Company Filing History:
1 out of 870 
1 out of 21 Years Active: 2011
Title: Sylvie Roux: Pioneering Innovations in Neuronal Transport
Introduction
Sylvie Roux, an accomplished inventor based in Paris, France, has made significant contributions to the field of neuroscience. With a unique patent focusing on neuronal transport, she combines her expertise in molecular biology with innovative techniques to further our understanding of synaptic organization.
Latest Patents
Roux holds a notable patent titled "In vivo modulation of neuronal transport". This invention involves a hybrid protein (GFP-TTC) that merges the non-toxic proteolytic C fragment of tetanus toxin with green fluorescent protein. Through this innovative hybrid protein, Sylvie Roux has developed a method to analyze the functional synaptic organization of neural networks. When injected intramuscularly, GFP-TTC binds to tetanus neurotoxin receptors and efficiently clusters at the active neuromuscular junction. The membrane traffic at the pre-synaptic level can be influenced by co-injecting neurotrophic factors like BDNF, NT-4, and GDNF, enhancing the study of synaptic functioning and neuronal transport modulation.
Career Highlights
Throughout her career, Sylvie has worked at prestigious institutions such as the Institut Pasteur and the Centre National de La Recherche Scientifique. These experiences have allowed her to engage in cutting-edge research and develop her transformative inventions within the realm of neuroscience.
Collaborations
Roux has collaborated with several talented individuals, including colleagues Philippe Brulet and Cécile Saint Cloment. These partnerships have played a crucial role in advancing her research and the applications of her inventions in the scientific community.
Conclusion
Sylvie Roux stands out as a trailblazer in the field of neuronal transport innovations. Her patented work fosters a deeper understanding of neuronal dynamics and holds the potential for new therapeutic strategies in neurobiology. As a leading inventor, her contributions will undoubtedly have a lasting impact on neuroscience and the future of medical research.