Sort by
Refine Your Search
-
, which aims to characterize bile duct inflammation in order to identify targetable molecular pathways using a range of multiomic techniques. In-depth characterization of animal models of bile duct
-
contribute to a comprehensive understanding of gene regulation from DNA to proteins. Key scientific questions will include: How do 3D genome organization and enhancer-promoter spatial associations, as revealed
-
activity in the project, namely within the development of novel numerical simulations and their validation for modeling CO2 storage in heterogeneous reservoirs, capturing mixing across spatial scales
-
and enhancer-promoter spatial associations, as revealed by Hi-C, inform transcription start site (TSS) usage? How does alternative promoter selection impact translation efficiency? The PhD is part of
-
approaches that rely on simplified transmission models, FBMC ensures a more efficient, reliable, and grid-aware allocation of electricity flows. By using detailed network modeling, FBMC facilitates a more
-
well as the mantle’s viscous response to the unloading of deglaciated ice. As a result, spatial differences in ice texture can locally enhance or slow down ice flow, leading to some areas with faster than average ice
-
bodies at different temporal and spatial scales using 3D seismic, well data and 2D numerical forward modelling. The research will involve: The use of borehole-calibrated 2D and 3D seismic datasets to map
-
flow of ice from ice divides to the sea, as well as the mantle’s viscous response to the unloading of deglaciated ice. As a result, spatial differences in ice texture can locally enhance or slow down ice