Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Sweden
- Germany
- Netherlands
- Belgium
- Portugal
- Norway
- Finland
- Canada
- Czech
- Switzerland
- Denmark
- Austria
- Spain
- Poland
- Australia
- Hong Kong
- Morocco
- Singapore
- Estonia
- Ireland
- Italy
- Luxembourg
- United Arab Emirates
- India
- Slovakia
- Brazil
- Iceland
- Japan
- Slovenia
- 22 more »
- « less
-
Program
-
Field
-
in vivo genetic mouse models, advanced live and intravital imaging, engineered microchip models, primary cell co-culture systems and novel microscopy and analysis methods. The research will provide
-
in vivo genetic mouse models, advanced live and intravital imaging, engineered microchip models, primary cell co-culture systems and novel microscopy and analysis methods. The research will provide
-
pathology, microbiology, modeling, bioinformatics, biostatistics and biophysics for the quality and health of horticultural species and seed production. As part of the IRHS, the ImHorPhen (Imaging
-
martienne, et son adaptation à la mission ZefERO est à l'étude. La gamme térahertz (1-10 THz) permet d'accroître la bande passante et la résolution spatiale, de réduire l'encombrement des radiomètres, mais de
-
to usher in the era of personalized disease modeling? The Digital Twin Innovation Hub is currently seeking skilled and experienced individuals to fulfill a variety of full-time temporary staff roles
-
located at SciLifeLab in Stockholm. Our research is focused on cell biology, spatial proteiomics and machine learning for bioimage analysis. The aim is to understand how human proteins are distributed in
-
, require manual access, and offer limited spatial and temporal resolution. These methods also lack the sensitivity to detect early changes in global structural behavior. In contrast, wave-based techniques
-
labelling) protein biochemistry (e.g. protein expression, protein purification, gel electrophoresis, chromatography, pull down techniques) protein structure elucidation (Alphafold modelling) (spatial
-
for single-cell and spatial analysis of lipid immunometabolism (Subprojects 1–5); (2) molecular pathways linking lipid metabolism to immune activation and differentiation (Subprojects 6–10); (3) tissue
-
, the temporal and spatial resolutions of these have so far been inadequate to capture climate extremes. PAST overcomes this obstacle, both from the side of proxy reconstructions and of climate modelling