Prof. Dr. Stephanie Gros Department of Clinical Research Profiles & Affiliations OverviewResearch Publications Projects & Collaborations Projects & Collaborations OverviewResearch Publications Projects & Collaborations Profiles & Affiliations Projects & Collaborations 3 foundShow per page10 10 20 50 10007098 - Understanding spontaneous regression in neuroblastoma in early development: immune system influence and therapeutic implications Research Project | 1 Project MembersImported from Grants Tool 4722804 Transmembrane protein-mediated loading of synthetic compartments Research Project | 4 Project MembersThe aim of this interdisciplinary project is to develop next generation functional synthetic compartments whose composition is controlled by special transmembrane proteins that deliver or selectively let molecules pass to the interior, and to test their activity in vitro . By inserting distinct membrane proteins in the synthetic membrane of compartments we plan to deliver proteins to the compartment interior or to allow a specific molecular flow across the membrane. AQP1 and hypoxia: tumor modulation in vitro and in the organotypic neuroblastoma slice culture Research Project | 1 Project MembersNo Description available 1 1 OverviewResearch Publications Projects & Collaborations
Projects & Collaborations 3 foundShow per page10 10 20 50 10007098 - Understanding spontaneous regression in neuroblastoma in early development: immune system influence and therapeutic implications Research Project | 1 Project MembersImported from Grants Tool 4722804 Transmembrane protein-mediated loading of synthetic compartments Research Project | 4 Project MembersThe aim of this interdisciplinary project is to develop next generation functional synthetic compartments whose composition is controlled by special transmembrane proteins that deliver or selectively let molecules pass to the interior, and to test their activity in vitro . By inserting distinct membrane proteins in the synthetic membrane of compartments we plan to deliver proteins to the compartment interior or to allow a specific molecular flow across the membrane. AQP1 and hypoxia: tumor modulation in vitro and in the organotypic neuroblastoma slice culture Research Project | 1 Project MembersNo Description available 1 1
10007098 - Understanding spontaneous regression in neuroblastoma in early development: immune system influence and therapeutic implications Research Project | 1 Project MembersImported from Grants Tool 4722804
Transmembrane protein-mediated loading of synthetic compartments Research Project | 4 Project MembersThe aim of this interdisciplinary project is to develop next generation functional synthetic compartments whose composition is controlled by special transmembrane proteins that deliver or selectively let molecules pass to the interior, and to test their activity in vitro . By inserting distinct membrane proteins in the synthetic membrane of compartments we plan to deliver proteins to the compartment interior or to allow a specific molecular flow across the membrane.
AQP1 and hypoxia: tumor modulation in vitro and in the organotypic neuroblastoma slice culture Research Project | 1 Project MembersNo Description available
