Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
Sciences, within the interdisciplinary research team GLIOFORCE – Targeting Cellular Biomechanics to Block Tumour Cell Invasion, a new Life Science Convergence Environment at the University of Oslo
-
departments, including the Department of Medical Neurosciences, Department of Pharmacology, Department of Biochemistry, Department of Human Cell Biology and Genetics, Department of Physiology and
-
for cellular proliferation and the faithful transmission of genetic information to daughter cells. However, replication forks are constantly challenged by a wide range of intrinsic and extrinsic stressors
-
volumes in frozen cell sections, providing unprecedented maps of the distributions of small molecules within the cell. Determining the spatial distribution of small molecules within cells is crucial
-
spatial choice in the aged brain. We will implement novel technologies to visualize the networks and present their characteristics with single cell resolution both ex vivo (iDISCO) and in a behaving animal
-
cells, electrolysers, and batteries are particularly attractive due to their energy efficiency, selectivity and scalability. Various metal ion batteries are currently attracting a lot of research interest
-
pathogen hinges on its highly specialized developmental cycle and its obligate intracellular lifestyle that depends on precise modulation of host cell pathways. A key knowledge gap concerns how Ct protects
-
collectively regulate immune cell infiltration, activation, and therapeutic response. This work addresses a critical knowledge gap in cancer immunobiology and supports the development of more accurate disease
-
aiming to pursue either PhD, MD, or combined MD/PhD programs as their next steps. The successful applicant will have advanced experience in one or more of the following areas: molecular biology, cell
-
problem. This position will be responsible for growing and analyzing the functional behaviors of triple-negative breast cancer cell lines, which are highly invasive and metastatic, using 2D, 3D and organoid