Company Filing History:
Years Active: 2018-2019
Title: Innovator Doerte Rother: Pioneering Asymmetric Synthesis
Introduction
Doerte Rother is an accomplished inventor based in Huerth, Germany, with a notable portfolio that includes three patents. His innovative contributions to the field of biochemistry focus on the development of lyases for asymmetric synthesis, showcasing his expertise in enzymatic reactions.
Latest Patents
Rother's recent patents revolve around the creation of a lyase and methods for the synthesis of (S)-phenylacetylcarbinol. The first patent presents a lyase with a modified amino acid sequence, where isoleucine at position 468 in the protein ApPDC-E469G is substituted with a less voluminous amino acid. This modification enhances the potential of the enzyme for specific applications in synthesis.
The second patent delves deeper into the lyase-encoding DNA and its vectors. It highlights a variation where tryptophan at position 543 is also replaced by a more compact amino acid, expanding the versatility and efficiency of the lyase. The invention allows for the production of (S)-phenylacetylcarbinol from benzaldehyde and pyruvate or acetaldehyde, achieving an enantiomeric excess of over 94%.
Career Highlights
Doerte Rother has made significant strides in the scientific community through his work at Forschungszentrum Juelich GmbH. His research is characterized by a commitment to enhancing enzymatic processes, demonstrating a keen understanding of the intricacies involved in biocatalysis and synthetic pathways.
Collaborations
Throughout his career, Rother has collaborated with respected coworkers such as Martina Pohl and Torsten Sehl. Together, they have contributed to advancing the field of asymmetric synthesis, fostering a collaborative environment that encourages innovation and exploration.
Conclusion
Doerte Rother stands out as a leading inventor in the field of biochemistry, with a focus on lyase development for synthetic applications. His patents reflect a deep understanding of enzymatic function and innovation, marking him as a significant figure in the advancement of asymmetric synthesis methods.