Cologne, North Rhine-Westphalia, Germany
🔎 Looking for motivated scientists to join our dynamic and high-performing team at Inovarion ! ℹ️ During my Ph.D., I explored membrane dynamics and protein interactions, uncovering new signaling mechanisms. At the Max Planck Institute, I researched Prader-Willi Syndrome and its connection to smell. My background helps me drive innovative solutions that bridge research and commercial needs.
👉 Full P&L and commercial leadership for Inovarion Forschung in Germany. ✅ Sales and Client Relationship in France and Germany ✅ Managed strategic brand projects with external partnerships. ✅ Responsible for IT workflows and managed company website redesign process. ✅ Key brand spokesperson at conferences and for client outreach.
👉 Postdoctoral Researcher in neurosciences 👉 Main project : deciphering the role of Olfaction in Prader-Willi disease, the n°1 genetic disease responsible for children obesity. 🪘Fundraising up to 130,000€. ✅ 3 scientific projects with experimental design, technical performance and data analysis ✅ Development of tools to optimize data analysis (including Python, R, and Fiji macros) ✅ Conferences and data presentation ✅ Students supervision and knowledge transfer 👤 Supervisor : Sophie Steculorum
👉 Advisor assistant on DVAG systems for patrimonial and insurance consulting ✅ CRM for 200+ clients ✅ Specialized in French and English-speaking people in Germany. ✅ Brand graphic design research and creation ℹ️ Expertise : Insurance (health, retirement, civil liability etc.), fiscal optimization and growth of client’s wealth. Trained for communication, corporate image, attracting new customers and customer contact for both new and long-term relationships. 👤Supervisor : Sandrine Chagnoux
👉 Ph.D. Student in cell biology research, biochemistry and membrane dynamics. 👉 Main project : Regulation of proteases by tetraspanins proteins through membrane clustering and endocytosis. 🪘 National grant for Ph.D. 🪘 Ph.D. extension of 6 months thanks to the association Vaincre le Cancer. ✅ Analysis of endocytosis pathways depending on the tetraspanin context. ✅ Evidence of a competition between tetraspanins to link proteases. ✅ Identification of the differential impact of tetraspanins on protease activity through its variable expression, location, endocytic routes as well as its degradation / recycling and half-life. ✅ Characterization and analysis of new antibodies against tetraspanins, and their use to regulate proteases activity. 👤 Supervisor : Eric Rubinstein