Location History:
- Gainesville, FL (US) (2014)
- Chiang Mai, TH (2019)
Company Filing History:
Years Active: 2014-2019
Title: Innovations of Kaemwich Jantama in Biocatalyst Production
Introduction
Kaemwich Jantama is a notable inventor based in Chiang Mai, Thailand. He has made significant contributions to the field of biocatalysis, particularly in the production of succinic acid and malate. With a total of 2 patents, his work focuses on enhancing the efficiency of biocatalysts derived from renewable biological feedstocks.
Latest Patents
Jantama's latest patents include groundbreaking inventions related to the production of succinic acid. One of his notable inventions is titled "Engineering the pathway for succinate production." This invention involves biocatalysts that efficiently produce succinic acid from carbohydrate feedstocks through genetic manipulation and metabolic evolution. The biocatalysts developed by Jantama achieve high titers and yields in mineral salts media during pH-controlled batch fermentation without the need for exogenous genetic material.
Another significant patent is focused on "Materials and methods for efficient succinate and malate production." This invention describes genetically engineered microorganisms that can produce succinate and malate in mineral salt media without the addition of plasmids or foreign genes. The methods outlined in this patent provide a novel approach to cultivating genetically modified microorganisms for the production of these valuable compounds.
Career Highlights
Kaemwich Jantama is affiliated with the University of Florida Research Foundation, Incorporated. His work has been instrumental in advancing the field of biocatalysis, particularly in the context of sustainable production methods.
Collaborations
Jantama has collaborated with notable colleagues, including Xueli Zhang and Jonathan C Moore. Their combined expertise has contributed to the success of their research endeavors.
Conclusion
Kaemwich Jantama's innovative work in biocatalyst production showcases his commitment to advancing sustainable technologies. His patents reflect a significant step forward in the efficient production of succinic acid and malate, highlighting the potential of genetically engineered microorganisms in industrial applications.