Company Filing History:
Years Active: 2021
Title: The Innovative Contributions of Martin Grininger in Microbiological Production
Introduction
Martin Grininger, based in Frankfurt-am-Main, Germany, is a notable inventor recognized for his contributions to the field of microbiological production. With a single patent to his name, Grininger has made significant strides in the synthesis of short fatty acids, which have extensive applications in biofuels, flavoring compounds, and fine chemicals.
Latest Patents
Grininger's patent, titled "Microbiological production of short fatty acids and uses thereof," focuses on proteins involved in fatty acid synthesis. The invention includes variants of fatty acid synthases (FAS) and outlines their associated polypeptide chains that contain malonyl/palmitoyl transferase domains, acetyl transferase domains, and ketoacyl synthase domains. With specific amino acid substitutions, this innovation aims to enhance the affinities of acyl intermediates, ultimately facilitating the production of various metabolic products, including biofuels and other valuable compounds.
Career Highlights
Martin Grininger is affiliated with the Johann Wolfgang Goethe University Frankfurt, where his research contributes to advancements in microbiological processes and biochemistry. His work not only advances scientific understanding but also paves the way for practical applications in sustainability and industry.
Collaborations
In his endeavors, Grininger collaborates with fellow researchers Jan Gajewski and Eckhard Boles. Their collective expertise enhances the depth and impact of their research, resulting in innovative solutions within the field of microbiology.
Conclusion
Martin Grininger stands out as an inventor making meaningful contributions to science through his patent on the microbiological production of short fatty acids. His work at Johann Wolfgang Goethe University Frankfurt emphasizes the importance of collaboration in advancing scientific knowledge and its applications in real-world scenarios. As he continues his research, Grininger's innovations hold great potential for impacting various industries and addressing challenges in biofuel production and beyond.