich in Biochemical Engineering
Introduction
Cheryl Renee Dittrich, an accomplished inventor based in Houston, TX, has made significant strides in the field of biochemical engineering. With a focus on producing valuable esters, her groundbreaking work highlights the intersection of genetic manipulation and sustainable production methods.
Latest Patents
Cheryl holds a notable patent titled "Simultaneous anaerobic production of isoamyl acetate and succinic acid." This innovative method employs an in vivo approach to produce esters from acetyl coA. By developing null mutants in specific pathways and overexpressing key enzymes, such as pyruvate carboxylase and alcohol acetyltransferase, she successfully enhances the production levels of isoamyl acetate and succinate. The technique emphasizes maintaining a proper redox balance between NADH and NAD+, which is crucial for optimal production.
Career Highlights
Cheryl is affiliated with William Marsh Rice University, where she has dedicated her career to advancing research in bioprocessing and metabolic engineering. Her contributions have not only led to a better understanding of metabolic pathways but have also paved the way for more efficient and eco-friendly production methods within the industry.
Collaborations
Throughout her career, Cheryl has collaborated with several esteemed colleagues, including Ka-Yiu San and Ailen M Sanchez. These partnerships illustrate the collaborative spirit in the research community, driving innovation and enabling the exchange of ideas that lead to impactful discoveries.
Conclusion
Cheryl Renee Dittrich's work exemplifies the potential of scientific research to innovate and improve production techniques in biochemical engineering. Her patent and research contributions underscore the importance of metabolic engineering in creating sustainable solutions for industry challenges. As she continues to develop her expertise, the impact of her work is likely to resonate throughout the scientific community and beyond.