Company Filing History:
Years Active: 2008
Title: Kirsten Rothmann: Innovator in Biologically Active Molecule Transport
Introduction
Kirsten Rothmann is a notable inventor based in Germany. She has made significant contributions to the field of biotechnology, particularly in the transport of biologically active molecules into cells. Her innovative approaches have the potential to enhance various applications in medical and biological research.
Latest Patents
Kirsten Rothmann holds two notable patents. The first is titled "Circuit Arrangement For Injecting Nucleic Acids And Other Biologically Active Molecules Into The Nucleus Of Higher Eukaryontic Cells Using Electrical Current." This invention relates to a novel circuit arrangement for electrotransfection or electrofusion, enabling the transportation of DNA and other biologically active molecules to the nucleus of higher eukaryotic cells. It operates independently of cell division and reduces cell mortality. The second patent is "Method For Introducing Nucleic Acids And Other Biologically Active Molecules Into The Nucleus Of Higher Eukaryotic Cells Using Electric Current." This method allows for the transport of DNA and other biologically active molecules into the nucleus of higher eukaryotic cells using electrical current, also independent of cell division and with low cell mortality.
Career Highlights
Throughout her career, Kirsten has worked with prominent companies in the biotechnology sector. Notably, she has been associated with Lonza Cologne GmbH and Lonza Cologne AG. Her work in these organizations has contributed to advancements in the field of cell biology and biotechnology.
Collaborations
Kirsten has collaborated with several professionals in her field, including Gregor Siebenkotten and Rainer Christine. These collaborations have fostered innovation and development in her research endeavors.
Conclusion
Kirsten Rothmann is a pioneering inventor whose work in the transport of biologically active molecules has the potential to revolutionize biotechnology. Her patents and career contributions reflect her commitment to advancing scientific knowledge and applications in this vital area.