Company Filing History:
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Years Active: 2007-2013
Title: Alex Cernac: Innovator in Plant Metabolism
Introduction
Alex Cernac is a notable inventor based in East Lansing, MI (US). He has made significant contributions to the field of plant metabolism, particularly in the regulation of sugar and lipid metabolism. With a total of 2 patents, his work has implications for agricultural biotechnology and transgenic plant development.
Latest Patents
Cernac's latest patents include innovations related to Arabidopsis genes encoding proteins involved in sugar and lipid metabolism. His first patent provides isolated nucleic acids and polypeptides associated with lipid and sugar metabolism regulation. This invention focuses on lipid metabolism proteins (LMP) and the nucleic acids that encode them, which are utilized in methods for producing transgenic plants and modulating levels of seed storage compounds, such as lipids, fatty acids, starches, or seed storage proteins.
The second patent addresses lipid metabolism regulators in plants. This invention introduces novel nucleic acid and amino acid sequences associated with the metabolism of seed storage compounds. A key discovery is the identification of nucleic acid sequences that encode the wri1 genetic locus and lipid metabolism regulator (LMR) polynucleotide sequences. This work also emphasizes the importance of seed storage compounds, including lipids, fatty acids, starches, or seed storage proteins.
Career Highlights
Throughout his career, Alex Cernac has worked with prominent organizations, including Michigan State University and BASF Plant Science GmbH. His research has contributed to advancements in plant science and biotechnology, enhancing our understanding of plant metabolism.
Collaborations
Cernac has collaborated with esteemed colleagues such as Christoph Benning and Carl Andre. These partnerships have fostered innovation and have been instrumental in his research endeavors.
Conclusion
Alex Cernac's work in plant metabolism and his innovative patents highlight his significant contributions to agricultural biotechnology. His research continues to influence the development of transgenic plants and the understanding of seed storage compound regulation.